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Manual SafeControl-ILCMS
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1. Front panel view of the new SC 4 T2 219 219 9 D D bos D C Q Q EE oe D a C 9 SCM 591813B 10 S CM series Circuit Modem o sarean olo a Ql LO Ee ya SIU Voltage S Output Power a o0 DIO 2 eT tit tere moe 17 OUT OUT OUT OUT ug 1 2 C TEST SH end ce moe a gp B LMS Output 1 Output 2 Power ON o LP C LPU Control unit e sAFEGATE A D r Front panel view of SCM 591813 and LPC version 2 Z Brev FA TPUT E 21 NAN A TEST l m E o EE Prog Ge gt EA L L TPUT TPUT 2 E ll A 49 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE 2004 SAFEGATE International AB Ostersund SWEDEN SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide A
2. Figure 2 SCM rack front to be equipped with desired number of SCM boards 1 8 Not used slots should be covered by blind front panels E E E N E MEN ESTE ici AUX VOIN SLOTI VOQUT SLOT EXT Bus IG eum o g p qwe NGO 2 RS485A RS485A RS485A RS485A RS485A RS485A RS485A RS485A 24VDC FANS 9000 0000 0000 0000 0000 0000 0000 0000 FUSE T1 0A RS485B 232 RS485B 232 RS485B 232 RS485B 232 RS485B 232 RS485B 232 RS485B 232 RS485B 232 E S A y Se L CT CT CT CT CT CT CT CT 8 7 6 5 4 3 2 1 Figure 3 SCM rack rear 2000 2003 SAFEGATE International AB Ostersund SWEDEN 8 20 6 SG591883 3002B SCM Rack User s Guide oooo ooo o o e o ooo o o oo SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide 7 4 Communication transformer For each SCM board a Communication transformer 1s required It adapts the series circuit s 6 6 A system to the transmit and receive circuitry on the SCM board The communication signals will be superimposed on the series circuit curre
3. A 7 2003 SAFEGATE International AB Ostersund SWEDEN 2 7 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance 1 REVISION HISTORY Document created 0 1 030207 Document created AAA SS 2 SCOPE This document contains information on recommended preventive maintenance activities applicable to an ASP System 3 ABBREVIATIONS ASP Airfield Smart Power CU Concentrator Unit SCM Series Circuit Modem SCF Series Circuit Filter LMS Light Monitor and Switch unit SIU Sensor Interface Unit MBD Microwave Barrier Detector SSU System Switch Unit SCI Series Circuit Inductor SFU Signal Filter Unit LPC LMS SIU Programming Control unit 4 REFERENCES For details on ASP System component characteristics and handling refer to ASP System component user guides and or maintenance guides 2003 SAFEGATE International AB stersund SWEDEN 3 7 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance 5 INTRODUCTION Preventive maintenance involves the regular inspection testing and replacement or repair of equipment and operational systems Much as the name implies preventive maintenance often abbreviated PM refers to performing proactive maintenance in order to prevent system problems This 1s contrasted to diagnostic or cor
4. COMMUNICATION TRANSFORMER i es Jo deen eo demo epu CH senn dea dE em cu deb deb deb cen ela b rw aoeeoaaa re TO 24VDC ISOLATION TRANSF RME AJ Jm li FROM CCR I0 SERIES CIRCUIT Figure I Principles for SCM installation on a series circuit Configuration with one circuit depicted O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 5 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide 7 2 Power supply An external power supply unit 24 VDC is used to power the rack The power supply unit must comply with the electrical specifications of the SCM rack As all SCM do not transmit at exactly the same time different phases etc the peak current values are assumed not to coincide as a rule of thumb max RMS value 40 can be used to calculate the necessary peak current from the power supply Safegate can provide suitable power supply for one or more SCM racks Configurations with or without redundancy with or without status signals e g for PLC
5. Extension Cable nof included 1 Non condensing SAFEGATE ASP LMS System Documentation G RO U P Series Circuit Filter 591870 1 User s Guide 9 2 Appendix B 9 2 1 Maintenance No special maintenance is required 9 3 Appendix C 9 3 1 Troubleshooting In case any trouble related to the SCF is encountered always replaced the unit Never open up or try to repair an SCF If the SCF fails the most apparent indication would be that the ASP communication quality on the circuit drops considerably leading to a sudden increase in false lamp status indications and or communication drop outs Since the design of the SCF uses only a few passive components the reliability of the SCF is expected to be very high Hence the most likely cause for trouble with the SCF is associated to its connection to the series circuit 1 e mechanically oriented 2002 SAFEGATE International AB Ostersund SWEDEN 6 6 5 SG591870 3002 SCF USER S GUIDE SAFEGATE 1 2 ASP LMS System Documentation e SCM Hack 591883 User s Guide SCM Rack 591883 User s Guide O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 30 06 2010 15 26 00 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide INNEH L
6. 3 MEE Cine laa 3 o RA E O ajara 3 PPP 3 6 SFU general GSS MIMO meEE 4 SS We ter le BET 4 6 1 1 Electrical och mechanical specification essere 4 6 1 2 FUNCIO c 5 UE d Le 1 sie ne eee a a a E E A maa aaa aa ia aaa 5 7 1 Installation TRAV OW soria 5 SN nn Pe e 5 9 TroubleShoOQUNO sesiones da a E aaa ara aa a wai a a EN BN a A aana a aaa ar aan a ENG ga ia ara a an a a aaa 6 2002 SAFEGATE International AB Ostersund SWEDEN 2 6 3 591876 3001 SFU USER S GUIDE SAFEGATE Ch GROUP ASP LMS System documentation Signal Filter Unit 591876 B 591877 B 591878 B User s Guide 1 REVISION HISTORY Author JF JF JF 2 SCOPE Date Version 2001 10 10 0 0 2002 03 11 1 0 2002 10 09 1 0 Comments Draft Frisl ppt Translated to english This document describes the ASP component SFU Signal Filter Unit 3 APPLICATION This document applies for SFU 591876 B 591877 B and 591858 B It includes specification installation maintenance and troubleshooting of SFU 4 ABBREVIATIONS ASP SFU 5 INTRODUCTION Airfield Smart Power Signal Filter Unit The purpose of the SFU is if necessary balance the ASP system communication signals that are superimposed on the series system power cables 2002 SAFEGATE International AB Ostersund SWEDEN 3 591876 3001 SFU
7. H 36 9 2 1 3 ico mi mr ratoncito 36 9 2 1 4 AMOO DECANO ME 36 9 2 2 Frequency TUNING DYAM soriana ira io 37 9 2 2 1 PIO WANS E 37 9 2 2 2 AMT frequency tuning principles sseeissssesiese sensere nnn nnne nhan nnns 37 9 2 2 3 Before starting AMT frequency tuning sequence cocccooocccccccnnncccnnnannncnnnnnnononannnccnnnenons 37 9 2 2 4 AMT frequency tuning Seduence sese aenean nnn anne suas rasa aane a a snas 37 10 SPI FOSIE S O A 44 10 1 Configuration functionality cccooconncnncccnonnnonocononncononononnnnnonononnnononononnrnnnnonnnnrnnnnnnnnnrnnnnnnnns 45 10 2 WIC ATOMIC FUNCIONA NE T E E daa A 46 11 User SNA eaea 46 11 1 USCIS ninas 46 12 o e 47 12 1 A A E E o E seeaneseseeeeusuateneqiesene 47 12 1 1 Hardware setup for Manual Mode 47 12 1 2 Hardware setup for Remote Control Mode ccccccccconncnncccnonnconccononcconcnonanccnnononanccnnononancnss 47 O 2004 SAFEGATE International AB Ostersund SWEDEN 3 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch GROUP Productdocumentation AMT 591891 AMT Basic Pro User s Guide 1 REVISION HISTORY Date 2004 06 17 Translated tools windows information dus A C 2005 07 05 Added description in DB Explorer about log window SL information Updated window texts which have been changed E 2004 10 07 Updated screen shots and some LPU prog texts Added MH JF chapter about evaluation of monitor
8. Min values apply to full load and max values to zero load Note that l15VDC zoja 25 0 Current drain OUT4 Cobra mA Current drain sink er output excluding OUT4 I 100 mA SIE P 9 ER qe e que E Input voltage Vin 26 VDC INL 1IN2 INS OUTS IN4 OUT2 OUTL OUI4 Input impedance INI IN2 IN3 and INA all to OUT4 1000 pe e Environment load includes cable and connected equipment 24VDC Encapsulation class IP68 Dimensions excluding cables mm EXE ES 6 500 00 O AS E E E LAH For max 1s in accordance with FAA advisory circular 150 5345 10E Specification for CCRs and regulator monitors O 2002 SAFEGATE International AB Ostersund SWEDEN 11 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P LMS 591886 User s Guide LMS 591886 User s Guide 2004 SAFEGATE International AB Ostersund SWEDEN 8 SG591886 3020A LMS USER S GUIDE 30 06 2010 15 27 00 SAFEGATE ASP LMS System Documentation G RO U P LMS 591886 User s Guide CONTENTS 1 REVISION FUSION E 3 2 PPPICON 3 EE dcum S A EE E E aa E E AENG ka EE 3 XE iiie Ann PP e EEE E E E ESS 3 nn 3 0O ele UE 4 7 Operational characteristicCS ooonnnccnnncccnncccncccnnnccnnncnnnnncnnnncnr nn 4 FA Poweron OF DALA Slate E 4 Te NS Ue PAP 4 La Coa MENO EE 4 TA 8E 50 EE 5 7 5 Active failed lamp state response nnne nn nnn nennen nnn nnns 5 LO ROLCIUNCIONANV kiasan aba a ata idas 5 EE GO 10161 01
9. The RS 485 standard recommend a termination with the characteristic impedance 120 Ohm at the last RS 485 unit in the line Only one RS 485 termination must exist for each RS 485 bus To define the inactivity setting Failsafe for the bus resistors be jumpered to the and rails of the bus If Failsafe is intended to be used this must only be set for one unit on the same RS 485 bus RS 485 Termination and Failsafe 1s selected with DIL switches S13 to S83 corresponding to slot 1 to 8 RS 485A Failsafe 38 4 ON B G RS 485A Termination 5 ON RS 485B Failsafe 6 amp 7 ON RS 485B Termination 8 ON ON corresponds to the DIL switch being depressed on the right side Factory settings All switches OFF OPEN Sis NO Failsafe NO Termination 2000 2003 SAFEGATE International AB Ostersund SWEDEN 11 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e 2 SCM Rack 591883 User s Guide 7 5 4 Multidrop RS 485 buses Using multidrop only one RS 485 connector is connected for each bus to the COM ports on the rear of the rack This reduces the amount of cabling For each SCM board 4 different buses can be selected for channel A and or B Each bus can include 1 to 8 all SCM boards it is however recommended to keep the number low because common bus means lower communication speed A practical maximum is 3 SCM boards per bus Multidrop should o
10. If not finding the appropriate spare part please contact Safegate for advice O 2003 SAFEGATE International AB Ostersund SWEDEN 9 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P Series Circuit Filter 591870 1 User s Guide Series Circuit Filter 591870 1 User s Guide 2002 SAFEGATE International AB Ostersund SWEDEN 5 SG591870 3002 SCF USER S GUIDE 30 06 2010 15 24 00 SAFEGATE ASP LMS System Documentation G RO UP Series Circuit Filter 591870 1 User s Guide CONTENTS 1 REVISION e E e 3 OOP ccc 3 MEE ine lai 3 A ol ol e y aia agan E aaa na nan Ba ana aaa a kan ag aa kaen dagang adara Aa ia E 3 GO ET 3 SET e e E dr EE 4 7 ASP Component Description ues cote aen A sud Rib wi do AR VR 4 7 1 Electrical and Mechanical Specification cccccccecececcceeeeeeeeseeeeeeeeeeeeaeeeeeeeeeeessaaaaeeeeeeeeesssaaseees 4 7 2 Functional ett le sasabana aaa ipin angina a ekan T 4 6 ne 4 8 1 o TAMU ON seis dicstenesnacheninbantvnsntensicedancecsinsatonscedinRantscuatunddntakacteneseedienineassxacnterdesneeseenineds 4 PACS E 5 dh PANDENG A IA oe eee ana ee ee eee E OA 5 9 1 1 Electrical and Mechanical Characteristics oocccccconccncccnnnncononnnnnnnnnonconanonnnnoncnnononcnnonnanennos 5 due MM ede QE mt 6 9 2 1 VE la
11. The NCU can have many intensity groups depending on how many circuits it is controlling It may also only have 1 intensity groups even when there are many circuits 2010 SAFEGATE International AB 17 18 14 G591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface For each intensity groups the intensity can be set to different steps for example when the ASP system is used as a 3 step intensity control step 0 5 6 7 1s normally used When changing intensity from i e 4 to 7 there is no need to set step 5 and 6 simply set the new wanted intensity The intensity for the different step 1s set by default according to the table below However it is possible to configure for arbitrary light intensities for the seven intensity levels The table below is the intensity group command word Command word Command Description 0 Intensity step 0 Default this step will produce 0 light output Intensity step 1 Default this step will produce 0 1 light output This is not visible and is only used to monitor if the lamps are working without turning them on Intensity step 2 Default this step will produce 0 3 light output 6 Intensity step6 Default this step will produce 30 light output Host System can both write and read command state for each light intensity group 1 2 Lamp Intensity Failure The lamp intensity failure signal indicates whether
12. ASPO Safegate Group Manual Date July 2010 Document ASP INTRODUCTION Version 1 0 B Passenger Boarding Bridge Printed Circuit Board PD Pilots Display unit o Quality Control Plan RAM Random Access Memory CP RAM Random Acoess Memory SSS Page 6 of 6 SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description ASP System Concept General Description O 2002 SAFEGATE International AB Ostersund SWEDEN 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX 30 06 2010 15 22 00 ASP LMS System Documentation ASP System Concept General Description SAFEGATE Ch GROUP CONTENTS 1 REVISION THISUONY 3 CO e AP E nn success 3 y PAID OV e mm 3 A A 4 TU d e UE en EE 4 LEE ue TE d 4 CI A o A 4 A lO A PPP nn A o 5 oo o 0 ETT 5 6 3 1 mice 01g Er ug H WEE 5 oa TOS eee 5 65 Control System Intertace ceeecccccsssseccccceesseeeccceeseeceeeceeaeeeeeseeeeeeeesseuseceeesseaeeeeeessaeesesssaeneeeeess 5 e IK EE AN NR ANE TK RN a MR KPK RN GN AAN KERE AN Nn 6 or Ava E 6 6 8 Installation Requirements and Mamtamabultv n 7 69 FallSale OPEN ias 7 7 Communication Principles scanner 8 7 1 System Response Times asana tn Rau nea mia oct s t RR AA A A 9 7 1 1 SIDD BSI HeSBOHSS Ku EE 9 7 1 2 Lamp Monitoring Response TIME icons A iie 9 7 1 3 Command Sequence Response Tu
13. All series circuit communication signalling information is provided by the Concentrator Unit CU and passed on through a Series Circuit Modem SCM to a standard isolation transformer which interfaces the signalling to from the series circuit A Series Circuit Filter SCF is connected across the constant current regulator CCR series circuit output and is used to contain the signalling within the airfield circuit and minimize feedback into the regulator Communications between the SCM and the LMS and SIU in the airfield is provided by power line carrier where the signals are interfaced to the series circuit power cable through a standard isolation transformer connected to the SCM and the same in the airfield for each LMS SIU The communication between SCM and LMS SIU on the power cable is based on a Safegate proprietary communication protocol where SCM acts as a master sending status queries and commands to the LMS SIU and the LMS SIU responds accordingly The data communication protocol is coded by different signal frequencies that are superimposed on the power line carrier 9 2 1 2 Circuit tuning principles Circuit tuning is a procedure that is performed at commissioning of an ASP system to adopt the communication between SCM and LMS SIU to the specific series circuit and thereby optimising the communication reliability Because the power cable communication between SCM and LMS SIU is dependent on circuit layout circuit load and circuit
14. Figure 28 Frequency Sweep dialogue box Now the frequency sweeping process will start That means all frequencies that are configured in the Circuit Tuning Configuration box Frequency settings Figure 23 will be tested default values Details on the tuning sequence can be viewed if the button Show Details in the ASP Circuit Tuning box is pressed Figure 30 these low level O 2004 SAFEGATE International AB Ostersund SWEDEN 41 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide details will be saved in a text file in the end of the tuning process and can be used by Safegate personnel for troubleshooting The progress bar in the ASP Circuit Tuning box monitors the progress of the frequency sweeping process it takes several minutes depending on the number of LMS s on the circuit Log AO x Loading LMS frequency map From Loop ddr 1 To Loop d 0108090111040505050505 Loading LMS frequency map From Loopiddr 18 To LoopA 0108091222040505050505 Loading LHS frequency map From Loopiddr 35 To LoopA 010B092337040505050505 Loading LMS frequency map From LoopAddr 56 To LoopA 01068093545040505050505 Setting SCH frequency map FFFFOSOOQOOQOUQOO00FFFFFFFFFFFF Figure 29 Low level logging of frequency sweep When the frequency sweep sequence has ended AMT will start to download the best set of frequency parameters to e
15. Hu jm ja Jajan Progress 7 6 4 LPC I O The LPC I O window provides direct control of certain buttons on the LPC provided This is mainly for test purpose PROG LOAD 1 LAMP 1 LOAD 2 LAMP 2 OUTPUT POWER 7 6 5 Circuit Monitor One of the most versatile and useful tools is Circuit Monitor This tool provides monitoring as well as control of all units on the series circuit to which AMT is connected The tool provides graphic presentation of signal and noise levels statistics and an advanced log function O 2004 SAFEGATE International AB Ostersund SWEDEN 12 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Circuit Monitor e Options Listen Mode TS 5 1 S 2 5 3 5 4 5 5 S 6 S 7 S 8 Circuit Id Int Grp NY Gipl Setlntensity Gm Grp2 Gip3 Gip4 Loop Addr Int Step File Fafo rs o ra o mi Step 0 v Get Intensity Sync TS SCM Addr T Time 2 fi Rh sre 20 Check FCU Version ALE D 60 50 40 30 Communication Statistics Max 44 H Samples 35 e ON OFF FAIL Open Min 41 Fails 0 ON Cem Avg 42 H3 Fail 0 OFF Cur 42 Fall 0 3 Fail List FAIL Percent Reset ei 4 x Zoom Noise Show Noise Noise Freq Noise Sync Max 0 Fl 12 d d Min O F2 10 D p Setup SEM Avg 0 Cur 0 7 6 5 1 Advanced Logging Data can be logged in a database for la
16. Progress 7 6 7 Self Hosted SCM Some types of ASP system can be configured without a NCU In those cases the SCM will handle many of the functionalities that are normally handled by the NCU The Self Hosted SCM tool includes functionality to configure the SCM as well as monitor the resulting system functionality 8 TO USE AMT This section describes a number of common tasks and how to solve them with use of AMT and its functionalities 2004 SAFEGATE International AB Ostersund SWEDEN 15 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide 8 1 Maintain LMS SIU SLIQ To maintain LMS SIU SLIQ is mainly to program spare parts modify parameters and test suspected malfunctioning units The following applies only when using the LPU version consisting of an LPC and an SCM interconnected for programming LMS es SIU s SLIQ s and maintaining SCM s Designations for the switches corresponds to SCM 591813B and LPC version 3 Appendix A shows a layout of the different versions of the SCM and LPC New Designation Old designation SCM RS485 RS232 Remote Local LPC Remote Remote Local LPC LAMP 1 LOAD 1 LAMP 1 LPC LAMP 2 LOAD 2 LAMP 2 8 1 1 Programming and test procedure 8 1 1 1 Programming an LMS in Remote Control Automatic Mode If you need to program a large number of LMS s then the Remote Control Mode will help you to simplify and speed up the
17. Start the AMT software Connect the Programming Cable between the SCM and the Laptop PC The connector labeled SCM must be connected to the SCM COM 1 outlet and the connector labeled PC must be connected to a COM port on the Laptop PC COM 1 is default but any COM port can be selected in the Connection Manager see 9 Communication settings Also check the box on the Programming Cable If the red LED is on then press the Load switch and press the Reset switch on the box The LED should now be off If you are using a Laptop then connect the power adapter A Laptop running on its own batteries might not be able to deliver enough power to the COM port for reliable communication For programming in Remote Control Mode you need to interconnect the LPC and SCM using two cables with 25 pins D SUB connectors The outlets are found on the back of these units Safegate can provide Cables For programming in Remote Control Mode turn on the Remote switch set the LOCAL REMOTE switch to REMOTE on an LPC version 2 10 Turn on the green main switch on the LPC 2004 SAFEGATE International AB stersund SWEDEN 48 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch GROUP Productdocumentation AMT 591891 AMT Basic Pro User s Guide APPENDIX A SCM AND LPC FRONT PANELS M 591813B and LPC version 3
18. The SIU does not answer 8 2 SCM MAINTENANCE 8 2 1 SCM Maintenance The term SCM Maintenance refers in this document to the process of replacing an SCM board or an entire SCM unit and thereto related configuration An SCM board or an SCM unit is configured through software in accordance with the requirements set by the individual ASP system in terms of functionality and performance This implies that if an SCM board or an SCM unit is replaced the new board unit will have to get a configuration matching that of the replaced board unit for correct function in the system The configuration process consists of a few steps of which two are described in section 8 2 3 1 and 8 2 3 2 all possible to perform independently and or manually 1f needed To facilitate the configuration process AMT supports an automatic configuration process where the user only has to specify which SCM to configure 8 2 1 1 Activating SCM Maintenance For correct operation make sure that the SCM about to be configured 1s connected to the PC running AMT before SCM Maintenance is activated When the SCM is connected check that it s powered on and confirm the position of the switch marked RS232 RS485 to be RS232 Activate SCM Maintenance from within AMT by selecting SCM Configuration from the menu or press F7 Earlier versions of the SCM board have the switch marked Local Remote which corresponds to RS232 RS485 O 2004 SAFEGATE International AB Ostersund S
19. command is given by the Host System The CU sets airfield lighting to a predefined failsafe state as commanded by the Host System The airfield remains in this state under Host System control until the airfield lighting is commanded to another state 2 Loss of communications with the Host System The CU assumes an error in the Host System control and sets airfield lighting to its predefined Failsafe state The airfield remains in this state under ASP System control until communications is restored with the Host System AND the airfield lighting is commanded to another state 3 Loss of control operations by the CU Both redundant CU computers or their application are turned OFF but the ASP System circuits remain ON In such case the signalling on the series circuit from the SCM will cease due to lack of CU SCM communications thereby forcing the LMS to assume their pre programmed Failsafe state the pre programmed failsafe state matches that as would be commanded Safegate has a set of general recommendation or preferences regarding for example cable routing which may be applied in case a new series circuit is to be designed 2005 SAFEGATE International AB Ostersund SWEDEN 7 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE Ch GROUP ASP LMS System Documentation ASP System Concept General Description 4 Loss of SCM SCF or related component in series circuit interface OR SCM communications with the
20. e Lee e 5 8 Operational le TC e Le TE 5 9 Programming PP A 6 10 Electrical and Mechanical Characteristics scccccseessecsesseeceeeseeeeenseeeeesseeeeeaseeeeeesseesoenseeens 6 11 o E 8 11 1 Briefe ien ger We EE 9 11 2 Calculating Transformer Ral isso dona 9 12 e E NO Ae 10 13 Orderable par S sasaka aan aaa aa ea 10 2004 SAFEGATE International AB Ostersund SWEDEN 2 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP LMS 591886 User s Guide 1 REVISION HISTORY Author Date Version Comment JF 040819 0 0 JF 050214 1 0 Updated with 591886 11 2 APPLICATION This document explains and describes the LMS 591886 from both a technical and an operational perspective 3 ABBREVIATIONS ASP Airfield Smart Power LMS Light Monitor and Switch Unit SIU Sensor Interface Unit SFU Signal Filter Unit SCM Series Circuit Modem MBD Microwave Barrier Detector AMT ASP Maintenance Tool LPU LMS Programming Unit 4 REFERENCES SG591891 3006 AMT User s Guide 5 INTRODUCTION The LMS 591886 is one of several components in an ASP System which normally is installed in manholes hand holes the field Other such components are the SIU and the SFU The basic function of a LMS 591886 1s to control and monitor on lamp single LMS or two lamps separately dual LMS O 2004 SAFEGATE International AB Ostersund SWED
21. mode Every time AMT is started Monitoring mode is pre selected and the user must by himself select Control and monitoring mode WARNING Note that the front switch on the SCM RS485 RS232 alt REMOTE LOCAL must remain in RS485 to avoid interference with an operative system By setting the switch to RS232 LOCAL the SCM will be taken out of operative running 7 3 2 Control and Monitoring Confirmation ax In opposite to Monitoring Control and Monitoring Switch to Control and monitoring mode This will enable command functions means that AMT have exclusive access to the part of the system cm that is controlled by the SCM O 2004 SAFEGATE International AB Ostersund SWEDEN 8 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide When Control and Monitoring 1s selected there are no functional restrictions comparing to the Monitoring mode Every time the user 1s changing from Monitoring to Control and monitoring a dialogue window appears that asks the user to acknowledge before the change is made to secure that Control and monitoring mode is not selected by mistake 7 4 System Configuration A system configuration contains information about the different components in the system mainly LMS and SIU Many of the tools in AMT need access System Inspector a to a system configuration
22. 596530 User s Guide 1 REVISION HISTORY 0 1 020214 Document created draft 1 3 050323 Installation directives and Risk analysis added 060517 Appendix MBD microwave beam pattern added 1 2 030429 Revised AP EE 2 SCOPE This document describes the MBD Microwave Barrier Detector in its application in the ASP System provided by Safegate Refer to the original documentation Technical Manual for Model 310B Outdoor Microwave Link included in the delivery for a more detailed description 3 APPLICATION This document explains and describes the MBD from an operational perspective in the ASP System and covers specifications installation maintenance and troubleshooting of the MBD Applies to product versions 596530 1 2 and 3 4 ABBREVIATIONS ASP Airfield Smart Power MBD Microwave Barrier Detector SIU Sensor Interface Unit SCM Series Circuit Modem CU Concentrator Unit 5 REFERENCES SG591885 3018 SIU User s Guide G596530 3015 MBD Installation data see Appendix SG396530 3009 Manual Testsystem RM82 Technical Manual for Model 310B Outdoor Microwave Link 2002 SAFEGATE International AB Ostersund SWEDEN 3 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation GRO U P 1 e 4 Microwave Barrier Detector MBD 596530 User s Guide 6 GENERAL The MBD setup is integrated to the ASP System for use in detection of aircraft and vehicles at strategically locat
23. 7 eiie od a tienta 4 8 ele de 4 8 1 Physical Appearance nn nnnnn nn nnn nn nnnRR nan nnnnnnnnnnnnnnnnrernnnnnronannnrenannnns 5 SEN Ee EE 5 03 le Ten ebe te 5 8 3 1 Idi 5 8 3 1 1 o EEN 5 8 3 1 2 POE eiis dee dat 6 8 3 1 3 MPU FION sasasi aaa nanang a aa ga anaa ndang ak aan aana ang dad aana aaa ia 6 2 e ue ES asam sa aana ad aia aa ene arana a gana ara gara aia agan ee aa aana naa a aa aga aan a aaa aaa ee 6 8 3 2 1 Power Output Characteristics cccccccccccsseceecccssseeseecssaaeesecessaaceeecessaaceseesssaaanssesssaansees 7 8 3 2 2 eelerer re 7 8 3 2 3 QUID C ONO Ee 7 a E AO AAA PP Po A 8 SA Sensor Test I OCHO I errado indonesio 8 80 DIRECTION DS ISE NO EE 8 A POO A A EE E EI ga aa ajakan 8 9 S En e 8 S AON I EE 8 9 1 1 l O Connector Configuration oocccccncccccoccnnnccnnnnonononannncnnnnnonononannnnnnnnnonnnnnnnnnnnnnnnnnnnannnnnnnonnss 8 9 1 2 CGableHecommendatons aaa nenaa aee naa aana aaa a aana eaaa naa a aana aaa a een ane eee 9 e vo 10D d sasa aaa aaa PP E E CR O E aab ai aana a Aa aaa ia aa gag aab ada ia 9 9 2 1 Configuring Sensor Test Tor SGS96530 EE 9 SEE A PS yA 10 9 3 1 Belle Le OW EE 10 O A e e il o OP SS ES 10 9 4 1 Electrical and Mechanical Characteristics ooonccccconncncoconcnnonnonnoncnnanonnononcnnonnnnnnonnanenennnnens 10 O 2002 SAFEGATE International AB Ostersund SWEDEN 2 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE AS
24. GROUND BUS Grounding Rod 18 to 24 per Local Square Electrical Typical Code Tamper Alarm and Power Lines 2002 SAFEGATE International AB stersund SWEDEN 10 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 3 2 Mounting the MBD 1 Remove the MBD units from the shipping containers Separate the swivel assembly from the mounting plate by turning the large nuts counter clockwise Large nuts require 1 1 4 inch 32mm open end wrench 2 Secure the mounting bracket to the post with U bolt or to other mounting surface with appropriate screws or fasteners 3 Secure the swivel assembly to the Transmitter and Receiver and attach to mounting bracket 4 Rotate the Transmitter and Receiver so that the conduit fittings are pointed straight down 5 Tighten the large nuts on the swivel assembly to hold the units in place 6 Mount the Transmitter and Receiver 2 2 to 3 feet 0 75 to 1 0m above ground level of the area to guard center crest of Taxiway Runway and allow for height adjustment of at least plus or minus 6 inches 15cm Height adjustment may be required during final alignment to achieve optimum protection pattern 8 3 3 Wiring work An 18 inch 46cm Y inch flex conduit is recommended between conduit fitting of MBD units and rigid conduit Continue from here with a conduit to the manhole pit
25. Load switch and press the Reset switch on the box The LED should now be off If you are using a Laptop then connect the power adapter A Laptop running on its own batteries might not be able to deliver enough power to the COM port for reliable communication For programming in Manual Mode you do not need to interconnect the LPC and SCM using two cables with 25 pins D SUB connectors on the back of the LPC and SCM units For manual programming release the Remote switch on the LPC set the LOCAL REMOTE switch to LOCAL on an LPC version 2 Turn on the green main switch on the LPC 10 Press the OUTPUT POWER switch the green button marked I on the LPC 12 1 2 Hardware setup for Remote Control Mode Follow these steps before programming an FCU in Remote Control Mode l On the back of both the LPC and the SCM there is a small box Interconnect the two units with the provided transparent shielded Olflex cable see Appendix B O 2004 SAFEGATE International AB Ostersund SWEDEN 47 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 2 Turn the SCM on The Power switch is on the back of the SCM A green LED on the front should now be on The RS485 RS232 Local Remote switch on the front of the SCM should be in the RS232 Local position A red LED on the front should be on indicating the local state Turn the Laptop PC on and load Windows
26. Ostersund SWEDEN 20 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide communication with the SIU are set When the SIU version dialog box 1s displayed you click the OK button to start the parameter download sequence see Figure 9 Version SIU 2 0 Figure 10 Found SIU If the Skip Version Control is active then no version control is performed 11 After downloading the parameters which can take up to a minute a checksum check will be done to ensure that the SIU has received the new parameters If the checksum is correct a message box is shown to confirm this see Figure 10 Programming Status o Checksum check OK LMS is now ready to use Figure 11 Checksum OK 12 If the checksum is OK the SIU may be disconnected To program another SIU repeat this procedure from step 4 above However if a message box tells you that the checksum is incorrect then you need to reprogram the same SIU unit from step 7 above 8 1 2 Testing Functions If Remote Control Mode is used the three test functions described below will automatically operate the switches on the LPC If however Manual Mode is used the user have to manually operate the OUTPUT POWER switch on the LPC The Remote button can also be used to set if Remote Control Mode should be used or not Note that the Remote switch on the LPC must be set to the same position
27. Read more in section 8 4 Loss of power will disable the MBD sensor function and hence no vehicle movements can be monitored 2002 SAFEGATE International AB Ostersund SWEDEN 6 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 1 3 Safety All means must be taken to ensure that the MBD installation does not reduce the safety or increase the risk of a potential collision The following reasoning refers to applicable standard runway taxiway width and camber current aircrafts and their dimensions In the following text the MBD will be referred to as the Sensor 8 1 3 1 Reference Applicable standard ICAO Annex 14 Fourth Edition July 2004 9 9 Siting of equipment and installations on operational areas says 9 9 4 Recommendation Any equipment or installation required for air navigation purposes which must be located on the non graded portion of a runway strip should be regarded as an obstacle and should be frangible and mounted as low as possible 8 1 3 2 Runway taxiway dimensions The width of a runway depends on its code and is typically 30 45 or 60 m To promote drainage of water the surface should be cambered the transverse slope should not exceed 1 5 code C D E or F or 2 code A or B In case the landing gear is near or at the edge of the runway there will be an inclination of wings caused by this camberin
28. SWEDEN 5 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide 8 3 1 2 Input Configuration The relation between the physical input signal and the input status in terms of passive or active 1s configurable and denoted input logic This implies that depending on configuration the SIU will either match a physical contact closure to ground to physical input status passive logic 0 or physical input status active logic 1 The table below list all possible combinations Input Physical Status Logic Input Equivalent NL Active to GND Shorted Passive to GND Recommended input logic 1 1 e an input not connected or floating is active and hence an alarm can be generated if a cable is cut 8 3 1 3 Input Filtering The input filter consists of a digital low pass filter which is designed to filter out glitches and de bounce the input signal Basically the filter requires the input signal change from passive to active to last for a certain period of time referred to as the filter time trr in the figure below E Physical Input P RR Input Status In addition the input status can be configured to last beyond the point in time where the physical input signal has disappeared 8 3 2 Outputs The SIU supports four separate outputs of which two are shared with inputs and one is a programmable power output They are OUTI OUT2 shared with IN4 OUT shared with I
29. Signal Filter Unit 591876 B 591877 B 591878 B User s Guide 9 TROUBLESHOOTING Because the SFU is a passive component there is no feedback to the system that indicates component status OK fail If a SFU is failing it 1s likely that there will be a situation where the SCM LMS communication ability will be decreased within a small isolated area on the series circuit which can result 1n false lamp LMS failures within that area Normally the SFU s are installed on only one position on each series circuit so identification and replacement of a failing unit is a simple process O 2002 SAFEGATE International AB Ostersund SWEDEN 6 6 3 591876 3001 SFU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide LPU 591862 LPC 591859 User s Guide SLM 59161 Qo 2 o OQ 2 D D KS e D 4 D 2 A E INE D E C O je o D Mi series Circuit Modem DB _ _sareeate DIO DIO D LPC 51539 SIU Voltage Output Power ol
30. The four user New Username A A User Group Guen_ 1 groups are in a hierarchic order in that way that Administrators are in the top and Guests are in the bottom of New Password a e EE mmm the hierarchical scale Administrators have per definition Confirm password complete access rights without Fira e any restrictions As a ASP Configuration User M User Group Manager consequence of that an onfiguration User Manager Cancel Ze User Group Administrator can give access Gus gt Debat Rights rights for all other user groups while a Privileged User are allowed to give access rights to Users and Guests based on Tools amp ccess lser Configuration E Se v LPU Manager the access rights the Privileged User have been given ICH T Similarly a User can give access rights to Guests 2 ac ae Privileged Users can only create users that belong to the Sell Hosted SCM user groups User or Guests that is if Privileged Users have been given the access rights to create users DUM SCM Firmware Download AE wv SCM P ter Modificati To administrate users and or give access rights for user SCMTemnd groups open Admin Settings from the File Preferences menu DK Cancel Apply O 2004 SAFEGATE International AB Ostersund SWEDEN 46 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U
31. The front is divided into 3 sections SIU LMS General functions 6 2 1 SIU section The buttons set the input state for each of the SIU inputs Normal position for INPUT LOGIC not pressed indicator off will turn on the indicators to when not pressed out and turn them off when pressed If INPUT LOGIC is pressed indicator on to indicators will instead be turned on as they are pressed Independent of INPUT LOGIC if any of or both IN 1 and are out AMT displays SIU status Detect the opposite can be set by SIU parameters OUT 1 OUT OUT3 OUTA indicate the state of each separate SIU output OUT4 is normally activated which means the SIU can supply voltage to external equipment normally a sensor MBD With the SIU connected to Output 1 or Output 2 to the 7 pole S7U connector and Output Power being switched on the SIU Voltage instrument shows the output voltage of the SIU parameter selectable 12 15 24 VDC An external V meter may be connected to the panel mounted terminals Some inputs are interconnected to the outputs in the SIU This makes OUT3 activated simultaneously with the same applies for OUT2 and INA The load capacity of the SIU can be tested using and LOAD 21 Por 12 V LOAD 2 15V LOAD 1 24V The load test will show some decrease of the voltage O 15V approx 14V PROG button should only be used when prompted by AMT SIU programming IN 1 to INA LOAD I LOAD 2 and PROG can b
