Wire-Saving Field Network PHLS System User`s Manual
Contents
1. Specifications 74 2 Slave Unit Compact Type Connector Terminal Block Item No AFPRP2 Series Dimensions AFPRP2X16D2 a 59 5 15 ae 31 5 A 1 a a a a a a a a lt a 49 5 FF o JON y L mett Y 10 Unit mm 7 20 7 4 Dimension Diagram 7 4 3 Slave Unit Compact Type Relay Output Item No AFPRP2Y04R Se2. TR 7 2 Transmission TR p cable Pul Oo D use 5 TR Transformer Transmission TR Terminal E cable a resistance A Terminal resistance selector switch 24 V Vs 24 V o ji Pi X 24 V Fuse DC DC 24VDC 24 V 25A _ converter y 24v Z 7 24 V Bw Relay valve nes n Y Yn ra eH Display lamp L ut mM ie 3 NCo 24V 7 5 gt g Relay val Note 1 elay valve R ote yn me ec eH Display lamp B 14 gt L eH Note 1 As an inductive load attach a counter EMF absorption diode Note 2 In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 7 13 Specifications Mixed I O type AFPRP2XY16D2T Terminal layout 1234567 8 910 a folelelofelofelelele safleleleloe elejelelelel Internal circuit diagram
3. 7 22 Record of changes Manual No Date Record of Changes WUME PHLS 01 Mar 2013 First Edition WUME PHLS 02 Jun 2013 Second Edition Correction in settings of master unit SW2 and SW3 Correction in settings of slave unit dip switch Error correction
4. E Slave unit compact type e Space saving size of W59 5mm x H57 5mm x D40mm e An e CON type input is also available This saves work for wiring AFPRP2X16D2 Input 16 points AFPRP2Y16T Output 16 points AFPRP2XY16D2T Input 8 points Output 8 transistor points AFPRP2X08D2E Input 8 points AFPRP2Y04R Output 4 relay points 1 2 List of System Component Devices 1 2 2 List of Component Units E Master unit Product name Description Model no 4 Interface unit to connect FP7 to the PHLS system FP7 PHLS master unit Controllable I O points per master unit 1 008 AFP7PHESM m Slave unit Connection Type method No of I O points Output type Model no Input 8 points AFPRP1X08D2 Input 16 points AFPRP1X16D2 Terminal Screw terminal Block Type block M3 Input 8 points Output 8points Transistor sink type AFPRP1XY16D2T Output 16 points Transistor sink type AFPRP1Y16T e CON connector Input 8 points AFPRP2X08D2E Input 16 points AFPRP2X16D2 Connector Input 8 points Compact type terminal block Output 8 points Transistor sink type AFPRP2XY16D2T Output 16 points Transistor sink type AFPRP2Y16T Relay output Output
5. TR Transmission L TR 3 3 8 cable En Puse lt TR Transformer an 2 Transmission TR Terminal cable A resistance re Terminal resistance selector switch 24 V Vsp x Ko 24 V4 Fuse DC DC 24VDCT 24 V 2 5A converter C XXX a TE 2 24 V T 24V i Contact switch t Xn h Approx 5 6 kQ Xn 24 V Approx NPN output 3 wire sensor J 5 6 ko a 3 NCo 24 V 5 Relay valve _____ 4 x Yn Yn i eH Display lamp B 77 gt l Note 1 As an inductive load attach a counter EMF absorption diode Note 2 In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 7 14 7 3 Internal Circuit Diagram Terminal Layout 7 3 3 Slave Unit Compact Type Relay Output Item No AFPRP2Y04R Series E When commons are connected separately Terminal layout 1 2 3 4 5 6 7 MI o o o o o o o Internal circuit diagram TR Transmission TR 3 cable 2 EN Pulse TR Transformer Transmission f I TR Terminal cable resistan es esistance a Internal circuit Terminal resistance selector switch N 24V v 24 V r FA 24 V Fuse DC DC 24VDCT 24 V 2 5A converter X X
6. Note 1 A C1 ba Y3 Load f Load Y2 cj OH co t H Load i k Load p T Internal circuit Note 1 In the case of an AC inductive load attach a surge absorber AC load to either end of the load In the case of a DC inductive load attach a diode DC load to either end of the load Note 2 In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 7 16 7 3 Internal Circuit Diagram Terminal Layout 7 3 4 _ Slave Unit Compact Type e CON Item No AFPRP2X08D2E Series m AFPRP2X08D Terminal layout Internal circuit diagram TR Transmission TR T T 3 3 J cable Pulse gt TR Transformer Transmission O TR Terminal cable a resistance pA Terminal resistance selector switch 24 V V 24 V i ma a gt I Xx X 2
7. Min ON current 15V 2mA 17V 2 mA Max OFF current S 05 mA Response 2 1 ms or less i ii 1 ms or less 7 7 Specifications 7 2 2 Output Specifications Excluding the Relay Output Type Compact type Standard type Connector Items terminal block Output Mixed 1 0 Output Mixed 1 0 AFPRP1X08D2 AFPRP1XY16D2T AFPRP2X16D2 AFPRP2XY16D2T Insulation system Optical coupler Non isolated Output type Sink type open collector output Rated load voltage 20 4 to 28 8 V DC Max restricted capacity 0 1 A point eee 0 5 A 0 8 A 1 6A 0 8A Max inrush current 0 5 A Off state leakage 0 1 mA or less current On state voltage drop 0 5V Response OFF ON 0 05 ms or less time ON OFF 0 5 ms or less Surge absorber Zener diode Short circuit protection Off 7 2 3 Output Specifications Relay Output Type Compact type Relay output Output AFPRP2X16D2 Insulation system Relay insulation 1 250 V AC resistance load 250 VA 2 A Common Rated control capacity 1A 30 V DC resistance load 30 W 2 A Common Min load 0 1 mA 100 mV resistance load Response OFF gt ON 10 ms or less E ON gt OFF 5 ms or less Mechanical f lifetime Min 20 000 000 operations Life e 100 000 times or more Frequency of switching 20 times min Surge absorber No Relay sock
8. Specifications 7 1 2 Performance Specifications Items Description Transmission system Two wire half duplex communication Insulation system Pulse transformer insulation Baud rate 6 Mbps 12 Mbps Synchronous method Bit synchronization Error detection CRC 12 Transmission distance Total length 200 m 6 Mbps 100 m 12 Mbps Note 1 Connection method Multi drop method Impedance 100Q Terminal resistance Mounted on the product Master unit Terminal block 2 CH External interface Slave unit terminal block type Terminal block Slave unit compact type Connector terminal block Note 1 The performance values assume the use of a recommended cable The indicated performance e g Max transmission distance Max slave units may not be available if a recommended cable is not used 7 6 7 2 Common Specifications of Slave Units 7 2 Common Specifications of Slave Units 7 2 1 Input Specifications Compact type standard type Connector terminal e CON Items block Input Mixed I O Input Mixed 1 0 Input AFPRP1X08D2 AFPRP1X16D2 AFPRP1XY16D2T AFPRP2X16D2 AFPRP2XY16D2T AFPRP2X08D2E Insulation system Optical coupler Non isolated Rated input voltage 24V DC Rated input current Approx 3 mA Approx 4 3 mA Input impedance Approx 7 5 KQ Approx 5 6 kQ Operating voltage range 20 4 to 28 8 V DC Min ON voltage
9. Unit Settings and Configuration 4 2 1 0 No Allocation 4 2 1 Allocation of the Master Unit in the I O Ma The PHLS master unit should be allocated in the I O map using the tool software FPWIN GR7 m How to allocate the master unit a PROCEDURE 1 From the menu bar select Option FP7 Configuration In the left pane select I O Map Double click a slot to which the PHLS master unit is to be installed The Unit selection dialog box is displayed 4 Inthe field for selection of units to be used select Communications and PHLS master unit r Unit selection Slot No 1 Select unit to use Unit type Communicat ions Insert Unit name PHLS master unit x Cancel Input time constant 0 Installation location setting Starting word No 10 0 511 Number of input words 63 0 128 Number of output words 63 0 128 Option jExclude this unit from the target for verification Exclude this unit from the target for 1 0 refresh 5 For input words and output words enter the same value as End slave no 6 Press OK button p KEY POINTS e Inthe PHLS system each slave occupies I O numbers for 16 points 4 2 I O No Allocation 4 2 2 VO Number Allocated to Slaves I O numbers allocated to slaves of the PHLS system are determined based on the initial word number of the connected master unit and the slave number
10. NT av gt 7 ci 24 V Y3 Y2 Load al cii Note 1 ie H i es rer Y1 Load Y Load 0 Internal circuit E Note 1 In the case of an AC inductive load attach a surge absorber AC load to either end of the load In the case of a DC inductive load attach a diode DC load to either end of the load Note 2 In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 7 15 Specifications m When commons are connected together Terminal layout 1 2 3 4 5 6 7 EN o 0 0 0 o Internal circuit diagram Transmission 3g 8 cable Pulse 5 Transformer S Transmission Terminal E cable resistance Terminal resistance selector switch Vsp Ea K_X 24 V Fuse DC DC 24VDC 24 V 25A converter gt ie xX 24v
11. Transmission line Shielded twisted pair cable Baud rate 12 Mbps 6 Mbps Use the switch on the body Transmission scan time 0 03 ms 1 slave 1 86 ms 63slave with Baud rate 12 Mbps Max transmission distance 100 m with 12 Mbps 200 m with 6 Mbps Controllable I O points Max 1 008 points per master unit Slave units Max 63 units per master unit Note The figure above indicates performance using a recommended cable The indicated performance may not be available if a recommended cable is not used 1 3 System Configuration and Restrictions on Combination 1 2 List of System Component Devices 1 2 1 List of Units m Master unit Used in combination with the FP7 CPU unit ol AFP7PHLSM Slave unit terminal block type e Both I O and transmission line can be connected using MP3 screws cae AFPRP1X8D2 PaSa PaPa ee PaPe O AFPRP1X16D2 aL Input 8 points a Input 16 points pa AFPRP1Y16T AFPRP1XY16D2T a Output 16 transistor points amp Input 8 points Output 8 transistor points
12. 4 points Relay output AFPRP2Y04R 1 2 3 Selection of Cables Use a two wire shielded twisted pair cable indicated below E Recommended cables Manufacturer Product Shinko Seisen Industry Co Ltd ZHY221PS Note The indicated performance e g Max transmission distance Max slave units may not be available if a recommended cable is not used 1 5 System Configuration and Restrictions on Combination 1 3 Restrictions on Combination 1 3 1 Restrictions on Transmission Lines m How to connect transmission lines Connect the lines so that there is no branch Avoid T letter wiring or octopus wiring Example of correct connection Example of T letter wiring and octopus wiring Slave unit Slave unit 1 6 1 3 Restrictions on Combination 1 3 2 Restrictions on Terminal Units e A master unit has two ports For both ports the master unit should always be a terminal unit A master unit cannot be connected in the middle of a transmission line Correct connection Example using Port 1 Terminal unit Terminal unit U Slave unit Correct connection Example using Port 1 and Port 2 Terminal unit Terminal unit Terminal unit O Connection where the master unit is not a terminal unit Terminal unit Terminal unit J System Configuration and Restrictions on Combination 1 3 3 Restrictions on Transmission Distance Transmission dist
13. AFPRP2Y04R DENIES i sieht rt nea eta ell sient niet 7 21 74 4 Slave Unit Compact Type e CON Item No AFPRP2X08D2E Series 7 22 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net V Table of Contents Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net vi System Configuration and Restrictions on Combination Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net System Configuration and Restrictions on Combination 1 1 Overview of the PHLS System 1 1 1 Function and Operation of the PHLS System m Functions of the PHLS System e The PHLS system is a high speed remote I O system that can be connected to the FP7 series Input output units connected to the network can be controlled by way of the shielded twisted pair cable thereby relieving work for input output wiring and saving space 31 or 32 units Up to 63 3 units 31 or 32 units Max transmission distance 100 m with 12 Mbps 200 m with 6 Mbps e The PHLS system can be handled as an ordinary I O on the FP7 CPU unit thereby dispensing with complicated programming eA fixed time communication method is used This retains a constant scan time even when a transmission error occurs 1 1 Overview of the PHLS System e Key specifications of PHLS Items Description
14. Do not touch the terminal while turning on electricity It could lead to an electric shock Use the external devices to function the emergency stop and interlock circuit Connect the wires or connectors securely The loose connection could cause excessive exothermic heat or smoke generation Do not allow foreign matters such as liquid flammable materials metals to go into the inside of the product It could cause excessive exothermic heat or smoke generation Do not undertake construction such as connection and disconnection while the power supply is on It could lead to an electric shock Copyright Trademarks This manual and its contents are copyrighted You may not copy this manual in whole or part without written consent of Panasonic Industrial Devices SUNX Co Ltd Windows is a registered trademark of Microsoft Corporation in the United States and other countries All other company names and product names are trademarks or registered trademarks of their respective owners PLC_ORG Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Introduction Thank you for buying a Panasonic product Before you use the product please carefully read the installation instructions and the users manual and understand their contents in detail to use the product properly Types of Manual e There are different types of users manual for the FP7 series as listed below Please ref