32. The responses from the selected sync word are displayed in the response matrix to the left This implies that even though a particular FCU is of interest all FCUs on the same sync word will respond A green response colour corresponds to a matching firmware version while an amber response colour corresponds to a mismatch 8 4 4 Menu Command Reference Selecting Settings from the menu will display four options Settings SCM Show Current Show Bins and Current amp Loop Address cmd Bitmap Loop Address Cmd Figure 16 Settings Menu Show Current Shows the approximate current in amperes This function will need a change in one of the SCM parameters to work Show Bins and Current Shows the approximate current in amperes This function will not need a change in one of the SCM parameters to work O 2004 SAFEGATE International AB Ostersund SWEDEN 32 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Loop Address Cmd Enable disable this particular type of command Refer to 13 7 2 for reference Bitmap Loop Address Cmd Outside the scope of this document Always disabled 8 4 5 Other Commands The circuit monitor function in AMT supports apart from the above mentioned commands and features some additional ones Since they are intended for very advanced users only they are outside the scope of the document One such feature is t
33. and above configured threshold Preven et ls o energized Note that the LEDs on the front panel of the SCM indicate status of the two alarm outputs where a green LED is equivalent to the absence of an alarm 6 5 4 6 Response Times From the point in time when the SCM has acknowledged an input signal change indicating a change in RWY configuration from AF to COM or vice versa a maximum of two seconds will elapse before commands have been transmitted to all LMSs and verification of command acceptance have been completed Lamp failures are detected within five seconds from the point in time when the lamp filament actually breaks When a broken lamp is replaced the lamp failure alarm output is reset automatically in case the failure criterion 1s not met any more 6 6 Maintenance Normally no preventive maintenance is necessary 6 7 Spare Parts The standard ASP System components LMS SCM and SCF with which the system is build are the only spare parts applicable Lamp status is not monitored when circuit is de energized and hence no lamp failure alarm Larm failure criterion is configurable see section 6 5 4 3 2002 SAFEGATE International AB Ostersund SWEDEN 9 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP 6 8 Trouble Shooting Basic trouble shooting according to table below For additional assistance when needed contact suppo
34. see 5 9 APPENDICES 9 1 Appendix A 9 1 1 l O Connector Configuration The table below refers to all four I O connectors available on the SIU O 2002 SAFEGATE International AB Ostersund SWEDEN 8 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide Pin Description E eS eee E CN d power cut OOO O 2 Common Common reference to all signals SO m ee pois conpatibitity mode referred to as DETI 000000 T IL NN IN3 0UT3 Combined Input 3 and Output 3 In compatibility mode IN3 is referred to as STATUS IN4 0UT2 Combined Input 4 and Output 2 In compatibility mode INA is referred to as STATUS2 9 1 2 Cable Recommendations Select cable cross section for connecting the SIU to the sensor or any other equipment according to the table below Max Distance m Comment mm AA OR Provided 1V voltage drop is acceptable for the cable itself and the sensor current drain is less than 150 mA H8 8 For any other combination of cable length and current drain use the following formula to calculate appropriate cross section for the cable A 0 0344 x Ibra X L Vorop Where A is the cross section mmi I 1s the current A L 1s the distance between the SIU and the equipment sensor to connect m and Vpgop is the voltage drop V across the cable itself 9 2 Appendix B 9 2 1 Configuring Sensor Test for 86596530 The checklist below a
35. the ASP system will have access to its communications channel and control and monitoring will be available A discontinuity on the cable shield will not normally influence either the light s or the ASP system s availability This is not true for a system that uses the shield or a separate control cable as a communications channel In case the shield breaks lights might be available when current is allowed to flow in the circuit but the system will not implying that no control or monitoring will be possible Safegate has a set of general recommendation or preferences regarding for example cable routing which may be applied in case a new series circuit is to be designed Rev A 2000 03 08 Page 2 of 2 SAFEGATE ASP LMS System Documentation GROUP ASP System International Standards Compliancy List ASP System International Standards Compliancy List 2002 SAFEGATE International AB Ostersund SWEDEN 12 SG591890 3006 INTERNATIONAL STANDARDS COMPLIANCY LI 30 06 2010 15 43 00 SAFEGATE e ASP LMS System Documentation G RO U P ASP System International Standards Compliancy List CONTENTS 1 REVISION e E e E 3 2 OCONEE 3 2 SE e e Le E 3 A MEL AA aana aa alaa A 4 O 2002 SAFEGATE International AB Ostersund SWEDEN 2 5 12 SG591890 3006 INTERNATIONAL STANDARDS COMPLIA SAFEGATE e ASP LMS System Documentation G RO U P ASP System International Standards Compliancy List 1
36. the clearance will be at least 1 5 m allowing for swing and inclination due to cambering of runway taxiway of wings For a runway width of 60 m the distance between a Sensor pair Transmitter and Receiver will then need to be 60 18x2 96 m or more lt 120 m 2002 SAFEGATE International AB stersund SWEDEN 9 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 3 Installation hardware 8 3 1 Preparations Prepare a rigid mounting surface for the MBD Transmitter and Receiver Do not mount units on a vibrating surface or post A recommended mounting post is a 3 Y inch 90 mm galvanized pipe outside diameter 4 inches 100 mm attached to a prefabricated concrete base A 60mm post may be used 1f that better suits the prefabricated base The post should protrude above ground level of the area to guard center crest of Taxiway Runway to a height of 4 feet 1 2m this implies the posts must be higher when mounted on shoulders that fall off from the Taxiway Runway edges See figure below for an example 8 3 1 1 Precautions The posts should have an integrated breakable coupling to allow for collapse 1f submitted to a hitting object such as an aircraft or vehicle The breakable coupling must be located just above ground level Galvanized Pipe Flexible 48 Conduit i Nominal Ground Lug 6 AWG
37. 1 ES 3 Yes Yes Yes Active 2 2 CH TC6 4 Yes No Yes Connecting 4 3 4 2008 SAFEGATE International AB SWEDEN 8 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch GROUP ASP System NCU User s Guide The information shown in the SCM status window 1s Column Name Address Ready Connected Power Status Last sync All Syncs Description Name of the SCM The modem address to the SCM The indication that AspGwy is up and running Information if it possible to communicate with the SCM Information if it is power or not in the circuit The status of the AspGwy communication Active Connecting Disconnected or Passive Passive indicates that the SCM is controlled by another redundant NCU The sync from which the information is last collected States all syncs which are used by the SCM The same possibilities as for the LMS status window apply for the SCM status window You could sort reset information and export collected status information 7 3 Sensor Status View In the Sensor status window it 1s possible to see the status for all Sensors which are controlled by the NCU HI Sensor Status view EEES Sync T5 System Status Last Reply Responce Level Last detect time Detect count TC6 Tle Tle TCG 3 20 3 21 3 22 3 23 n 0 On E394 al 0 0 Om 2008 02 05 12 42 04 1 OFF 0 OFF 63 al 0 0 Om Error 1 Sensor Fail 0 al 50 25 61 Of 0 OFF 63 8l 0 Om
38. 2 Sensor Error Error bit value H OK The sensor is working correctly The sensor is broken or disconnected NOTE If the series circuit power i e the CCR is turned OFF the NCU will retain the sensor error information at least until the series circuit power is turned ON or the NCU is rebooted 5 4 6 Lamp amp LMS The lamp LMS error information could be combined one bit used to indicated lamp or LMS error or separated lamp error and LMS error are reported separately in two different bits The standard if nothing is specified 1s to separate these two errors 5 4 6 1 Command Control of individual LMS has not yet been implemented in the Modbus Interface In order to turn on off lamps segment controls must be issued 5 4 6 2 Lamp State State bit value OFF JgThelmpisOFF NOTE If the series circuit power i e the CCR is turned OFF the NCU will set the LMS status to OFF The only exception are LMS s with either Error or Lamp fail which will retain their status information at least until the series circuit power is turned ON or the NCU is rebooted O 2010 SAFEGATE International AB 8 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface 5 4 6 3 Lamp Error Error bit value O OK j Thelampisworkigcomecly NOTE If the series circuit power i e the CCR is turned OFF the NCU will retain t
39. 3 Communication Iranstormer nen em enne nen nennen treten treten rre aana rer rni rra r pans 17 8 1 4 E e O BEE 18 8 1 4 1 ao AM Pe A o Pa 18 8 1 4 2 Installation replacement oocccccconcnnccconncnccocnonocnnnnnnonononnnonnnonnnnannnnnnannnnnnnnnnnnnnannnnenananns 18 A COON EE 18 8 2 Software installation oo enn rnnn nens 18 8 2 1 E A e e oO II a 18 9 MalntenanG A E E o o O O A 19 9 1 A 19 9 1 1 Pre EE 19 9 1 1 1 Een E 19 9 1 2 E AA III A 19 9 1 2 1 Hardware inici ii ii ii 19 9 1 2 2 Goifware ens 19 9 1 2 3 Tee 20 9 1 2 4 Ee 20 10 gel E OO UNO e 20 O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 2 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE Ch GROUP 1 2 ASP LMS System Documentation e SCM Rack 591883 User s Guide 1 REVISION HISTORY Author AP AP AP JF AP 2 SCOPE Date 2001 06 19 2001 10 24 2002 03 15 2002 09 17 2003 03 14 Version 0 0 0 1 1 0 1 1 1 2 Comments Draft created Translated to swedish Supplemented spec install maint Translated to English Supplemented I Os This document describes 19 Rack for 8 SCM board from a user s perspective The description includes Backplane SCM board with daughterboard and external communication transformer 3 APPLICATION Specification installation set up maintenance and troubleshooting of 19 Rack f
40. 4 6 1 1 Replace an ASP COMPONEN1 cccsccccccseeeeeeeseeeeeeeeseeecseaeeeeseeeeeseegeeesseeeeessageeeeseaeeeesaeeeeeens 4 6 1 1 1 Replace an LMS IOP SU otitis iia dag panagan aa 4 6 1 1 2 FRODIACS aN tds 4 6 1 1 3 O A eT TE Nga naa ney Ne ner Ld 4 6 1 1 4 PRODI ACS AMOO Uta 4 6 1 1 5 Replace ah NGU CU ACG as 4 A 5 o e 5 7 1 1 Standard Troubleshooting Procedure coccccccconnnccnnccccccononccnnnnncnonnnnnnonnnnnonononannnnnnnnnnnnnnnnnenons 5 7 1 1 1 OWE OD ppt r 5 lla CODON OA ee E cas 5 Zah eka Accessories or other equipment 1cccccscececnseeecccsanseccnausesensuuesensauseessacseeesscuesensanesessans 5 7 1 1 4 ejerce M 5 7 1 2 Advanced troubleshooting procedures ooocccccccccoccnnncccnnncnnnnononncnnnonnnnnnnnnnnnnnnnnnnnnnnnennnnnnnns 5 2001 SAFEGATE International AB Ostersund SWEDEN 2 5 16 SG591890 3004 ASP TROUBLESHOOTING AND MAINTENANCE SAFEGATE Ch GROUP ASP System Troubleshooting and Maintenance 1 REVISION Author MH 2 SCOPE Date Version Comments 2001 11 09 Modification X00894A This document describes troubleshooting and maintenance of an ASP system 3 APPLICATION This troubleshooting and maintenance guide is for an ASP system with LMSs SIUs SCMs SCFs SSUs and VCUs 4 ABBREVIATIONS ASP CCR CU HCU LMS SCM STU SSU UPS VCU Airfield Smart Power Constant Current Regulator Concentrator Unit Host
41. 8 5 4 5 2 o ee 8 SAO Lamp MSc IA An 8 5 4 6 1 a 8 5 4 6 2 o asa D M 8 5 4 6 3 EE Ee 9 5 4 6 4 A E E 9 APPENDIX A STOPBAR E 10 T deen TEE 10 1 1 Stopbar Command ccc5ccccccccccsccssseeececsecccccsscenscececccscesaseceeeedsccassesseccerccccassaeeecessecccusdeneeres 14 MP e 6 21 eve EE 14 1 3 Stop bar error indication NEEN 15 1 3 1 Stopbar Segment Number of lamp in error nnn 15 1 89 2 Stopbar Segment Adjacent Error 15 APPENDIX B ADVANCED SEGMENT FUNCTIONS 0 ccceecsseeseeeeeeeeseeceeeneeeeeeeseeeeessseeeeeeeeeoennes 16 1 Light Segment El ei kisas aia aaa aa aji aa aaa A Dad maja aa adi aja a Anaa aja ahaaa aja aan ajaja ada EEE 16 1 1 Segment Lamp fail cts inciso oo 16 1 2 Segment Adjacent Error 16 APPENDIX eebe dE 17 Te EA COU caca 17 1 1 Intensity Group Commande 17 1 2 PP e uo A A 18 O 2010 SAFEGATE International AB 2 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface 1 REVISION HISTORY Author Date Version Comment JF 060901 A Initial revision SL 070418 B Included logotype LVL 070514 C Updated with appendix SL 080218 D Updated naming of ASP status objects LVL SL 080523 E Revise of possible functions to use AP 081217 F Editorial SL KN 100308 G Added appendix for 2A intensity control BH SL 100615 H Updated Lamp Intensity Failure section 2 SCOPE This document
42. ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface Write Response Field Name Example Hex Slave Address 01 Function 10 Starting Address HI 00 Starting Address LO 01 No of Registers HI 00 No of Registers LO 01 CRC XX 5 4 Command and Status Details 5 4 1 NCU Status word O0 NCU OK NCU ok Data valid NCU Fail Internal error in NCU The NCU status word bit O should be read to ensure that received data 1s valid Only if bit 0 0 the beneath information is valid 5 4 2 Heart Beat Words Command Word Indication Description Loopback 0 65535 NCU Alive Can be used by Host System to implement Heart beat signal The Host system shall be able to detect 1f the NCU responds The NCU Heart Beat Command word will by internal loopback be indicated in NCU Heart Beat Status word Host system can use this to implement a Heart Beat by value Note If the Host system can detect from its Modbus Client whether the NCU is responding to the Modbus polls then such a signal can be used as an alternative way for determining if the NCU is Alive 5 4 3 SCM The Serial Circuit Modem can provide status of its operation O 2010 SAFEGATE International AB 6 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface 5 4 3 1 SCM Communication error Error bit value Indication The SCM is c
43. All cables supplied with delivery Arbitrary wire orientation Connection Box SCM 591677 SCM 591577 L E E Vi ES i DB25F DB25M DB25F UB25M Cable 594114 z m Connection Bax LPC 591859 E E TES A 0 LPC 591859 Vi Disassemble assemble EM cable gland with cable and make sure that Shield gets properly connected ae 5 SLM 5916 7 Power cord E z Ko Power cord Te zum E i p ON 1 Power cord Mes No PC 591859 LPU Control Unit LPC Ve do ath to S L i z _ Lol e 8 e 8 E 230 240 VAL or 110 115 VAC O 2003 SAFEGATE International AB Ostersund SWEDEN 8 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide 7 2 Connecting PC Use the supplied RS 232 cable with LOAD RESET 591869 to connect as shown The shorter cable end to be connected to the PC and the longer to the LPC please refer to the marking on the LOAD RES
44. Concentrator Unit Light Monitor and Switch unit Series Circuit Modem Sensor Interface Unit System Switch Unit Uninterruptible Power Supply Vault Concentrator Unit 5 INTRODUCTION It is assumed the reader of the guide is familiar with the ASP system its components and functions The aim of this guide is to give advice for troubleshooting problems which have temporarily caused the ASP system to be out of operation or caused functionality performance problems Follow the recommendations and procedures in this guide to find the reason for a problem and a resolution 2001 SAFEGATE International AB Ostersund SWEDEN 3 5 16 SG591890 3004 ASP TROUBLESHOOTING AND MAINTENANCE SAFEGATE Ch G RO UP ASP System Troubleshooting and Maintenance The user manual for other specific ASP components contains procedures for troubleshooting which are not covered in this document 6 MAINTENANCE 6 1 General In general ASP components do not require any special maintenance after installation For more information see specific ASP component user guides On occasion special requirements may be necessary for maintenance procedures as follows 6 1 1 Replace an ASP component All ASP components excluding the SCF must be configured according to its function in the system When a component is replaced it must be configured in the same way 6 1 1 1 Replace an LMS or SIU When an LMS or SIU is replaced the new unit must be re conf
45. FF 00 no FF CH 00 07 00 Of 00 00 00 00 00 00 00 OO 00 00 OO OO 00 00 00 OO OO 00 00 00 OO 00 00 00 OO OO 00 00 00 OO 00 00 00 OO OO 00 00 00 OO OO 00 00 OO OO 00 00 00 OO OO 00 19 F 01 03 02 20 nn 12 CS BS 01 03 24 00 no OO OO OO no 00 OO OO 00 00 OO 00 00 OO OO OO OO Dn no on OO ON OO OO OO OO 00 00 OO OO OO 01 70 01 70 7B F 01 03 01 FS 00 04 D4 03 01 03 14 00 00 00 00 00 00 00 00 00 00 01 70 01 70 00 00 00 09 00 00 F 69 01 03 02 00 00 20 45 AA 01 03 40 00 00 00 00 LE FF 00 00 FF CO 00 07 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 oo DU DO 00 00 DO DO 00 00 00 DO 00 00 00 00 DO 00 00 00 DO 00 OD 00 DO DO 00 00 OO DU 00 00 00 19 F7 01 03 02 20 00 12 C5 B5 01 03 24 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 70 01 70 7B F2 Ul 03 01 FS UU UA D4 U3 Ul 03 14 UU UU UU 00 DU UU UU UU UU UU Ul 70 01 70 UU UU UU US DU UU F7 69 01 03 02 UU UU ZU 45 AA 01 03 40 UU UU UU UU 1F FF 00 00 FF CO 00 07 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 oo 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HU DU UU 00 00 DU UU UU UU 19 F7 Ul 03 V2 ZU UU 12 C BS Ul UF 24 UU UU UU UU UU 00 00 UU UU UU OU UU UU UU UU UU UU 00 00 DU UU UU UU UU DU UU UU UU UU 00 00 00 01 70 01 70 7B F 01 03 01 FS nn DA D4 03 01 03 14 00 00 no OO no 00 OO OO 00 OO 01 70 01 70 00 OO 00 09 no 00 F 69 01 03 n 00 00 20 45 AA 01 03 40 00 00 00 00 1F FF 00 00 FF CO 00 0 00 00 00 00 E 00 L
46. OH HH 0 P rs Q Oh OI amp C F2 CQ I amp CO PA OS CQ Ar OO OU 4 Go P rs TO OS GO PA rz A A bb bb bb bb bb HAHAHA AAW CO CO CO CO CO CO CO CO CO GO CO CO CO CO CO CO oo o U OO OO OO OO OO OO OO PA OO OO Go OO OO OO OO OO OH eoo CO 0c C CO OD OQ EN amp O E Ei EE E 0 Et ER EN ER oo Ei E EN E GN Er GN Ei EA oO OO OO GO OO OO OO OO OO OO Or OO OO CO CH The information shown in the LMS status window 1s Column Description ID Name on the light fixture and LMS Segment Name of the light segment to which the LMS belongs Seq Nr The sequence number of the physical placement of the LMS in the segment Scm The SCM name to which the LMS belongs Sync The LMS sync used part of the unique address on the circuit TS The LMS time slot used part of the unique address on the circuit System Status Faults NoRef Last Reply Response Level Samples Fails Fails Fails Status on the light reported to Host system On Off Error Lamp Error Communication Error N A N A The last status reply from LMS On Off Lamp Fail LMS Fail The response level of the physical signal from the LMS The number of samples received since start of application or last reset of status window The amount of samples from the LMS which have responded fail Number of fails which have been reported to the Host system Note indicates how many samples from LMS must report fail before it is sent up in the system Thi
47. P AMT Basic Pro User s Guide 12 APPENDIX 12 1 LPU The LPU LMS SIU Programming Unit consists of an SCM and an LPC Before programming an FCU you must have a proper setup of the hardware APPENDIX A and APPENDIX B will help you to interconnect and setup the SCM and LPC correctly Depending on if you program in Manual Mode or Remote Control Mode you choose a different setup procedure These procedures are described below as Hardware setup in Manual Mode and as Hardware setup in Remote Control Mode 12 1 1 Hardware setup for Manual Mode l On the back of both the LPC and the SCM there is a small box Interconnect the two units with the provided transparent shielded Olflex cable see Appendix B Turn the SCM on The Power switch is on the back of the SCM A green LED on the front should now be on The RS485 RS232 Local Remote switch on the front of the SCM should be in the RS232 Local position A red LED on the front should be on indicating the local state Turn the Laptop PC on and load Windows Start the AMT software Connect the Programming Cable between the SCM and the Laptop PC The connector labeled SCM must be connected to the SCM COM 1 outlet and the connector labeled PC must be connected to a COM port on the Laptop PC COM 1 is default but any COM port can be selected in the Connection Manager see 9 Communication settings Also check the box on the Programming Cable If the red LED is on then press the
48. S4 turns off Lead On segment L2 In lack of this sensor the stopbar model will use a timer T3 L3 1s a fixed segment that runs to the end of the Lead On TCL into the runway In most cases the actual Stop bar applications at an airport will only have a subset of the described sensors and Lead on segment But even then the model can he used as not all the sensors and Lead On in the model need to be configured The table below shows some of the possible applications where the model can be used O 2010 SAFEGATE International AB 10 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO U P ASP System ASP Modbus Interface 2nd Lead On 4550 90 m behind Stop Bar nd Lead On Extended to Runway 3rd Lead On Extended to Runway Cc E i D n 5 E 25 E i in 5 OO En a E a E 5 E ec ES t AME EN C lolo BEES CD o C gt GG OO x E in 5 O om to e e o t aos O T ol oO 1 t o MS m c c mc Px C cm m x Includes v E cu M T ES A i Option 1 2 in amp B B B 1 CI LB E E E m m m A Alternative 1 2 mo E E EE m mn n CG Remark ICAD Basic X X E EM 01 ICAO Standard x X X X X x a FAA Standard X x A A X X X Al and 42 are two alternatives oG Fast w Presence X X X X X X X OX OX x Length of 1st Lead On can vary The pictures below illustrate the used notations The Stopbar can be On or Off The Stopbar State can be Ready Enter or Lea
49. SAFEGATE International AB Ostersund SWEDEN 14 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide e System ID e State e State change e Signal level e Communication fail percentage e System component type e Comment Filtering can also be based on a combination of the above and then only events that fulfil all selected criteria will be shown A filtered log can be exported to a separate database that can be sent by email or equivalent Similarly data can be imported to an existing database This data will then be chronologically sorted in relation to the existing data in the database Selected log sequence can also be replayed in Circuit Monitor to get a graphical view of the communication 7 6 6 Circuit Tuning Circuit Tuning 1s a process that is used at commissioning of ASP system the Circuit Tuning tool provides fully automatic functions for that purpose Circuit Tuning Ele Tools Help Circuits in Config File Auto Sequence Manual Sequence SG 1 Hun any step in the auto sequence Log Info individually Open separate log Open the configuration tile select circuit check the window for details configuration tab and press the start button to run the on sequence sequence Modify the configuration from the tools meny H eee ae and repeat the analysis as needed Bun Freg Sweep Show Details W Prompt to Save on Exit
50. Standard Troubleshooting Procedure It is important to always check the following before starting any advanced troubleshooting procedures 7 1 1 1 Power Supply Make sure all units are on and all fuses are working Many problems are caused due to blown fuses or power supply problems 7 1 1 2 Communication Make sure all communication links are working by checking cabling and contact plugs Check equipment with LEDs which indicate send and receive for abnormal functionality 7 1 1 3 Accessories or other equipment Make sure accessories or other equipment in the system works normally especially equipment which the ASP system depends on for normal operation for example CCRs control and UPS systems Check with manufacturer s documentation for correct procedures 7 1 1 4 Specification Make sure the ASP system is working within its specifications both electrically and functionally 7 1 2 Advanced troubleshooting procedures Advanced troubleshooting requires ASP software and in depth knowledge about the ASP system design installation and configuration For more information or assistance contact Safegate 2001 SAFEGATE International AB Ostersund SWEDEN 5 5 16 SG591890 3004 ASP TROUBLESHOOTING AND MAINTENANCE Safegate Group HQ Djurhagegatan 19 SE 213 76 Malmo Sweden Phone 46 0 40 699 17 00 Fax 46 0 40 699 17 30 E mail market safegate com Australia australia safegate com 61 0 3 9720 3233 China chin
51. The information shown in the Sensor status window 1s Column Description ID Scm Sync TS System Status Faults Name on the sensor The SCM name to which the sensor belongs The sync and time slot used part of the unique address on the circuit Status on the sensor reported to Host system Off On Error N A 2008 SAFEGATE International AB SWEDEN 9 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch ASP System G RO U P NCU User s Guide Last Reply The last status reply from SIU On Off Sensor Fail Response Level The physical signal response level from the SIU Samples The number of samples received since start of application or last reset of status window Fails The amount of samples from the SIU which have responded fail Fails Number of fails which have been reported to the Host system Note indicates how many samples from SIU must report fail before it is sent up in the system This is done to avoid reporting temporary disturbance on the circuit Fails Percentage of collected samples which have been reported fail Last detect time The time stamp for the last detect from the sensor Detect count The number of detect from the sensor The same possibilities as for the LMS status window apply for the Sensor status window You could sort reset information and export collected status information 8 HOST COMMUNICATION The NCU supports a number of standard host communicatio
52. a stopbar on the taxiway 8 1 2 MBD functionality e Please observe that the maximum allowable distance between the sensor Transmitter and Receiver must be respected The maximum range will be limited by the terrain and how well vegetation and snow are removed Although the maximum distance 1s said in the datasheet to be 450 m low power model 120 m it is recommended to keep the distance within 120 m low power model SO m especially in areas where heavy rain or snow can be expected e The area between Transmitter and Receiver must be free of tall grass weeds debris and obstructions e The Transmitter and Receiver must be mounted on a rigid surface or post as unwanted vibrations may cause spurious detections Read more in section 8 3 e For proper function of the MBD the line of aim between the Transmitter and the Receiver must be high enough above the crest of the runway taxiway typically between 60 cm and 115 cm this is to avoid problems due to microwave multipath interference A suitable height will be decided at commissioning until then the posts should be long enough to allow for adjustment up to 115 cm above the crest Read more in section 8 3 e The Transmitter and Receiver must be powered at all times monitoring of vehicles is desired When using the SIU to power and monitor the Transmitter and Receiver the isolating transformer supplying the SIU must be connected to a series circuit that is powered
53. available The only exception to the above 1s when a SafeControl control system 1s host in which case the response time includes host processing and overhead as well In this case the response time 1s equivalent to the system response time 7 1 1 Stop Bar Response Time Maximum stop bar response time from receiving a command to true back indication is 2 s typically less than 1 s Sensor detection 1s typically reported within 1 s The stop bar response time applies to both interleaved and non interleaved configurations 7 1 2 Lamp Monitoring Response Time A lamp failure is detected and reported within 5s regardless of system configuration 7 1 3 Command Sequence Response Time Maximum response time for any light function command from receiving the command to true back indication is 10 s This applies regardless of the number of light segments involved In case the light function only affects a few segments the maximum response time 1s considerably lower For single segment response time in general refer to 7 1 1 O 2005 SAFEGATE International AB Ostersund SWEDEN 9 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description The consequence of the above is that in an ASP system it is always possible to predict the maximum response time regardless of the system configuration 8 APPENDICES 8 1 Elements Of Importance Below some important
54. be released Connect the SIU male connector to an OUTPUT outlet on the LPC Connect the SIU sensor interface connector to the SIU outlet on the LPC You also need to identify the individual SIU you intend to program You do this by either writing the id in the Find field to search for it or select the id in the System panel list Press the Download Parameters button to start the programming sequence A message box allows you to click on the Cancel button to stop the download sequence if you would like to do so If you want to continue the download sequence click on the Continue button see Figure 2 Programming LMS Confirm parameter download Figure 2 Confirm parameter download A hardware initialisation is started only if the option Skip Version Control is deselected The SIU version is identified and the optimal parameters for communication with the SIU are set When the SIU version dialog box is displayed you click the OK button to start the parameter download sequence If the Skip Version Control is active then no version control is performed 2004 SAFEGATE International AB Ostersund SWEDEN 17 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 10 After downloading the parameters which can take up to a minute a checksum check 11 will be done to ensure that the SIU has received the new parameters If the checksum is cor
55. bootload mode 7 Press LOAD the red LED should not be lit and RESET on the bootload cable black box to restart the SCM 8 To make the SCM functional SCM parameters must be loaded see chapter 13 5 1 8 2 3 Advanced Maintenance The following chapters describe the manual loading of parameters to the SCM These functions should only be used 1f the user has the right knowledge and has been educated for this purpose 8 2 3 1 Loading SCM Configuration SCM Maintenance Parameters Configuration Firmware Terminal Configuration Hur Bb cu En Ba o D pe e Auto Mode Spare Multiples Mode Download Delay Settling Time Ckt Switch Data Compression Mode Misc Response Code Current Level Include Auto Mode Cmd Delay Folarity Status Monitor R5485 Mode GBus Config Command Monitor Baud rate Spare LPC Made Spare Spare EET i TT T TT Configuration Set F1 Configuration Files Open F3 Save s F4 Comments e Set sends the SCM configuration currently shown on the screen to the SCM e Get receives the configuration from the SCM and shows it on the screen e Open opens an SCM configuration file and shows it on the screen e Save saves the currently shown configuration on the screen to a file 2004 SAFEGATE International AB Ostersund SWEDEN 26 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591
56. controlled through the NCU is defined as a separate ASP object The different ASP objects offer basically three levels of abstraction for control and monitoring e Physical level individual components installed in the system LMS SIU and SCM e Logical level control and monitoring abstractions which involve any number of physical units light segment and sensor e Complex logical level powerful abstraction involving a number of logical abstractions stopbar 6 ASPGWY FUNCTIONS 6 1 Segment handling A segment is defined as a group of lamps controlled together A segment can be divided over multiple SCMs A Segment is controlled by sending a Group command to a SCM 6 1 1 Segment status The SCM replies with the status of the lamps A segment status is calculated on the basis of the lamps states in this segment But since there are multiple lamps there can be multiple states Calculating the segment status is not always straightforward The default is that the segment is considered on when 100 of the lamps are reporting ON or reporting lamp failure 6 1 2 Command repetition When a segment has lamps which is not in the correct state ON OFF then the command to set the lamps in the correct state will be repeated a configurable number of times default 3 If the lamp is still not reporting correct state the command repetition will drop to a lower configurable interval default 2 minutes 2008 SAFEGATE International
57. corresponding series circuit CCR must be energised Remove the radomes from both Transmitter and Receiver Make sure the identical modulation frequency is being used on the Transmitter and Receiver Visually aim the Transmitter and Receiver for bore sight alignment On the Receiver Move the ALIGN LATCH NORMAL jumper to ALIGN LATCH position Connect the RM82 to the MS connector on the back of Receiver select ALIGN on RM82 alternatively connect a Voltmeter to TPI and GND on the Receiver PCB This level to be observed will from now on be referred to as ALIGN Ievel Swivel Receiver up and down side to side raise or lower to obtain maximum ALIGN level Tighten locking nut on mounting bracket to secure sensor in this position Swivel Transmitter up and down side to side raise or lower at the same time at the Receiver observe meter to obtain maximum ALIGN level Tighten locking nut on mounting bracket to secure sensor in this position The ALIGN level must exceed 0 1 RM82 alt 0 5 V Voltmeter normally you should expect at least the double value 250 2 gt 1 0 V Disconnect the RM82 or Voltmeter and move the ALIGN LATCH NORMAL jumper back to NORMAL position Move the FAST SLOW jumper to FAST position set HOLD IN to minimum max CCW and adjust to lowest sensitivity 1 e SENSITIVITY max CCW O 2002 SAFEGATE International AB Ostersund SWEDEN 14 19 9 SG596530 3011D MBD USER S GUIDE
58. depends on total load number of LMS SIU och isolation transformers on the circuit circuit length the distribution of the load noise environment etc These parameters will be optimized by Safegate personnel at commissioning and must be preserved to ensure correct operation 9 1 2 4 Replacement At replacement of SCM board the new board must have correct software and parameters installed How this 1s checked and how to download software and parameters see document G591891 5001 User s Guide AMT chapter SCM Maintenance 10 TROUBLESHOOTING According to ASP System troubleshooting and maintenance document G591890 3004 As knowledge of the complete ASP system 1s a prerequisite for effective troubleshooting and correcting malfunctions or failures it is recommended that maintenance personnel have attended the ASP training that Safegate offers O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 20 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide SIU 591885 User s Guide 2002 SAFEGATE International AB Ostersund SWEDEN 7 SG591885 3018A SIU USER S GUIDE 30 06 2010 15 26 00 SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide CONTENTS 1 REVISION e E e E 3 2 OCODE EE 3 PE A A 3 A RDO V LAU NS ikio daa ae anaa ak Iga E A SA apa Sigala a E aaa an 3 5 ET 3 O Th e e ET de EE 3
59. for detection of vehicle movements on taxiways and runways the MBD constitutes the lowest level The system includes e MBD Transmitter and Receiver that together form a line of detection e SIU same for Transmitter and Receiver power supply status reading self test of MBD s line of detection e SCM collects via SIU status for MBD e CU transfers MBD status from SCM to host system e Host system presentation of Sensor status detection fault MBD and SIU together are treated as a Sensor by the host system and at a fault condition either on the MBD or SIU a common fault indication is given for the Sensor in the host system A Sensor fault could appear either at the MBD the cable between MBD and SIU or at the SIU we will focus on the MBD and the cable between MBD and SIU START by checking that e Transmitter and Receiver are aligned correctly and free from damages e Transmitter and Receiver are both supplied with power e All jumpers and settings are according to what has been registered in the MBD Installation data document FAULT OBSERVATION Reason e Not detecting at all or just sometimes o SENSITIVITY setting 1s to low o Cable fault Pin 3 DET is in contact with low o MBD Receiver bad e Detecting continuously or without reason no blocking object o Transmitter and Receiver not aligned correctly Check ALIGN level with RM82 Cable fault Transmitter or Receiver not connected cont
60. intensity is set by command using the communications channel made available by the ASP system 2A intensity control implies no additional functionality compared to traditional intensity control However intensity control and circuit power will be handled by two separate systems namely the ASP system and the CCR as opposed to the traditional approach where both are handled by the CCR The CCR will be used to e Turn the circuit on or off The ASP system will be used to e Set the light intensity o For an entire circuit or o For a subset of the lights on a circuit o Monitor light intensity settings The primary design objectives for the 2A system intensity control setup is to mimic the functionality available using traditional CCR hosted intensity control with minimal impact on the existing system s design function and performance yet adding valuable functionality on the application level The 2A intensity control provides in addition to functionalities available using traditional intensity control intensity control on group level i e intensity can be set to different levels for different light on the same circuit This will make it possible to co locate for example RGL stopbar taxiway centre line and taxiway edge lights on the same circuit Intensity Group Command Each light segment has an entity within an intensity group An intensity group 1s defined as the group of segments that needs to be intensity controlled in the same way
61. new series circuits with selective switching and or individual monitoring of all or a selected number of lights in an airfield 6 BASIC SYSTEM CHARACTERISTICS Refer to Figure for reference For more detailed information regarding the ASP System components refer to the individual User s Guides 6 1 The LMS The ASP System using the LMS concept is designed to provide selective switching and or monitoring of airfield lighting by use of an addressable switching unit at each individually controlled light This switching unit is the LMS The LMS is connected to the secondary side of a standard series circuit isolation transformer connected to the series circuit and uses standard 2 pin FAA style connectors for its connection between isolation transformer and the attached light fixture Communications to from the LMS uses a unique power line communication technique developed by Safegate where the communication signals are superimposed on the series circuit current 2005 SAFEGATE International AB Ostersund SWEDEN 4 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description 6 2 The SIU Sensors for presence and direction detection of aircraft and vehicles on the airfield can easily be interfaced to the ASP System using an SIU The SIU communicates the detect no detect status signals as well as its own status to the series circuit in the s