15. allocated in the order of Input Output E g In the case of a slave with 8 input points and 8 output points X100 to X107 are allocated to Input and Y108 to Y10F are allocated to Output Input Output 16 points 16 points Slave No 1 Slave No 2 Slave No 3 X100 to X107 X110to Y11F Y120 to Y12F Y108 to Y10F Input 8 points Output 8points yun Jelseyy The example above indicates a case where the initial word number allocated to the master unit is 10 E O numbers allocated when 4 point type and 8 point type are mixed Because numbers for 16 points are allocated whether the unit is 4 point type or 8 point type numbers from the final allocated I O number to the subsequent slave number become dead E g If X100 to X107 are allocated to a slave No 1 of 8 point type X108 to X10F become dead numbers I O numbers for Slave No 2 start with X110 or Y110 Input Input Output Output 8 points 16 points 4 points 16 points Slave No 1 Slave No 2 Slave No 3 Slave No 4 X100 to X107 X110to X11F Y120to Y123 Y130 to Y13F yun Jelseyy The example above indicates a case where the initial word number allocated to the master unit is 10 E 1 0 numbers allocated when slave numbers are not consecutive Dead numbers also occur in cases where slave numbers allocated to the connected slaves are not consecutive E g If Slaves No 1 and No 3 are allocated and No 2 does not exist X110 to X11F and
16. us x Final slave No 4 Scan time of the CPU unit Varies by the program settings and time Example of calculation When Baud rate 12 Mbps Final slave No 10 and CPU scan time 1ms Input response time 1 ms 29 5 us x 10 220 us 13 75 us x 10 1 ms 2 653 ms E Output response time Response time before signals output through input output refresh by the CPU unit are output from the slave unit are calculated by the following equation Output response time 1 2 3 Models excluding the relay output type 0 5 ms or less 1 Output response time of the slave unit Relay output type OFF ON 10 ms or less ON gt OFF 5 ms or less Baud rate When 12 Mbps 29 5 us x Final slave No Baud rate When 6 Mbps 59 0 us x Final slave No 2 Transmission time of the PHLS system 3 Scan time of the master unit 220 us 13 75 ps x Final slave No 5 5 Startup and Operation of the PHLS System 5 6 6 Troubleshooting Troubleshooting 6 1 Self Diagnosis Function 6 1 1 Operation If an Error Occurs In order to prevent malfunctions at the time of system startup or stop observe the following procedure to start up the PHLS system Operation of the CPU unit at the time of transmission error Operation mode of the CPU unit at the time of PHLS system transmission error can be set Continue or Stop in the FP7 Configuration menu of the tool softw
17. 1 OT3 OFF S Ctrl 4 1 OT4 OFF F Ctrl 5 1 OTS OFF __ Release Ctrl 7 ze 1 OT OFF Ctrl 8 1 OT8 OFF elete Ctrl 9 1 OTS OFF Ctrl ie 1 OTA OFF Ctrl B 1 OTB OFF Ctrl C gt 1 OTC OFF v 4 m 16 contacts were registered with the PLC 4 Select Output and press the ON or OFF button The settings are output to the specified slave unit The process above can also be carried out by pressing lt Ctrl gt key Number key 5 In order to cancel the force input output press the Release button 5 4 5 3 Response Times in the PHLS System 5 3 Response Times in the PHLS System 5 3 1 Input Output Response Times e The PHLS system undertakes input output processing asynchronously from the I O refresh operation by the CPU unit e Input output response times during use of the PHLS system are specified as follows depending on settings of Baud rate final slave No and scan time of the CPU unit E Input response time Response time before input signals received by the slave unit are incorporated through input output refresh by the CPU unit is calculated by the following equation Input response time 1 2 3 4 1 Input response time of the slave unit 1 ms or less 2 Transmission time of the PHLS Baud rate When 12 Mbps 29 5 us x Final slave No system Baud rate When 6 Mbps 59 0 us x Final slave No 3 Scan time of the master unit 220 us 13 75
18. 4 61 15 to 61 35 mm Yellow 1473562 4 28 to 20 0 08 to 0 6 mm 61 0 to 61 15 mm Red 1 1473562 4 0 9 to 61 0 mm Orange 3 1473562 4 60 6 to 0 9 mm E Terminal layout for the connector part 432 1 baz hes Terminal no Terminal name mr E NC AJOJ Nj gt Input E Connection method 1 Prepare the cable as illustrated below Do not remove the wire s insulation 2 Insert the wire into the wire inlet of the connector until the end of the wire hits the inner wall 3 Pressure weld the connector using pliers etc 4 Gently pull the wire to check that the wire has been securely welded Installation and Wiring m Attachment to the slave unit Straightly insert the connector into the input connector part of the unit ip 00000000000 WSS elelelelele tiail PEGER Le Le Lo LS E Removal from the slave unit While pressing down the lock release lever on the connector body pull out the connector Lock release pi lever t hr Meee PERE EEE wi feed 3 14 4 Unit Settings and Configuration Unit Settings and Configuration 4 1 Switch Settings for Slave Units 41 1 Slave No Settings Slave numbers are used by the master unit to identify sl
19. 4V Fuse DC DC 24VDC 24 V 2 5A converter 6 pa gm Y X 24 V 24 V Fes 24 V NPN output 3 wi ner 2 output 3 wire sensor E Approx 5 6 kQ Xn i EL A 24 V 2 w 24 V 3 NCo T 5 Approx Contact switch he I 0 Xn Note In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 7 17 Specifications 7 4 Dimension Diagram 7 4 1 Slave Unit Standard Type Item No AFPRP1 Series Dimensions AFPRP1X08D2 eau Fo Perou 11 B os ae a j RE rs a sil 3 LOLOL Te BE Unit mm 7 18 AFPRP1X16D2
20. 6 OFF 32 OFF 32 Used for switching Baud rate ON 12 M bps OFF 6 M bps 4 6 12 Set the output status when a transmission error occurs 3 C H C Clear All outputs are turned off H Hold Outputs are retained 1 2 Not used NO HE 4 4 5 OD EDEN pupa a Zz SHIO 2 gag 1U s N 2 8 3 Installation and Wiring Installation and Wiring 3 1 Installation Environment and Handling of Environment Ambient environment Use the unit within the range of the general specifications when installing e Ambient temperatures 0 to 55 C e Ambient humidity 10 to 95 RH at 25 C no condensing e Altitude up to 2 000 m e Location Inside the control board e For use in pollution Degree 2 environment Do not use it in the following environments e Direct sunlight Sudden temperature changes causing condensation e Inflammable or corrosive gas e Excessive airborne dust metal particles or saline matter e Benzine paint thinner alcohol or other organic solvents or strong alkaline solutions such as ammonia or caustic soda e Direct vibration shock or direct drop of water e Influence from power transmission lines high voltage equipment power cables power equipment radio transmitters or any other equipment that would generate high swi
21. 7 3 Internal Circuit Diagram Terminal Layout Mixed I O type AFPRP1XY16D2T Terminal layout 1 3 5 7 9 11 TR amp 24V xo x2 13 X4 15 X6 Y8 YA YC 27 29 YE 2 4 6 8 10 12 TR 24V x1 x3 X5 X7 20 22 24 26 Y9 YB YD 28 30 YF Internal circuit diagram Transmission cable X X ae Transmission cable X X a fi M Terminal resistance selector switch Contact switch When using the internal power supply e g display lamp TR iE Pulse EN Transformer Terminal resistance Fuse 24 V 2 5 i de t DC DC 24V DC 24V i converter aa N p COM COM _ COM nS K Xn Approx 7 5 ko LT i p COM COM l Yn Nk COM a COM Internal circuit Note 1 As a DC type inductive load attach a counter EMF absorption diode Note 2 In order to avoid influence of noise connect the shielded wire of the transmission cable on one side to the functional earth terminal and make sure to ground the functional earth terminal 7 11 Specifications 7 3 2 Slave Unit Compact Type Connector Terminal Block Item No AFPRP2 S
22. E Slave types and allocated I O numbers I O numbers listed below indicate cases where the initial word number is 10 and the slave number is 1 Item number for Item number for the No of I O I O No the standard type compact type points Input Output AFPRP1X08D2 AFPRP2X08D2E e CON Input 8 points X100 to X107 AFPRP1X16D2 AFPRP2X16D2 Input 16 points X100 to X10F AFPRP1XY16D2T AFPRP2XY16D2T Sat re X100 to X107 Y108 to Y10F AFPRP1Y16T AFPRP2Y16T Output 16 points Y100 to Y10F AFPRP2YO4R Relay Output 4 points Y100 to Y103 E Order of allocated I O numbers I O numbers for slaves are allocated in the order of slave numbers specified by the switch on the relevant slave units Input Output Input Output 16 points 16 points 16 points 16 points Slave No 2 Slave No 3 Slave No 4 Slave No 1 X100 to X10F Y110to Y11F X120to X12F Y130 to Y13F yun Je seyy I O numbers for slaves are allocated in the order of slave numbers regardless of the order of connection of the relevant slave units Input Output Input Output 16 points 16 points 16 points 16 points Slave No 2 Slave No 4 Slave No 1 Slave No 3 X100 to X10F Y120to Y12F X110to X11F Y130 to Y13F yun Je seyy 4 5 Unit Settings and Configuration E O numbers allocated to slaves of the mixed input output type In the case of the mixed input output type consecutive numbers are
23. F and SW3 ON Slave No 16 to No 31 monitor LEDS when SW2 ON and SW3 OFF Slave No 32 to No 47 When SW2 ON and SW3 ON Slave No 48 to No 63 Used for switching Baud rate While the power is ON switching is invalid Ssw4 Baud rate Settings become valid during the power supply OFF ON ON 12 Mbps OFF 6 Mbps 112 2 0 MODE 310 all ON OFF 2 3 Names and Functions of Parts 2 2 PHLS Slave Unit Terminal Block Type 2 2 1 Names and Functions of Parts i 1 oe IRR oran deom Hrone oa S m o os m mw o E L EOJ le Fe one he pee IO Ru on ue 3 Ds DUO gc ml dot gay i ae ee a Panasonic AFFRPIXOBD2 2 Panasonic AFPREIN6002 1 3 5 7 EJ 11 13 15 1 3 7 9 11 13 15 17 19 21 23 25 27 29 TR amp 24V xo x2 x4 x6 TR gt 24V xo x2 x4 x6 xB XA XC XE 2 a 6 8 10 12 14 16 2 a 6 8 10 12 14 16 18 20 22 24 26 28 30 LITR 24V x1 x3 x5 x7 L TR 24V x1 x3 x5 x7 x9 xB xD xF AR Sa oe ot Aeri A ow or oo me eee arom orme mo mr ce me os ca mem KO Hu or os os o7 os oe Do OF Hu ow or os os o7 Ds Os mo oF FOR L I L J oy a o LT o Sm ne Panasonic AFPRPIMSTT Panasonic AFP
24. NPN output 3 wire us sensor Le Q 2 3 NC 24 V 5 lve Lo z Relay valv EN Yn g Yn z Eear Display lamp n 77 ia E Wiring the power supply For the purpose of internal circuit driving supply 24 V DC from outside to the 24 V and 24 V terminals These are connected to the terminals and terminals inside and power is supplied to I O devices E Wiring of the input circuit In the case of contact input or no voltage input connect to the respective input terminals and terminals In the case of an input device that requires power supply e g sensor terminals can be used E Wiring of the output circuit In the case of rated 24 V DC load connect to the respective output terminals and terminals In the case of relay output AFPRP2Y04R power supply for load driving is required As a DC type inductive load attach a counter EMF absorption diode E Wiring of transmission Lines Terminals for connection to the transmission line TR TR and earth terminals should be connected in a daisy chain wiring Avoid T letter wiring or octopus wiring In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 3 4 Handling of a Slave Unit Compact Type influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one
25. O INS p KEY POINTS e It is recommended to allocate slave numbers using consecutive numbers starting with 1 e Because the PHLS master unit does not communicate with slaves that have numbers larger than the Max slave number it is recommended to set the Max slave number as small as possible to enable speedy scanning 4 1 Switch Settings for Slave Units 4 1 2 Setting Baud Rate Baud rate of the PHLS system should be set using the operation mode switches on the master unit and the slave unit Make sure that Baud rates of the master unit and all the slave units are consistent Switch position Baud rate 12 12 Mbps 6 6 Mbps 4 1 3 Output Hold Clear Settings during Transmission Error Specify how to handle output at the time of system transmission error Switch position Output operation at the time of transmission error H Hold Output status before the transmission error occurred is retained C Clear The OFF signal is output REFERENCE e Turn off the power supply before making settings or changes e For settings of the operation mode switch on the master unit please see 2 1 3 Operation Mode Switch e For settings of the operation mode switch on the Slave unit Standard type please see 2 2 2 Operation Mode Setting Switches e For settings of the operation mode switch on the Slave unit Compact type please see 2 3 2 Operation Mode Setting Switches