62. number of minutes 50 seconds 60Hz mains Note that the monitoring functionality always should be activated after configuration changes have been made to verify that the system function 2004 SAFEGATE International AB Ostersund SWEDEN 45 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 10 2 Monitoring functionality The monitoring functionality is fully implemented in firmware 6025 and later The monitoring functionality is activated with the Start button State for every fixture is presented in the list and the numbers of lamp failures are shown to the right The monitoring continues as long as the SCM is active or Stop is pressed 11 USER HANDLING To get access to the functionalities in AMT the user must as previously described log in when the program is started Depending on what access rights the user has some functions in AMT can either be completely or partially blocked Which functionality that is available is also depending on which variant of AMT that 1s used see section 6 4 11 1 User groups AMT is using four user groups to configure access privileges for individual users e Administrators e Privileged users e Users e Guests Fr Create new user To each of the different user groups access rights are configured both access to different tools windows and access to specific functions within a tools window
63. provides information about status and control data details for each type of ASP equipment provided in the Modbus Interface 3 APPLICATION This document describes the interface details between the ASP and the host system at airport The specific interface memory bitmaps for a project can be found in a separate document describing the Wordbit table 4 EXTENDED FUNCTIONS The basic functions include SCM Sensor Segment Control Segment Status and Lamp Status Besides these basic functions some extended functions can be included as options These functions will be described in the appendixes Appendix A Stopbar Appendix B General Light Systems Appendix C 2A intensity control 2010 SAFEGATE International AB 3 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface 9 1 9 2 9 3 INTERFACE PROTOCOL Modbus Protocol Details The host to NCU interface 1s based on Modbus RTU Safegate supports both Serial and Ethernet implementations Serial parameters are RS 232 or RS 485 e Baudrate 9600 up to 115200 e 8 data bits e Even parity e stop bit e The NCU will be slave server and the HOST system will be the master client e The HOST system shall typically use Slave Address configurable when communicating with the NCU Ethernet parameters are e IP Address to be decided e Port 502 changeable The HOST system
64. required for external LOAD RESET COM 2 RS232 connection for advanced test maintenance of the daughterboard TEST 1 Test points motherboard For factory tests TEST2 Test points daughterboard For factory tests and advanced commissioning Remark Advanced maintenance and commissioning 1s only performed by or with support from Safegate personnel 7 6 4 Jumpers There are a number of jumpers on the SCM board which must be correctly configured to ensure correct operation SL1 Transmit power nz Operative Out Test SL2 Receive mode In Operativt Out Test SL3 Receiver gain In High Out Low Not used SL4 Pgm load mode In Progr load Out Operative SL5 Pgm load ext control In Available Out Not available SL6 Reset ext control In Available Out Not available 7 6 5 Daughterboard A daughterboard equipped with a digital signal processor DSP is mounted on the SCM board This provides better performance and easier commissioning 7 6 5 1 LED indicators There are some green LEDs indicating internal voltage supply 5 5 3 3 V on the board Additionally 2 indicators INC U D exist on the board these are used for debugging purposes and are of no interest to the user 7 6 5 2 Connectors Besides the front connectors COM 2 TEST 2 there are two connectors for connection with the motherboard and one for factory programming 7 6 5 3 Jumpers If existing the jumpers on the daughterboar
65. sana aan 23 8 2 1 2 SCM Maintenance Geguence isses esses nena nnns nhanh nas saa anna naa nnns 24 O 2004 SAFEGATE International AB Ostersund SWEDEN 2 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 8 2 1 3 Troubleshooting SCM Maintenance 24 9 2 2 Loading SCM ge 25 8 2 3 Advanced Maintenance nennen nennen ann nsn nna nnn rise naar nnns nnns 26 8 2 3 1 Loading SCM edel T ME 26 8 2 3 2 Loading SCM oarameierg cccccccssseeccceccccccssseeeeeecceessasseesseecessssaaueeeseeceessssaaeeseeecesseeaaas 27 83 Cl cudysyiziiie A A 28 8 4 Circuit Monitor eee 28 8 4 1 Monitoring Circuit Communication 28 8 4 1 1 Evaluation of monitored communication eeeeeiiss esses eene nna nnns nna nnn 31 8 4 Sending Commands oocccccnccccnccoonncnnnnncnonnnnnnnnnnnnnnonnnnnnnnnnnnnnnnnnnnnrnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnss 32 GS A E O y EE 32 8 4 4 Menu Command Heterence asana aana aaa a aana anaa anana aaa a anana naa a anana eaaa anana eaaa 32 04o Omer DING NG EE 33 A A 33 9 1 FCU ENEE e 33 9 1 1 A le 33 9 1 1 1 TIE CONNGUT ALON PA a tcs 34 9 1 1 2 The FCU Parameter Pana annees E EEE ag adan 34 g2 A AS PP PUE PO UU CE PER 36 9 2 1 Ve ee NC AP a aan o OO mo a 36 9 2 1 1 ASP system power cable COMMUNICATION eee nnne na nnn 36 9 2 1 2 GITCUIT Uning DIINGIDICS P
66. sensor detections as reported from the airfield components and thus is the central point of the ASP System as operated from each vault As such individual lights can be grouped in lighting segments spanning one or more Series circuits for example an interleaved stop bar In turn the CU provides alarm status for percentage and adjacent lamp failure within those defined lighting segments per requirements for low visibility operations Airfield lighting and ASP System component status are constantly monitored and updated to the Host Supervisor system upon occurrence O 2005 SAFEGATE International AB Ostersund SWEDEN 5 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description Host Lighting Control PLC Tower Control Greyed area not part of ASP system Host Lighting Control PLC Vault Control RS23 Gelz S bud ST eme RWY TWY Figure 1 ASP System block diagram redundant CU configuration depicted 6 6 Flexibility The fact that the segmentation of lights into selectively controlled blocks is made in software and not by means of cables and CCRs or selector switches reduces the installation and hardware costs substantially and at the same time increases the flexibility of the airfield lighting system A segment can
67. sequence individually Bum Hose tian Bun Fred Sweep Analyse Hege Open Log File Save pies cripta Select Elter Save Log As the configuration file select circuit check the Exit uration tab and press the start button to run the on sequence sequence Modify the configuration from the tools men and repeat the analysis as needed Show Details Prompt to Save on Exit 007 06 25 13 58 32 2007 06 25 13 58 32 NH SESSION STARTS AMA Ready 2007 06 27 10 10 36 2001 06 27 10 10 36 gt NH SESSION STARTS AA Ready 2007 06 25 16 44 36 244 SESSION ENDS dii H LI E Figure 17 The ASP Circuit Tuning box open appropriate LMS configuration file ASP Circuit Tuning fei File Tools Help Circuits in Config File D2L86P1 bd Select Circuit LZ APT Manual Sequenc Auto Sequenc Aun any step in the auto sequence Start Individually configuration file select circuit check the ered ed RE ion tab and press the start button ta run the Modify the configuration from the tools mem Run Freg Sweep t the analysis as needed pt to Save on Exit ima se kegs Af SESSION STARTS Ready Loading list of circuits fram conta file EXA mMTASIN Lmeb tet Ready E 2001 11 13 11 27 34 2001 11 13 11 27 34 2001 11 13 11 23 41 d H i 2001 11 13 11 29 4 Figure 18 The ASP Circuit Tuning box select app
68. supervision can be supplied The external power supply is normally installed in the same cabinet as the SCM rack s Separate fuses above each slot gives selective protection for malfunctions on the SCM board level T 4 0A 5x20 mm Individual fuse for each SCM board slot 1 8 T 1 0A 5x20 mm Internal cooling fans 3 7 3 SCM rack 7 3 1 Specifications Parameter m i Mim typ Max Unit Power supply Supply voltage JW ep e vs fe scwboard Pe jat faz w Interface BEEN CEE O EE Environment Mechanical data Weight Without SCM boards Kg 2000 2003 SAFEGATE International AB Ostersund SWEDEN 6 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO UP 1 e SCM Rack 591883 User s Guide Note Actual current consumption RMS peak and heat power loss depends on transmit power parameters set at commissioning Values at 24VDC supply 7 3 2 Connections rear On the rear all connections required for installation and operation of the SCM rack can be found Each channel 1 8 1s identified by the numbers below the connectors Connector rear Description RS485A RS485 channel A comm with CU RS485B 232 RS485 channel B alternatively RS232 comm With CU RS485 alt RS232 is selected by jumpers on the backplane Connection to Communication transformer 24V DC Connection to power supply Earth bolt Connection to protective earth PE AUX Not used VO IN
69. the lamp intensity deviates from the requested intensity When a change in intensity 1s requested there will be a short time until the NCU has actually changed the light output from the lamp The NCU will keep the previous value of the Intensity failure signal in this short time period The Intensity failure will be set when the NCU has failed to change the intensity to the requested intensity 0 0K The lamp corresponds to commanded intensity Intensity failure The lamp does not correspond to commanded intensity 2010 SAFEGATE International AB 18 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance ASP System Preventive Maintenance O 2003 SAFEGATE International AB Ostersund SWEDEN 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE 30 06 2010 15 32 00 SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance CONTENTS 1 REVISION e E e E 3 SCO e E 3 o aaa 3 nm o 3 S EECH 4 6 Preventive ASP Component Maintenance oooomnnccccnnnnncccccnncnncoccnnnannconennnnnncorennnnnncrrennnnnnrrrennnnnennnas 4 lt P A 4 O EE 5 O A NT AN i PPP o 5 SC UEM E 5 O eege 6 A e A An o 6 JS e ee 6 o 6 SS I H 7 6 10 B o
70. to follow all applicable codes in making chassis ground connections Page 4 of 6 ASPO Safegate Group Manual Date July 2010 Document ASP INTRODUCTION Version 1 0 ABBREVIATIONS AC Alternate Current o ACC Apron Control Cente S AB AliroraftLoading Bridge ASP Lidd SmartPower S ATA Actual Time of Arrival o ATD Actual Time of Departure SSS Advanced Visual Docking Guidance System CCR ConstantCurrentRegulator ct Cemrelie S CPU Central Processing Unit S CR CommunicationRoom SS CU Control Unit of Docking System o SSS CU Concentrator Um DC Direct Current 3 3 3 3 O DS Docking Gui Een 0 0 Em FAT IDS 0 0 0 Docking Guidance System Electrostatic Discharge Estimated Time Of Arrival Estimated Time Of Departure Factory Acceptance Test Flight Information and Display System FIDS A A A A A A C C C C C C GMS GOS Human Machine Interface Human Machine Interface GMS 1 00 GOS Du vO IR RR S IOM Installation Operation Maintenance ISO International Standardisation Organisation T Information Technology SSS tec o Lon Information Technology Life Cycle Cost C B D A D R U S D A D 7 D M O C D Liquid Crystal Display D C C L S T T C L P R U U DC DG ES ET ET FA M O HM I O IC IO IS IT LC LC Network Time Protocol OP Operator Panel unit THORN IDMAN es Airfield Lighting
71. where a time slots and a sync word meet an FCU can be configured to communicate Start the communication sequence by pressing the Start button or F11 Depending on the system configuration file content one or several columns will soon be filled with signal level data A red dot indicates the time slot and sync word combination for the FCU currently selected in the FCU Id box By selecting another FCU Id the red dot will change location based on the communication parameters of the FCU selected Note that 2004 SAFEGATE International AB Ostersund SWEDEN 28 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide whether FCUs are in sequence or not with reference to time slots and sync word numbers depend on the configuration The number next to the red dot is the received signal strength for the selected FCU The colour indicates the commanded state where green corresponds to ON or DETECTION if it s a SIU e g 43 and white to OFF or NO DETECTION if it s a SIU e g 45 A communication problem with the selected FCU is indicated with a red colour e g BB All system events such as status changes or orders are logged in the window at the bottom of the main Log window The log window can be enlarged by dragging the vertical splitter bar up or down Circuit Monitor Xx Options Listen Made TS 5 1 5 2 5 3 5 4 5 5 5 b 5 7 5 8 Circuit Id F
72. where the related SIU is located Insert wires through conduit fitting Leave enough slack in wires so that the MBD units may be adjusted in height and tilted after radomes are replaced NOTE After wiring is complete it is recommended that entry conduit be filled sealed with non corrosive sealant such as Dow Corning 738 RTV This will prevent moist air in the conduit system from entering the MBD Transmitter or Receiver 8 3 4 Securing the MBD and post Securely fasten a ring bolt to the concrete base A ring bolt should also be mounted on the lower part of the post just above the breakable coupling A safety catch wire with spring safety hooks attached at both ends should then be fastened between the base ring bolt and the MBD The wire should pass through the post s ring bolt and then be connected to e g the swivel assembly between the mounting plate and the MBD head 2002 SAFEGATE International AB Ostersund SWEDEN 11 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE Ch GROUP 1 4 ASP LMS System Documentation Microwave Barrier Detector MBD 596530 User s Guide 8 4 Connecting Transmitter and Receiver The procedure 1s the same for both Transmitter and Receiver unit 12VDC INPUT INPUT TEST 12VDC T2VDE Remove the radome of the MBD by removing the six radome screws Insert power and alarm circuit RX only wires through conduit fitting Leave enough slack in wires so that the unit may be adj
73. will poll the NCU at periodic interval to read the status of all equipment Initialization and Failsafe In projects where the HOST system performs control and not just monitoring the NCU expects the Host system to cyclic perform the control The NCU will enter Failsafe mode programmed in LMS if the HOST system stops the write request Segment commands on or off must be sent to NCU when connection is established with NCU before Failsafe 1s removed Modbus Frame Below is a description of the Modbus Protocol for Serial interface The protocol is similar in the TCP version except that a 7 byte header is added and the CRC is not used 2010 SAFEGATE International AB 4 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface Read Request Field Name Example Hex Slave Address 01 Function 03 Starting Address HI 00 Starting Address LO 64 No of Registers HI 00 No of Registers LO 40 CRC XX Read Response Field Name Example Hex Slave Address 01 Function 03 Byte count 80 Data HI XX Data LO XX Data Hi XX Data LO XX repeated for remaining bytes CRC XX Write request Field Name Example Hex Slave Address 01 Function 10 Starting Address HI 00 Starting Address LO 01 No of Registers HI 00 No of Registers LO 01 Byte count 02 Data HI XX Data LO XX CRC XX O 2010 SAFEGATE International AB 5 18 14 G591890 3023H
74. 0 O 2004 SAFEGATE International AB Ostersund SWEDEN 9 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP LMS 591886 User s Guide The formula does not take into account tolerances of the isolation transformer power rating nor does it account for the efficiency and the ratio of the transformer Consequently the calculated transformer rating is conservative but nevertheless it s not recommended to use transformers with power rating below the calculated 12 TROUBLESHOOTING Among the most common causes for failure or malfunction is erroneous installation 1n terms of bad cables ground faults shorts through e g water penetration in the light fixture problems with the installation transformer and or defective connectors If the problem remains even after the above have been confirmed okay replace the LMS If the problem remains after replacement this indicates that the cause is most likely to be found in the installation 13 ORDERABLE PARTS The LMS comes in three versions the difference is how the LMS is interfaced to the lamps 591886 11 Single LMS with one FAA style7 connectors 591886 21 Dual LMS with two FAA style7 connectors 591886 22 Dual LMS with Swedish style 4 pole connector Amerace part no 95 04MR O 2004 SAFEGATE International AB Ostersund SWEDEN 10 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE A 1 A ASP LMS System Documentation Microwave Barr
75. 0 VAL c MN not included i AA Shielded cable not included Connector FAA L 823 Style 1 2 pin ISOLATING TRANSFORM not included series Circuit Filter p i S X Shield not connected ar 3C 2s fi SH RE aS SS SERIES CIRCUIT CUR 8 A 8 6 5 3 SCF The SCF connects to the series ciruit according to the figure below Note that the SCF is connected to the primary cable directly on the CCR outputs The SCF may either be mounted outside the CCR encapsulated or un encapsulated inside the CCR CONNECTED TO CCR EE DUIPUT max 5000 V E Dp E G 4 Length 400 mm c TI ur Length 800 mm A IE T T OPTIONAL MODEL Protective Earth ISOLATING TRANSFORMER e 1 Not included N V Connection to pin Series Circuit Modem tal a 1 Length 500 mm IT IT INT ED
76. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 z 00 00 00 00 00 00 00 00 00 00 no no no 00 00 on no 00 OO 00 no no 00 00 00 19 F 01 BS 01 03 24 00 no 00 no OO no 00 OO OO OO no On OO OO OO Op OO no OO no OO OO on 00 00 00 00 00 00 00 00 00 01 70 01 70 7B F2 COME RS 232 Errors Framing O Party 0 Mode D 10 0 Gresk O Overrun O Tx Ful O Rx Overflow D DNS 0 OOP 0 PTO O 2 ek Connected In accordance with the Modbus protocol you could see the sent commands from the Host system shown in green text and the response from the NCU shown in blue text In the Modbus view window it is possible to select e Send shows the data sent from the NCU to the Host e Receive shows the data sent from the Host to the NCU e Active when selected the data is continues written in the window When not selected the data 1s no longer written in the window and it is possible to scroll 1n the window to see the old data The Hex and Auto scroll options should always be selected 8 1 2 View window of data sent received Go to menu View and select Base IO In the pop up window select the name on the IO channel to show and press the OK button The window view opened looks like the picture below 2008 SAFEGATE International AB SWEDEN 11 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE ASP System G RO U P NCU User s Guide E Modbus Log NCU P5 Clzs vicy Active Data format M Write register W State C Byte Decinal W Fe
77. 1 to OUT 4 Only the outputs that are controllable in the SIU parameters are enabled Remote Control Mode SIU Voltage shows the SIU output voltage For a more accurate reading use the multimeter connection on the LPC IN I to IN 4 control the SIU inputs on the LPC The color of the text in the buttons states what status the SIU is reporting for that particular input Black font Waiting for report from SIU Green font The SIU reports with the same status as the current input Red font The SIU reports with incorrect status INPUT LOGIC has the same function as the corresponding switch on the LPC That is to choose if the buttons IN 1 to IN 4 should be lit or not when the button is pressed in O 2004 SAFEGATE International AB Ostersund SWEDEN 22 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide LOAD 1 and LOAD 2 is used for loading the SIU voltage output The voltage shown to the right of SIU Voltage may drop slightly if any of the loads are activated The load will automatically be turned off after about 10 seconds PROG has currently no function in Remote Control Mode Manual Mode IN 1 to IN 4 shows the SIU reported status for that particular input The answer is coded in three different colors Green font The SIU reports that the current input is on Organge font The SIU reports that the current input is off Red font
78. 7 2 1 5 Save Layout If Save Layout is selected in the View menu the program will start with the same layout as when it was shut down the last time before 7 2 1 6 Lock Layout By selecting Lock Layout in the View menu tools windows can neither be docked or undocked This does not influence the possibilities to show or hide windows Every time AMT is started Lock Layout will be activated If the user wants to change the layout Lock Layout must first be deselected 7 3 Communication settings In order to get AMT to work correctly there must be an active connection to a SCM That is irrespective if Use Port AMT is connected to a LPU or an ASP system Use COM Connection manager to specify what type of C Control and Monitor connection there is and what COM port is used on a the computer Is AMT connected to a LPU select LPU Is AMT connected to an ASP system select Status No Connection either Monitoring or Control and Monitoring To activate all functionalities m AMT AMT must be run Im Control and Monitoring mode Actual state of the connection to the SCM is shown at the bottom of Connection Manager 7 3 1 Monitoring When AMT is connected to an ASP system monitoring meaning that the ASP system is operative AMT is only listening to the operative communication Listen Mode To avoid interference with the operative communication all commanding functionality in AMT are blocked in the monitoring
79. 8 1 2 1 LMS Function Test Function T est Start Checksum Check LMS LPC Status LPC Mode Pow FEMOTE Um ET O 2004 SAFEGATE International AB Ostersund SWEDEN 21 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide First choose the correct FCU Id in the list Then press Start to start the communication with the LMS The status returned from the LMS is shown to the right of Status There is three different states ON also implies to FLASH OFF and LAMP FAIL also implies to com Error The LMS can be controlled by using any of the three command buttons ON OFF and FLASH If Remote Control Mode is activated you can click on the LAMP I 2 buttons to disconnect the lamp The LMS should then report LAMP FAIL If Remote Control Mode is not activated the user must manually control the LAMP 1 2 buttons on the LPC 8 1 2 2 SIU Function Test Function Test Start Checksum Check SIU LPL Status SIU Voltage DUT 1 LPC Mode IN IN IN IN PEMOTE OUT 2 oN or OUT 3 Low or OUT 4 Lon ofr 1 2 3 4 First choose the correct FCU Id in the list Then press Start to start the communication with the SIU The status returned from the SIU is shown to the right of Status There are three different states Detect No Detect and Com Error There are eight buttons for controlling the four outputs on and off OUT
80. 891 G RO UP AMT Basic Pro User s Guide e Inthe field Comments general information can be added and saved with the configuration file e The field Info shows information from the last time the configuration file was saved 1 Press Open to select the SCM configuration file file extension CFG 2 Press Set to send the configuration file to the SCM NOTE If the SCM configuration settings are changed remember to save the new settings Save the old settings to a changed name file and the new settings to the existing file name It is important to save the new settings to the same filename as before 1f the SCM maintenance should work as intended Otherwise the SCM configuration file will NOT be read automatically when using SCM maintenance function 8 2 3 2 Loading SCM parameters SCM Maintenance Parameters Configuration Firmware Terminal Parameters Set Get Parameters set F1 Timeout seconds Receiver Gain Transmitter Power Reception Window Stark Receiver Setup Modem Address Parameter Files Open F3 Save As F4 SEM ID Number of Time Slots Minimum Detection Level Start Transmission Stop Transmission NL Gan Status Black Length Current Tracker Setup Sync Selection Circuit Selection Current Threshold Init Delay Spare Spare Spare Erase all SCM parameters F5 Erase SCM parameter set FE Comments COBA EEOC Lt a IS e Set sends the pa
81. AB SWEDEN 4 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch ASP System G RO U P NCU User s Guide 6 1 3 No circuit power handling When the AspGwy receives the No circuit power signal from the SCM it will set all the lamps as being off If the segment is wanted off this 1s not a problem But if the segment is wanted on this will result in a reference error The Host system is responsible for handling eventual reference errors 6 1 4 Command optimization The AspGwy optimizes the command method used to get the most efficient way of communicating This is depending on which and how many segments to send commands to The optimization can not be used if flashing segments have to be updated 6 2 Adjacent lamp calculation The AspGwy include an adjacent lamp calculation algorithm Information regarding adjacent lamp error is given within one segment If information regarding adjacent lamps between segments is needed this has to be calculated in system logic at a higher level Segments controlled and or monitored by two different NCUs e g in two substations will not be evaluated for adjacent lamp error this will be the responsibility of the Host system 6 3 Sensor The AspGwy can receive status signals from the field sensors connected to the ASP system via SIU e g Microwave Barrier Detectors or Inductive Loop Sensors Field sensors are typically used in stopbar systems to handle switching of interlocked stopbar and t
82. AINTENANCE The term Circuit Maintenance refers to circuit monitoring and circuit tuning Circuit tuning is the process tuning the communication between the field and the vault units 1 e the LMSs SIUs and the SCMs in an ASP system Circuit monitoring includes low level ASP system performance monitoring Both circuit tuning and circuit monitoring are always performed during ASP system commissioning In addition especially circuit monitoring is an essential and powerful tool when doing ASP system troubleshooting 8 4 Circuit Monitor Note that the circuit monitor only is intended for advanced users The Circuit Monitor feature in AMT provides a user friendly interface to low level ASP system performance monitoring It supports the following Circuit communication monitoring with communication statistics and log functions Command interface for sending ON OFF and FLASH commands LMS and SIU version query support The best way to learn how to make the most use of the Circuit Monitor is to actually use it Therefore this part of the document is written like a basic walk through with the objective to get the user accustomed with the basic properties and procedures associated with the Circuit Monitor functionality in AMT 8 4 1 Monitoring Circuit Communication The left half of the Circuit Monitor Screen below contains a matrix where the rows correspond to time slots TS and the columns to sync words S In every location
83. ASP Manual THORN IDMAN SAFEGATE A Airfield Lighting G RO UP Note This page is blank for convenient double sided printing ASPO Safegate Group Manual Date July 2010 Document ASP INTRODUCTION Version 1 0 ASPO CHAPTERS AND APPENDICES CONTENTS Section Description Preface ASP Introduction 1 ASP System General Description 2 AMT Pro Basic user s guide 3 SFU User s Guide 4 LPU LPC User s Guide 5 SCF User s Guide 6 SCM Rack User s Guide 7 SIU User s Guide 8 LMS User s Guide 9 MBD User s Guide 10 NCU User s Guide 11 ASP system power line communication 12 International Standards Compliancy List 13 Case Description Turn key ASP 14 ASP Modbus Interface 15 ASP System Preventive Maintenance 16 ASP Troubleshooting and Maintenance THORN IDMAN Airfield Lighting ASPO Safegate Group Manual Date July 2010 Document ASP INTRODUCTION Version 1 0 WARRANTY Project Warranty The Contractor Safegate Group or subsidiary Company hereby warrants that there shall be no significant failure or substantial reduction in performance in the following product or system the performance criteria for which are as contained within the Project Contract This Warranty shall commence on a specific date and end on a specific date according to the Project Contract The Contractor warrants to the Principal Customer agent or sub contractor that all work performed and all goods supplied by the Contrac
84. CU In such case ASP signalling on the series circuit will cease as a result of the hardware failure thereby forcing the LMS to assume their pre programmed Failsafe state 7 COMMUNICATION PRINCIPLES The information exchange is performed according to the structure shown below in Figure 2 Host Computer System Gustem Alarm Order Status y Pre Status Alarm mani CU SCM Segment Ge Com LMS ge On Off S p e SIU SSU 5 OK Fail CU Concentrator Unit Order Status SCM ID Segment Lamp ID On Off Detector On Off System Status SCM ID LMS ID SIU ID OK Fail SCM Series Circuit Modem Order Segment On Off Status Lamp LMS ID SIU Detector On Off O K Fail LMS SIU Airfield Components Figure 2 ASP System information exchange The communication between the components at the different levels is such that the higher level device always polls the lower level device evaluates the answers and determines the on off and pass fail status for the functions or components 2005 SAFEGATE International AB Ostersund SWEDEN 8 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description below If a unit fails to report within a predetermined amount of time it is assumed to be failed until reported otherwise The evaluation of conditions is performed at the lo
85. CU Id F GL 15A AGL 001 Gm Gm Grp Grpd Loop Addr Fifi reno rn pl mb Dun TS SCM Addr TxTime fo fac sr er Check FEU Version Bl ALC 42 60 Communication Statistics Max O H Samples D Ge ON OFF FAIL Oper Min 0 Fails 0 DN Avg D 3Fal O plns _ Save Cur D E Fall U Fail List E FAIL Percent Reset y 4 Zoom Noise Show Noise Noise Freq Noise Sync Max Fi 12 f Fl ON v1 Min pa 10 HM Avg D EZTGEF Cur 0 SCM comm E Figure 13 AMT Circuit Monitor user interface Shaw Hotes Setup SE In the middle to the right a graphical presentation of the signal levels is displayed A blue cursor indicates the position of the FCU currently selected A zoom feature allows the user to zoom in on or zoom out off the graph The panel below the graph labelled Communication Statistics displays the following numerical statistics for the selected FCU Maximum signal level value monitored Max Minimum signal level value monitored Min Average signal level value monitored Avg Number of communication cycles Cycles O 2004 SAFEGATE International AB Ostersund SWEDEN 29 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide Number of communication dropouts Fails Number of communication dropouts three in a row 3Fail Percentage of communication fa
86. EN 3 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP LMS 591886 User s Guide The LMS communicates over the series circuit with the SCM using a unique power line communication technique developed by Safegate From a system perspective the SCM controls the communication master and the LMS and the SIU respond to its commands slave The LMS will on command either turn on or turn off or flash the lights connected to it In addition the LMS back indicates the status of the lamps to the SCM Lamp status includes both lamp filament status and operational status 1 e 1f the lamp is on off flashing or defect 6 COMPATIBILITY The dual LMS 591886 1s the first generation LMS with dual lamp output therefore there is no need for backwards compatibility from a hardware perspective From a system perspective a dual LMS 591886 can be used in older ASP system at a system extension 1f needed The single LMS 591886 1s compatible with both LMS 591835 591817 and 591803 This implies that a single LMS 591886 can be used as spare transparently in a system originally equipped with LMS 591803 591817 or 591835 7 OPERATIONAL CHARACTERISTICS To which extent all LMS functionalities are used is determined by the application This means that all functionality described in this document is not necessary used at a specific installation Below is a summary of the most prominent functionalities that are av
87. EN JJ SERIES CIRCUIT H o Deg Connector FAA Style 2 9 6 5 4 Control System Interface The interface to the control system 1s through relays to and from the SCM s digital I O two 25 pole DSUB connectors on the back side of the SCM 2002 SAFEGATE International AB Ostersund SWEDEN 7 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP 6 5 4 1 SCM Control Inputs Control signals from the control system are connected to the SCM connector marked DIG ANA IN Inpucl COM RWY conrtiguratiomn 1 14 Potential free contact closure Inputz AF RWY configuratzion 2 15 Potential free contact closure 6 5 4 2 SCM Alarm Outputs Alarm outputs from the SCM are availble through the connector marked DIG OUT Function Remark Outputl lamp failure a iu Potential free contact max 500mA 100VDC Output2 system failure 10 23 Potential free contact max 500mA 100VDC 6 5 4 3 Control Logic Control logic according to the table below COM Closed Not defined No change of RWY AF eeh configuration Open Commercial RWY Switch RWY Tosed configuration configuration if selected current configuration is AF Closed Air Force RWY Switch RWY configuration COnTiguracion Xr selected current configuration is COM Open Not valid Equivalent to no connection between SCM and control system SCM will activate system alar
88. ET box SLM DRIF 2 e 7 e 3 SR al o a o b BE 3 2 co ooooooooQ EA e SOM 591813B o SCM serios circuit Modem __sarsears UBF RS232 Cable UBF COM 1 e 7 3 Connecting LMS Use the supplied cable 594115 to connect to Output 1 or to Output 2 The Short Circuit Plug should be plugged into the output not in use Output 2 or Output 1 the two outputs are connected in series and gives equal functionality Then use the cable 594116 to connect to LMS at LAMP l or to LMS at LAMP 2 7 4 Connecting SIU Use the cable 594115 to connect the SIU to Output 1 alt Output 2 as above remember the Short Circuit Plug For SIU ver 2 0 591885 use the cable 594112 supplied to connect to the STU connector on the LPC To connect the old version of SIU 59 805 ver 1 3 an adapter cable is required 594113 to be ordered separately 8 MAINTENANCE The LPC is designed for highest reliability during many years and will require only a minimum of maintenance Depending on the use some parts may wear out and be subject to replacement most likely the plugs and connectors avoid mechanical stress on these parts
89. FEGATE International AB Ostersund SWEDEN 5 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P LMS 591886 User s Guide 9 PROGRAMMING The application specific functional properties of a LMS are controlled by a set of parameters originally downloaded to the unit prior to installation These parameters may also be modified after installation The mechanism used to download parameters to a LMS in the field uses the same power line communication channel used for commands from the SCM and status back indication from the LMS Normally all necessary information for programming a LMS being a part of an ASP System is contained in a database unique to each system If an LMS needs to be replaced parameters are fetched from the database and downloaded to the unit using a LMS Programming Unit LPU For programming procedures refer to document SG591891 3006 AMT User s Guide 10 ELECTRICAL AND MECHANICAL CHARACTERISTICS Unless differently noted all maximum values are absolute maximum values characteristic EE Series Circuit Supply Current from series circuit 50 60Bz Mul E omm mel Peak input voltage series circuit terminals V suPPLY LMS input voltage series circuit terminals Dual LMS Isolation voltage ZR NN NN Interface isolation transformer rating ai Output ERC ES E SOW Miscellaneous ASAS A AI IA IA LMS power
90. FF shall be able to be individually programmed for the field units Argument For safety reasons 2005 SAFEGATE International AB Ostersund SWEDEN 11 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description Requirement The field units shall be able to be individually programmed with a predefined power up state ON OFF or last commanded state The field unit shall be able to remember its last commanded state at power losses for up to 20 seconds Argument For safety reasons The power up state of the lamps must be well defined even if other parts of the system are down The field unit must be able to remember its last commanded state at short power losses for example when switching between mains power and generator set power Requirement The field units shall use standard isolation transformers and standard connectors 8 1 1 6 Functionality Requirement The field units shall be able to withstand the same current levels as isolation transformers are required to i e 7 1 Arms continuously and 8 2 Arms for max second Argument In accordance with FAA advisory circular 150 5345 47A Isolation transformers for airport lighting systems the maximum continuous current supported is 7 1 Arms Additionally the LMS is designed to withstand current transients in accordance with FAA advisory circular 150 5345 10E Specification for CC
91. IQ has received the new parameters If the checksum is correct a message box is shown to confirm this see Figure 4 above If the checksum is OK the LMS may be disconnected To program another LMS repeat this procedure from step 4 above However if a message box tells you that the checksum is incorrect then you need to reprogram the same LMS unit from step 7 above O 2004 SAFEGATE International AB Ostersund SWEDEN 18 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 8 1 1 4 Programming an LMS in Manual Mode l ocius JO 10 At the programming screen you first need to select the correct configuration in the System panel Multiple choices for FCU Type are available Select LMS Connect the LMS male connector to an OUTPUT outlet on the LPC Connect the LMS female connector to an LMS outlet on the LPC You also need to identify the individual LMS you intend to program You do this by either writing the id in the Find field to search for it or select the id in the System panel list Press the Download Parameters button to start the programming sequence A message box is shown to remind the user to turn on the OUTPUT POWER on the LPC see Figure 3 LPC Connect the LMS to the LMS and Output connectors on the LPC Turn on OUTPUT POWER on the LPC i Cancel Figure 4 Turn on OUTPUT POWER switch Follow the
92. Ji 2 e prisas a mer rae Ur Ur meo m 9 SIU LMS LMS Output 1 Output 2 Power 9 D LP C LPU Control unit D sarecate A B 2003 SAFEGATE International AB Ostersund SWEDEN 4 SG591862 3001 LPU LPC USER S GUIDE 2010 06 30 SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide CONTENTS 1 REVISION DISTO 3 2 SCOPES Se APPI INON eege 3 3 ell CC e TIVE 3 Wl Ee 3 5 nde e EE 4 5 1 AA e no a 4 e ue le E 4 6 Connections Control Panel etC oocconcconcconcconnconnccnncanaronaronaronaronaronar cana cana aoa RR ARR ARR ARR ARR ARR KEREN 5 6 1 gi M EK A nn 5 o 6 6 2 1 Sa 6 6 2 2 ENE SOC MOM NETTEN 7 6 2 3 EIC te Leiden CN 7 DO O RE 7 E A EE E e e alani ajina Gin ena A ER ka mabaka aa nia ia anaa 8 P MEE 001 c0 5 0 c aaa wa aa epic A ties 8 Lea ee leede Le rana akas a aaa 9 La TIMECUAO EMS lt a 9 FE CONS CA nr 9 8 NEE 9 O 2003 SAFEGATE International AB Ostersund SWEDEN 2 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide 1 REVISION HISTORY LL LLL AAA LLL 2 SCOPE amp APPLICATION This document gives an introductory description of LPU LMS SIU Programming Unit made up by the LPC and the SCM with LPC 591859 ver 3 in focus For details on the SCM refer to the SCM User s G