26. Panasonic PROGRAMMABLE CONTROLLER PHLS System User s Manual Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Safety Precautions Observe the following notices to ensure personal safety or to prevent accidents To ensure that you use this product correctly read this User s Manual thoroughly before use Make sure that you fully understand the product and information on safety This manual uses two safety flags to indicate different levels of danger WARNING If critical situations that could lead to user s death or serious injury is assumed by mishandling of the product Always take precautions to ensure the overall safety of your system so that the whole system remains safe in the event of failure of this product or other external factor Do not use this product in areas with inflammable gas It could lead to an explosion Exposing this product to excessive heat or open flames could cause damage to the lithium battery or other electronic parts CAUTION If critical situations that could lead to user s injury or only property damage is assumed by mishandling of the product To prevent excessive exothermic heat or smoke generation use this product at the values less than the maximum of the characteristics and performance that are assured in these specifications Do not dismantle or remodel the product It could cause excessive exothermic heat or smoke generation
27. RPIM6DDLT 1 3 s 7 11 13 15 17 19 j2 23 25 27 29 1 3 5 7 9 11 13 J15 TF 19 21 23 25 27 29 TR 24V xo x2 xa xe YB YA yc YE tre amp 24V vo val yal Ye ve val Yc Ye 2 4 16 8 10 J12 14 16 18 20 22 24 26 28 30 2 4 6 8 10 12 14 J16 18 20 22 24 26 28 30 O Lm paj x1 x3 xs x7 va ve vol ve LITR pai v1 v3 v5 7 y9 YB YD vr a a AFPRP1XY16D2T AFPRP1Y16T E Names and functions of parts 1 Termination resistance selector switch Set to ON when the slave becomes a terminal unit of the transmission line 2 Operation mode seiting switches Used for setting slave numbers Baud rate and output status during error 3 Unit mounting hole Used for mounting with screws 4 Power supply and I O terminal block Used for connecting transmission cables power supply for unit driving and I O devices 5 DIN rail attachment hook Used for attachment to the DIN rail 6 I O circuit operation monitor LEDs Shows ON OFF status of the input circuit or the output circuit 7 POWER LED Turns on when the slave unit power is ON 2 2 PHLS Slave Unit Terminal Block Type 8 Communication stat
28. U unit flashes During this time the RUN mode cannot be used e The mode is set to RUN when the registered slave is started up within the specified waiting time The mode can be switched to RUN The mode is automatically set to RUN following power up in the RUN mode or when the mode is switched from PROG to RUN e An error is reported if the time before the slave unit selected in Select slaves to be connected is started up exceeds the specified connection waiting time In this case the ERROR LED on the PHLS master unit turns on e The operation mode of the CPU unit at the time of error varies depending on settings of CPU configuration Select operation when a self test error occurs A unit error occurred ration when If A A na sn test Operation when the time before the slave unit selected in Select slaves to einen be connected is started up exceeds the specified connection waiting time Stop operation A unit error is reported The CPU unit remains in the PROG mode Continue operation A unit error is reported The CPU unit is switched to the RUN mode f FP7 configuration s Memory conf igurat ion F ETS Setting item Setting description Built in SCU E Built in ET LAN Battery error alarm Generate alarm Enabling duplicated output Not allow R hitialize L hitialize T C Initialize DT hitialize LD hitialize KX hitialize E hitialize 4 unit alarm occurred Stop operation u
29. Y110 to Y11F become dead numbers Input Input Output 16 points 16 points 16 points am A RES D ia lah n T Slave No 1 Dead numbers Slave No 3 Slave No 4 cH X100 to X10F X110 to X11F X120to X12F Y130 to Y13F Y110 to Y11F The example above indicates a case where the initial word number allocated to the master unit is 10 4 2 I O No Allocation KEY POINTS e The initial word number of a slave unit should be calculated as follows e initial word No Slave No 1 Slave word No E g If the initial word number allocated to the master unit is 10 and the slave number is 5 the I O word number allocated to the relevant slave is 14 Item number for Item number for the No of I O I O No the standard type compact type points Input Output AFPRP1X08D2 AFPRP2X08D2E e CON Input 8 points X140 to X147 AFPRP1X16D2 AFPRP2X16D2 Input 16 points X140 to X14F AFPRP1XY16D2T AFPRP2XY16D2T Ge pais X140 to X147 Y148 to Y14F AFPRP1Y16T AFPRP2Y16T Output 16 points Y140 to Y14F AFPRP2Y04R Relay Output 4 points Y140 to Y143 4 7 Unit Settings and Configuration 4 3 Configuration Concerning PHLS 4 3 1 Settings Using Tool Software FPWIN GR7 Parameters to be used in the PHLS system e g slave unit registration connection waiting time should be set in the tool software FPWIN GR7 E Setting method In the followi
30. ables niee nanea O tae aedbdaaeviee eaten cee 1 5 1 3 Restrictions on Combination iii 1 6 1 3 1 Restrictions on Transmission Lines 00 0 0 ceeeeeeseeeeseeeeeeesaeeeeeevaes 1 6 1 3 2 Restrictions on Terminal Units us 1 7 1 3 3 Restrictions on Transmission Distance ccccccee ccs ceeeeeee ee eeseeeeeeeeeaes 1 8 1 3 4 Restrictions on Slave Units iii creer 1 8 1 3 5 Restrictions on Installation of Master Units 2 0 0 cece ee sneer eeeaee 1 8 Names and Functions of Parts c cccessessessseceenenseeeeas 2 1 2 1 FP7 PHLS Master Unit ee cceceeccaeceeecceceee cece ceeeseneeeeeeeeseeenenes 2 2 2 1 1 Names and Functions of Parts iii 2 2 2 1 2 Operation Monitor LEDs 2 3 2 1 3 Operation Mode Switch 2 3 2 2 PHLS Slave Unit Terminal Block Type 2 4 2 2 1 Names and Functions of Parts issues 2 4 2 2 2 Operation Mode Setting Switches 2 5 2 3 PHLS Slave Unit Compact Type ccccceecceeeceecceeeeeeeeeeeeeeeeeeeeeteeeneeees 2 6 2 3 1 Names and Functions of Parts iii 2 6 2 3 2 Operation Mode Setting Switches 2 8 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table of Contents 3 Installation and Wiring nennum 3 1 3 1 Installation Environment and Handling of Environment 3 2 3 2 Installation and Wiring of the Master Unit 3 3 9 21 Installation 5 sis eta aac aa ae RER Pate 3 3 3 222 ANIFNQ 2882280005 oi Sara t