93. L 1 REVISION e E e E 3 OOP ccc 3 MEE ine lai 3 REED ell CU E Te TEE 3 5 O 4 6 INTTOUC MON ici ia 4 7 ASP component description mrcesininitnsnincc inline 5 7 1 cn A EEE 5 le qe SUDDIV E 6 EE a eee 6 7 3 1 eerie Ier diet ERE E I UNE 6 7 3 2 Beieleit roal TIERE cnm 7 Toa FOU NO POA E 8 7 4 Communication transformer cccceceececcecceceececceececeeceeceeaecaececeeaecaecueseeaecueseeaesaecuesesaeseesneaees 9 fa eo c Mum 10 7 5 1 EBETE E o d RTL 10 7 5 2 RS 232 RS 485 alternative nomad ta idas ida 11 7 5 8 RS 485 Terminations amp Falsate cece ccccccceceeceeceeeeceeceeceenecuecuececaeceecesaeceeueaeeaeeneseeaes 11 O Muluarop RS485 USCS roads se cama das ud ossi cede 12 75 9 CERUSE Master IOV 6 EE 13 TO A o 14 A o o A 15 7 6 1 Front switch RSA485 RS292 sarsana aa ga aana Ega a aa a a a kaa aaa ga ag a Kaga a aaa ga a ag aa aga aa a agak AD Raga ah 15 7 6 2 LEDOK BATOS arsaa aaa aba aa A aa an E aa a aan aaa ga ig a Tg A aaa an a aka gate aal a ki a aa Da dag a ga a ani 15 7 6 3 mie Qe eier Sans ra a rad criada 16 i IMO CS EE 16 TS Do eo Ao PP 16 7 6 5 1 EE AON RIT 16 7 6 5 2 Vosges CRT TR E OPH 16 7 6 5 3 KEE 16 o E EN e BEE 17 8 1 Hardware msiallaton eran tirer rin 17 8 1 1 moie MP J HA 17 8 1 2 iP iio IP SIPPSS 17 8 1
94. MT Pro Basic user s guide guide 3 591876 3001 SFU User s Guide SFU User s Guide 4 SG591862 3001 LPU LPC User s Guide LPU LPC User s Guide 10 SG591943 3004A NCU User s Guide NCU User s Guide 11 ASP system power line communication ASP system power line communication 12 SG591890 3006 International Standards International Standards Compliancy List Compliancy List 13 SG591890 3013 Case Description Turn Case Description Turn key ASP key ASP Guide 14 SG591890 3023H ASP Modbus Interface ASP Modbus Interface 15 SG591890 3014 ASP System Preventive ASP System Preventive Maintenance Maintenance 16 SG591890 3004 ASP Troubleshooting and ASP Troubleshooting and Maintenance Maintenance Note This page is to be updated with every authorised change to the manual THORN IDMAN oe Airfield Lighting ASPO Safegate Group Manual Date July 2010 Document ASP INTRODUCTION Version 1 0 SAFETY INFORMATION The airfield smart power ASP system is for airport safety and efficiency The design is according to strict airport industry standards for the safety of and use by authorised airport personnel Airport Operations Maintenance and other Authorised Personnel This information is a summary of the safety requirements on operation and maintenance personnel based on general electrical and safety precautions Note lt is very important for authorised personnel to study this section before any operation or maintenance work on the syst
95. N 10 8 3 1 Propa WT H 10 8 3 1 1 icc REPE 10 832 Mo o n ng INE MBD maana dai ica ido aia oa 11 Do WHO WORK ernus io ind abans 11 8 3 4 Securing the MBD and post oocccccccconncnncccconncnncnnnnononncnnnoncnnnonnnnnnnnnonnnnncnnnnonnnnrnnnnnnannnnnennnnns 11 8 4 Connecting Transmitter and Heceiver nnne nnne nnne nnne nnns 12 8 5 COMMISSIONING the MBD rotten ornant R nine pn SE sau Rn See ai nenen 13 8 5 1 Indicators and umpers nennen nnnm nnns nnn nnns ann nnns nna nnn nnns 13 8 5 1 1 TENS WOT A o a 13 8 5 1 2 RECE A E E E A 13 8 0 2 Channel selection RR m E RATAN AEn a NGA aa A aa EKAT Naga 14 8 5 8 X Alignment and testing cccccoocncnnccccnnncnnnocnnncnnncnnnnnnnnnnnnnnncnnnnnnnnncnnnnnnnnnrnnnnrnnnncnnnnonannnnnnnnnnns 14 8 6 Documenting the installation ccoonncncocnncnnoconnnnonnnnnncnnanonnononencnnnncnnnnnnnnnnnnnncnnonanrnnennnnnnnnnas 16 9 NIE 16 10 et DISS Ne eh du o ec 17 11 Appendix MBD microwave beam pattern scccccesseessseeesceesseeeseeeenseeeseoeesseeeseoeneeeeseoness 18 12 Appendix MBD Installation Data e anana nenun nenen na wn nne eene enne nnn nnns 19 O 2002 SAFEGATE International AB Ostersund SWEDEN 2 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP 1 e 4 Microwave Barrier Detector MBD
96. N3 and OUT4 power output OUTI OUT2 and OUT3 are open collector outputs which sink a maximum of 100mA per output at a maximum voltage of 26VDC OUT4 is a programmable voltage output 12VDC at Imax 625mA 15VDC at Imax 500mA or 24VDC at Imax 300mA 2002 SAFEGATE International AB Ostersund SWEDEN 6 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide IU Sensor 15V sensor iu Input SIU pin 3 Output SIU pin 5 pin 4 pin 5 pin 6 pin 6 pin 7 10K AY d NPN or contact closure V 1K ART Figure 1 Input Output skeleton drawing 8 3 2 1 Power Output Characteristics The SIU hardware supports voltage fold back on OUT4 In other words output voltage will decrease as current increases Software monitors the voltage level continuously and if it falls below a certain threshold which depends on the programmed output voltage level OUT4 will be turned off in order to protect the output short circuit protection When the SIU has detected excessive current drain for OUTA the output will be turned back on for 100ms once every second until the current drain is within limits again in which case OUT4 will be left on 8 3 2 2 Protecting the Outputs When an output is driving a relay a free wheel diode D1 in the figure below 1N4148 is an example mus
97. NICATION When the application is running on the NCU you could see the little icon on the Task Tray of the computer When the AspGwy is opened password protected or configured for the specific site to be permanent open you could see different views as LMS Status view SCM Status view and Sensor Status view If they are not visible go to the menu View and then choose to open either one or all of these windows 7 1 LMS Status View In the LMS status window it is possible to see the status for each light LMS which are controlled by the NCU 2008 SAFEGATE International AB SWEDEN 6 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE ASP System G RO UP NCU User s Guide E LMS Status view Jia a GA o o o LeadOn B4 LeadOn B4 LeadOn B4 LeadOn B4 LeadOn B4 LeadOn B4 TC B4 D11 TC B4 D11 TC B4 D11 TC B4 D11 TC B4 D11 TC B4 D11 TC B4 D11 LeadOn D11 LeadOn D11 LeadOn D11 LeadOn D11 LeadOn D11 Leadoff B4 Leadoff B4 Leadoff B4 LeadOff B4 LeadOff B4 Leadoff B4 TC D11 B4 TC D11 B4 TC D11 B4 TC D11 B4 TC D11 B4 TC D11 B4 TC D11 B4 LeadOff D11 LeadOff D11 LeadOff D11 LeadOff D11 LeadOff D11 ooo OO OO OO OO CO B 40 Lamp Fail Off Off Off Off LMS Fail On On On Lamp Error Off Off Off Off Error OFF On On On e e OO OO OO OO OO oo oo OM OO OO re OO OO OO OO OO OO OO OH CH N n3 an Lamp Fail On On On Lamp Error On On On OO
98. Note that two LMS s with fixture ID numbers closest to each other not necessary need to be electrical neighbours because often the fixtures are installed on different legs out going and in going of the primary circuit when the two primary cable legs are running in parallel through the same manholes To figure out neighbour LMS s it is necessary to examine the primary cable drawings O 2004 SAFEGATE International AB Ostersund SWEDEN 42 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE GROUP Productdocumentation AMT 591891 AMT Basic Pro User s Guide Manual Frequency Mapping Eier erm Assign Auto Assign Ordo Dane fal ES Reference Liz 02L RE 2 081 12107 120 U2L RE 2 082 not defined Figure 30 Manual Frequency Mapping box Select a LMS in the Non Mapped window and one of its neighbours in the Reference List then press the button Assign Manual Frequency Mapping Mon Mappe 02L RE2 082 same as 2L RE2 081 121077120 Figure 31 Manual Frequency Mapping box The result of the manual assignment procedure is viewed in the Mapped window Press the button Done Then it is time to update the circuit by downloading the new parameters to all LMS s on the circuit and the SCM From the ASP Circuit Tuning box select Tools Update Circuit Figure 33 The Update Circuit dialogue box opens to double check if the user really wants to update the circuit Figure 34 pre
99. ON FREQUENCY NORMAL RELAY HOLD Could also give ALARM Could also give ALARM O 2002 SAFEGATE International AB Ostersund SWEDEN 13 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE Ch GROUP ASP LMS System Documentation 1 e 4 Microwave Barrier Detector MBD 596530 User s Guide ALIGN LATCH alt NORMAL ALIGN LATCH latches ALARM on detect faster tracking of align level when using RM82 Link Performance Test Set FAST SLOW not visible in figure Selection of maximum speed for the object to be detected 15 m s or 3 m s these figures are not direct applicable but indicate fast or slow response to an object RELAY HOLD HOLD IN Adjustable hold time 0 5 60 sec at ALARM SENSITIVITY Adjustable sensitivity applies to the size weight geometry and speed of the object 8 5 2 Channel selection The MBD features four 4 field selectable modulation frequencies It is advantageous to use different modulation frequencies on MBDs operating within close proximity Different modulation frequencies reduce the possibility of cross link modulation or mutual interference Attach PCB jumper wire to appropriate terminal to select desired channel A B C D The Receiver and Transmitter MUST be operated on the same frequency or an alarm condition will result 8 5 3 Alignment and testing To set up the MBD Transmitter and Receiver l Apply power to the Transmitter and Receiver If MBD is powered by an SIU the
100. P LMS System Documentation G RO U P SIU 591885 User s Guide 1 REVISION HISTORY Author Date Version Comment OH 2002 01 29 1 0 Document created OH 2003 03 31 1 1 Added details to installation section 2 SCOPE This document describes the Sensor Interface Unit SIU and summarizes its characteristics 3 APPLICATION This document applies to SIU 591885 with firmware version 2 0 4 ABBREVIATIONS SIU Sensor Interface Unit LMS Light Monitor and Switch Unit SFU Signal Filter Unit SCM Series Circuit Modem MBD Microwave Barrier Detector AMT ASP Maintenance Tool 5 REFERENCES SG591891 3001 AMT User s Guide 6 INTRODUCTION In an ASP System the sensor interface unit SIU constitutes one of the basic field installed components The LMS 1s another such component O 2002 SAFEGATE International AB Ostersund SWEDEN 3 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide An SIU is designed to control monitor and power up to four external sensors or various other types of equipment that support control and feedback through digital I O The SIU is addressed by the SCM to on command switch on or off anyone of its four outputs The SCM receives a back indication from the SIU that reflects the current input status e g detection or no detection sensor Status etc depending on configuration and application In addition several higher level function
101. PPENDIX B SCM AND LPC REAR VIEW AND INTERCONNECTION Yea Pi r rd PEE 7 E To per 2 2 AL r 5 VAI Connection Bo H ree LAN shie d Shielded Cato n TENES Lonnection Bo LPE 44 Cs E LPC y 5 shield Secondary cabe shie ded Pt ju E E aL HELD CONNECTI SHIELD CONNECTI ED ECTIO BD 3 SEN CON ECTION E OX LPL Figure displays the rear of an SCM and LPC and how these units are interconnected 2004 SAFEGATE International AB Ostersund SWEDEN 50 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE ASP LMS System documentation G RO UP Signal Filter Unit 591876 B 591877 B 591878 B User s Guide Signal Filter Unit 591876 B 591877 B 591878 B User s Guide O 2002 SAFEGATE International AB Ostersund SWEDEN 3 591876 3001 SFU USER S GUIDE 30 06 2010 15 23 00 SAFEGATE ASP LMS System documentation G RO UP Signal Filter Unit 591876 B 591877 B 591878 B User s Guide CONTENTS 1 REVISION NISL ON vue een 3 2 GONG POPE aa O En E nn H
102. REVISION HISTORY 2 SCOPE This document lists international standards that Safegate ASP system comply with 3 APPLICATION This document applies to Safegate ASP system 2002 SAFEGATE International AB Ostersund SWEDEN 3 5 12 SG591890 3006 INTERNATIONAL STANDARDS COMPLIA SAFEGATE e ASP LMS System Documentation G RO UP ASP System International Standards Compliancy List 4 COMPLIANCY LIST DOoOSBN 150 Complies 9001 1994 EMC directive Complies for generic emission Standard EN 50 081 r1992 EMC directive Complies for generic immunity standard EN 50 082 251995 ICAO Complies Aerodromes Annex 14 ICAO Complies Aerodrome Design Manual Part 4 Visual Aids 9157 AN 901 ICAO Manual Complies A SMGCS Surface Movement Guidance and On SMGCS Control System is a subset of an A SMGCS 9476 AN 927 Advanced Surface Movement Guidance and Control System An A SMGCS consist of ICAO Manual many modules e g On A SMGCS Draft e Vehicle surveillance 2002 SAFEGATE International AB Ostersund SWEDEN 4 5 12 SG591890 3006 INTERNATIONAL STANDARDS COMPLIA SAFEGATE e ASP LMS System Documentation G RO UP ASP System International Standards Compliancy List FAA Advisory Vehicle separation Circular orn dm ME SMGCS ehicle identification ACT20 5 72 Routing Guidance and control All these modules can only by realized by different kinds of system working t
103. Rs and regulator monitors implying 5 over current or 6 9 Arms for max 5 seconds overruled by the 7 1 Arms requirement presented above and 25 over current or 8 2 Arms for max second Requirement The field units shall automatically detect a failed lamp When the failed lamp is replaced the field unit shall automatically detect this as well and no additional procedure shall be required to make the system aware of that the lamp has been replaced Argument To guarantee maximum availability the system shall be able to handle low level functionality such as failed lamp detection automatically without user intervention This way maintenance will be efficient and the users of the system can focus on the operational aspects of running the airport Requirement The field unit must be able to report ON OFF FLASH FAIL state of the lamp and FAIL state of the field unit O 2005 SAFEGATE International AB Ostersund SWEDEN 12 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description Requirement The field unit must be able to command the lamp to ON OFF FLASH state In addition to that if lamp is commanded flashing the system must be able to keep the flashing lamp synchronized according to FAA advisory circular 150 5340 28 requirements for Runway Guard Lights systems 8 1 1 7 Flexibility Requirement The field unit performance must not d
104. SAFEGATE 4 ASP LMS System Documentation G RO UP 1 e 4 Microwave Barrier Detector MBD 596530 User s Guide 10 Make a Walk Test while monitoring the ALARM indication LED to check that the MBD is working O 2002 SAFEGATE International AB Ostersund SWEDEN 15 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de e 4 Microwave Barrier Detector MBD 596530 User s Guide 11 Use a fast vehicle car to check that the MBD detects at desired high speed when passing at the mid left and right side of the taxiway Normally SENSITIVITY must be raised typically to 2 7 of scale 2nd scale division To avoid spurious detections do not turn SENSITIVITY beyond mid setting 12 Replace radomes on Transmitter and Receiver using all six screws Make sure the protecting cap for the MS connector on the Receiver is replaced 8 6 Documenting the installation To make maintenance and follow up easier should for all MBDs in the installation the following should be recorded in the MBD Installation data document e Distance Transmitter Receiver e Mounting height Transmitter and Receiver e Supply voltage Transmitter and Receiver e Channel selection A B C D e Jumper settings ALIGN LATCH NORMAL FAST SLOW e SENSITIVITY setting e HOLD IN setting e ALIGN level RM82 When maintaining troubleshooting or replacing defect units recorded values and data should be chec
105. SLOT 1 Digital analog inputs only slot 1 VO OUT SLOT 1 Digital outputs only slot 1 EXT BUS 1 amp 2 External connection G bus O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 7 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide 7 3 3 Front and rear ee ee p ee ee e e ee y oe ee RS232 RS232 RS232 RS232 RS232 RS232 RS232 RS232 2 2 d 2 2 2 2 d c2 wo wo wo Co 69 CO Co UJ UJ UJ UJ UJ UJ UJ UJ Output 2 Output 2 Output 2 Output 2 Output 2 Output 2 Output 2 Output 2 RW Output Outpi Output Output 1 Output Output Output 1 Output Alarm lnit Alarm lnit Alarmlnit Alarm Init Alarm Init Alarm lnit Alarm Init Alarm Init Px Fx Fx Rx Rx Rx Rx Rx Tx Tx T T To T T T A A A A A A A A B B B B B B B B C C C C C C C C o MA TL JAN PL SAL NAM SAL ML o LISAL LISAL ISAL c ISAL SR ZOO IL Vol ch es Lo s AS
106. USER S GUIDE SAFEGATE ASP LMS System documentation GRO UP Signal Filter Unit 591876 B 591877 B 591878 B User s Guide 6 SFU GENERAL DESCRIPTION 6 1 Specification 6 1 1 Electrical and mechanical specification Unless differently noted all maximum values are absolute maximum values Gkaracteristics E Series circuit Supply power from series circuit 50 60Hz emm mm Environment E TR BEC EL CA Encapsulation IP68 Mechanical data Dimensions without cablage Secondary cablage FAR 1 82 class A contacta u 49 m e AAA E EXI E IS 133 5 Connector FAA L 823 style 1 Length 400 500 LE SAFEGATE 106 5 59187X B XXXX Part No Batch No Signal Filter Unit 3 Connector FAA L 823 style 7 Length 400 500 According to FAA advisory circular 150 5345 47A Isolation transformer for airfield visual aids During max 1 second according to FAA advisory circular 150 5345 10E specifications for constant current regulators Optimal functionality is obtained with Amerace 200W isolation transformer type TA200665 01 2002 SAFEGATE International AB Ostersund SWEDEN 4 6 3 591876 3001 SFU USER S GUIDE SAFEGATE ASP LMS System documentation G RO UP Signal Filter
107. Unit 591876 B 591877 B 591878 B User s Guide 6 1 2 Function The purpose of the SFU is if necessary balance the ASP system communication signals that are superimposed on the series system power cables It is a fully passive component without possibility to communicate with other parts of the ASP system The SFU is manufactured with rigorous requirements to obtain a robust system design that maximizes the reliability of the system The SFU comes in three versions SFU3 1 591876 B SFU3 2 591877 B SFU3 3 591878 B they are mechanically identical but have different filter characteristics 7 INSTALLATION 7 1 Installation hardware The SFU male contact is connected to the series circuit with an isolation transformer Amerace 200W type TA200665 01 The female contact is either connected to a short circuit plug or to another SFU that 1s connected to short circuit plug To determine where on the series circuit the SFU should be installed for maximum performance is normally done during commissioning The SFU installation 1s documented with respect to series circuit position and type E NS 8 MAINTENANCE No maintenance 1s needed after installation O 2002 SAFEGATE International AB Ostersund SWEDEN 5 6 3 591876 3001 SFU USER S GUIDE SAFEGATE ASP LMS System documentation G RO UP
108. W lamps The indicator lamps are back lighted to ease the use when using the LPC in a room with softened lights The back light level is factory set but may be adjusted with an internal potentiometer 6 3 Internal ATTENTION Be sure to disconnect the mains connection when opening the LPC for any adjustment By removing the top cover you ll find all internal components most of them connected by plugs to the control board On this board a trimmer V ADJ is located for adjustment of the back light level There are also three 3 switches that set the operating current typ 3 5 4 5 A for the LMS SIU and hence the intensity of the 45 W lamps e 50 60 HZ S1 Pos 60 will give a higher current and is intended to compensate for the impedance increase at 60 Hz e 27 30 V S2 refers to internal voltage at 50 Hz e 2 33 V S3 refers to internal voltage at 50 Hz Pos S2 refers to 27 V or 30 V dep on the S2 position Factory settings 50Hz S1 50 S2 30 S3 33 For 60 Hz change S1 to position 60 to increase the intensity of the 45 W lamps 2003 SAFEGATE International AB Ostersund SWEDEN 7 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation O e 1 LPU 591862 LPC 591859 User s Guide G RO U P 7 SET UP First check the voltage selector to be in the appropriate position 120 or 240 V 7 1 Connecting SCM Connections between LPC and SCM are made at the rear as shown in sketch below
109. WEDEN 23 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide SCM 3 E Site Preferences Target SCM Identity Circuit gt Action MER d 1 d1sISISIH Progress Figure 12 SCM Maintenance view from AMT Figure 13 shows the SCM Maintenance display and it s divided into three separate areas The top left portion contains the Site Target and Action panels Here the user selects site and SCM target units to specify which SCM to configure The button Set Up SCM starts the configuration process To the right the Preferences area contains a range of options for customizing the configuration process Normally the check box labeled Manual Configuration is unchecked Note that depending on how AMT is configured the Manual Configuration option may not be available at all in which case the panel is empty The last area at the bottom is devoted to Status information in the form of a log file window The log file will show all user actions as well configuration process status and error messages Note that the log file is saved every time AMT is terminated and hence it shows SCM Maintenance history in addition to current activities Right below the Status information window a progress indicator is located 8 2 1 2 SCM Maintenance Sequence Provided that AMT is communicating with the SCM board about to be configured the process consists of three simp
110. aOsafegate com 86 10 85275297 Dubai dubaiOsafegate com 971 4 332 30 07 Finland finlandOsafegate com 358 0 20754 7700 France france safegate com 33 0 1 49 53 62 62 Germany germany safegate com 49 0 231 9776754 India india safegate com Oatar qatarGsafegate com 974 436 9628 Russia russia safegate com 7 495 917 4614 Singapore singapore safegate com 65 6289 6893 Spain spain safegate com 34 917 157 598 UK uk safegate com 44 0 20 8594 2747 USA usa safegate com 1 763 535 92 99 i ira rok HORN Airfiekl Lighting Safegate Group offers solutions for increased safety efficiency and environmental benefits to airports around the world The company was founded in 1973 and has its headquarters in Malmo Sweden Safegate Group has over 70 partners around the globe in order to be close to its customers The latest members of Safegate Group Thorn AFL and Idman have both over 40 years of experience in airfield lighting solutions for airports and heliports worldwide Safegate Group s complete range of products and services a one stop shop provides solutions to customers and airborne travellers around the globe For more contact information and details www safegate com
111. able Lead On and Presence detections will be lost The ASP Gateway will enter the default settings on these data which is Enable sensor Enable Lead On and Idle The Host Control system must in this case re apply any settings made earlier 1 2 Stopbar Status Below is the stop bar Status word O 2010 SAFEGATE International AB 14 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface Bit will remain set while the Stop bar is not Off Ready ETA Eo AA Po PTA Eo Sensors Enabled OSO Uninitialised 1 Detect from Incursion sensor when Stopbar macro is ON Stop bar lamp fault Bit will be set when the stop bar has 3 or more lamp faults or at and pattern error least 2 adjacent lamp faults eserved d 1 3 Stop bar error indication In the extended stop bar function the following 3 indication exist for back indication of Stopbar Segment Generally the Stopbar can be used operational when the stop bar is on more than 50 lamps operational However in Low Visibility it 18 recommended that no adjacent lamp fail exist 2 lamps in fail next to each other and that the amount of failed lamps do not reach 3 lamps The status data of the stopbar will be available for the Host system 1 3 1 Stopbar Segment Number of lamp in error Error word value 0 65535 The number of failed lamps in a stopbar segment The Stopbar segment Lamp fail indicates the numb
112. ach individual LMS There may be a few LMS s that AMT has failed to find any frequencies to use which can for example be due to that those LMS s are failing Assignment of parameters to those LMS s must therefore be done manually The Manual Frequency Mapping box will open and the user can manually assign communication parameters to those LMS s Figure 31 All LMS s will be viewed in the Reference List window and the non assigned LMS s in the Non Mapped window The method to assign parameters to the non assigned LMS s is to select a LMS in the Non Mapped window and select the neighbour LMS in the Reference List and press the button Assign This assignment procedure must be done for all non assigned LMS s in the Non Mapped window The result of the manual assignments is viewed in the Mapped window Figure 32 It is also possible to do Auto Assign where AMT give the non mapped LMS s the same parameters as the LMS s that has fixture ID number closest to the non mapped LMS s This method is though not as accurate as the manual assignment because it is not in all cases true that the electrical neighbour to a non mapped LMS also has closest fixture ID number A LMS that is manually or auto assigned in AMT during a frequency tuning must be programmed with the LPU after the parameter database has been updated Neighbour LMS s means LMS s that are installed next to each other on the series circuit from an electrical point of view
113. act loose Cable fault Pin 3 DET in contact with high Cable fault Pin 7 TEST in contact with high or not connected SENSITIVITY setting is to high Fuse blown in Transmitter or Receiver MBD Receiver bad o MBD Transmitter bad Observe that all four 4 connectors only 2 are being used on the SIU are in parallel Thereby a suspected cable fault could exist 1n any of the cables or connectors for the Transmitter or the Receiver O O O O 0 O e Adjust or repair when required Make note in the Installation data document 2002 SAFEGATE International AB stersund SWEDEN 17 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE 1 ASP LMS System Documentation G RO UP e 4 Microwave Barrier Detector MBD 596530 User s Guide 11 APPENDIX MBD MICROWAVE BEAM PATTERN This section is intended to be a technical orientation of the MBD beam pattern Note that below figures are typically valid at the mounting height of the MBD Typical maximum width protection pattern of the MBD is shown in the figure below for mounting height of 0 75m above smooth earth De Tenan TA 1500 FT 437m ANTENNA PATTERN Maximum width occurs when Transmitter Receiver distance 1s maximum and Receiver Sensitivity control is set to maximum The figure below illustrates how pattern width varies with Transmitter Receiver distance and sensitivity setting Actual patterns will vary somewhat with site topography and surface condition Generall
114. ad register f Word C Hex Allow 10 logs after a write length length length length length length length length length length length length length length length length length length length length length length length length length length length Read register Write register Read register Write register Read register Write register Read register Write register Write register Read register Write register Read register Write register Read register Write register Read register Write register Read register Write register Read register Write register Read register Write register Write register Read register Write register Read register KA J zl J I al zl zl zl zl I 3 J3 zl a zl J zl zl 3 zl 3 3 I PER PRA De KA PO FS A PO pO A PO rp AA map A AA PA In accordance with the Modbus protocol you could see the read and write commands from the Host system and the response data Each line from the example above should be interpreted as Time eter pumper NA Read register 7 length 2 Data 107 7 768 Read Write Number of words In the Modbus view window it 1s possible to select e Write register shows the data written to the NCU by the Host e Read register shows the data read from the NCU by the Host e Active when selected the data is continues written 1n the window When not selected the data is no longer written in the window and it is possible to scr
115. after be updated with the new assigned parameters 9 2 2 3 Before starting AMT frequency tuning sequence During the time an AMT frequency tuning sequence is running all circuits on site but the one that is intended to be tuned must either be communicating via the CU or be de energised All circuits onsite also include circuits that run from another vault on the same RWY but not circuits on other RWY s This precaution is to prevent undesirable interference with the circuit that 1s intended to be tuned 9 2 2 4 AMT frequency tuning sequence The ASP Circuit Tuning box will open The box consists of a number of buttons and windows The Session History window logs all actions with timestamp a separate log window for low level details on the tuning sequence can be viewed if button Show Details is pressed The remaining buttons and windows in the box will be explained later 2004 SAFEGATE International AB Ostersund SWEDEN 37 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Open the appropriate LMS configuration file by selecting File gt Open Config Figure 18 When the configuration file is selected it is possible to select the circuit which is intended to be tuned and to which the SCM is connected to Figure 19 and Figure 20 ASP Circuit Tuning Mi ES File Tools Help Dpen Lonilg Manual Sequence Hun any step in the auto
116. ailable in LMS 591886 7 1 Power On or Default State The LMS is configured to set the lamp to a predefined state when the series circuit is energized This feature 1s called default state and the options are LAMP ON LAMP OFF or LAMP FLASHING Which option to select depends on the light function to which the LMS belongs and the operative requirements 7 2 Safe State In case the communication between the LMS and the SCM is interrupted or lost the LMS will after a programmable timeout set the lamp to a predefined state known as safe state Safe state can be set to LAMP ON LAMP OFF LAMP FLASHING or no change 7 3 Command Memory When the current in the series circuit 1s lost because the CCR is turned off or for any other reason the LMS will remember the current lamp status for a limited O 2004 SAFEGATE International AB Ostersund SWEDEN 4 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP LMS 591886 User s Guide amount of time The LMS can be configured to once current 1s restored in the circuit set the lamp to the remembered state typically the last commanded state before power was lost This feature will when enabled override the default state It s possible to apply a condition based on the amount time current was gone and have the LMS set the lamp to default state if current was restored beyond this time limit The time limit is programmable from one to approximately 20 seco
117. ains an isolation transformer for feeding the LMS and or SIU plus a normal secondary load 45W 6 6A for the LMS and a control panel simulating external equipment for the SIU e g a sensor The control buttons and the internal control board are designed to ease the operation of the LPC For full functionality a Windows based PC running the maintenance tool AMT is required When it comes to instructions for functional test or programming of LMS and SIU please refer to the AMT User s Guide 5 2 Specifications O mea Wim typ Max Unit DEER 8 W Power 200 consumption Environment EE non condensing mo ng Mechanical data Dimensions Width rear Ly mm Width Front ES Depth excl handles Height excl feet EN weight mer cables m 65 In O 2003 SAFEGATE International AB Ostersund SWEDEN 4 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide 6 CONNECTIONS CONTROL PANEL ETC 6 1 Rear 7 5 S Ee 9 LPU Control Unit LPC D Serial No E s ES bein Tu 3 CE ol o Ja o D ES d eLo Efe SL e e 2 The fused inlet is located at the left The fuse drawer allo
118. aintenance Activity SCI Recommended Frequency Check external connections and cables Annually Replace complete unit Every 15 years 2003 SAFEGATE International AB Ostersund SWEDEN 6 7 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance 6 9 SFU Refer to the table below for the recommended preventive maintenance activities that apply to the SFU Recommended Preventive Maintenance Activity SFU Recommended Frequency 6 10 LPC Refer to the table below for the recommended preventive maintenance activities that apply to the LPC Recommended Preventive Maintenance Activity LPC Recommended Frequency Replace 6 6 Arms lamps Annually Check lamps in buttons and replace if necessary Annually O 2003 SAFEGATE International AB Ostersund SWEDEN 7 7 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE SAFEGATE Ch G RO UP ASP System Troubleshooting and Maintenance ASP System Troubleshooting and Maintenance 2001 SAFEGATE International AB Ostersund SWEDEN 16 SG591890 3004 ASP TROUBLESHOOTING AND MAINTENANCE 7 2 2010 1 27 00 PM SAFEGATE G RO UP ASP System Troubleshooting and Maintenance Contents A Sa en ENG GA e a SANEGA Sara AG a KA A AA E a GG KA E KN EN KA ES 3 SEET 3 o A e ne A 3 A RV LAU _ nn AA aa da aa aaa a sa daa a 3 S EECH 3 6 Nat 4 lt A e e eo ECO eo ng a KA nak A aaa S
119. alled in a vault or a sub station is referred to as vault equipment Examples of such equipment are the SCM the SSU and the CU 8 2 1 1 Installation Requirement Any active equipment connected to the series circuit must connect to the secondary of a standard isolation transformer Active equipment such as modems must not be connected to the primary Argument 2005 SAFEGATE International AB Ostersund SWEDEN 13 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description No single unit on a series circuit must in case of failure be allowed to jeopardize the integrity of the circuit itself By always connecting active equipment such as modems to the secondary of an isolation transformer the result of a failure will be no worse than a failed lamp in terms of series circuit integrity 1 e the series circuit itself will not be affected nor will the CCR Requirement High voltage equipment connected to the primary shall be physically separated from low voltage equipment connected to the secondary of an isolation transformer Argument High voltage and low voltage maintenance procedures are different and each one when carried out affects the availability of the system in different ways By separating high voltage and low voltage equipment physically the impact on system availability as a consequence of maintenance efforts 1s minimize
120. ame manner as the LMS The SIU is also connected the secondary side of a standard isolation transformer using the standard 2 pin FAA style connectors while its connection to the sensor is established using an IP68 rated 7 pin connector The SIU can supply the sensor with a DC voltage since it also includes a current to voltage converter 6 3 The SCM and CU The CU as its name suggests concentrates all status information coming from the field i e both lamp and sensor status It transfers commands to the SCM which constitutes the interface to the series circuit The SCM interfaces to the series circuit through a standard isolation transformer and to the CU via standard RS485 or RS232 serial communication 6 3 1 Redundant CU The SSU is included in an ASP System in order to introduce redundant CU control functionality of the associated SCMs Its role is to control the switching of the CU to SCM communications between the active CU and the SCMs 6 4 The SCF The SCF is connected across the CCR series circuit output and 1s used to contain the communication signalling within the airfield circuit and minimize feedback into the regulator 6 5 Control System Interface The CU operates as the ASP System main interface interpreting commands sent from the Host Supervisor System including the Safegate SafeControl system and in turn controlling the appropriate LMS lighting as directed It maintains all lighting and error status as well as that of
121. an 10s 2005 SAFEGATE International AB Ostersund SWEDEN 14 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide AMT Basic Pro User s Guide 2004 SAFEGATE International AB Ostersund SWEDEN 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide Contents 1 REVISION NISL ON vue ee Ee EeEeg 4 2 OCODE EE 4 nn Pe nn A 4 nn nn A aa da aa andani aa Ka daa 4 NA ian aaa a a apa Aka ale E NE SA EE E A EA a A 4 SP A 5 6 1 Requirements REM 5 62 o na A thee biri nia an ia b na aaa baa 5 6 3 Different variants of AMT oooooonnncnnccncccccncconnnononnnonocnnnnnnnnnnnnonnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnneneness 5 6 3 1 PM LTE 5 Co ANTP ne 5 LA A 5 Tih Bee D 5 Le IO cria 6 7 2 1 To adjust the main nee TEE 6 7 2 1 1 Ege 7 7 2 1 2 p 7 7 2 1 3 F VO OWS 8 7 2 1 4 ise M loe EE 8 7 2 1 5 YO E X A 8 7 2 1 6 EE H 8 fe EERSTEN 8 7 3 1 Vleit edu Le EE 8 7 3 2 Control and Montormg nennen nennen nnn nain nnne nnns nhan nnns nsn nna 8 7 4 System Configuration ME uu 9 7 4 1 The Conf
122. arge objects aircrattie vehicles the epi maximum target velocity will be noticeably higher current consumption transmitter ia pp a ure consumption ee JA A AA Microwave 596530 1 596530 3 Ps peak 0 5 mW Signal peak power 596530 1 596530 3 ia mW 596530 2 Beads mW 596530 2 Pastas 3 mW Carrier frequenc K band Loser 24 200 AC AM feme gt REN Mechanical Dimensions transmitter and receiver GEES Environmental operating temperature O A pep TO LANA KANAN KT AN KANAAN NOTE Maximum distance for reliable function varies depending on installation height flatness and structure of the pavement and terrain 7 1 3 Miscellaneous Electrical fuses e Transmitter 0 5 A fast 6 3x32 mm e Receiver 0 25 A fast 6 3x32 mm Contact data for Alarm relay and Tamper switch 28VDC 2A The MBD units have CE approval Other frequencies in the K band country specific available on request O 2002 SAFEGATE International AB Ostersund SWEDEN 5 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 INSTALLATION 8 1 Placing the MBD Before placing the MBD an analysis must be made to ensure e System functionality e Sensor functionality e Safety 8 1 1 System functionality The MBD pair must be installed so that its line of detection 1s at the intended position to monitor e g just behind
123. ate system without prior consent or support from Safegate causes the warranty to become invalid as the design specifications can longer be guaranteed The above constitutes the limits of Safegate Group liabilities concerning the Safegate Group products systems Product Leaders Member of the Safegate Group Subsidiary Company Page 2 of 6 ASPO Safegate Group Manual Date July 2010 Document ASP INTRODUCTION Version 1 0 INTRODUCTION This manual has been compiled to give the reader an understanding of installation operation and maintenance IOM procedures of Airfield Smart Power ASP with a focus on safety and efficiency COPYRIGHT Copyright 2010 by Safegate Group All rights reserved This item and the information contained herein are the property of Safegate Group No part of this document may be reproduced transmitted transcribed stored in a retrieval system or translated into any language or computer language in any form or by any means otherwise without the expressed written permission of Safegate Group Djurhagegatan 19 SE 213 76 Malm Sweden HISTORY Version Date Description 1 0 June 2010 First Release ORIGINAL DOCUMENTS The following is a list of original documents used to create this manual File Name Deseripton O O ASP INTRODUCTION Introduction General Information 1 SG591890 3007A ASP System General ASP System General Description Description 2 SG591891 3006D AMT Pro Basic user s A