31. ance refers to the length of a single transmission line 31 or 32 units Up to 63 units 31 or 32 units Max transmission distance 100 m with 12 Mbps 200 m with 6 Mbps 1 3 4 Restrictions on Slave Units m Max number of connectable slave units e Up to 63 slave units can be connected to one master unit e Up to 32 slave units can be connected to one transmission line 1 3 5 Restrictions on Installation of Master Units E Max number of installable master units Up to 16 FP7 PHLS master units can be controlled by the FP7 CPU unit E Restrictions based on current consumption Internal current consumption by a unit is as indicated below Make sure that the total consumption including other units is within the power supply capacity to be used Name Model no Current consumption FP7 PHLS master unit AFP7PHLSM 85 mA or less 2 Names and Functions of Parts Names and Functions of Parts 2 1 FP7 PHLS Master Unit 2 1 1 Names and Functions of Parts CEE E Names and functions of parts 1 Operation monitor LEDs Shows communication conditions and error occurrence 2 Operation mode switch Used for setting Baud rate and indications of operation monitor LEDs 3 Terminal block for connection to the transmission line Used for connecting transmission cables From each of the two ports one transmission line can be c
32. and make sure to ground the functional earth terminal 7 9 Specifications E Output type AFPRP1Y16T Terminal layout 1 3 5 7 9 11 3 a 17 19 21 23 25 27 re TR 24V vo 2 ya ve ys ya Yc Ye 2 4 6 8 10 12 14 16 18 20 2E 24 26 28 30 TR 24V y1 3 Y5 Y7 y YB YD YF Internal circuit diagram Transmission cable X X A TR TR l Pulse Transmission cable X A Transformer Terminal gt A resistance Terminal resistance selector switch Fuse 5 24 V 2 5A j d L i DC DC 5 EVDO T 2m converter 9 COM 3 T Ke When using the internal x COM power supply Yn pu e g display lam Lg e g display lamp Note 1 x COM Load power supply 24 V DC p COM PN Sl COM COM When using the external i it j me power supply e g relay n H Note 1 2 COM amp 4 COM Note 1 As an inductive load attach a counter EMF absorption diode Note 2 In order to avoid influence of noise connect the shielded wire of the transmission cable on one side to the functional earth terminal and make sure to ground the functional earth terminal 7 10
33. are FPWIN GR7 E Output of the slave unit at the time of transmission error Output of the slave unit can be switched using the operation mode switch on the relevant slave unit REFERENCE For details of settings please see 4 1 3 Output Hold Clear Settings during Transmission Error 6 2 What to Do If an Error Occurs 6 2 What to Do If an Error Occurs 6 2 1 ALM LED Turns On on the Master Unit m Situation It is probable that an error has occurred on the master unit E Solution a PROCEDURE 1 Set the CPU unit to the PROG mode and turn off the power supply and then on again on the FP7 system where the master unit is installed If the ALM LED lights again there may be a problem with the unit If the ALARM LED goes out after the power supply is turned off and then on again the problem may have been caused by noise or another temporary phenomenon 6 2 2 ERR LED Turns On on the Master Unit E Situation It is probable that there is an error in the settings of the master unit slave unit and or tool software FPWIN GR7 E Solution Confirm the status in the following procedure A PROCEDURE 1 Check the operation mode switches on the master unit and the slave unit and confirm that the Baud rate settings are consistent 2 Check the FP7 configuration menu in FPWIN GR7 and confirm that the slave numbers of the slave units to be used are consistent with design 3 Check the operatio
34. ave units For each of the slave units connected to the same master unit specify a unique number between 1 and 63 m How to set slave numbers for a standard type Specify slave numbers using a combination of DIP switch and rotary switch Hess Slide switch OFF ON H 12 ON ge DIP switch gt SD Rotary switch Te or L 0 No DIP switch ON Rotary switch settings and allocated slave numbers AGEN 012345678 OS Ais SCO ND e amp ON ON 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ON OFF 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 OFF ON 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 OFF OFF 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 Note Slave No 0 cannot be used m How to set slave numbers for a compact type To each slave number to be allocated an address is provided by adding corresponding bit figures from 1 2 4 8 16 and 32 Switches for the relevant figures are turned on the slave unit E g When a slave number is set to 5 1 and 2 are turned on and the other figures are turned off O mr GET 7 1 O W PB N N
35. d 0 25 to 1 65 mm Round type 1 25 MS3 E Screwing torque for the terminal block 0 5 to 0 6 Nm Installation and Wiring 3 3 Handling of a Slave Unit Standard Type 3 3 1 Clearance E Measures regarding heat discharge e In order to secure clearance for ventilation ensure that the top bottom and sides of the unit are at least 10 mm away from other devices wiring ducts etc 10 mm or nor 10 mm et 10 MM or more lame or more jt gt a Geeeere bebe O ere 10 mm or more e Do not install the unit above devices which generate heat such as heaters transformers or large scale resistors e See the figure below for direction of unit attachment O O O Installed in vertically Vertically installed Horizontally reversed orientation installed e In order to eliminate any effects from noise emission power wires and electromagnetic devices should be kept at a sufficient distance from the surfaces of the unit 3 3 Handling of a Slave Unit Standard Type 3 3 2 Attachment Methods m Attachment to the DIN rail 1 Hang the slave unit over the DIN rail 2 Press in the unit Removal from the DIN rail 1 Pull out the attac
36. e FPWIN GR7 If the input monitored is off there is probably an abnormality with the unit s input part Modify the program if the input monitored is on If the input device is a two wire sensor influence of leaked current is possible When the program is to be reviewed check the following points 1 Check if output specifications are rewritten e g duplicated output use 2 Check if the program flow has been changed due to an MCR command JMP command or other control commands 3 Check if the I O map allocation agrees with the actual mount status 6 5 Troubleshooting 6 6 l Specifications Specifications 7 1 Common Specifications 7 1 1 General Specifications PHLS master PHLS slave unit standard type Items unit Input type Output type Mixed I O type AFP7PHLSM AFPRP1X08D2 AFPRP1X16D2 AFPRP1Y16T AFPRP1XY16D2T Internal current consumption 85 mA or less with 24 V Current consumption 100 mA or less 150 mA or less 75 mA or less 120 mA or less Rated voltage 24V DC Operating voltage range 20 4 to 28 8 V DC Operating ambient 0 to 55 C temperature Storage ambient 40 to 70 C temperature Operating ambient 10 to 95 RH at 25 C no condensing humidity Storage ambient 10 to 95 RH at 25 C no condensing humidity lt PHLS Master unit gt 500 V AC 1 minute Note 1 Between Communication channel 1 and power supply t