124. axiway centreline segments 6 4 Basic SCM communication The most fundamental part of the AspGwy is administrating the SCM communication almost every other module will depend on this module The physical interface for the SCM communication is a RS485 link between the NCU and SCM 6 4 1 SCM synchronization Under certain circumstances there is a risk for crosstalk between two or more circuits As a method to overcome negative effects on the ASP system performance due to this it is possible to let the AspGwy application synchronize the communication sequence in a pre defined way 6 5 Redundancy in AspGwy It is possible and recommended to set up two NCUS for redundancy Handling the redundancy is using the fact that the NCU SCM communication is already based on RS485 well suited for multidrop communication Like a multi 2008 SAFEGATE International AB SWEDEN 5 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch ASP System G RO U P NCU User s Guide drop setup it is possible to attach both NCUs to the same serial SCM communication line As shown below RS485 Figure 1 Redundant NCU overview Any of the two NCUs can be active for any of the connected SCMs The NCU to SCM switchover is done automatically depending on which one 1s first to establish connection with the SCM Both NCUs read and receive status from the SCMs 1 e LMS and SIU states hence both NCUs are ready to take over if the other fails 7 ASP COMMU
125. cess to its front and back AII connections are made on the back A cabinet with a removable back cover or a back door or a cabinet with a swing frame can be used The latter solution allows installation towards a wall All connections must be made according to supplied connection diagrams 8 1 3 Communication transformer These will normally be placed in same cabinet as the SCM racks If installed outside the cabinet the cable length should not exceed 10m between SCM rack and communication transformer Shielded cable connectors and cable type corresponding to cabinet internal wirings should be used Part no 594102 The communication transformer is then connected to a standard Isolation transformer 200W 6 6A The cable length between them should not exceed 40m Shielded cable according to supplied documentation should be used The communication transformers emit some heat see chapter 7 4 and should therefore be mounted with good ventilation All connections must be made according to supplied connection diagrams Contact Safegate for information about suitable cable types O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 17 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide 8 1 4 SCM board 8 1 4 1 Handling The SCM board includes components sensitive to ESD The board must therefore be handled carefully Before it is remo
126. connection for each SCM board e Built in selectable RS 485 buses common for several cards e Common power supply Selective separate fuses for each SCM board e Support digital interface for controlling e g for LPC e Common data bus G bus e g for synchronizing purposes The complete SCM rack including SCM boards and daughterboards is CE approved O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 4 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide 7 ASP COMPONENT DESCRIPTION 7 1 General Referring to Figure 1 the complete SCM rack can be described as following The SCM rack 1s powered by an external 24VDC supply that can be connected to the terminals on the backside of the rack The rack has 8 slots for installation of up to 8 SCM boards Each SCM board requires an external Communication transformer These are normally placed in same cabinet as the SCM rack The Communication transformer is connected to a standard Isolation transformer 200W 6 6A The Isolation transformer is connected to the series circuit where ASP components LMS S U are installed for controlling and monitoring of lamps or sensors Each SCM board is connected via respective RS485 alt RS232 connectors on the backside of the rack for communication with the CU TO CU SLM RACK ANNAN NJ NJ dn dE ao dez
127. consumption 6 6 Arms Prius 7 5 10 W eem a LMS power consumption 6 6 Arms Pims 7 5 11 W EPS IL ITT EE Environment Encapsulation class IP68 Tn accordance with FAA advisory circular 150 5345 47A Isolation transformers for airport lighting systems For max 1s in accordance with FAA advisory circular 150 5345 10E Specification for CCRs and regulator monitors Provided IreEax Irms 2 9 O 2004 SAFEGATE International AB Ostersund SWEDEN 6 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP LMS 591886 User s Guide Dimensions excluding cables Width zT D Single LMS Length Den Tu Dimensions excluding cables Width Dual LMS Length Depth D E mr ER LISSE Be oe 1 I aa D Single LMS rr p qe p me Dual LMS EN Connector FAA L 823 style 1 Length 200 LMS SINGLE 591886 11 XX rial No 0000 KAKA Part No Y Sel S Connector FAA L 823 style 7 Length 400 Fig 10 1 Outline drawing single LMS 591886 11 2004 SAFEGATE International AB Ostersund SWEDEN 7 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP LMS 591886 User s Guide C
128. d For example if a modem needs maintenance the circuit is not affected and the CCR may be operated without constraints 8 3 System Response Times The airfield light control system shall be built to meet the operative demands and needs regarding response times This means that time critical functions like stop bar functions shall be given priority to unlike less time critical functions like pure monitoring of lights 8 3 1 1 Single Command Response Time The response time for a command to be executed such as a stop bar command shall be 1 second from that the controller pushes the button until the light is switched The acknowledgement from that the stop bar light 1s switched until this is indicated on the controllers screen shall be second 8 3 1 2 Sensor Response Time The time to detect an activated incursion sensor shall be 1 second 8 3 1 3 Failed Lamp Response Time The response time for indication of a failed lamp shall be 5 seconds 8 3 1 4 Multi Segment Response Time Multi segment state change response times should always be less than 5s from the command is sent to all lights have switched no matter the number of involved segments lights As an extreme all lights on a single circuits shall be able to change state on command independently of each other and regardless of the desired light pattern and the number of lights involved in less than 5s Multi segment state change including true feedback shall be completed in less th
129. d a segment ON The Segment command bit defines the commanded state for the associated segment Host System can both write and read command state 5 4 4 2 Segment State o JOF The segment is OFF The segment is ON The Segment state bit will depend upon the setting of Back Indication Default back indication will be True feedback In this mode the State bit will be updated when ever all LMS without error or lamp fault has indicated their correct State 2010 SAFEGATE International AB 7 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface If back indication 1s set to a percentage then the state bit will be updated as soon as enough LMS has reported back correct state If back indication 1s set to First LMS the state bit will be updated as soon as the first LMS reports correct state Note The segment state can be used for On Off animation on the host system However if the Host system want to apply a segment fault animation then it will be up to the Host system to deem segments in error based upon the reported LMS Errors and the rules that apply in the specific airport 5 4 5 Sensor The Sensors can provide status of their operation 5 4 5 1 Sensor State State bit value D Llodege LI e o ooo NOTE If the series circuit power i e the CCR is turned OFF the NCU will set the sensor status to No detect 5 4 5
130. d and checked before connected to the SIU Tighten the locking ring by hand no tools must be used Make sure that the threads mate properly before applyin force Failure to comply with this requirement may lead to permanent damage to the connector SIU connectors not used must be equipped with sealing caps Make sure that they are properly tightened Replace caps not fully functional When an external connector is connected to the SIU there will be two sealing caps no longer used Put them together and tighten them to avoid dirt interfering with future use 8 3 Inputs and Outputs Refer to 9 1 for information on connector layout and pin numbers 8 3 1 Inputs The SIU supports four separate inputs of which two are shared with outputs They are INI IN2 IN3 shared with OUT3 and IN4 shared with OUT2 Requirement on device supplying input signal current sinking NPN or contact closure to ground SIU Common terminal 8 3 1 1 Input Scanning The SIU scans its inputs once every half cycle of the mains frequency 1 e with a frequency of 100Hz 50Hz and 120Hz 60Hz The physical state of the signal for every individual input is filtered by the SIU and the result 1s denoted input status Input status can be either passive or active In the documentation for SIU 591805 INI and IN2 are denoted DET1 and DET2 respectively while IN3 and IN4 are called STATUSI and STATUS2 O 2002 SAFEGATE International AB Ostersund
131. d only if the option Skip Version Control is deselected The LMS version is identified and the optimal parameters for communication with the LMS are set When the LMS version dialog box is displayed you click the OK button to start the parameter download sequence If the Skip Version Control is active then no version control is performed After downloading the parameters which can take up to a minute a checksum check will be done to ensure that the LMS has received the new parameters If the checksum 1s correct a message box is shown to confirm this If the checksum is OK the LMS may be disconnected To program another LMS repeat this procedure from step 4 above However if a message box tells you that the checksum 1s incorrect then you need to reprogram the same LMS unit from step 7 above 8 1 1 2 Programming a SIU in Remote Control Automatic Mode If you need to program a large number of SIU s then the Remote Control Mode will help you to simplify and speed up the process In this mode the AMT software will automatically turn the LPC switches on off etc Connect the hardware as described in section 14 1 2 Hardware setup for Remote Control Mode In the Settings menu you also need to activate the Remote Control LPC At the programming screen you first need to select the correct configuration in the System panel Multiple choices for FCU Type are available Select SIU All IN and OUT buttons as well as LAMP 1 and LAMP 2 on the LPC should
132. d should be left in normal positions Later revisions may not include these jumpers Position Function JP1 MOD B In Test Progr Out Operative JP2 MOD A InzOperative Out Test Progr 2000 2003 SAFEGATE International AB Ostersund SWEDEN 16 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e A SCM Rack 591883 User s Guide 8 INSTALLATION 8 1 Hardware installation All installation must be carried out with power disconnected and according to supplied instructions Normally SCM racks communication transformers and power supply unit will be installed in the same cabinet A typical 2m cabinet W 80 D 80 will accommodate up to 3 SCM racks 24 communication transformers and power supply unit to serve 24 series circuits with ASP communication Safegate offers standard solutions for the mounting and can deliver factory built cabinets 8 1 1 Power supply Follow the manufacturer s recommendations regarding mounting cooling protection etc To get selective protection at failure it is recommended that if several SCM racks are using same power supply each SCM rack is protected by an individual fuse This will also ease replacement of a defect SCM rack Safegate can provide suitable power supply for one ore more SCM racks All connections must be made according to supplied connection diagrams 8 1 2 SCM rack The SCM rack should be mounted giving ac
133. ded at a previous occasion may be displayed graphically at any time by opening the corresponding log file by pressing the Open button the log viewer window will then be shown Press Show Notes to view the log file notes saved with the data O 2004 SAFEGATE International AB Ostersund SWEDEN 30 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Communication Statistics 1414 sky Communication Statistics Max 38 H Samples 36 Ge ON OFF FAIL Open Mim 32 Fails 0 ON Fail List Avg 34 H3Fab D apis eis Cur D x Fail 0 Show Notes C FAIL Percent ES 4 Zoom Noise 7 Show Noise Noise Fre Mac Ft D f El ON Min O Awa D Pa L FZ BFF Cur Figure 15 Circuit Monitor Log file viewer 8 4 1 1 Evaluation of monitored communication To be able to evaluate 1f monitored signallevels are good or bad the signallevels must be related to a threshold value This threshold value determines if a lamp FCU shall be reported as failing 1 e if its signallevel is lower than the threshold value This threshold is normally set right between the lowest signallevel for any FCU on the circuit and the noiselevel of the background noise that always exist on a series circuit The threshold value is defined among all other SCM parameters and is called MDL Minimum Detection Level see 13 5 3 2 and must
134. e 2002 SAFEGATE International AB Ostersund SWEDEN 8 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 2 2 Risk of FOD foreign object debris foreign object damage 8 2 2 1 Hazardous event Foreseeable hazardous event Damage on aircraft or human caused by sensor head mounting assembly or post being teared off e g by the jet blast 8 2 2 2 Risk minimizing measures The sensor head mounting assembly and post are secured to the concrete base with a safety catch wire as instructed in this manual MBD User s Guide 8 2 2 3 Risk estimation The probability for loose objects causing any damage on aircraft or human is reduced to a minimum by using the safety catch wire The risk of FOD is therefore considered to be negligible 8 2 3 EXAMPLE Currently the longest distance between landing gear and engine is found on the B747 approx 16 m for the new A380 this distance is approx 20 m however only a few airports will be trafficked by this aircraft Provided that the Sensor is placed at least 18 m away from the edge and looking only at aircrafts where the wing span is wide enough to pass above the sensors the lowest point of the wing above ground will exceed 3 m least found marginal is for B707 320 420 Provided that the Sensor protrudes above the ground level at runway taxiway edge less than 1 5 m
135. e sequence Modify the configuration from the tools men Some types of ASP system can be configured without a NCU In those cases the SCM will handle many of the functionalities that are normally handled by the NCU The Se f 2004 SAFEGATE International AB Ostersund SWEDEN 44 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Hosted SCM tool includes functionality to configure the SCM as well as monitor the resulting system functionality Self Hosted SCM Configuration Firmware Version Circuit Status jw No SCM Generic Digital Inputs Lamp Failures n FCU Map FCU ID ow TS a Enable Status Monitoring FCU ID Coll E Col2 TwY1 B Lamp Fail Alarm Threshold vi TwY2 B Lamp Fail Filter Length j v SB1_B EME 1 1 1 MSB2_B 1 MSB3_B 1 1 E 1 2 kah E TwY3 B TwY4 B TwY1 A F3 Tu A Y PA CO d CD Cl Pe CO ni Re transmit Attemps r Flash Sync Enable Flash Sync gt 1 220 0 0 Interval E 02 220 min aan n c The tool window for Self Hosted SCM 1s divided into two parts e Configuration functionality e Monitoring functionality 10 1 Configuration functionality The configuration functionalities are on the left side of the tools window The principles of the Self Hosted SCM concept is that the SCM handles both the communication on the serie
136. e 1 of 2 SAFEGATE GROUP 1 The Safegate ASP system may be used on shielded as well as unshielded cables There are no constraints when it comes to grounding the shield since It s not used by the system 2 he Safegate ASP system supports both grounded secondary on the isolation transformer and floating secondary 3 he Safegate ASP system is compatible with all FAA compliant isolation transformers 4 The Safegate ASP system does not require any non standard procedures cable arrangements or other equipment during installation on the series circuit The ASP system s electrical requirements on a series circuit level are the same as a light fitting s or an isolation transformer s Thereby the ASP system does not put any additional constraints on how the installation is done and hence there is no conflict with for example electrical safety code and general or local standards when installing this type of system The ASP system in not only designed with the above in mind It has been installed in large number of airports world wide every one with it s own set of unique prerequisites in terms of electrical conditions field hardware etc This confirms that the ASP system truly works according to design objectives Availability The series circuit cable transfers power to the lamp on the circuit and the same physical channel is used by the ASP system for communication This implies that whenever there is power available to the lamps
137. e Timer Enable Sensor Enable Sensor Use Sensors default Disable Sensor No action Disable Disregard any Sensor inputs Prohibits Incursion and run the On default Do not turn on the Lead On TCL in Off Enter and Leave On state Toggle Presence No Action Toggles If Presence is detected clear the Presence state erc Detection Reset No Action Reset Only effective when Stop bar is On and in a sequence Sets RE po pop 15 Every command is issued when bits transit form 0 to 1 When the command has been executed the control word should be set to zero The use of a command pulse will avoid any unwanted commands to be re issued in case of link problems When the Modbus link is failing then the Stopbar will enter failsafe state After such disconnect the Stopbar must be initialized in order to leave failsafe state The initialization shall be done either by sending a Turn On or a Turn Off in order to turn the stopbar either on or off When the stopbar is in OFF state the Lead On segments will be controlled as set by the Segment Command In any other case the Lead On segment will be controlled by the Stopbar Macro In case it 1s not desirable to have the Lead On turn on during the sequence e g if all other TCL is turned off at the airport then the Disable TCL command can be issued The Enter and Leave time will be configured to 45 seconds In case the ASP Gateway should restarted then any settings made on Enable Disable sensor Enable Dis
138. e en eaaa eaaa anaa anana aana nana anna naen eee 8 7 1 3 Export of information from status WiINdOW menn 8 Fe EE 8 723 En Ee MTN 9 8 TOS CO IME e e Nasa 10 8 1 Modbus We P sangane naa aa da pa aa aan ga aaa ana aa na agan a kaa nenga a naa ewa Daka na naa aga a aaa gena aana a sang a pa aneng 10 8 1 1 View window of raw data sentireceived eene nennen nnns 10 8 1 2 View window of data sen t received ccccccccsseeeceecceeeeeeeeeceeeeeeeeeeeeaeeeeeesaeaseeeessaeeeeeesaaaess 11 9 Electrical and Mechanical Characteristics eeee e Leeeeee eec ceeeee eese eene nennen nnn 12 10 A de e 13 10 1 Hardware installation ccccccsccccceececceceeseeeeceeececeeeeeseeeeseeceeseeeeseaeeeseeessesesseeesseeesaneeesaes 13 10 2 SOM AS TE e NE TERRE 13 10 2 1 Prepare for the NCU eontguraton nnne 13 10 2 2 o A e o PP on a aaa baa nin naa kana ia padang 13 10 2 2 1 First time no previous COnfguraion sees seien nenas 14 10 2 2 2 New update of the coniiguraton een anan nenen nne n nean ea naen eaaa naen near 14 11 o A 14 11 1 Yearly maintenance EEN 14 11 2 Reie E 14 2008 SAFEGATE International AB SWEDEN 2 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE ASP System G RO U P NCU User s Guide 1 REVISION HISTORY Author Date Version Comment SL 080121 First version SL 090107 A Added new Modbus view window 2 APPLICATION This document describes
139. e of advanced programming and verifying tools FCU TWY7 Parameters PID number FCU Type LMS 52 v BLK1 for LMS 5 2 BLK2 for LMS 5 2 BLK3 for LMS 5 2 Parameter Editor Serial Number SERIAL NUMBER 1014 Loop Address Response Timeslot Sync 1 Response Timeslot Sync 2 Response Timeslot Sync 3 Response Timeslot Sync 4 Response Timeslot Sync 5 Response Timeslot Sync 6 Response Timeslot Sync 7 z ETE Assign Serial Number F10 DEOS FCU Programming Group Address 2 Program FCU F1 Group Address 3 Target Group Address 4 e Group Address 5 Group Address 6 First Loop Address Group Address 7 Last Loop Address Group Address 8 Not used Tagal FCU Parameter Verification Vetraerpt Verification Scope Selected Parameter Block Programming and Verification Scope Delayed flash MSB Selected Parameter Block Delayed flash LSB C All Parameter Blocks C Complete Parameter Set C Selected Parameters 7 6 3 SCM Inspector SCM Inspector provides access to individual SCM parameters and functionality for down and uploading of these parameters As an addition there is functionality for downloading of SCM firmware 2004 SAFEGATE International AB Ostersund SWEDEN 11 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide SCM SG E Site Preferences Target SCM Identity Circuit Action EEE
140. e received configuration and put the full structure on a USB key It is important that the folder structure is preserved since the configuration load program SoftwareLoader on the NCU computer is looking for updates on a specific path 10 2 2 Installation The program that loads the configuration to the NCU is in the C SafeControl directory and is called SoftwareLoader exe 2008 SAFEGATE International AB SWEDEN 13 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch ASP System G RO U P NCU User s Guide 10 2 2 1 First time no previous configuration Put the USB key into one of the USB contacts on the front of the NCU Double click on the desktop icon LPR Restart Start NCU application which points at the file C SafeControl SoftwareLoader exe One other way to load the configuration is to restart the NCU computer and then the SoftwareLoader will start up automatically and install the configuration from USB key 10 2 2 2 New update of the configuration To load the update of the configuration into the NCU you first need to stop the icon B Terminate Stop NCU application which points at the file C SafeControl Terminate cmd Now put the USB key into one of the USB contacts on the front of the NCU Double click on the desktop icon Restart Start NCU application which points at the file C SafeControl SoftwareLoader exe 11 MAINTENANCE 11 1 Yearly maintenance e Ocular inspection o C
141. e remotely controlled AMT 2003 SAFEGATE International AB Ostersund SWEDEN 6 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide 6 2 2 LMS section The LMS section middle is divided in two where each side has its connections for LMS to lamp a push button that disconnects the lamp when programming or at functional test The LMS may be connected to any of the two lamps LAMP I and LAMP 2 connects the lamp when pressed indicator on and can be remotely controlled from AMT Lamp type 45 W 6 6 A Pk30d 6 2 3 General functions The general control functions are located to the right The Power button will switch on the LPC and supply voltage to the SEM 1f connected as sketch below The button will illuminate when activated The big button Output Power will energize the connected LMS and or SIU when pressing I to turn off press Ol The button will illuminate when activated Output Power will be interlocked only if the button is out REMOTE must be pressed to enable the remote control of LPC from AMT The two 2 current supply outputs Output I and Output 2 are in series LMS and or SIU may be connected to any of these An output not used must be bypassed by shortening the output with a Short Circuit Plug supplied All indicator lamps can be tested by pressing the LAMP TEST button This test does not include the 45
142. easily be redefined or added in the software with possible addition of isolation transformers and LMSs in the airfield Not all lights on a series circuit need to be equipped with LMSs only the ones that need to be monitored controlled The ASP System is designed to be modular and expandable so that it can be readily modified to monitor and control additional lighting functions and series circuits 6 7 Availability The series circuit cable transfers power to the lamp on the circuit and the same physical channel is used by the ASP system for communication This implies that whenever there is power available to the lamps the ASP system will have access to its communications channel and control and monitoring will be available A discontinuity on the cable shield will not normally influence neither the light s nor the ASP system s availability O 2005 SAFEGATE International AB Ostersund SWEDEN 6 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description The system is designed to operate without repeaters which boosts availability considerably compared to systems that require them 6 8 Installation Requirements and Maintainability The ASP system s electrical requirements on a series circuit level are the same as a light fitting s or an isolation transformer s Thereby the ASP System does not put any additional constraints on h
143. ecksum quei tor Bl LEH Enable 15 2reup mode Roemembe OF command histor The user may enter the parameter value directly or select and or check uncheck the options presented The programming options vary depending on the Content capabilities of the FCU type selected In general terms on older FCU type supports less sophisticated options The basic programming options allows for programming an individual parameter block or a full parameter set The more Programming and Verhication Scoop fe Sdected Parmeer Block F AM Panamar Blocks Complela Parameter Set Selected Faamata O 2004 SAFEGATE International AB stersund SWEDEN 34 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide advanced programming options supported by the newer FCU types include single parameter programming and subset programming including target range selection The user selects what to program from the Programming and Verification Scope radio buttons The options available are e Selected Parameter Block which will program the complete parameter block visible on the currently selected tab e All Parameter Blocks which will program all parameter blocks on all tabs applicable to the selected FCU type e Complete Parameter Set which will program all parameter blocks exactly as All Parameter Blocks but in addition include Serial Number Assign s
144. ect then you need to reprogram the same LMS unit from step 6 above 8 1 1 5 Programming a SIU in Manual Mode 1 10 At the programming screen you first need to select the correct configuration in the System panel Multiple choices for FCU Type are available Select STU All IN and OUT buttons as well as LAMP 1 and LAMP 2 on the LPC should be released Connect the SIU male connector to an OUTPUT outlet on the LPC Connect the SIU sensor interface connector to the SIU outlet on the LPC You also need to identify the individual SIU you intend to program You do this by either writing the id in the Find field to search for it or select the id in the System panel list Press the Download Parameters button to start the programming sequence A message box is shown to remind the user to turn on the OUTPUT POWER on the LPC see Figure 7 Connect the SIU to the SIU and Output connectors on the LPC Turn on OUTPUT POWER an the LPC E Cancel Figure 8 Turn on OUTPUT POWER switch Follow the instructions on the screen for controlling the PROG switch on the LPC see Figure 8 LPC Turn on PROG on the LPC LPC Turn off PROG on the LPC Figure 9 Instructions for controlling the PROG switch A hardware initialisation is started only if the option Skip Version Control is deselected The SIU version is identified and the optimal parameters for O 2004 SAFEGATE International AB
145. ed alarm criterion is met an alarm 1s indicated 6 3 1 Power On When the system is activated 1 e when the current level in the series circuit rises above what s required by the LMSs to power up minimum 2 5 Arms the AIRFORCE RW Y configuration will result if no command indicating differently is available from the control system If the control system output to the SCMs dictates COMMERCIAL RWY configuration the switchover will occur as soon as SCMs have established communication with LMSs on the series circuit 6 3 2 Safe State If the SCM fails to establish communication with LMSs the AF RWY configuration will result If SCM to LMS communication breaks down LMSs are configured to maintain the RW Y configuration last commanded Finally if communication between SCM and control system is lost the SCM may be configured to assert any of the two RWY configurations or maintain the last commanded 6 4 Configuration The system is configurable in terms of among other things Number of lights serviced Le controlled and monitored Power up state for all lights equipped with LMS Safe State for all lights in the system Alarm criteria All equipped is delivered pre configured but modification can be made on site any time which include possible future expansion of the system 6 5 Installation The LMS is installed in the field while SCM and SCF are installled where the CCRs are located 2002 SAFEGATE Internati
146. ed positions in the airfield The MBD setup uses a separate Transmitter and Receiver unit a detector pair as a means of creating a line of detection type signal path When an aircraft or vehicle crosses this signal path detection 1s registered by a loss or influence of microwave signal on the receiver end of the detector pair and the MBD reports detect to the SIU An MBD pair connected to SIU supports autonomous sensor test More details on this subject can be found in the User s Guide for the SIU SG59 885 3018 7 CHARACTERISTICS 7 1 Specifications 7 1 1 Physical appearance The MBD 596530 consists of two units Transmitter and Receiver each with a mounting bracket for a 2100mm or 260mm post MOUNTING HOLES 45m 114 mm 40m 102 mm 2 81 in 1 mm 10 5 in 270 mri DIA 3 5 in 89 mm Ain 102mm U bolt standard Post should be 4 in 702mm Q D eI 20 MAX TILT ANY DIRECTION a 10 125 in 6 0 in 152 mm 257 mm O 2002 SAFEGATE International AB Ostersund SWEDEN 4 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de 4 Microwave Barrier Detector MBD 596530 User s Guide 7 1 2 Specification A e 2 eet em Operational SSA E 591830 1 591830 3 range Distance between transmitter and receiver CUL r 591630 2 nee ocone recur erase ena veces PO Target velocity 8 36 kg 30 cm Fr 115 m s Rem For l
147. ed signal levels 2005 12 02 Updated information in chapter 13 5 3 1 and SL EC L 2 SCOPE 2010 02 25 Added instruction of how to program SLIQ using S Production ID This document describes the software ASP Maintenance Tool AMT 591819 its functionalities and use 3 APPLICATION This document is intended for users that are well acquainted with the ASP system As AMT is created to simplify and increase efficiency at maintenance commissioning and troubleshooting the document is mainly for users that work with these activities Figures function descriptions etc in this document is based on version 3 3 of AMT which implies that earlier versions not necessary work or look as described here In those cases consult the user manual for the earlier version 4 ABBREVIATIONS ASP Airfield Smart Power AMT ASP Maintenance Tool CCR Constant Current Regulator CU Concentrator Unit SCM Series Circuit Modem FCU Field Communication Unit LMS or SIU LMS Light Monitor and Switch unit SIU Sensor Interface Unit LPU LMS SIU Programming Unit consists of an SCM and an LPC LPC LPU Control Unit SFU Signal Filtering Unit 5 REFERENCES SG591891 3001 AMT User s Guide Describes earlier AMT versions before 3 0 O 2004 SAFEGATE International AB Ostersund SWEDEN 4 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 6 INTRODUCTION 6 1 Requirements F
148. ed units Failed unit detection threshold 10 F v Remember preferences Reset Defaults Close Figure 21 Circuit Tuning Configuration box General settings O 2004 SAFEGATE International AB Ostersund SWEDEN 39 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 GROUP AMT Basic Pro User s Guide Circuit Tuning Configuration LLIN 0000000000000 fa fe e CO N Q CX CO 7 M0 e CO MM O CO 00 7 ivi M O ivi M ivi ivi ivi lvi M O O O O O O O O O O MN NN NN N N sch sch sch sch sch sch sch sch sch sch LD OO zl OO OP 10h O 10 00 MM P 00M O SOON SARIS fa fu fe fa fu fe fe 0 09 0 0 9 0 CO CO CO CO P2 82 PO NI NA Co n3 O Co CO 7 C ME CO P9 QOO CO CO 7 0 Circi Tuning Confto S lee Same hhreshold Figure 24 Circuit Tuning Configuration box Preferred Frequencies settings 2004 SAFEGATE International AB Ostersund SWEDEN 40 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Start the frequency tuning sequence by pressing the button Auto Sequence Start A dialogue box will open asking if a complete sequence will be run Figure 26 press the button Yes Start Sequence ES Aun complete sequence Figure 25 Start Sequence box press Yes button Then the Monitor Noise dialogue box will open The circuit noise wi
149. em is commenced ASP should only be used by airport operations and maintenance personnel who have been properly trained in the use of the system Safegate takes no responsibility for incorrect use of the system All warnings contained in the text of this manual must be strictly observed Airport operations and maintenance personnel are strongly advised to observe the following symbols and safety advisories Symbol Safety Advisory ASPQ contains electrical circuits and devices which may be hazardous to operators and maintenance personnel if proper safety precautions are not observed Only properly trained personnel should open enclosures or attempt to perform maintenance on these devices Personnel are cautioned to read and thoroughly understand this manual before attempting to service any part of the system ASPQ contains 100 230 VAC electrical circuits that may be hazardous to operators or maintenance personnel if proper safety procedures are not observed Shut down power before attempting to service the system Power may be turned off at the main disconnect circuit breaker or at the breaker panel supplying AC power to the unit or system CAUTION SOME SYSTEMS ARE SUPPLIED WITH A REMOTE UPS WHICH MAY CONTINUE TO SUPPLY POWER TO THE SYSTEM EVEN WHEN THE BREAKER AT THE SUPPLY PANEL IS SWITCHED OFF BE SURE TO REMOVE ALL POWER BEFORE SERVICING THIS EQUIPMENT A chassis ground connection is provided in some parts of the system Be sure
150. epend on the grounding scheme used for isolation transformers or light fixtures Argument The field unit must not compromise personal safety requirements or electrical code requirements and hence it shall support grounded isolation transformers or fixtures as well ungrounded ones Requirement The system shall support a feature that minimizes sudden load changes experienced by the CCR on the circuits This feature shall not decrease system response times Argument A sudden increase in load due to switching ON a large number of lights on a circuit can make the CCR trip because of undercurrent In the same way a sudden decrease in load due to switching OFF a large number of lights on the circuit can make the CCR trip because of overcurrent These mentioned discrepancies are not accepted from an operational point of view and decreases the lifetime of the CCR lamps and field units Because the CCRs on the market show great differences in coping with sudden load changes a feature like that must be completely independent of CCR type regulating characteristics etc It shall not be acceptable to affect the CCR by external signals to solve the problem it is for example possible to prepare the CCR before a sudden decrease in load by temporarily decrease the CCR output current but this solution will give a observable light intensity change that cannot be acceptable from an operational point of view 8 2 Vault Equipment Equipment inst
151. er of failed lamps in the stopbar 1 3 2 Stopbar Segment Adjacent Error EE The segment has no adjacent lamp fail Adjacent Lamp fail The segment has at least one adjacent lamp fail The Stopbar segment Adjacent Lamp fail indicates that at least two lamps next to each other have lamp fails O 2010 SAFEGATE International AB 15 18 14 G591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface APPENDIX B ADVANCED SEGMENT FUNCTIONS 1 LIGHT SEGMENT FUNCTIONS The general light system object can be used for status monitoring of a light system such as a taxiway or runway light systems 1 1 Segment Lamp fail The segment Lamp fail indicates the number of failed lamps in the Light segment 1 2 Segment Adjacent Error 0 JOK e j Thesegmenthasnoadjacentlampfail The light segment Adjacent Lamp fail indicates that at least two lamps next to each other have lamp fails O 2010 SAFEGATE International AB 16 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface APPENDIX C 2A INTENSITY CONTROL 1 1 INTENSITY CONTROL As an option it is possible to configure intensity control in the interface The 2A system concept is based the traditional series circuit design but instead of controlling light intensity using the CCR it 1s set at a fixed current level and
152. erformed If on the other hand the situation 2 arises that must not necessarily mean that it 1s reported and presented to the host control system This situation may or may not indicate a potential problem A very advanced user should be consulted 8 4 2 Sending Commands The upper right corner of the circuit monitor display contains a number of buttons dedicated to various kinds of commanding of the FCUs on the series circuit being monitored To command an individual FCU select it from the FCU Id box and press F9to turn the lamp off Ctrl F9 to turn the lamp on Shift F9 to flash the lamp Note that Loop Address Cmd must be selected in the Settings menu see 13 7 4 before this type command can be used All FCU types does not support this type of command To command a group to which a particular FCU belongs select the FCU from the FCU Id box and press Fx to turn the lamp off Ctrl Fx to turn the lamp on Shift Ex to flash the lamp Since an FCU can belong to several different groups replace Fx above with Fl F2 F3 or F4 depending on the configuration for the FCU selected Note that a group command will most likely affect other FCUs on the circuit apart from the one selected 8 4 3 FCU Version Query An FCU version query checks the firmware version for a selected FCU First select the firmware version you would like to check in the list to the left of the Check FCU Version button and then click the button
153. erial number ta FLU Programming or any other type of Check that LMS lamp is out or SILI output is shorted pro gramming which re quire the user to before confirming serial number programming perform manual procedures like for example removing the lamp or shorting the SIU uM output In this case the user is notified a requested to confirm the action before proceeding Complete Parameter Set programming is usually only executed when a FCU is replaced and hence not when connected to the series circuit but to an LPU e Selected Parameters which programs only the parameter s currently selected by the user The user may select several parameters in one parameter block by holding down the lt shift gt key and pressing the key one or more times If multiple parameter selection isn t supported by the selected FCU type or parameter block the selection will dissapear as soon as the lt shift gt key 1s released In cases where the user may program a set of FCUs with the same parameters the Target panel will be visible and enabled The default selection is the currently Ee Tange Solet selected FCU Confirmation Fast LoopAdd iess The user is also given the opportunity Last Lopes FI to confirm actions which requires at Ge extra care which is the case for target Lem verity hate parameter modifications about to take r anges including multiple FCUs place corresponds to your intentions More details in the log window bel
154. filter if necessary Check CPU fan for ventilation and dirt build up Quarterly and replace if necessary Check detachable hard disc bay fan for ventilation Annually and dirt build up and clean fan if necessary Clean exterior of case Annually Clean exterior of monitor Annually Detachable hard disc bay is not included for all CU hardware configurations O 2003 SAFEGATE International AB Ostersund SWEDEN 4 7 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance Recommended Preventive Maintenance Activity CU Recommended Frequency Check and clean interior back plane and expansion Annually cards if necessary Check internal connections and cables Annually Check external connections and cables Annually Replace case fan filter s Replace case fan s 6 2 SCM Refer to the table below for the recommended preventive maintenance activities that apply to the SCM Note that not all items apply to all SCM hardware configurations Recommended Preventive Maintenance Activity SCM Recommended Frequency Check cabinet fans for ventilation and dirt build Annually up and clean if necessary Replace power supply Every Y years Replace complete unit Every 15 years 6 3 SCF Refer to the table below for the recommended preventive maintenance activities that apply to the SCF Note that not all items apply to all SCF hardware configu
155. ft that may pass above the sensor while the landing gear is on and not beside the runway taxiway e The sensor construction is made frangible the post has an integrated breakable coupling and its mass 1s low 8 2 1 3 Risk estimation I For a collision Landing Gear Sensor to occur an aircraft must pass with its landing gear outside the runway taxiway edge The risk of such a collision is considered to be negligible compared to other risks in that situation II For a collision Engine Sensor to occur while the landing gear 1s on and not beside the runway taxiway the distance between runway taxiway edge and Sensor must be less than the distance between Landing Gear and Engine Provided that the sensors are installed such that the distance between runway taxiway edge and sensor is greater with a safety margin of 2 m than the distance between Landing Gear and Engine the probability for a collision Engine Sensor 1s negligible III For a collision Wing Sensor to occur while the landing gear is on and not beside the runway taxiway the lowest point of the wing passing above the Sensor must be lower than or equal to the highest point of the sensor Provided that the sensors are installed such that there is a safety margin of at least 1 5 m between said points of the wing and sensor swing and inclination due to cambering of runway taxiway of wings will be allowed for and the probability for a collision Wing Sensor will be negligibl
156. g 1 e the ground clearance will be reduced outside the edge 8 1 3 3 Aircraft dimensions To avoid collision Aircraft Sensor the placing of the MBD is restricted by the dimensions of aircrafts operated at the airport of most interest are e Distance between outer point of landing gear and outer point of outer engine e Distance between outer point of landing gear and outer point of wing e Ground clearance outside the outer engine These data can be found in manuals Airplane Characteristics for Airport Planning from the aircraft industry e g for e Boeing http www boeing com assocproducts aircompat plan_manuals html e Airbus The consultation and download of technical data are available for registered users in the Airbus customer portal AirbusIWorld at www airbusworld com O 2002 SAFEGATE International AB Ostersund SWEDEN 7 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 2 Risk Analysis 8 2 1 Risk of collision 8 2 1 1 Hazardous events Foreseeable hazardous events e Collision Landing gear Sensor e Collision Engine Sensor e Collision Wing Sensor 8 2 1 2 Risk minimizing measures e Sensors shall be placed as far as possible from the runway taxiway edge to minimize the risk of collision e Highest point of Sensor shall be significantly lower than the lowest point of any part of the aircra
157. general aspects of smart lights ASP worth considering are listed The Safegate ASP System complies with all requirements 8 1 1 Field Equipment Equipment installed in the field 1 e typically in hand holes cans or man holes are referred to as field equipment Examples of such equipment are the LMS and the SIU 8 1 1 1 Power Consumption Requirement The power consumption for a field unit shall be less than 10W for all operating conditions Argument Reduces or eliminates need for upgrading CCRs and isolation transformers due to increased power consumption when smart lights are added to an existing circuit 8 1 1 2 Encapsulation Requirement The field unit shall have insulating non conductive encapsulation Argument To avoid electrical hazard and increase personal safety Requirement The field unit shall be completely sealed Argument For protection against the effect of long periods of immersion IP 68 8 1 1 3 Sensor Interfacing Requirement The field sensor interface unit shall be able to monitor control external sensors as well as work as power supply for sensor Argument To decrease the number of electronic devices 1n the field 2005 SAFEGATE International AB Ostersund SWEDEN 10 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description 8 1 1 4 Communication Technique Requirement The communicat
158. he TxTime button to the left of the Check FCU Version button or the Show Noise function at the bottom of the screen 9 ADVANCED FUNCTIONS The advanced functions are part of AMT Pro and are only available for privileged or administrator users 9 1 FCU Maintenance Not all versions of AMT support FCU Maintenance as described below The term FCU Maintenance refers in this document to the process of working with LMS or SIU parameters in terms of modification and or verification 9 1 1 User Interface The FCU Maintenance user interface consists of three main components the parameter pane the configuration pane and the log window ASP Maintenance Tool File View Tools Help ic Open Config File DB Capture DB Explorer Manage Production ID XI Connection LPU Manager FCU Inspector SCM Inspector LPC 1 0 Circuit Monitor Circuit Tuning Self Hosted SCM C LPU Use Port P gt a UT arameters Monitoring M Conitel and Monitoring dud etal pe ee BLK1 for LMS 5 2 BLK2 for LMS 5 2 BLK3 for LMS 5 2 Reconnect Parameter Identification Value Parameter Editor Serial Number 1014 SERIAL NUMBER 11014 Status No Connection an Loop Address 14 Response Timeslot Sunc 128 Response Timeslot Sync2 128 Response Timeslot Sue 3 128 Response Timeslot Sync4 8 Response Timeslot Sync5 JO Response TimeslotSync6 128 Response Timeslot Sync 7 128 Response Times
159. he configuration tree O 2004 SAFEGATE International AB Ostersund SWEDEN 9 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 7 5 Log window x En LAJU a 11 13 1 99 0 C CU IMSpPEcII LS cu 2009 11 19 12 33 34 FCU Inspector LA 25 2009 11 19 12 33 36 FCU Inspector L 25 2009 11 19 12 33 37 FCU Inspector LA 25 2009 11 19 12 33 37 FCU Inspector L4 25 2009 11 19 12 33 38 FCU Inspector L 25 2009 11 19 12 33 39 FCU Inspector L 25 2009 11 19 12 33 41 FCU Inspector L4 25 2009 11 19 12 33 41 FCU Inspector L 25 2009 11 19 13 07 32 NEW SESSION 2009 11 19 13 07 32 FCU Inspector FCUT spe LMS 5 2 selected 2009 11 19 13 07 32 FCU Inspector LA 2009 11 19 13 07 32 FCU Inspector L 2009 11 19 13 07 32 FCU Inspector Un Le LMS 5 2 selected 2009 11 19 13 07 32 FCU Inspector L 2003 11 13 13 07 50 5 d Hosted SCM Failed to detect SCM firmware version E His The log window is used to show events that either is initiated by the user or is a result of an action made in a tools window All events are time stamped and the log is accumulative which means that every time AMT is started the log from the preceding session is opened and continued Thereby the log will be a user s history for AMT on a specific computer 7 6 Tools Window The tools i
160. he lamp error information at least until the series circuit power is turned ON or the NCU is rebooted 5 4 6 4 LMS Error Error bit value 0 OK LMS is working correctly LMS failure LMS is broken or disconnected NOTE If the series circuit power i e the CCR is turned OFF the NCU will retain the LMS error information at least until the series circuit power is turned ON or the NCU is rebooted O 2010 SAFEGATE International AB 9 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface APPENDIX A STOPBAR 1 STOPBAR As an option it is possible to configure a stop bar functionality in the interface Below is a description of the essentials in the Stop bar model Up to 4 sensors can be configured The first sensor in the model S1 will be the presence sensor Ideal placement for this sensor 1s approximately 70m in front of the sensor so that an airplane waiting at the Stopbar has passed the sensor The second sensor S2 will be controlling the re lighting of the stop bar and turn off Lead On segment LO In lack of this sensor the stopbar model will use a timer T1 This sensor will also be used for Incursion detection in case an airplane crosses a lit stopbar towards the runway Ideal placement for this sensor is right behind the stopbar S3 turns off Lead On segment Ll In lack of this sensor the stopbar model will use a timer T2
161. heck for damages or overheating o Check fans operating properly o Clean remove dust e Software configuration verification o Check configuration version Version information is found in the file Version tst in the C SafeControl directory 11 2 Replacement A NCU with the specific site configuration is ordered from Safegate International AB to be a replacement or spare part for an existing NCU 2008 SAFEGATE International AB SWEDEN 14 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE GROUP Airfield Smart Power and power line communication Power Line Communication Communicating on the serial circuit power cable is not an easy task A system designed for this type of communication must be capable of dealing with for example e cross talk between circuits applies to both shielded and unshielded cable e varying electrical conditions imposed by for example different types of CCRs isolation transformers series circuit cable and layout e ageing of both the serial circuit cable and the isolation transformers e elc Our experience tells us that a system capable of dealing with the above may not be designed solely in a controlled environment such as a lab based on theoretical assumptions On the contrary the key to good functionality is numerous field tests performed under varying conditions regarding series circuit size layout age etc One could say that it is fairly simple to get one circuit to work reliab
162. her the secondary of the isolation transformer or the lamp fixture may be grounded but not both If both sides are grounded the LMS will not work properly an LMS Module 2n ISOLATION TRANSFORMER O E d E A The LMS module is connected fo secondary side of isolation transformer SERIES CIRCUIT Fig 11 1 Installation of LMS 11 1 Replacement of lamp For the LMS to detect a replaced lamp after a lamp failure both lamps must be disconnected and after that reconnected with two good lamps applies only to dual lamp LMS This procedure does not impose any restrictions on the normal maintenance procedures as replacement of a lamp normally is carried out by replacing the whole fixture 11 2 Calculating Transformer Rating To calculate the recommended minimum power rating for the isolation transformer to which the LMS is connected use the following formula Pir Prawe1 Pramp2 Bue 0 0344 x 6 6 x Lramp1 Lramp2 A where A is the cross section for the cable between the LMS and the lamp mm Lampi and Lampa are the length of the cables PLamp and PLampz are the lamp wattages and Ph us is the LMS power consumption worst case 10 W For 2 5 mm cable the above translates to Pir Pramea Pramp2 0 6 Lramp Lramp2 10 and for 4 0 mm to Pir Braun Prams 0 4 Lramei Lramp2 1
163. ier Detector MBD 596530 User s Guide Microwave Barrier Detector MBD 596530 User s Guide 2002 SAFEGATE International AB Ostersund SWEDEN 9 SG596530 3011D MBD USER S GUIDE 30 06 2010 15 28 00 SAFEGATE 1 ASP LMS System Documentation G RO U P e 4 Microwave Barrier Detector MBD 596530 User s Guide CONTENTS 1 REVISION e E e E 3 OOP ccc 3 MEE ine laa 3 Ane 3 5 ET 3 SA A A 4 Z7 e e EE d 4 TA So le LE 4 7 1 1 Physical appearance nono nennen nn nnnnnennnnnnnnnnnnnnannnrnnannnnennnnnnnrnananinss 4 ie OP NG ANON anana naa anana baa bana m 5 7 1 3 le Ta nl B OT 5 SS OO 6 8 1 Facing the MBD E 6 8 1 1 System functionality RERO UU 6 6 12 ER breeden E 6 q E aana gan E o 7 8 1 3 1 uicicicgeNC paga 7 8 1 3 2 Runway taxiway drmensions annees anna anan anane nean en nean enere 7 8 1 3 3 ANGAN e an EE 7 o2 REKAN E 8 8 2 1 RUSK Ol COMSION anan rie o li 8 8 2 1 1 ee EEE OVC EEN 8 8 2 1 2 Risk minimizing measures 5 is saa aa aaa NGENE a eera aa Ga ga aa EEES 8 8 2 1 3 PUGH CSU ON TEE 8 8 2 2 o nn e PEE o 9 8 2 2 1 ele EE 9 8 2 2 2 Risk minimizing INCAS UI CS sia 2 han ra ii ra o A 9 8 2 2 3 EEES Aer le MT q hess Ka PRA NR RT RAN NAN ETAN NG 9 AN E ANFLE eee en ees EE eee eee ee 9 A E Eden Ma re TEE
164. ifying the connections both to the series circuit and to the external equipment sensor Make sure to check cables and connectors thoroughly see 8 2 and 9 1 1 Proceed with verifying that the SIU power output OUT4 provides the programmed output voltage Check both with and without the sensor s connected If the voltage level fluctuates between the programmed level and zero this is a good indicator of a possible problem in the cable connecting for example a sensor to the SIU or an over load condition If the cause for failure has not been identified by now it is not unlikely that either a sensor failure or an SIU failure is the cause of the problem In this case start by verifying the sensor function If the sensor checks out okay replace the SIU 9 4 Appendix D 9 4 1 Electrical and Mechanical Characteristics Unless differently noted all maximum values are absolute maximum values All RE are EE reference to the SIU Common P Series Circuit Supply current from series circuit 50 60Hz ELE P In accordance with FAA advisory circular 150 5345 47A Isolation transformers for airport lighting systems O 2002 SAFEGATE International AB Ostersund SWEDEN 10 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide arata Tsmboi im Tre Raw uie Peak inpus voltage series circuit terminals Wee o vac E ve ECO E qwe I O CO e P T ETC Voltage OUT4 VDC
165. iguration Tree 9 7 4 2 Search in the Configuration oocccccccccccoccnnncnnnnccnnnnonnnnnnnnnonononannnnnnnonononnnnnennnnnnnnnnnannnnnnnnnnss 9 La POO noo eaaa sana 6 Hn 10 ro nino t N 10 7 6 1 BUR A 10 LoL FOID S DECON MTT I 11 POS I DOCIO EE 11 Mte EE 12 Oo TANGI MONTO tt ains 12 7 6 5 1 aos A A A 13 7 6 5 2 Review Logged data 14 AA OFCN AA o A 15 A ern EE 15 MEE ON NR 15 9 1 Mantan LMS SIU SLEIG asnicar 16 8 1 1 Programming and test procedure cooocccncccccocccnnccnnncconnconnnncnnnnonnnnconnnononncnnononanennnennnanenaness 16 8 1 1 1 Programming an LMS in Remote Control Automatic Mode 16 8 1 1 2 Programming a SIU in Remote Control Automatic Mode 0eraraeananenanaeanen 17 8 1 1 3 Programming SA 18 8 1 1 4 Programming an LMS in Manual Mode ooonccnncccccnncccccccconcnnnccnnonononononanenonononanonnnnnnos 19 8 1 1 5 Programming a SIU in Manual Mode ocoocoooncncccccconccnncccooncnnncnnnonononononanonnnnnnnanconnnnnos 20 A e a aa E AA 0 PP O O RRE AI 21 8 1 2 1 LMS ee e 21 8 1 2 2 SIU tee e RE 22 Remote ee e de Ree m 22 Manual le EE 23 82 SCM Ke E Te 23 8 2 1 SCM Maintenance ccccccccccccceseeeeeeceeeeeceueeeeeceeeeeeeaseeeseeeeeeessseeeeeeeeeeessasaaseeeeeeeesssaaageses 23 8 2 1 1 Activating SCM Mamtenance esses nares nn ann
166. igured with the same parameters For more information see the AMT user guide regarding LMS SIU parameters 6 1 1 2 Replace an SCM When replacing an SCM card the new unit must be re configured with the same parameters For more information see the AMT user guide regarding LMS SIU parameters 6 1 1 3 Replace an SCF No special procedures are required for replacing an SCF 6 1 1 4 Replace an SSU No special procedures are required for replacing an SSU 6 1 1 5 Replace an NCU VCU HCU For more information see the NCU user guide and other site specific documentation 2001 SAFEGATE International AB Ostersund SWEDEN 4 5 16 SG591890 3004 ASP TROUBLESHOOTING AND MAINTENANCE SAFEGATE Ch G RO UP ASP System Troubleshooting and Maintenance 7 TROUBLESHOOTING 7 1 General The focus for this section 1s to troubleshoot initially at an ASP system level The aim is to eliminate the ASP components not at fault and to identify the component at fault Fault resolution 1s then continued with the identified component s specific user guide information Note Troubleshooting procedures for each specific ASP component are available in specific user guides The normal procedure after the faulty ASP component is localized is to replace it and carry out a more advanced testing of the faulty component This procedure is normally carried out by Safegate personnel with the exception of basic problems such as a faulty fuse 7 1 1
167. ilures Fail By pressing the Reset button statistics are reset and communication cycle counter restarts from zero All statistics graphically presented can be filtered to a certain degree The type of filter used is controlled by the four item radio buttons below the graphical display where ON OFF FAIL considers signal levels for all report states i e ON and OFF and in addition communication failure FAIL ON filters out all data except signal levels received where the matching state is ON ON filters out all data except signal levels received where the matching state is OFF FAIL Percentage displays only fail percentage data By pressing the Fail List button a list of all FCUs with a least one communications failure will be displayed Statistics can be saved for later processing by pressing the Save button When doing so the user will have the possibility to enter some comments which will be saved with the data x Daeand me 2002013114080 SEM Config D 0 0 0 1 0 0 128 0 100 1 0 15 0 0 0 0 1 0 0 SEM Params 0 10 8 5 5 1 61 15 30 150 0 61 86 255 1 0 0 0 0 0 SCM Software Name REH Date Jan 14 2002 13 47 12 State Exp SCM Version ko Circuit Id es CCR Step Stei ss lt SsSSCSCSCisS SFU Notes Boe Notes Dn and off samples Cancel Figure 14 Circuit Monitor Log file notes Data recor
168. instructions on the screen for controlling the LAMP switch on the LPC see Figure 4 LPC Turn off LAMP on the LPC E Cancel LPC Turn on LAMP on the LPC E Cancel Figure 5 Instructions for controlling the LAMP switch A hardware initialisation is started only if the option Skip Version Control is deselected The LMS version is identified and the optimal parameters for communication with the LMS are set When the LMS version dialog box is displayed you click the OK button to start the parameter download sequence see Figure 5 Found LMS Version LMS 5 1 Figure 6 Found LMS If the Skip Version Control is active then no version control is performed After downloading the parameters which can take up to a minute a checksum check will be done to ensure that the LMS has received the new parameters If the checksum is correct a message box is shown to confirm this see Figure 6 2004 SAFEGATE International AB Ostersund SWEDEN 19 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 11 Programming Status o Checksum check OK LMS is now ready to use Figure 7 Checksum OK If the checksum is OK the LMS may be disconnected To program another LMS repeat this procedure from step 3 above However if a message box tells you that the checksum is incorr
169. insulation resistance the circuit tuning must be done for each circuit individually 9 2 1 3 Frequency tuning Frequency tuning is one part of the circuit tuning procedure performed at system commissioning The frequency tuning procedure is a method to find the best signal frequencies for each LMS SIU to use in the communication with the SCM What frequencies are best to use is as mentioned earlier dependent on circuit layout circuit load and circuit insulation resistance That implies that if any of these circuit characteristics changes on an already commissioned system the ASP communication can be degraded 9 2 1 4 A word of caution Frequency tuning for resolving communication problems without supervision of Safegate authorised personnel is not something that should be done without thought First must be concluded that the communication problems are not due to installation problems LMS failures earth faults etc see ASP system maintenance manual for troubleshooting If a frequency tuning is run before such errors are cleaned up there is a large possibility that the result does not get satisfactory and the tuning procedure must be run again with the circuit clean O 2004 SAFEGATE International AB Ostersund SWEDEN 36 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 9 2 2 Frequency tuning by AMT Frequency tuning by AMT is a fully co
170. ion with field units shall be through signals superimposed on the series circuit Argument No extra communication cables or connectors are needed in the harsh environment out in the field which minimizes maintenance and maximizes reliability No special procedures are needed for repairing or replacing connectors and or cables Requirement The communication shall not be dependent of a continuous primary cable screen Argument The screen of the primary cable cannot be guaranteed to be continuous Requirement The communication with field units shall rely on a circuit modem at one end inside the substation and field units that individually and independently of each other communicate through the power cable with the circuit modem without any additional repeaters amplifiers placed in the field Argument A failure of a single field unit must not affect the overall circuit communication One failed field unit must not affect the availability of the system any worse than one failed lamp 8 1 1 5 System Configuration Requirement All lights or just a selected number of light fixtures on a circuit shall be able to be equipped with field units Argument Makes the system more flexible for example if only lead on lights on a taxiway circuit needs to be controlled Requirement If any link in an ASP system or control system fails the system shall automatically go to a predefined failsafe state The predefined state ON or O
171. is created in order to describe the system concept as such the site is not referenced by actual name but simply denoted The Site The document is based on the original Swedish system description for the commercial system 3 ABBREVIATIONS ASP Airfield Smart Power LMS Light Monitor and Switch Unit SCM Series Circuit Modem SCF Series Circuit Filter CCR Constant Current Regulator UPS Uninterruptible Power Supply RWY RunWaY 4 REFERENCES More detailed information on ASP products their characteristics and handling can be found in product leaflets and or user guides 2002 SAFEGATE International AB Ostersund SWEDEN 3 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP 5 INTRODUCTION 5 1 System Overview The ASP System for the Site is configured to enable switching between two different RW Y configurations One is used by the air force and the other by commercial airlines Light functions involved when switching from one configuration to the other include threshold lights and RW Y edge lights These lights add up to 156 and are distributed on two series circuits a so called interleaved configuration The ASP System not only controls the switching but also monitors all threshold and RW Y edge lights 6 THE ASP SYSTEM 6 1 System Components The ASP System for the Site consists hardware wise of 156LMS 2 SCM 2 SCF mounted inside
172. is intended to provide a general description of the ASP System concept provided by Safegate 3 ABBREVIATIONS ASP Airfield Smart Power LMS Light Monitor and Switch unit SIU Sensor Interface Unit SCM Series Circuit Modem SCF Series Circuit Filter CU Concentrator Unit SSU System Switch Unit PLC Programmable Logic Controller CCR Constant Current Regulator SMGCS Surface Movement Guidance Control System A SMGCS Advanced SMGCS O 2005 SAFEGATE International AB Ostersund SWEDEN 3 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description 4 REFERENCES G591835 3013 LMS User s Guide G591870 3002 SCF User s Guide G591880 3003 SCM Rack User s Guide G591885 3018 SIU User s Guide G591847 3017 CU User s Guide G591852 3018 SSU User s Guide SG5391890 3006 International Standards Compliancy List 5 INTRODUCTION The ASP System is designed to provide individual monitoring of airfield lighting using the series circuit as a means of communication for the lamp and sensor status information coming from the airfield The same concept is used for lighting control and as such provides the foundation for an SMGCS or A SMGCS which includes for example automation of stop bars with or without sensors taxiway guidance routing both in combination with status monitoring The ASP System is a cost effective solution for upgrading existing or
173. ked and updated Make some notes when applicable e Waxing of radomes date e Maintenance specify date 9 MAINTENANCE After setting up the MBDs at installation as described above no further calibration should be required To remain a trouble free system we recommend to 1 Wax the radomes every 3 to 6 months Use Turtle clear vinyl top wax or equivalent This will make the water and dust easier run off and will reduce the risk for signal drop which can cause spurious detections 2 Keep the area between Transmitter and Receiver clean and free of tall grass weeds debris and obstructions Wintertime keep the area free from snow snow obstructions may affect the microwave pattern and thereby block a real or cause a spurious detection 3 Inspect the MBD installation periodically at least every 6 months At the time for inspection check and update the installation data see above look for any damages cracks leakage rust etc check and clear the area if required not to interfere with the function of the MBD 4 Repair if required and take measures against potential problems 5 Record all maintenance performed in the MBD Installation data document 2002 SAFEGATE International AB Ostersund SWEDEN 16 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de e 4 Microwave Barrier Detector MBD 596530 User s Guide 10 TROUBLESHOOTING In this system
174. le Tools Help Configuration Manual 5equenc Load Def SCM Freg Map Run any step in D SCM Parameters FS the auto sequence Log Hanual kregen selection fd individually Update rrt Eh select circuit check the garamurrrauamu press the start button to run the sequence Modify the configuration from the tools men and repeat the analysis as needed Prompt to Save on Exit Hun Noise Mon Bun Freg Sweep Seale Frege nri SeQqueriCe Show Details 2001 11 13 11 23 41 Loading list of circuits from contig file CST SSIN Ems5 rt 2001 11 13 11 29 42 Ready 2001 11 13 11 31 27 O2LRE 2 Reading FEU data for circuit 02LRE2 2001 11 13 11 31 23 D2LRE2 Ready Prog E Figure 20 The ASP Circuit Tuning box select Configuration 1 2 n Circuit Tuning Configuration X General Frequencies Optimization Preferred Frequencies Alo v Prompt for CCR step change when monitoring noise v Subtract noise level from signal before selecting frequency Prompt user if standard deviation above threshold Standard deviation threshold 5 Poll for status E 0 times per time slot and frequency 2 zi Number of parameter download attemps per frequency How to Detect Failed Units C Use MDL from SCM to qualify failed units Use threshold as set below mm M 1d C Do not try to detect fail
175. le steps 1 Select site and SCM from the combo boxes labeled Site and Target When an SCM is selected the circuit to which it s associated is shown to the right of the Target combo box 2 Start the configuration process by pressing the Set Up SCM button The configuration will normally take between two and ten second to complete 3 Verify the proper completion of the configuration process by observing the messages displayed in the Status window 8 2 1 3 Troubleshooting SCM Maintenance The SCM Maintenance feature in AMT relies on the existence of an INI file which contains the site specifics of the configuration process Secondly all individual SCM configuration files for the particular site s must be available to AMT Both the INI file O 2004 SAFEGATE International AB Ostersund SWEDEN 24 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide and the SCM configuration files are normally included in the AMT distribution for a particular site If any of these files are missing or if there 1s any other kind of problem the Status window will display detailed information about the problem To solve the problem please contact Safegate support for assistance 8 2 2 Loading SCM Firmware SCM 3 bd SCM board revision 5918138 rev1 0 and old Firmware Version F2 Load Firmware F1 dll Firmware loader C 581813B rev1 1 Boot
176. ll now be monitored at every CCR intensity step current level The reason why the noise is monitored is to make it possible for AMT to calculate signal to noise ratios The CCR steps has to be set manually first set the CCR on lowest operational intensity step and write a comment to the log file for example 1 Figure 27 Press the button Monitor Noise for This Step the SCM will now collect noise data for this CCR step After a few seconds the Monitor Noise dialogue box will re open set the CCR intensity at the next higher intensity step and write a comment to the log file for example 3 and press Monitor Noise for This Step Continue to monitor the noise on all CCR intensity steps When all steps are monitored press Done in the Monitor Noise dialogue box The Noise Monitoring dialogue box will open that asks 1f all CCR steps are done press button Yes Figure 28 Monitor Howe Comment to lag file on CCA setting E Monitor Noise for This Step Done Figure 26 Monitor Noise dialogue box Noise Monitoring EZ All CCR steps done Figure 27 Noise Monitoring dialogue box press Yes button if all steps are done The Frequency Sweep dialogue box will open Figure 29 Set the CCR at desired intensity step 10 is a suitable value Press the OK button to start sequence Frequency Sweep Check that the CCR is turned on and set for the desired Intensity Press OF when ready to start frequency sweep Avbnyt
177. load Cable C Manual Bootload e Load Firmware starts loading of software to the SCM e Firmware Loader sets the way the SCM is set to firmware loading mode The option bootload cable bootload cable with LOAD RESET switch should always be used e Firmware Version shows the software version of the currently loaded firmware in the SCM e Cancel cancels a firmware download 1 To load firmware to an SCM a Bootload Cable part no 591869 is needed Make sure Firmware Loader is set to Bootload Cable 3 Press Load Firmware and select the correct firmware file with the filename format A0O7 4 A message box is shown to confirm loading of new firmware Confirm software download Do you realy wan t to update the SCM 68HC11 software 5 Press LOAD the red LED should be lit and RESET on the bootload cable black box to start software download The download may take up to 10 minutes to finish 2004 SAFEGATE International AB Ostersund SWEDEN 25 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE A GROUP Productdocumentation AMT 591891 AMT Basic Pro User s Guide Set bootload mode Use SCM Bootload Cable part no 591864 Press LOAD and then RESET to Force the 68HC11 into bootload made 6 Firmware installation completed successfully will be shown in the message box 1f the operation was successful Firmware installation completed successfully EA Press LOAD and then RESET to exit
178. lot Sync8 128 RESPONSE System Inspector FCU Parameter T 133 FCU Programming P bm FCU F1 ane Group Address 2 Group Address 3 Configuration Group Address 4 Gos Pane a y op Address E Group Address 7 D Last Loop Address 145 Group Address 8 0 0 0 FCU Parameter Verification 0 Medication 0 0 Verification Sco 0 Programming a Delayed flash MSB 0 Selected E Delayed flash LSB 0 Cap O 2004 SAFEGATE International AB Ostersund SWEDEN 33 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide The user may change the size of the window according to his preference 9 1 1 1 The Configuration Pane In order to use the configuration pane an ASP System configuration file 1s needed If this type of file is available load the file by either pressing the Open Config File button AMT will automatically or semi automatically convert older version configuration files In the latter case the user will be prompted for additional information From the configuration file in the Configuration Pane the user may select an individual FCU by clicking on it This will transfer the parameters for the selected FCU to the Parameter Pane The user may program and or verify parameters for an FCU present in the configuration file Programming and verification 1s a
179. lways performed on FCU level in the configuration pane as opposed to parameter or parameter block level in the FCU parameter pane If no configuration file exists the user will still be able to perform FCU Maintenance from the FCU Parameter Pane 9 1 1 2 The FCU Parameter Pane The FCU Parameter pane is basically a parameter editor which allows the user to modify program and verify parameters for several FCU types The user selects the FCU type from the combo box in the upper right hand corner of the FCU Parameter Pane The tabbed parameter set will automatically reflect the properties of the FCU type selected both in SLE for LMS 5 1 gLE2 Tor LMS 81 BLUE io LMS 51 terms of the number of parameter sets and the Esai Edo Se al Number parameters contained therein Furthermore the programming and verification options will adjust to correspond to the capabilities of the FCU type currently selected When switching from one FCU type to another the parameter values for the type switched out are saved 9 1 1 2 1Editing Parameter Values To edit a particular parameter value the user has to first select the tab which contains the proper parameter block and then select the parameter Parameter Name When a parameter is selected the Parameter Editor panel will show all the options associated with the particular parameter 51 ELE lor LM S 5 1 Parameter La command pc Value Force larp completely OFF v Use HGE ch
180. ly the tricky part is to get a large number of circuits to work on each and every one of a number of different airports The ASP system is put to the test every time it s installed and so far it s been installed for operational use at more than 30 different airports world wide Installation Requirements There are systems on the market today which demand specific installation requirements to be met for example 1 Primary cable where the shield is assumed to be available for communication 2 Isolation transformer which support connection of the cable shield in a way which makes it possible to use the shield for communication This may either require special connectors and or limit the selection of isolation transformer to a very small number 3 he shield must only be grounded in the substation for the communication to work properly Work is in progress to establish international standards for personal safety in dealing with series circuits System permitting only one ground point for each series circuit may come in conflict with personal safety requirements and hence with these future standards This is also true for systems which require the secondary of the isolation transformer to be either grounded or not ASPO System Flexibility Today the Safegate ASP System is in operational use at more than 30 airports world wide The system has been developed to work under much varying conditions This implies that Rev A 2000 03 08 Pag
181. m output RWY configuration not affected The SCM scans the control inputs with a frequency of 100 Hz and debounce the input signals For the SCM to acknowledge an input signal change the signal will have to be stable for at least 100 ms 6 5 4 4 Alarm Criteria Normally the system is configured to output a lamp failure alarm when at least one failed lamp is detected However the lamp failure alarm crititrion 1s configurable between one and 15 lamps System alarm is activated 1f when 2002 SAFEGATE International AB Ostersund SWEDEN 8 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP No connection with the control system is detected see table above If switch to selected RW Y configuration cannot be completed 1 e if there is a mismatch between selected configuration and actual configuration If SCM breaks down 6 5 4 5 Alarm Logic An open alarm output indicates alarm while a closed ditto indicates the absence of an alarm The table below summarizes the alarm logic Circuit System Status Lamp System Remark Erates rnm tetos aterm Mam JI Current in System OK Closed Closed No current in enti geome series below 2 5 circu series circuit Current in System OK no Closed Closed Series ciruit GIrcuirt lamp failures energized above 2 5 detected Arms System OK lamp Open Closed Series ciruit failure detected energized
182. main window consists of three parts e To the left is a section for communication settings Connection Manager and system configuration System Inspector e To the right is a section for different tools Each tool has its own flap e Down at the bottom is a log window In the top of the main window is a menu with a number of shortcut buttons 7 2 1 To adjust the main window The user has some freedom to adjust the look of AMT The user can choose e between the tools on the flaps and other functions integrated docked in the main window or each of the tools in separate windows or a combination of the two e which of the tools and other functions that will be visible O 2004 SAFEGATE International AB Ostersund SWEDEN 6 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 7 2 1 1 Undock First check that the alternative Lock layout on the View menu 1s deselected not until then a tools window can be undocked To undock e g a tools window from its flap double click on the flap then the tool will get its own window Alternatively drag and drop with left mouse button The undocked window will always remain on top of the main window so to be able to reach the main window the undocked window may have to be moved Note that if either both Connection Manager and Inspector or Log window 1s undocked the tools section will grow to the left and or d