37. e Slave Unit 6 4 6 2 4 If Expected Output Is Not Available 0 ccececeeecececeeeeeeeeeeeeeeeeeeeeeeeees 6 4 Te Sp cifications Li ce rrrennn iiaeeeaeo arrean naii 7 1 7 1 Common Specifications 7 2 LAA General Specifications cenian ataa nae aiaa 7 2 7 1 2 Performance Specifications cccccceccceceeeeeeeeceeeeeeeeeseceacaeeeeeeeeeeees 7 6 7 2 Common Specifications of Slave Units 0 cc ceeeseeseeeeseeeeeeeeeenseeees 7 7 721 Input Specifications haine sister 7 7 7 2 2 Output Specifications Excluding the Relay Output Type 7 8 7 2 3 Output Specifications Relay Output Type 7 8 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net iv Table of Contents 7 3 Internal Circuit Diagram Terminal Layout cc ceeeceeeeeeeeeeeeeereeeeeeeees 7 9 7 3 1 Slave Unit Standard Type Item No AFPRP1 Series 7 9 7 3 2 Slave Unit Compact Type Connector Terminal Block Item No AFPRP2 Series 7 12 7 3 3 Slave Unit Compact Type Relay Output Item No AFPRP2Y04R SENOS re nr nn PR int datent nette aus 7 15 7 3 4 Slave Unit Compact Type e CON Item No AFPRP2X08D2E Series 7 17 FA DIMENSION Diagram zen en ea a an dans 7 18 74 1 Slave Unit Standard Type Item No AFPRP1 Series 7 18 7 4 2 Slave Unit Compact Type Connector Terminal Block Item No AFPRP2 Series 7 20 74 3 Slave Unit Compact Type Relay Output Item No
38. e master unit does not communicate with slaves that have larger values than the above Communications retry count 8to7 Specify retry times in the case where communication cannot be established between the master unit and the slave unit An error is detected if communication with the slave cannot be established after retry has been made for the specified times Even if a communication error is recorded communication is automatically restarted once the cause of the error is removed When this happens the Error LED remains in the same status PHLS slave connection waiting time 0 to 300 sec Specify waiting time before communication is established with the slave unit selected in the Select slaves to be connected field following power up The above is valid not only following power up but also when the mode is switched from PROG to RUN after downloadeding the FP7 configuration or project While waiting for communication with the slave unit the PROG LED on the CPU unit flashes While this LED is flashing the RUN mode cannot be used Once communication with the slave unit is established within this time the CPU unit becomes ready for transition to the RUN mode The unit automatically transits to the RUN mode if power is turned on in the RUN mode or when the mode is switched from PROG to RUN If communication with the slave unit cannot be established within this time the master unit reports an er
39. electromagnetic devices should be kept at a sufficient distance from the surfaces of the unit 3 4 Handling of a Slave Unit Compact Type 3 4 2 Attachment Methods m Attachment to the DIN rail 1 Hang the slave unit over the DIN rail 2 Press in the unit Removal from the DIN rail 1 Pull out the attachment lever using a flathead screwdriver Alternatively press the lever from the opposite side 2 While pulling up the unit remove it from the DIN rail EURE i TERM K J FP E F Push 3 9 Installation and Wiring 3 4 3 Precautions for Wirin E Internal circuit diagram Examples of the mixed input output unit AFPRP2XY16D2T TR Transmission L H TR 3 P cable Pulse TR Transformer Transmission AT TR Terminal cable ig resistance So Terminal resistance selector switch DA V 24 V VsP Peet pl F 24 V Fuse DC DC 2AVDC 24 V 25A converter 24v gt 2 24V 424V Contact switch rT xn Approx 5 6 KQ Xn 7 F424V
40. er to a relevant manual for the unit and purpose of your use e The manuals can be downloaded on our website Unit name or purpose of use Manual name Manual code FP7 Power Supply Unit i pp y FP7 CPU Unit Users Manual WUME FP7CPUH FP7 CPU Unit Hardware Instructions for Built in COM Port FP7 Extension Communication Cassette FP7 CPU Unit Users Manual COM Port Communication WUMESEPZCOM FP7 CPU Unit Users Manual LAN Port Communication MENETAN Instructions for Built in LAN Port FP7 Digital Input Output Unit FP7 Digital Input Output Unit Users Manual WUME FP7DIO FP7 Analog Input Unit FP7 Analog Input Unit Users Manual WUME FP7AIH FP7 Analog Output Unit FP7 Analog Output Unit Users Manual WUME FP7AOH FP7 Positioning Unit FP7 Positioning Unit Users Manual WUME FP7POSP PHLS System PHLS System Users Manual WUME PHLS eae FPWIN GR7 Introduction Guidance WUME FPWINGR7 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table of Contents Table of Contents 1 System Configuration and Restrictions on Combination 1 1 1 1 Overview of the PHLS Systems ol ann amehue tasses 1 2 1 1 1 Function and Operation of the PHLS System 1 2 1 2 List of System Component Devices 1 4 1 2 1 Listof O Ta E Ee A EENAA ee a i on 1 4 1 2 2 List of Component Units ss 1 5 12 3 Selection of
41. eries E Input type AFPRP2X16D2 Terminal layout 1234567 8910 elelelelelelelelele HE Internal circuit diagram TR Transmission TR t 3 3 cable PA Pulas E TR Transformer S Transmission TR Terminal cable A resistance ee Terminal resistance selector switch 24 V Vsp 24 V f a pt eye X 24 V Fuse DC DC 24VDC 24 V 25A converter Y X 24 V 7 7 24 V P 24 V l 7 Contact switch X rT xn a Approx 5 6 kQ Xn 24V NPN output 3 wire Approx sensor I 5 6 KQ a z NC o 24 V 5 aE F 424V E i Les Contact switch t Xn a i Approx 5 6 KQ g Xn ki 24 V NPN output 3 wire pprox sensor i 5 6 kQ Note In order to avoid influence of noise connect the shielded wire of the transmission cable to the functional earth terminal on one side and make sure to ground the functional earth terminal on the other side 7 12 7 3 Internal Circuit Diagram Terminal Layout E Output type AFPRP2Y16T Terminal layout 1234567 8 910 a folelelotefolelelele safiololeloloieleelelelel Internal circuit diagram