183. mme saen anaa aaa aana anana eaaa anana nana anana anana naen 9 SE ue e 10 8 1 Elements Of Importance occcccccoonccncccccnoccnnccnnonnnnnononancnnnnnonnncnnnnnnnnnnnnnnnnnnnrnnnnrnnnnnnnrnnnnnrennrnnnnanens 10 8 1 1 PICIO EOUIDIM EE 10 8 1 1 1 unge cune ee 10 8 1 1 2 ee e M 10 8 1 1 3 A A 10 8 1 1 4 COMMUNICATION Ree e 11 8 1 1 5 SYSTEM COMMOU QUOR ii 11 8 1 1 6 neo A A M oe EP EE E Ba ab ang SAR Bag a EE 12 SEN 1 EE 13 P MEE PP nn A a hana naa daana ian ea aga aa 13 8 2 1 1 dac O is 13 8 3 System Response Times cccccccconccnncccnnoccnncnononnnnnononancnnnnnonnnrnnnnnnnnnnnnnnrnnnnrnnnrrnnnnnnnrrrnnnrinnrnnnnanens 14 8 3 1 1 Single Command RESPONSE Tune sena nennen nhanh nnns nhanh nnns nna nnns 14 8 3 1 2 Sensor Response Time sanagara a naga NA a ANAA nina esu issued aaa AR HARE S ERE FUA MAS SER AA RENS ERR R X YR RARUS 14 8 3 1 3 Failed Lamp Response TIM eiiis esee eene nnn anane nana nnn nana aan 14 8 3 1 4 Multi Segment Response TIME sasa sasana aa saa aa aaa RENA iniae ae AE A ga NA DAB aaa ga 14 O 2005 SAFEGATE International AB Ostersund SWEDEN 2 14 1 SG591890 3007A ASP SYSTEM GENERAL DESCRIPTIONX SAFEGATE ASP LMS System Documentation GROUP ASP System Concept General Description 1 REVISION HISTORY 020130 Document created draft RER 0 2 020150 23388 appendices IS 050121 Added details in chapter 8 1 2 SCOPE This document
184. mmunication interface to host system e For CU RS 465 is normally selected e For maintenance with e g AMT and laptop PC RS 232 is normally selected RS 232 is indicated by the yellow LED next to the switch Output 2 Output 1 Alarm Init Rx Tx gt 7 6 2 LED indicators The indicators are software and parameter controlled At normal operation the following applies Green No current in series circuit below threshold value Alarm Init Summary alarm e g initiation at CCR power on and after SCM power on 50000000 JO O W JO 00000000 ISAL 0000000 c ISAL 0000000 00000000 Rx Green Receives data from CU or AMT laptop Transmits data from CU or AMT laptop Yellow Indicates channel A RS 485A available as communication channel to CU Yellow Indicates channel B RS 485B available as communication channel to CU E SCM transmits status question order to LMS SIU L WO Ooo Ol O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 15 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e 2 SCM Rack 591883 User s Guide 7 6 3 Front connectors The four connectors on the SCM board front has the following functionality Connector Description COM 1 RS232 LOAD RESET For connection of maintenance PC AMT software Special cable Part no 591869 is
185. mputerised method to find the best signal frequencies for the communication between SCM and LMS AMT makes it possible to connect a maintenance laptop to the COM 1 port on a SCM and run the AMT software to automatically optimise the communication on the specific series circuit 9 2 2 1 Hardware setup A maintenance computer with AMT installed connects to the series circuit that is intended to be tuned via a null modem RS232 cable connected to the computer COM port and the COM 1 port on the front panel of the SCM Put the Remote Local switch on the front panel of the SCM to Local SLM GL COM 1 gt 4 2 C UJ D RS232 Cable KE md f ND OO OD LT LJ NJ HEISST EXE S 9 2 2 2 AMT frequency tuning principles AMT will through the SCM communicate with every LMS on a circuit at a number of predefined frequencies After all frequencies have been tested AMT will select the best frequencies to use for each individual LMS and update the circuit with the result by downloading communication parameters for the selected frequencies both to the SCM and to all the LMS s on the circuit The LMS and SCM configuration database must there
186. n AMT are gathered in different tools windows The type of tool and its use is determining which tools window it belongs to Some tools are available from several windows Tool windows available in AMT are e LPU Manager e FCU Inspector e SCM Inspector e LPCI O e Circuit Monitor e Circuit Tuning e Self Hosted SCM 7 6 1 LPU Manager The LPU Manager tool window is only used when AMT is connected to a LPU The purpose of the window is to provide the user functionality for programming verifying and test of LMS and SIU The functions in this window are only available when the LPU connection in Connection Manager 1s selected 2004 SAFEGATE International AB Ostersund SWEDEN 10 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide LPU Manager Preferences FLU Type Function Test SIU Start Checksum Check Download Parameters LMS LPC BE Ee LPC Mode PID Number REMOTE its LPU Manager can remotely control the LPU for automatic handling of the programming and verifying sequences FCU Type allows the user to select the type of FCU Field Communication Unit to be programmed The button Download Parameters will start the programming sequence 7 6 2 FCU Inspector In the case the parameters of an individual LMS or SIU need to be reviewed edited or verified the FCU Inspector provides access to every parameter and a coupl
187. n protocols of which the Modbus protocol is the most common 8 1 Modbus View When the application is running on the NCU you could see the little icon on the Task Tray of the computer The window view to see the packages received and sent in the NCU via the Modbus interface are opened inside the ModbusGwy application When the ModbusGwy is opened password protected or configured for the specific site to be permanent open For information regarding the Modbus Host Interface Communication see ref 1 8 1 1 View window of raw data sent received Go to menu View and select Com Channel In the pop up window select connection to PLC system and press the OK button The window view opened looks like the picture below 2008 SAFEGATE International AB SWEDEN 10 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE ASP System G RO UP NCU User s Guide Com Channel Serial connection to PLC system Jo Ps rive Y Send W Hex V Acting Filter M lw Receive Ani je Auto sel Block 00 00 00 00 00 00 00 00 00 OO 00 00 00 00 00 00 00 00 OO 00 00 00 00 OO 00 00 00 OO 00 00 00 OO OO 00 00 00 00 00 00 00 OO OO 19 F7 01 03 02 20 00 12 C5 BS Ul 03 24 UU DU UU 00 00 DU DU YU 00 UU DU YU 00 00 00 DU UU OU 00 DU 00 UU UU UU UU UU OU 00 DU UU 00 00 Ul 70 Ul 70 7B F2 01 03 01 FS UU UA D4 03 Di 03 14 00 00 00 00 no Of 00 00 00 00 01 70 01 70 00 00 00 09 00 Of F 69 01 03 n OO 00 20 45 AA 01 03 40 00 00 00 00 1F
188. n so that they are put back in the correct slot in the new rack labels makes it easier See also chapter SCM board Installation replacement above Disconnect all cables on the rear of the rack keep track of where to reconnect each connector Dismount the old rack mount the new rack in the cabinet reconnect all cables The backplane of the SCM rack has a large number of DIP switches and jumpers Compare settings with the old rack and ensure that all switches jumpers are at same positions as in the old rack you could also refer to the as built document SCM Rack Configuration After that remount the SCM boards Finally reconnect power supply and check that operation is OK 9 1 2 SCM board The SCM board does normally not require any regularly maintenance Replacement is only needed at a board failure 9 1 2 1 Hardware For replacement of SCM board see chapter SCM board Installation replacement above 9 1 2 2 Software Normally all SCM boards in the system delivery have the same software installed motherboard and daughterboard An exception could be if a single board has been replaced 2000 2003 SAFEGATE International AB Ostersund SWEDEN 19 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e A SCM Rack 591883 User s Guide 9 1 2 3 Parameters Each SCM board contains a set of parameters unique for each circuit The parameters typically
189. nds 7 4 Soft ON OFF The LMS can be programmed to delay the physical turn on or turn off of the lamp upon reception of a command from the SCM The feature 1s called SoftON SoftOFF and its purpose 1s to mitigate the sudden load change to which the CCR is subjected when a large portion of the load is commanded on or off with a single command The command acknowledge from the LMS will not be affected and thereby neither the responsetime Without this feature 1t might not be possible to turn on or off all or most lights on a circuit with a single command without the CCR tripping either because of over or under current The physical delay is programmable on an individual level in 10ms increments There will be no response time impact when SoftON SoftOFF is enabled 7 5 Active failed lamp state response The LMS 591886 can be programmed to actively report failed lamps which makes it possible on system level to keep distinct a failed lamp from a failed LMS 7 6 RGL functionality The LMS can be used as a RGL flasher maintain flashing synchronisation in compliance with official standards 7 7 Running rabbit The LMS can be used to create different types of running rabbit patterns on the series circuit 8 OPERATIONAL INDICATIONS As the LMS is an airfield device there are no visible operational indications on the unit other than that at the field level by the ability to turn ON OFF FLASH the lighting as commanded 2004 SA
190. nly be used for non time critical applications such as lamp monitoring not for lamp controlling where short response times should be given priority to It is possible to connect an SCM board to different buses for A respective B channel normally both channels share the same bus RS 485A bus options is done by the DIL switches S11 to S81 SCM DIL RS 485 RS 485 RS 485 RS 485 beem p slot switch Bus Al Bus A2 Bus A3 Bus A4 TI e DIL RS 485 RS 485 RS 485 RS 485 switch Bus BI Bus B2 Bus B3 Bus B4 ON corresponds to the DIL switch being depressed on the right side Factory settings All switches OFF no multidrop O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 12 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e A SCM Rack 591883 User s Guide 7 5 5 G bus Master Slaves Two separate buses e g for synchronizing of activities on several SCM boards are located on the backplane E g one of the SCM boards can be selected as Master and will be synchronizing the other SCM boards connected to the bus Slaves There is also support for multi master mode where several masters can co exist on the same bus Masters M1 M2 can be enabled individually or both at the same time e g for redundancy reasons at failure of one of them All SCM boards are connected to the two buses G bus 1 and G bus 2 and
191. not be modified without consulting a very advanced user To find out the noiselevel on a series circuit can only be done by a very advanced user because the noiselevel is dependent on a number of things e g CCR intensity noise crosstalk from nearby circuits system configuration etc A simplified method is to measure the noiselevel on a series circuit is to look at an empty syncword timeslot combination in the signallevel matrix such a position can normally be found for timeslots in the first row of the matrix The signallevel that 1s presented in an empty timeslot syncword timeslot combination is the noiselevel note that this noiselevel is not graphically presented but can only be read in the matrix Generally can be said that 1 If the signallevel from a FCU is constantly below the threshold value signallevel marked red indicates that there is a faulty lamp LMS 2 If the signallevel from an FCU varies between red marking and green or white marking may or may not indicate that the FCU or cablage contacts to the FCU are faulty 2004 SAFEGATE International AB Ostersund SWEDEN 31 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Note if situation 1 arises that implies that the faulty lamp LMS also 1s reported and presented in the host control system and to correct that problem the normal maintenance procedures shall be p
192. nputs and outputs sharing the same pin require the one to be used exclusively of the other Note that this applies to the SIU as a unit 8 4 Sensor Test Function The SIU supports a function which can be configured to periodically down to as often as once every 10 seconds test a sensor The basic operation is that the SIU turns of the transmitter side of the sensor while monitoring the receiver side for detection If the receiver side does not detect the missing transmitter signal it indicates a sensor failure which the SIU will report While the sensor test is in progress live sensor status is suppressed which implies that the sensor function will be unavailable throughout the duration of the test sequence Typically the sensor test sequence takes less than one second to complete The following requirements must be met for correct operation of the sensor test function The sensor used must have an input which allows the SIU to turn off the transmitter side Both the receiver and the transmitter in a sensor pair must be connected to the same SIU The Safegate MBD 596530 meets these requirements 8 5 Direction Detection The SIU can be configured to evaluate signals from several sensors thereby enabling detection of direction of movement 8 6 Programming The procedure through which the SIU in configured 1s referred to as programming or parameter download SIU programming is described more in detail in the AMT User s Guide
193. nt by this transformer It interfaces to the series circuit through a standard 200W isolation transformer S SV CE OOOO OO000 0 SAFEGATE GROUP Communication Transformer Environment ate non condensing ol 95 Seeerei Wim yp Max Unit E A Rover Toases ja sf Mechanical data Wes 7 EECHER O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 9 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Hack 591883 User s Guide 7 5 Backplane The backplane accommodates 8 SCM boards motherboard daughterboard where the first position gives full functionality for the SCM board i e includes digital I O for controlling purposes e g LPC which is used for LMS and SIU programming 411 Besides communication on the series circuit with LMS and SIU all slots provide e Selectable RS 232 or RS 485 interface e Two RS 485 channels A B e Selectable RS 485 terminations amp failsafe cfg e Selectable RS 485 data buses common for several SCM boards e Common data bus G bus e g for synchronization ul LD nee Di d w CH e uw gt Remark Configuration jumpers are set by Safegate personnel at commissioning ref to SG591883 3006 The first slot of the backplane 1s shown to the right gt Slot 2 to 8 does not include the components to the lef
194. ogether e g SLC system Single Lamp Control SMR system Surface Movement Radar RTF system Radiotelephony MET system Meteorological ATM system Air Traffic Management Therefore a standalone Single Lamp Control System cannot be fully compliant with all modules but the Safegate ASP system is compliant with the modules that can be related to control of the airfield lamps e g e Routing e Guidance and control FAA Advisory Complies Chapter 8 g 2 e Failure modes of In Circular on pavement RGL s Low The synchronization between RGL s is Visibility based on that the communication between Taxiway SCM and LMS s is intact so that the SCM Lighting can send synchronization signals to the Systems LMS s Each LMS also has an internal AC150 5340 28 SYnCAUPODIZatron that will ECO Ene eles synchronized in case of communication failure Therefore it can be anticipated that in most working conditions the synchronization will be maintained even at control system communication failure 2002 SAFEGATE International AB Ostersund SWEDEN 5 5 12 SG591890 3006 INTERNATIONAL STANDARDS COMPLIA SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP Case Description Turn key ASP 2002 SAFEGATE International AB Ostersund SWEDEN 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP 30 06 2010 15 48 00 SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP Conten
195. oll in the window to see the old data It is possible to choose if the data should be presented in the view window as Decimal or Hexadecimal It is also possible to choose if the data should be presented as bytes 8 bit words 16 bit or Dword 32 bit 9 ELECTRICAL AND MECHANICAL CHARACTERISTICS The electrical and mechanical characteristics for the NCU computer are described in the information included from the computer manufacturer or on their web site support 2008 SAFEGATE International AB SWEDEN 12 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE ASP System G RO U P NCU User s Guide Interface specifications Interface to Host System Electrical RS232C 485 or Ethernet Protocol Modbus RTU and JBUS Siemens RK512 3964R Interface to SCM RS232C 485 Safegate proprietar 10 INSTALLATION 10 1 Hardware installation Depending on system configuration the NCU connects to a number of SCMs for series circuit communication and to the Host system Also depending on the system configuration and to support different electrical interface the NCU comes equipped with different types of added boards e g for Ethernet RS485 Profibus For details on how the NCU should be installed refer to project specific installation drawings 10 2 Software installation For various reasons the user may be requested by Safegate to update the NCU software or configuration 10 2 1 Prepare for the NCU configuration Unzip th
196. ollowing are the operative systems that are supported by AMT e Windows 98 e Windows 2000 Professional e Windows NT 4 0 Workstation e Windows XP Professional In addition to that the computer that AMT is running on must have e Monitor resolution at least 800 x 600 e Serial Communication Port e Fontsize small size or 96 DPI If other size is used some of the windows in AMT can be distorted and or impossible to read 6 2 Installation Run the installation program setup exe from the CD that AMT is delivered with That will install AMT on the hard disc and add a program group on the start menu called Safegate 6 3 Different variants of AMT In principal AMT comes in two versions The difference between them 1s the number of tools included Exactly what is included in each variant is determined by Safegate 6 3 1 AMT Basic The AMT Basic variant is intended for the user that only needs to program spare parts to an ASP system That includes programming of LMS SIU and SCM Alternatively or as a complement tools can be included for configuration and monitoring of stand alone ASP system so called Self Hosted SCM 6 3 2 AMT Pro The AMT Pro includes in addition to what is supported by the Basic variant also tools for commissioning monitoring and troubleshooting of the ASP system and its components 7 THE USER INTERFACE This section describes the user interface and briefly describes the functionality that the different tools pro
197. ommunicating OK BE e 1 SCM communication The SCM is not communicating with the NCU The cause may failure be one or more of the following events e It has failed its internal diagnostics e thas suffered an internal or external power failure e thas been switched to Local mode e The link between the SCM and the NCU has been cut or disconnected Note During SCM communication error the LMS will physical enter Failsafe state However the LMS status reported to the host system will be unchanged 5 4 3 2 SCM Circuit power off Circuit power off Indication Description bit value Circuit power ON The series circuit is powered ON Kassel 1 Circuit power OFF The SCM has detected that the series circuit power is OFF The cause may be one or more of the following events The CCR has been turned OFF The CCR has failed and thus been turned OFF The connection between the SCM and its isolation transformer on the series circuit has been cut or disconnected either internally or externally NOTE This is the ONLY notification that is given for this potential error as the LMS will not signal an error in this situation Note When Circuit power off is set the Segment state and Lamp state changes to off for units on corresponding circuit 5 4 4 Segment 5 4 4 1 Segment Command The Segment Command is used in projects where the HOST system performs control of segments Command bit value 0 OF Command a segment OFF Comman
198. onal AB stersund SWEDEN 5 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE 4 ASP System Documentation G R O U P Case Description Turn key ASP 6 5 1 LMS The LMS is installed between the lights and the isolation transformer as indicated by the figure below Note that the isolation transformer rating may be affected if long lamp cables are used Every LMS is labelled and the label bears the same marking as the light to which it should be connected For the system to operate as designed it s most important that LMSs are installed in the right locations A Light fixture LMS Module ISOLATION TRANSFORMER SERIES CIRCUIT The LMS module is connected to secondary side of isolation transformer 6 5 2 SCM The SCM is connected to the series circuit via a 200W isolation transformer It s recommended that the SCM is connected to the mains through an UPS 2002 SAFEGATE International AB Ostersund SWEDEN 6 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP E Main Switch l i Power cord p Cen A 3 100 24
199. onnector FAA L 8234 style 1 Length 200 CE XX LMS DUAL Part No 591886 22 erial No XXXX XXXX Frequency 50 60 Hz Connector FAA L 823 style 7 Length 400 Ver S Connector FAA L 823 style Y Length 400 Fig 10 2 Outline drawing dual LMS 591886 22 Connector FAA L 823 style 1 Length 200 25 66 A CE city 2x300 W XX See Sp LMS DUAL art No 591886 21 erial No KAKAK XXXX Switching Capal Frequency 50 60 Hz Curr ent P Ver S 4 pole cable Length 400 Fig 10 3 Outline drawing dual LMS 591886 21 11 INSTALLATION The dual LMS 591886 connects to the secondary of a standard isolation transformer and to one or two lamps see 9 3 1 for details on recommended transformer rating Note that the LMS supports grounded as well as ungrounded configurations but no more than one ground point on the isolation transformer secondary is allowed 2004 SAFEGATE International AB Ostersund SWEDEN 8 10 8 SG591886 3020A LMS USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P LMS 591886 User s Guide In other words eit
200. or 8 SCM boards 4 ABBREVIATIONS ASP SCM LPC LMS STU CU CCR AMT Airfield Smart Power Series Circuit Modem LMS SIU Programming Control unit Light Monitor and Switch unit Sensor Interface Unit Concentrator Unit Constant Current Regulator ASP Maintenance Tool maintenance software tool 2000 2003 SAFEGATE International AB Ostersund SWEDEN 6 SG591883 3002B SCM Rack User s Guide 3 20 SAFEGATE 2 ASP LMS System Documentation G RO U P 1 e SCM Rack 591883 User s Guide 5 REFERENCES G591883 3006 SCM Rack Configuration template G591891 3001 AMT User s Guide G591890 3014 ASP System Preventive Maintenance doc G591890 3004 ASP System troubleshooting and maintenance 6 INTRODUCTION The SCM constitutes the station placed master unit for Power Line Communication in an ASP system By superimposing signals which represent data on the current in a series circuit normally 2 8 6 6 A each SCM can communicate with LMS and SIU on the circuit to turn on off lamps and monitor status for lamps and sensors This 19 Rack for 6 SCM boards hereafter called SCM Rack enables a compact installation of up to 8 SCM boards in a single rack The SCM rack provides the following functionalities e g e Selectable RS 232 or RS 485 interface for each SCM board e Support for two RS 485 channels A B for each SCM board e Built in selectable RS 485 termination amp failsafe
201. ot be blocked the intake 1s at the lower position of the front The exhaust is on the back The communication transformers must also be mounted to allow good circulation of air see above 8 2 Software installation Only the SCM board motherboard and daughterboard contains software 8 2 1 SCM board At the system commissioning Safegate will see to that correct software is installed The user should not need to install any software See also chapter Maintenance SCM board below O 2000 2003 SAFEGATE International AB Ostersund SWEDEN 18 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e A SCM Rack 591883 User s Guide 9 MAINTENANCE For preventive maintenance instructions see ASP System Preventive Maintenance document SG591890 3014 For general maintenance instructions see ASP System Troubleshooting and maintenance document SG591890 3004 9 1 SCM 9 1 1 SCM rack The SCM rack does not require any regularly maintenance but an overall checking of the operation e g the function of the internal fans 1s recommended once in a while The fuse for the fans 1s located on the back of the rack 9 1 1 1 Replacement At replacement of the SCM rack the power supply must be turned off and be disconnected Consult installation drawings to see how All SCM boards must be removed from the old rack keep track of which slot they are placed i
202. ow Finally to invoke the programming press the Program FCU button or Fl Do you want to proceed 1 Avbryt 9 1 1 2 3Verifying Parameters Verifying parameters uses the same procedure as for the programming The user selects the scope for the verification from the same radio buttons used for selecting the programming scope The options available will depend on the FCU type selected and its capabilities PEU Parmeter Venison Verte ation F3 Vericatian Scope Selecled Parameter Block Programming and S erhication Scope fe Selected Panamar Block A Parameter Blocks f Completa Parameler Sel Selected Parameters The most basic verification is single parameter block verification which is supported by all FCU types More advanced is the single parameter or parameter subset verification Finally to invoke the verification press the Verification button or F3 O 2004 SAFEGATE International AB Ostersund SWEDEN 35 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 9 2 Circuit Tuning Note that the circuit tuning tool only is intended for advanced users 9 2 1 Why circuit tuning 9 2 1 1 ASP system power cable communication The ASP System is designed to provide individual monitoring of airfield lighting using the series circuit as a means of communication for the monitored status of the lamps and sensors in the airfield
203. ow the installation is done and hence there is no conflict with for example electrical safety code and general or local standards when installing this type of system The Safegate ASP system may be used on shielded as well as unshielded cables and there are no constraints when it comes to grounding the shield since it s not used by the system High voltage equipment connected to the primary of the series circuit and low voltage equipment connected to the secondary of the series circuit are physically separated By separating them the impact on system availability and person hazards as a consequence of maintenance efforts is minimized 6 9 Failsafe Operation If a fault 1s detected on any system component at any time the CU will provide this information to the Host System upon occurrence so that the appropriate actions may be taken These actions would typically be that of displaying a message to the maintenance station terminal and if necessary some indication at the operator terminals to signify any interference to operations In normal operations the ASP lighting appears on the airfield as commanded by the Host System When there is an equipment or communications failure associated with the ASP System the associated airfield lighting adopts the failsafe or safe state setting This can happen on an individual circuit basis or the entire airfield depending upon one or more of the following circumstances 1 A Set Failsafe
204. own 7 2 1 2 Dock To dock a tools window to the main window grab the name list of the window and drag it to the upper right corner of the main window A frame is shown in the main window Drop the name list and the window is docked and gets its own flap ASP Maintenance Tool eji 3 File View Tools Help 5 Open Config File DB Capture DB Explorer Manage Production ID l Connection FCU Tw SCM SG LPC120 Circuit Monitor Circuit Tuning Self Hosted SCM LPU Use Port Parameters C Monitoring C Control and Monito LPU Manager FCU Type LMS 5 2 v Preferences FCU Type Function Test Parameter Editor f LMS SIU SERIAL NUMBER 1014 Status No Connectia Start Checksum Check Download Parameters System Inspector LMS LPC Show Parameters Status Ben ode PID Number REMOTE Assign Serial Number F10 44 SLIQ2A 2A 1 SG 15 FCU Programmin O TwYvi B O TwY2 B Program FCU F1 Q ed Target a Bi OO sB3 B First Loop Address 14 Last Loop Address CC 4 ra 4 FCU Parameter Verification Verification F3 Verification Scope Selected Parameter s Mot used Delayed flash MSB Delayed flash LSB A ES A Notused DelayedflashMSB Delayed flashLSB Programming and Verification Scope C Selected Parameter Block C All Parameter Blocks C Complete Parameter Se
205. process In this mode the AMT software will automatically turn the LPC switches on off etc Connect the hardware as described in section 14 1 2 Hardware setup for Remote Control Mode In the Settings menu you also need to activate the Remote Control LPC item 1 At the programming screen you first need to select the correct configuration in the System panel Multiple choices for FCU Type are available Select LMS 3 Release the LAMP 1 or LAMP 2 buttons on the LPC if any of these buttons is pressed in 4 Connect the LMS male connector to an OUTPUT outlet on the LPC 5 Connect the LMS female connector to an LMS outlet on the LPC You also need to identify the individual LMS you intend to program You do this by either writing the id in the Find field to search for it or select the id in the System panel list 7 Press the Download Parameters button to start the programming sequence 8 A message box allows you to click on the Cancel button to stop the download sequence if you would like to do so If you want to continue the download sequence click on the Continue button see Figure 1 Programming LMS Confirm parameter download E Cancel Figure I Confirm parameter download O 2004 SAFEGATE International AB Ostersund SWEDEN 16 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO UP AMT Basic Pro User s Guide 9 10 11 A hardware initialisation is starte
206. rameters currently shown on the screen to the SCM e Get receives parameters from the SCM and shows them on the screen e Open opens an SCM parameter file and show the parameters on the screen e Save saves the currently shown parameters on the screen to a file e Erase all SCM parameters erases the parameter sets for all modem addresses in the SCM e Erase SCM parameter set erases the parameter set for the SCM address specified in the Unit Number field e Inthe field SCM ID a description of the SCM be added and saved with the parameter file 2004 SAFEGATE International AB Ostersund SWEDEN 27 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide e Inthe field Comments general information can be added and saved with the parameter file e The field Info shows information from the last time the parameter file was saved 1 Press Open to select the SCM parameter file file extension SCM 2 Press Set to send the parameter file to the SCM NOTE If the SCM parameter settings are changed remember to save the new settings Save the old settings to a changed name file and the new settings to the existing file name It is important to save the new settings to the same filename as before if the SCM maintenance should work as intended Otherwise the SCM parameter file will NOT be read automatically when using SCM maintenance function 8 3 CIRCUIT M
207. rations Recommended Preventive Maintenance Activity SCF Recommended Frequency Clean exterior of case Annually Check external connections and cables Annually Check and clean interior if necessary Every 5 years Check internal connections and cables Every 5 years Replace complete unit Every 15 years 6 4 LMS Refer to the table below for the recommended preventive maintenance activities that apply to the LMS Cabinet fans only apply to the SG591883 SCM rack 2003 SAFEGATE International AB Ostersund SWEDEN 5 7 15 SG591890 3014 ASP SYSTEM PREVENTIVE MAINTENANCE SAFEGATE ASP System Documentation G RO UP ASP System Preventive Maintenance Recommended Preventive Maintenance Activity LMS Recommended Frequency 6 5 SIU Refer to the table below for the recommended preventive maintenance activities that apply to the SIU Recommended Preventive Maintenance Activity SIU Recommended Frequency 6 6 MBD Refer to the table below for the recommended preventive maintenance activities that apply to the MBD Recommended Preventive Maintenance Activity MBD Recommended Frequency 6 7 SSU Refer to the table below for the recommended preventive maintenance activities that apply to the SSU Recommended Preventive Maintenance Activity SSU Recommended Frequency 6 8 SCI Refer to the table below for the recommended preventive maintenance activities that apply to the SCI Recommended Preventive M
208. rect a message box is shown to confirm this If the checksum is OK the SIU may be disconnected To program another SIU repeat this procedure from step 4 above However if a message box tells you that the checksum is incorrect then you need to reprogram the same SIU unit from step 7 above 8 1 1 3 Programming a SLIQ The programming of parameters is done in the LPU Manager window in AMT l Make sure the Remote button on the LPC 1s not pressed off before you start programming Connect the LMS male connector to an OUTPUT outlet on the LPC From the configuration list select the correct light parameter name to configure Note The product may require configurations of both sides or only one side Parameter name __A is for A side and B is for B side of SafeLED IQ Check the bottom of the SafeLED IQ for Production ID PID number Enter the PID Number in the text field Help DB Capture DB Explorer Manage Production I LPU Manager FCU Twv1_B SCM Use Port COMI FCU Type Function ing moe M Starl Download Parameters d LMS DA ie PID Number 094701 0022001 Press the Download Parameters button to start the programming sequence Click Continue to confirm parameter download see Figure 3 Programming LMS Confirm parameter download Figure 3 Confirm parameter download After downloading the parameters which can take up to a minute a checksum check will be done to ensure that the SL
209. rective maintenance which is performed to correct an already existing problem A preventive maintenance program can prevent breakdowns and failures through adjustment repair or replacement of equipment before a major breakdown or failure occurs Preventive maintenance for an ASP System is not mandatory although Safegate recommends that the below described activities or a subset thereof are incorporated into the preventive maintenance program at whichever site where an ASP System is installed 6 PREVENTIVE ASP COMPONENT MAINTENANCE The recommended maintenance activities below and the recommended frequency at which they are carried out are based on experience and common practice The recommended frequency quarterly is equivalent to once every three months The recommended frequency annually is equivalent to once every year Information on how to actually perform the recommended preventive maintenance activities are not found in this document Refer to each component s user guide and or maintenance guide for guidance 6 1 CU Refer to the table below for the recommended preventive maintenance activities that apply to the CU Note that not all items apply to all CU hardware configurations Recommended Preventive Maintenance Activity CU Recommended Frequency Check power supply fan for ventilation and dirt Quarterly build up and clean if necessary Check case fan s for ventilation and dirt build Quarterly up and clean fan s and
210. rogramming an SIU being a part of an ASP System is contained in a database unique to each system If an SIU needs to be replaced parameters are fetched from the database and downloaded to the unit Below a summary of the most prominent features of an SIU is found including mechanical and electrical characteristics 2002 SAFEGATE International AB Ostersund SWEDEN 4 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide 8 1 Physical Appearance The SIU is equipped with four connectors for sensors and other equipment in addition to the series circuit interface connector which connects to the secondary of a standard isolation transformer see 9 4 1 for details The four connectors for sensor interfacing are identical with reference to pin configuration see 9 1 1 for details Consequently the connectors are not marked for identification 8 2 Installation Connect the SIU to the secondary of an isolation transformer and to the external equipment to control and monitor see 9 1 for details on connector pin configuration and cable recommendations Special attention should be paid when connecting external cables to the SIU inputs Make sure that all connectors are clean and properly assembled before connecting them to the SIU The connector insert must be perpendicular to the connector surface if not so the connector needs to be disassembled then reassemble
211. ropriate circuit ASP Circuit Tuning Mal File Tools Help Circuits in Config Fil Manual Sequenc Run any step in aoe the auto sequence Info individually Open separate log Open the configuration file select circuit check the DIES window for details configuration tab and press the start button to run the on sequence sequence Modify the configuration from the tools mem Aun Freg Sweep and repeat the analysis as needed Show Details gl amaia ceva an Pet al se iege 2001 11 13 11 23 41 Loading list of circuits from contig file CSI TSSIN Ems5 tt 2001 11 13 11 23 42 Ready 2001 11 13 11 31 27 O2LRE2 Reading FEU data for circuit O2LARE2 2001 11 13 11 31 23 D2LRE2 Ready D S Figure 19 The ASP Circuit Tuning box circuit is selected O 2004 SAFEGATE International AB Ostersund SWEDEN 38 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide Before the frequency tuning can start a number of parameters must be set That is done by selecting Tools Configuration Figure 21 and the Circuit Tuning Configuration box will opens Figure 22 There are five flaps with settings General Frequencies Optimization Preferred Frequencies and Miscellaneous these settings are normally not modified default settings are used see Figure 22 Figure 23 Figure 24 and Figure 25 ASP Circuit Tuning a x Fi
212. rt section 7 Lamp OFF Broken lamp Replace lamp Lamp OFF even Broken LMS Replace LMS after replacement 7 SUPPORT Safegate International AB s support is 24 7 Call 040 699 1740 send a fax to 040 699 1745 or an e mail to support safegate com O 2002 SAFEGATE International AB Ostersund SWEDEN 10 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface ASP System ASP Modbus Interface O 2008 SAFEGATE International AB Ostersund SWEDEN 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface CONTENTS 1 REVISION PISTOFV 3 COP EE 3 AAPP nn A 3 E o0 Billieier f t 3 5 Intertace PrOLOCO e 4 o MOODUS Protocol RT 4 5 2 Initialization and Fallsafe ccccccccssececseececeeeeeceeeeseeesseeeesseeeeseueeeseeeeeseueeeseueessaeeesseeeessneeeeas 4 99 elo Eu E 4 5 4 Command and Status Details cccccccconncnncccnonnonnconnancnnncnnnnncnnnonnnnncnnnnonnnncnnnnonnnrnnnonnnanennnoss 6 5 4 1 KC USTA WO MET 6 942 Hearn Bat Oir 6 Aa I a e E o 6 5 4 3 1 OGM COMMUNICAON erfOF ac E 7 5 4 3 2 SGM CIC DOWEL Us 7 D SENG E 7 5 4 4 1 Segmen COMMANO rra 7 5 4 4 2 EE 7 SE o A y 8 5 4 5 1 EE
213. s circuit as well as is aware of the operative configuration Le what fixtures LMS are on the circuit information that normally 1s handled by the CU The SCM can therefore monitor the lamp status generate alarms or synchronise RGL flashing and other functionalities Uppermost in the configuration functions is the FCU Map with which the complete or selected parts of the configuration marked in the list for a specific circuit is downloaded to the SCM with the Set button If there is need to control the resemblance between the downloaded information and the information in a configuration file which can be done with the Check button In the cases where downloaded records are the same as the content in the configuration file the records in the list will be shadowed To set a threshold value for summary alarm a specific number of lamps use the Lamp Fail Alarm Threshold The filter length of the alarm threshold 1 e the number of consecutive lampfail responses to set an alarm use the Fail Filter Length The configuring of flash synchronising 1s set at the bottom of the configuring section of the tools window The synchronising sequence is activated there it 1s also configured for the groups included in the synchronising sequence and the Offset between the groups The Period is calculated directly from the information in the configuration file and cannot be modified by the user The interval between the synchronising sequences 1s set by Interval in
214. s finished the LMS s on the circuit and the SCM is updated with the new parameters Exit the program from ASP Circuit Tuning select File gt Exit Figure 35 The dialogue boxes Save Script and Save Log open Figure 36 and Figure 37 and asks the user if he wants to save logging information to file This information if needed can be used by Safegate personnel for troubleshooting purposes The pretest script is not necessary to save but the log window content must be saved The log window content should be given the default name XXXXXX log where XXXXXX represents the circuit name for example O2LRE I log ASP Circuit Tuning File Tools Help Open Contig Open Log File Save PreSicrpt As sei Select Circuit Save Log As and repeat the analysis as needed Prompt to Save on Exit 2001 11 13 13 22 42 MALAR A Updating SCM for Feu 02L RE 2 081 2001 11 13 13 23 42 NALAR 2 Updating SCM for Feu 02L AE 2 082 2001 11 13 13 23 43 O2LRE2 Update circuit sequence completed 2001 11 13 13 23 43 O2LRE2 Ready Figure 34 ASP Circuit Tuning exit program Save Script ES Save pretest script to file Figure 35 Save Script dialogue box select No Save Log EN Save log window content to file Figure 36 Save Log dialogue box select Yes 10 SELF HOSTED SCM Auto Sequence Start the configuration file select circuit check the uration tab and press the start button to run the on sequenc
215. s is done to avoid reporting temporary disturbance on the circuit Percentage of collected samples which have been reported fail 2008 SAFEGATE International AB SWEDEN 7 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch ASP System G RO U P NCU User s Guide 7 1 1 Sort of information in status window It is possible to sort the status information Just click in the header with the mouse to choose according to which column to sort the information 7 1 2 Reset of information in status window To reset the collected information and start counting the samples from scratch right click with the mouse in the window and choose to either Reset information for one LMS or Reset all information for all LMSes w Auto sort View Sort by Export all h ll Reset Reset all Configuration PI 1 7 1 3 Export of information from status window The collected status could be exported to a file Right click in the window and choose Export all SILUPUA L lt lt yf Auto sort View Sort by k Export all Reset Reset all Tm r3 rm rm m m PI SE Configuration r1 7 2 SCM Status View In the SCM status window it is possible to see the status for each SCM which are controlled by the NCU SCM Status view BAX Name Address Ready Connected Power Status Lost san Allsyncs Qnci 1 Yes Yes Yes Active 5 5 Qse 2 Yes Yes No Active 1
216. s like direction detection and sensor testing are supported To what extent all available features in an ASP System in general and in an SIU in particular are used in a specific application depends on the application itself Hence it s possible that not all features mentioned in this document are used in a particular application 7 COMPATIBILITY The SIU 591885 is backwards compatible with the SIU 591805 both in terms of handlings and functionality This implies that an SIU 591885 can be used transparently as a spare in a system originally equipped with the SIU 591805 Mechanically the SIU 591885 is different from the SIU 591805 The former has four connectors for external equipment while the latter only has one Furthermore the connector type is not the same for the two different types of SIU Equipment formerly connected to an SIU 591805 shall be connected to an SIU 591885 using an adaptor cable 594110 8 CHARACTERISTICS The application specific functional properties of an SIU are controlled by a set of parameters downloaded to the unit prior to installation These parameters may also be modified after installation The mechanism used to download parameters to an SIU in the field uses the same power line communication channel used for commands from the SCM and status back indication from the SIU see also 8 6 This document does not contain any detailed information on specific parameters since all necessary information for p
217. ss Yes The progress bar in the ASP Circuit Tuning box monitors the progress of the update circuit process it takes several minutes depending on the number of LMS s on the circuit ASP Circuit Tuning File Tools Help Circi Configuration Fl Load Def SCM Freg Map Oel SCM Parameters FS Manual Frequency Selection EA Update Circuit A CU e sequence and repeat the analysis as needed k Prompt to Save on Exit on Sequence Show Details Deen Dee 2001 11 13 13 15 03 02LRE2 Ready Auto Sequenc Stark select circuit check the ores the start button to run the Modify the configuration fram the tools men me ES Manual Sequenc Aun any step in Individually 2001 11 13 13 15 04 D2LRE 2 Collecting FEU response level data 2001 11 13 13 18 27 D2LRE2 Ready 2001 11 13 13 18 27 O2LRE2 Analyzing acquired FEU data the auto sequence ur aor ior Bun Freq sweep Analyse Frege Figure 32 ASP Circuit Tuning box update the circuit with new frequency parameters 2004 SAFEGATE International AB stersund SWEDEN 43 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE A GROUP Productdocumentation AMT 591891 AMT Basic Pro User s Guide Update Circuit EZ Update circuit with results Figure 33 Update Circuit dialogue box double check of circuit update Now the frequency tuning sequence i
218. ssumes that a single sensor including receiver and BE is connected to the same A Connect a 5000 resistor pee Pigure 2 between power supply and TEST terminal in transmitter Connect TEST terminal in e Figure transmitter to SIU OUT1 pin 7 in connector Connect power supply See Figure 2 terminals in transmitter to SIU OUT4 and Common pins 1 and 2 in connector Connect a wire between power See Figure 2 supply and ALARM RELAY COM terminal in receiver Connect ALARM RELAY NC See Figure 2 terminal in receiver to SIU IN1 pin 3 in connector Connect power supply See Figure 2 terminals in receiver to SIU OUT4 and Common pins 1 and 2 in connector Make sure that the HOLD Turn potentiometer counter clock wise to potentiometer in the receiver stop position for minimal hold time is adjusted for minimal hold 2002 SAFEGATE International AB stersund SWEDEN 9 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO UP SIU 591885 User s Guide O 0 5s and that the a jumper is set for NORMAL INPUT 12VDC INPUT 12VDC INPUT 1 INPUT 1 TEST OO Joo P obh A ALARM COM ALARM NC IN COM OUT 4 Figure 2 Interfacing SG596530 to SIU with Sensor Test support 9 3 Appendix C 9 3 1 Troubleshooting The most common cause for SIU malfunction 1s erroneous installation It 1s recommended to always start by ver
219. t e Selected Parameter s 2010 02 26 11 25 00 Self Hosted SCM DEBUG No virtual SCM handler implemented for command type 21 2010 02 26 11 25 00 Circuit Tuning Loading list of circuits from config file C amp rbete amp MT 24 test SLIQNSLIGQ24 24 txt 2010 02 26 11 25 00 Circuit Tuning Reading FCU data for circuit SG 2010 02 26 11 25 03 FCU Inspector FCLIType LMS 5 2 selected If the Log window is intended to be docked drag it to the bottom part of the main window When both the Connection Manager and System Inspector is separate windows and one of them is supposed to be docked it must be dragged to the left part of the main window Note that not all windows can be docked everywhere e The tools windows can only be docked to the right part of the mains window e Connection Manager and System Inspector can be docked either to the right or to the left part of the mains window e The Log window can only be docked at the bottom part of the main window 2004 SAFEGATE International AB stersund SWEDEN 7 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Ch Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 7 2 1 3 Hide windows To hide a window either click on the cross in the upper right or left corner or deselect the window in either the View or Tools menu 7 2 1 4 Show window To show a window select the window 1n either the View or Tools menu
220. t of the card connectors J11 J12 but otherwise corresponding components 7 5 1 LED indications The external 24 V voltage supply provides power to each slot via the individual fuses placed above each slot on the front On the upper half of the backplane 24 V 1s indicated according to following scheme LED11 24 V slot 1 LED21 24 V slot 2 MV su2 LED71 24 V slot 7 LED81 24 V slot 8 To the left of slot 1 there are two indicators for the common data bus G bus LED1 G bus Master 1 active LED2 G bus Master 2 active 2000 2003 SAFEGATE International AB Ostersund SWEDEN 10 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e A SCM Rack 591883 User s Guide 7 5 2 RS 232 RS 485 alternative Each slot has two serial communication ports The first one is only for RS 485 while the other one is either for RS 485 or RS 232 On the backplane of the SCM rack there are 8 sets of COM connectors one set for each slot see figure 2 RS485A Channel A only for RS 485 RS485B 232 Channel B selectable as RS 485 or RS 232 The channel B mode is selected by the multi jumpers JR1 to JR8 placed on the lower half of the backplane just above the ribbon cable connector SCM so mw n mu L RS 232 RS 232 RS 232 RS 222 RS 232 RS 232 RS 232 Factory setting RS 485B for all slots 7 5 3 RS 485 Terminations amp Failsafe
221. t Ee e 6 er eg eRe ane ee nee ee a aaa aa 6 9 3 1 Troubleshoot seso aia aso 6 2002 SAFEGATE International AB Ostersund SWEDEN 2 6 5 SG591870 3002 SCF USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P Series Circuit Filter 591870 1 User s Guide 1 REVISION HISTORY 2 SCOPE This document describes the ASP System Component Series Circuit Filter product number 591870 1 3 APPLICATION The User s Guide for the Series Circuit Filter covers specifications installation maintenance and troubleshooting of an SCF 4 ABBREVIATIONS ASP Airfield Smart Power SCF Series Circuit Filter SCM Series Circuit Modem LMS Light Monitor and Switch unit SIU Sensor Interface Unit CU Concentrator Unit CCR Constant Current Regulator 5 REFERENCES G591890 3007 ASP System General Description O 2002 SAFEGATE International AB Ostersund SWEDEN 3 6 5 SG591870 3002 SCF USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P Series Circuit Filter 591870 1 User s Guide 6 INTRODUCTION The SCF prevents the communication signals superimposed on the series circuit by the SCM to interfere with the CCR 7 ASP COMPONENT DESCRIPTION The SCF is an all passive device 7 1 Electrical and Mechanical Specification Refer to 9 1 1 for details 7 2 Functional Specification The SCF virtually short circuits the communication signals superimposed on the series circuit by the SCM and
222. t be added across the relay coil for protection of the output Note that V in the figure may be either OUT4 or a voltage external to the SIU in the latter case the SIU Common terminal shall be connected to the ground reference for V The maximum V voltage allowed is 26VDC K1 5 N C COM 30 e 4 N O V 1 E dE 2 P RELAY SPDT 1N4148 OUTx 8 3 2 3 Output Configuration Each output can be individually controlled by command from the SCM In addition each output can be independently configured to either accept or discard commands from host This implies that to control an output remotely it must have an address assigned for control and be configured for control The SIU supports a feature where an output turned on by command from host is automatically turned off after a certain period of time If communication between the SIU and the SCM is interrupted or lost the SIU is programmed to either leave the outputs unchanged or set them to a state corresponding to the power on state defined This mechanism is referred to as Safe State 2002 SAFEGATE International AB stersund SWEDEN 7 11 7 SG591885 3018A SIU USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P SIU 591885 User s Guide OUTI OUT2 and OUT3 are said to be active or on when sinking current and passive or off when floating while OUT4 is active or on when supplying power to the load and passive or off when not 8 3 3 Shared I O I
223. ter fStop Use Cor Circuit Note Enable Filtering 2005 09 23 12 23 41 ThitPS1TXwA 2008 02 26 11 33 54 o a m Teen T ccm 25kVA B4 GC SR Comment Test Data gt Export Import _ Time Stamp Ip Type State State Change ON D 2005 09 23 12 17 50 BAP_T3 1 2 2005 09 23 12 17 50 BAP_T3 1 1 2005 09 23 12 17 50 BAP_T3 1 3 2005 09 23 12 17 50 BAP_T3 1 4 2005 09 2312 17 50 BAP_T3 1 5 2005 09 2312 17 50 BAP_T3 1 6 2005 09 2312 17 50 BAP T31 7 Replay Y Enable Replay Quick Replay Replay Momentary Values Stop gt Step gt When a specific logging sequence is selected in Directory Data will show high level information from the selected circuit as well as raw data Every event is individually time stamped Comments can be added to any event The Data window includes the following information Time Stamp Time stamp identifies when data in displayed record was captured ID FCU ID Type LMS SIU State Indicates lamp state for LMS and detection state for SIU State Change State change identified with reference to previous record Level Signal level Com Fail Number of communication failures Com Count Number of communication repetitions Start Indicates when capture was stared for data to which the displayed record belongs Comment User Comment To the right in DB Explorer there are functions for filtering Filtering can be based on e Date and time O 2004
224. ter evaluation That includes raw data as well as status on system level The logging can be initiated either manually or be programmed to start stop at a specific time Every logging sequence is time stamped with start and stop time Information about who has initiated the log as well as information about what AMT version and computer have been used is also saved The user must also state some Meta Data concerning the series circuit CCR filter units etc If the user wants to the log can be restricted to only include status changes for the system components That 1s an advantage when long logging sequences are carried out as the amount of logged data will be less extensive DB Capture Control Schedule Enable Scheduling Start SE 2010 02 26 11 39 5 Meta Data AMT 3 3 Built on Jan 21 2010 16 43 56 susannel OS0 5L Circuit Note CCA Note SFU Note Comment O 2004 SAFEGATE International AB Ostersund SWEDEN 13 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide 7 6 5 2 Review Logged data By using the DB Explorer the user can easily navigate to a specific logging sequence to be able to evaluate it Uppermost in DB Explorer is a list of carried out logging sequences sorted by date By selecting a sequence in Directory supplementary details can be added in the Meta Data fields CCR SFU and other DB Explorer e Directory Fil
225. ternational AB SWEDEN 10 SG591943 3004A NCU USER S GUIDE SAFEGATE ASP System G RO U P NCU User s Guide CONTENTS 1 REVISION PRISTON E 3 2 PPPICON 3 A m 3 XE iiie n EEE E a EA Se E ESES 3 AP AA 4 6 ASPGWY funcions EE 4 61 Segment handli G m 4 6 1 1 SET E E A 4 61 2 Command repettion sasa badaka sa diia aaa a aa kad pin Ga bana kaka a a ian AA gan bah nana ka a adad a bak abaan buh a Akh 4 6 1 3 No circuit power handling Mmm 5 6 1 4 Command optimization ccssseececcceeeseeeecceesseeeecsaaueeeecseauseeeseseaueeeeessaaeeeesseeageeeessaaaaes 5 6 2 Adjacent lamp calculation ooccccconncncoconnnnoconcnnonnononcnnonennnnonrnnnnnnnnnnnnnnrnnnnnnnnnnnnnnrnrnnanrnnrnnraninnas 5 2008 0 t 5 64 Basic SCM communication sieiccecscedaceapendeswudcndeteatvedesedscedatesseetesendsntatacteiniatedieedadensendationtucdnecterteees 5 6 4 1 SONS MONO MO rra crias 5 6 5 Redundancy in ASOGWY cccccccccceeeeeceeecaeeeeeeeecaeeseeeeeseeeseeeeeseeeseeeesseaeeeeeesseaeeeeeessaaseeeessaeneeeeees 5 MES COMM UMIC AMON mete 6 LCMS Status VIEW NGENE GR 6 7 1 1 Sort of information In status WIITBdOW coo caeca sedia en enatca eue as 8 7 1 2 Reset of information in status window eaaa senen
226. the CCRs In addition isolation transformers for connecting the SCMs to the series circuit and interfacing material for interfacing the SCMs to the control system see also 6 5 4 is included in the package 6 2 Physical Design Each of the two SCMs are located in a separate sub station one at one end of the RWY the other at the other end There are two circuits supplying the 156 RWY edge and threshold lights The lights are evenly distributed between the circuits and the circuit layout is designed for interleaved configuration Hence there are 78 lights equipped with LMSs on each circuit The SCM is connected to the existing control system using potential free contacts for both control input and alarm indication output 6 3 Function The ASP System supports control and monitoring of five different light functions air force RWY edge mixed RWY edge commercial threshold 14 air force threshold 14 and air force threshold 32 The two RW Y configurations are denoted AIRFORCE AF and COMMERCIAL COM respectively 2002 SAFEGATE International AB stersund SWEDEN 4 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP COM threshold 14 ee a Lights TR201 TR218 AF threshold 14 Lights TR85 TR102 AF threshold 32 ul Lights TR1 TR18 always ON Every light is monitored individually and the SCM continuously concatenates system status and if the configur
227. the NCU 591943 product from an operational perspective It includes functionality interface views installation and maintenance Project specific information like detailed interface protocol or detailed hardware installation drawings are not described in this document as they may vary from project to project 3 ABBREVIATIONS ASP Airfield Smart Power NCU Network Concentrator Unit AspGwy Airfield Smart Power Gateway LMS Light Monitor and Switch unit SIU Sensor Interface Unit SCM Series Circuit Modem PLC Programmable Logic Controller CCR Constant Current Regulator ATC Air Traffic Control ICAO International Civil Aviation Organisation 4 REFERENCES 1 SG591890 3023C ASP Modbus Interface 2008 SAFEGATE International AB SWEDEN 3 14 10 SG591943 3004A NCU USER S GUIDE SAFEGATE Ch ASP System G RO U P NCU User s Guide 5 INTRODUCTION The purpose of the NCU is to provide a powerful interface to all the lights sensors and miscellaneous equipment that are controlled and monitored by the ASP system The NCU may be connected to different Host systems through a number of supported protocols The NCU comprises both the hardware the computer and the software run on it The main application run on the NCU is the AspGwy The AspGwy controls the interface between the NCU and the SCMs and it also processes the commands to be sent and receives the status from LMSs and SIUs Each component that is monitored and or
228. thus prevent them from interfering with the CCR The SCF also prevents noise from the CCR from interfering with the ASP system communication 8 INSTALLATION 8 1 Hardware Installation The SCF is connected across the CCR output on the high voltage side of the series circuit Preferable the SCF 1s positioned close to the CCR CONNECTED TO CCR OUTPUT max 5000 V O O ISOLATING TRANSFO MER 4 Extension cable x gd Not included Connection to ER Series Circuit Modem A 1 Length 300 mm a IN SERIES CIRCUIT Connector FAA Style 2 9 SAFEGATE ASP LMS System Documentation G RO UP Series Circuit Filter 591870 1 User s Guide 9 APPENDICES 9 1 Appendix A 9 1 1 Electrical and Mechanical Characteristics Unless differently noted all maximum values are absolute maximum values characteristics sme Wm tm we Use Electrical Voltage across series circuit terminals Ve II 5000 Environment Mechanical data According to drawing AT610063
229. to be able to work correctly System EE Inspector 1s used to load the system configuration to navigate in it E and in some cases to manipulate it E SLIQ2A 2A 1 The window is consisting of two parts e Atthe top is a search field e At the bottom is a tree structure where the configuration is shown 7 4 1 The Configuration Tree The content of the configuration is shown in a tree structure where the uppermost level symbolises the site Below that level is the different circuits and on the bottom level is the lamps and sensors By selecting a lamp or sensor in the tree it will automatically be active and available by all tools in AMT To the left of every lamp and sensor there is an icon that symbolises the object If the user clicks with the right mouse button on an active lamp or sensor a small menu turns up where a number of selections are available e Collapse All Compress the tree so that only the uppermost level is visible e Expand All Expands the tree so that all levels are visible e Auto Expand If this function is active all circuits will be compressed except the selected circuit e Clear Status Resets the status indication that is shown to the left of the symbols for the object lamp or sensor 7 4 2 Search in the Configuration Write the complete or beginning part of the name in the search field and press enter The first occurrence of the text string 1s shown by highlighting the object in t
230. tor under the above mentioned Project Contract will be e atleast of the quality and to the standard required by the Contract and e of good workmanship and new and of merchantable quality and e fit for the purpose or purposes for which they are required All materials and workmanship are guaranteed against defect and malfunction for a period of twelve 12 months from the date of successful completion of a Site Acceptance Test SAT or of a period of eighteen 18 months from the date of shipment whichever occurs first according to the Project Contract Project Managers Member of the Safegate Group Subsidiary Company Product System Warranty Safegate Group guarantees that the performance of the Safegate Group product system when sold by Safegate Group or its licensed representatives meets the requirements of and is in compliance with agreed standards such as ICAO Note For more information contact Safegate for compliance with standards Any defect in design material or workmanship which may occur during proper and normal use over a period covered by the warranty stipulated in the contract will be replaced by Safegate Group free of charge excluding works Operational failure resulting from improper installation damage due to user operator error airport maintenance equipment are not considered a result of proper use and is beyond the scope of the warranty Any 3rd party products installed or integrated with functionality in a Safeg
231. ts 1 REVISION e E e 3 SCO o o o A 3 A 3 A Ann eo 3 S RE OCU CUO EE 4 51 IE OY TE 4 6 The ASPAS SIM awa aan aia nabi aju anakke a EEE ii a aos 4 6 1 System Re nl ele EE 4 6 2 Physical DESION ME 4 PEO APP E Ae 4 6 3 1 POWO Iena ee eee ee ee ee ee 5 e E o 5 4 ee Ucet oom 5 Ga AS cile MN mm 5 6 5 1 B YV 6 A 6 Ea HH 7 6 5 4 Control System Interface ooooonnncconccccccccnnncnnnnnconononnnennnnnonononannnnnnnnnonnnnnnnennnnnnnnnnnannrnnnnnnnss 7 6 5 4 1 SEM Pe uU TE 8 6 5 4 2 SCOM ARIM OUMU T 8 6 5 4 3 COT OL EE EE EE 8 6 5 4 4 A at ate AA aaa E aan ang An KA ag a DA aaa aana 8 6445 EE 9 6 5 4 6 Response EE 9 66 na UMORE TTE 9 Or ONDAS POS EE 9 68 Trouble ONO UNO MNT TTE ERES 10 Ge Te EE 10 O 2002 SAFEGATE International AB Ostersund SWEDEN 2 10 13 SG591890 3013 CASE DESCRIPTION TURN KEY ASP SAFEGATE K ASP System Documentation GROUP Case Description Turn key ASP 1 REVISION HISTORY Author Date Version Comment OH 021123 1 0 Document created 2 SCOPE This document describes a Turn key ASP system The system described has been delivered installed commissioned and accepted in Sweden 2002 Since this document
232. uide This document describes the set up control panel function some maintenance issues etc for the LPC When it comes to instructions for functional test or programming of LMS and SIU please refer to the AMT User s Guide 3 ABBREVIATIONS ASP Airfield Smart Power CCR Constant Current Regulator SCM Series Circuit Modem LPC LMS SIU Programming Control unit LMS Light Monitor and Switch unit SIU Sensor Interface Unit MBD Microwave Barrier Detector AMT ASP Maintenance Tool Windows application 4 REFERENCES G591891 3001 AMT User s Guide X0085 SCM User s Guide 2003 SAFEGATE International AB Ostersund SWEDEN 3 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide 5 DESCRIPTION 5 1 General The combination LPU LPC SCM and AMT constitutes a tool required for programming of LMS and SIU in the long term an expected maintenance action required when replacing broken units LPU also gives the possibility to make a functional test of an LMS or SIU The LPC comes with all cables required for connecting the PC SCM LMS and SIU and can be used for new as well as old versions of LMS and SIU To connect the old version of SIU 591805 ver 1 3 an adapter cable 594113 1s required to be ordered separately LPC supplies current as a CCR to the connected units SCM LMS SIU on the mini series circuit It also cont
233. usted in height and tilted after radome is replaced Make connections to the terminal strip according to labelled terminal functions See Figure Observe the resistor SOO Ohm in the Transmitter and the jumper in the Receiver Attach power wires to terminal identified as 12 VDC Positive and GND Negative OBSERVE POLARITY wrong polarity will blow the fuse Keep spare fuses available If not continuing with the commissioning at this stage replace radomes on Transmitter and Receiver using all six screws SWITCH I E E E las Ul eae COM COM Ne Ur AMPER ALARM 12 VDG SWITCH RELAY 1 310BT TRANSMITTER 310BR RECEIVER INPUT 12VDC INPUT 12VDC 4 2 3 4 5 6 7 8 9 ALARM COM ALARM NC Receiver O 2002 SAFEGATE International AB Ostersund SWEDEN 12 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P de e 4 Microwave Barrier Detector MBD 596530 User s Guide 8 5 Commissioning the MBD 8 5 1 Indicators and jumpers 8 5 1 1 Transmitter MODULATION FREQUENCY Channel selection field A B C D POWER LED Power indication MODULATION FREQUENCY 8 5 1 2 Receiver MODULATION FREQUENCY Channel selection field A B C D ALARM LED Indicates detection of an object JAMMING LED Indicates interference with other Tx unit WRONG CHANNEL LED Indicates Tx amp RX set to different channels gt SENSITIVITY MODULATI
234. ve The Aircraft incursion detection can be Idle Presence or Exit Clearance given ATC deactivates the stop bar Presence detection SaleControl detects the presence of an wrcrait or vehicle O 2010 SAFEGATE International AB 11 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE Ch GROUP On Leave Idle Automatic activation safeControl automatically activates the stop bar amd removes presence deteclion Automatic deactivation S5uicControl automatically deactivates the second bead on E HL E s AH EL VW re Exit detection SifeComrol detects ninway excl of an aircraft or vehicle ASP LMS System Documentation ASP System ASP Modbus Interface On Leave Presence Automatic deactivation SafeControl automatically denctiviles the firet lead on seme O 2010 SAFEGATE International AB 12 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO U P ASP System ASP Modbus Interface The Presence detection function will be based upon two sensors Presence sensor Sl placed approximately 70 m in front of the stopbar and the Stopbar Sensor S2 placed directly after the stopbar The presence detection can be Idle Exit or Presence When no air plane is detected the presence detection is in Idle If the S2 sensor gets the next detect it indicates that an air plane is Exiting the runway and the Presence state is set to e
235. ved from its packing ESD protective bag touch a grounded object the SCM rack or the cabinet to discharge yourself Best is to use an ESD wrist strap connected to ground Hold the SCM board in front edges and avoid touching the components on the PCB 8 1 4 2 Installation replacement Each slot in the SCM rack is individually fused When installing or replacing an SCM board the power should be interrupted to the associated slot In the meantime remaining SCM boards can stay in operation which will minimize the operational consequences First remove the fuse T 4 0 A above the associated slot before the SCM board is removed or inserted The SCM board is mounted with four screws in the corners of its front panel Carefully remove the old board from its slot and put it in a safe place ESD protective bag When replacing a board make sure that all jumpers are mounted correctly on the motherboard as well as on the daughterboard Compare with the old SCM board or see 7 6 4 Jumpers and 7 6 5 3 Jumpers Insert and mount the board then restore the fuse to power up the board again See further Maintenance SCM board below regarding software parameter configurations etc 8 1 5 Cooling The cabinet must not be closed but must have ventilation for both incoming and outgoing air Forced ventilation evacuating cabinet fan 1s recommended especially in fully equipped cabinets For the cooling of the SCM rack the airflow must n
236. vide 7 1 Login When AMT is started up the user is asked to login with his username and password 2004 SAFEGATE International AB Ostersund SWEDEN 5 50 2 SG591891 3006D AMT PRO BASIC USER S GUIDE SAFEGATE Productdocumentation AMT 591891 G RO U P AMT Basic Pro User s Guide ASP Maintenance Tool Username user Password See section 13 for more information about the administration of users and user groups 7 2 Main window If the username and login is correct the main window is shown ASP Maintenance Tool m E eg zem File View Tools Help 5 Open Config File DB Capture DB Explorer Manage Production ID Ki Connection LPU Manager FCU TwY7 SEM SG LPC 1 0 Circuit Monitor Circuit Tuning Self Hosted SCM LPU Use Port Monitoring COMI FCU Type Function Test C Control and Monitoring LMS C SU Start MENS Download Parameters Reconnect LMS LPC Show Parameters Status Status Monitoring 227 LPC Mode xi System Inspector REMOTE Tan wue E SG 15 Q TwYl B 2010 02 26 11 25 00 Self Hosted SCM DEBUG No virtual SCM handler implemented for command type 21 2010 02 26 11 25 00 Circuit Tuning Loading list of circuits from config file C N amp rbeteX amp MT 24 test SLIQNSLIQ2A 2 tt 2010 02 26 11 25 00 Circuit Tuning Reading FCU data for circuit SG 2010 02 26 11 25 03 FCU Inspector FCUIType LMS 5 2 selected The
237. w e s Dam Buffered pa fe poore e Analog ground ID Relay 1 NO AA ra NNNM Fn o Oop fe ae pem paa fe G cM D B E ERIN A TR 0 TT 2000 2003 SAFEGATE International AB Ostersund SWEDEN 14 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e A SCM Rack 591883 User s Guide 7 6 SCM board The name which stands for Series Circuit Modem implies that this board is used for communication on the series circuit The SCM board constitutes of a motherboard and onto that mounted a daughterboard A complete SCM board is needed for each series circuit to communicate with LMS and or SIU The principles of communication is based on FSK frequency shift but adapted to Series circuit systems where long cables as well as clusters of isolation transformers and normally thyristor noise must be mastered Available for communication with system above normally CU Selectable RS 232 or RS 485 interface Y Y Two RS 485 channels A D Selectable RS 485 termination Described 1n 7 5 2 RS 232 RS 485 alternative and 7 5 3 RS 485 Termination amp Failsafe For e g synchronization of activities on several SCM boards RS485 gt RS232 OO CO e Common bus G bus Described in 7 5 5 G bus Master Slaves de 18166 NOS 7 6 1 Front switch RS485 RS232 The position of the front switch selects RS 232 or RS 485 as co
238. west level possible and information condensed before transferred upward so as to minimize response times and transfer of information between each unit 7 1 System Response Times The ASP System is designed to provide up to date status information on individual lamps as well as light functions independently of the commanded lamp state 1 e no matter if the lamp is commanded on or off This implies that provided the system and series circuit 1s energized status on lights and light functions is continuously available The user of the system will not only be able to control desired light functions but will also know beforehand in what shape the system is in terms of operational readiness Hence maintenance efforts may be launched as soon as any deficiencies are detected and well before the affected light functions are needed operationally The ASP System is designed to comply with operational requirements in terms of response times In the chain of events including air traffic controller reaction gt system response time gt physical changes in the field pilot reaction the system response time constitutes a minor part Time critical functions like stop bar control have priority over less critical functions like for example runway edge light monitoring Response times are measured from the ASP System interface from the point in time when a command is received to the point in time when the corresponding status information true fed back 1s
239. will of configured so therefore be Slaves The two G buses can also be externally connected to other SCM racks for synchronization For this purpose there are two EXT BUS connectors on the backside of the SCM rack DIL switches S13 to 83 corresponding to slot 1 8 decides which SCM will be selected as Master for each G bus Switch position S13 to S83 E IH B TE 8 ON corresponds to the DIL switch being depressed on the right side Factory settings All switches OFF OPEN No Master is selected i3 2000 2003 SAFEGATE International AB Ostersund SWEDEN 13 20 6 SG591883 3002B SCM Rack User s Guide SAFEGATE ASP LMS System Documentation G RO U P 1 e 2 SCM Rack 591883 User s Guide 7 5 6 Digital I Os The first slot provides full functionality for the SCM board including digital I Os for controlling purposes e g for LPC which 1s used for programming of LMS and SIU These digital I Os are available on two separate connectors on the rear of the SCM rack e I OIN SLOT 1 4 Digital Analog 0 5 V 8 bits ADC inputs e I OOUTSLOT 1 6 Digital outputs Open collector type The digital outputs are normally used for other tasks on the SCM board To use as separate controllable outputs adapted software and or parameters 1s required same for reading the digital inputs I O IN SLOT 1 I O OUT SLOT 1 AAA oL Di UT 2 aaneren eme 3 DgAasQ s s poors a panne Dig UT 5 5 Weg SO UTS s
240. ws for a spare fuse as well T 2A 240V Just above the voltage selector 120 240 1s located preset for 240 V at delivery Next to the inlet there s an outlet for power take off for the SCM this way both LPC and SCM can be switched on off by the same main switch Then there s a fuse T 2A for internal 24V supply In the upper D25 connector outputs SIU supply voltage SIU outputs are found for status reading using AMT In the lower D25 connector there are inputs for remote control of the LPC at programming or test of LMS and SIU using AMT The EMI box at the right contains terminals for connection of SCM used for communication superimposing data on the local series circuit O 2003 SAFEGATE International AB Ostersund SWEDEN 5 9 4 SG591862 3001 LPU LPC USER S GUIDE SAFEGATE ASP LMS System Documentation G RO U P O e 1 LPU 591862 LPC 591859 User s Guide 6 2 Front D o c0 QQ IN IN IN IN O 5 10 15 20 25 30 date 1 2 3 4 psp ee a OUT OUT OUT OUT 1 2 3 4 LAMP TEST INPUT LOAD LOAD 1 LOGIC 5 PROG 0 ses ges e d UT ge Bl x SIU LMS LMS Output 1 Output 2 Power D LP C LPU Control unit e MEET i D SIU Voltage Output Power
241. xit The exit state will remain until S1 detects upon which the Presence state 1s set to Idle Multiple Detections on S1 during the next 30 seconds will be allowed If the S1 sensor gets the next detect it indicates that an air plane has approached the stopbar towards the runway and the presence state is set to presence This state will remain until S2 detects upon which the presence state sets to idle Multiple Detections on S2 during the next 30 seconds will be allowed When S2 detects 1t is checked whether the Stopbar has been turned off If this is not the Case the Incursion State will be set indicating that the air plane has crossed the stopbar without permission The Incursion state will remain set for 30 seconds The command Toggle Presence detection can be used to reset set the presence state in case the presence logic ends in a wrong state 2010 SAFEGATE International AB 13 18 14 SG591890 3023H ASP MODBUS INTERFACE SAFEGATE ASP LMS System Documentation G RO UP ASP System ASP Moabus Interface 1 1 Stopbar Command Below is the stop bar command word to bit Set Control On No action Turn On SB Only effective when Stop bar is Off Set the Stopbar to Off Sequence Control No action Toggle If Stopbar is Off set the Stopbar to Ready Sequence If Stopbar is Ready set the Stopbar to Enter If Stopbar is Enter set the Stopbar to Leave If Stopbar is Leave set the Stopbar to Enter Extend Sequence Reload Enter or Leav
242. y lower mounting height or rougher surface will increase pattern width For example if the total link distance is 230m and the sensitivity adjustment set to mid point the figure indicates the detection pattern width to be 3 6m 250 500 750 1000 1250 1500 75m 152m 229m 305m 381m 457m TOTAL LINK DISTANCE FEET LLI LLI LL L I Es LL eo JJ lt L lt O Z 2002 SAFEGATE International AB stersund SWEDEN 18 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE 1 A G RO U P ASP LMS System Documentation Microwave Barrier Detector MBD 596530 User s Guide 12 APPENDIX MBD INSTALLATION DATA MBD Installation data sG506530 3015 SAFEGATE Channel selection A B C D RECEIVER erial Number upply Voltage 11 14 V ion A B C D umper ALIGN LATCH NORMAL umper FAST SLOW ENSITIVITY setting typ 2 7 i typ min 0 5 s RM82 gt 0 1 ENS level RM82 CD SISO D D 2 o D D E O CD I TIO es oz Sle D gt In Enter date Wax the Transmitter and Receiver radomes every 3 to 6 months Use Turtle clear vinyl top wax or Sweden Signature NOTES Maintenance or other 2002 SAFEGATE International AB Ostersund SWEDEN 19 19 9 SG596530 3011D MBD USER S GUIDE SAFEGATE Ch ASP System G RO UP NCU User s Guide NCU User s Guide 2008 SAFEGATE In
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