42. erminals Functional earth terminals Note 2 Between Communication channel 2 and power supply terminals Functional earth terminals Note 2 Breakdown Between Communication channel 1 and Communication channel 2 voltage lt PHLS Slave unit gt 500V AC 1 minute Note 1 I O terminals Between power supply terminals and functional earth terminals I O terminals Between power supply terminals and communication terminals Between communication terminals and functional earth terminals 7 2 7 1 Common Specifications PHLS master PHLS slave unit standard type Items unit Input type Output type Mixed I O type AFP7PHLSM AFPRP1X08D2 AFPRP1X16D2 AFPRP1Y16T AFPRP1XY16D2T lt PHLS Master unit gt 100 MQ or more Between Communication channel 1 and power supply terminals Functional earth terminals Note 2 Insulation Between Communication channel 2 and power supply terminals Functional earth terminals Note 2 resistance Between Communication channel 1 and Communication channel 2 Test voltage lt PHLS Slave unit gt 300 V DC 100 MQ or more I O terminals Between power supply terminals and functional earth terminals I O terminals Between power supply terminals and communication terminals Between communication terminals and functional earth terminals Based on JIS B 3502 and IEC 61131 2 Vibration 5 to 8 4 Hz half amplitude 3 5 mm resistance 8 4 to 150 Hz constant accele
43. et No 7 8 7 3 Internal Circuit Diagram Terminal Layout 7 3 Internal Circuit Diagram Terminal Layout 7 3 1 Slave Unit Standard Type Item No AFPRP1 Series m Input type AFPRP1X08D2 AFPRP1X16D2 Terminal layout AFPRP1X08D2 1 3 5 7 9 11 13 15 TR 24V xo x2 x4 x6 2 4 6 8 10 12 14 16 TR 24V x1 x3 xs x7 AFPRP1X16D2 1 5 5 7 9 11 13 15 17 19 21 23 25 27 29 TRH 24V xo x2 X4 x6 X8 XA XC XE 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 TR 2AV x1 x3 x5 x7 X9 XB XD XF Internal circuit diagram Transmission N TR cable m oy ij TR 3 es eeN Pulse HAE Ch A Transformer Terminal r resistance Terminal resistance selector switch Fuse 24 V 2 5A 5i D LE T DC DC PE eine converter b p COM COM g LF COM K JF Contact switch Xn Approx 7 5 kQ se e COM com NPN output 3 wire COM zA sensor xn Approx 7 5kQ F7 K Note 1 In order to avoid influence of noise connect the shielded wire of the transmission cable on one side to the functional earth terminal
44. ete teen mt nt ae Croate D 3 3 EA E a e Aa EE E E E A E E E TT 3 3 3 3 Handling of a Slave Unit Standard Type 3 4 3 3 1 GICALANCE Li P ren tn A one ne Le nn nm a en ed 3 4 3 3 2 Attachment Methods tirs sobre ceusaenieceus abhieenehectectbaat 3 5 3 3 3 Precautions for Wiring a Slave Unit Standard Type 3 6 3 34 ard WING ae en a Sat ant ns tie cece die A als etais 3 7 3 4 Handling of a Slave Unit Compact Type 3 8 4 1 MCIGAANCE cabernet E N AE asa th ue A Rs St nest 3 8 3 4 2 Attachment Methods 0 ec eee ee eee ee ee eete ee ee eeneeeeeeeeeeeeteeeeetiaeeeeeeea 3 9 3 4 3 Precautions for Wiring oieee ree a iea E EEEO EREE E RAN 3 10 3 4 4 Hard Wiring for Terminal Blocks sssseeeseeseesseerreserrrsserrrssrrrssrernssns 3 12 3 4 5 Hard Wiring for e CON Connector 3 13 4 Unit Settings and Configuration 4 1 4 1 Switch Settings for Slave Units sitstesdinn intimement 4 2 4 71 Slave No Settings 15 5 Ne tals tech ATT EOE AE aT 4 2 41 2 Setting Baud Rate inc 42e stnmrda tannins dame area 4 3 4 1 3 Output Hold Clear Settings during Transmission Error 4 3 4 2 WO No Allocation 4 4 4 2 1 Allocation of the Master Unit in the I O Map ceeeeseeeeceeeeeeeeeees 4 4 4 2 2 I O Number Allocated to Slaves 4 5 4 3 Configuration Concerning PHLS su 4 8 4 3 1 Settings Using Too
45. he largest value for the final slave number If this value is excessively large the transmission time will be longer NOTE e Please note that slave units are activated even if their check boxes in Select slaves to be connected are not turned on as long as their slave numbers are smaller than the final slave number Operation is continued without detecting an error even if such slave units are turned on or off during the RUN mode 4 10 4 3 Configuration Concerning PHLS 4 3 3 Settings and Operations of PHLS Slave Connection Waiting Time Depending on settings of PHLS slave connection waiting time operations following power up or when the mode is switched from PROG to RUN after downloading the FP7 configuration or project as follows E Operation when the connection waiting time is set to 0 e The master unit continues waiting until the slave unit selected in Select slaves to be connected is started up While waiting the PROG LED on the CPU unit flashes During this time the RUN mode cannot be used e The mode is set to RUN when the slave is started up following power up in the RUN mode or when the mode is switched from PROG to RUN E Operation when the connection waiting time is set to 1 to 300 seconds e The master unit continues waiting within the specified range of waiting time until the slave unit selected in Select slaves to be connected is started up During this time the PROG LED on the CP
46. hment lever using a flathead screwdriver 2 While pulling up the unit remove it from the DIN rail oi E Installation with screws are washer built in screw Washer size a9mm or less e Tightening torque 0 6 to 1 08Nem Model no A mm B mm AFPRP1X08D2 75 0 4 41 0 4 AFPRP1X16D2 AFPRP1Y16T 128 0 4 41 0 4 AFPRP1XY16D2T 3 5 Installation and Wiring 3 3 3 Precautions for Wiring a Slave Unit Standard Type E Internal circuit diagram Transmission cable xX TR 2 TR 3 Pulse Transmission cable i A Transformer TERA Terminal resistance Terminal resistance selector switch Fuse 24 V 25 8 JE DC DC 15 2AN OO ees converter IP COM com aa Contact switch COM YEK Xn Approx 7 5 KQ pir COM When using the pE COM internal power supply 7 it e g display lamp Yn DE COM COM E Wiring the power supply For the purpose of internal circuit driving supply 24 V DC from outside to the 24 V and 24 V terminals These are connected to the terminals and terminals inside and power is supplied to I O devices E Wiring of the input circuit In the case of c
47. ion lt gt 7mm 2 Insert wire into terminal hole until it stops Tighten screw clockwise to fix wire in place M Precautions on wiring The following precautions should be observed to avoid broken or disconnected wires e When removing the wire s insulation be careful not to scratch the core wire e Do not twist the wires to connect them e Do not solder the wires to connect them The solder may break due to vibration e After wiring make sure stress is not applied to the wire e In the terminal block socket construction if the wire is fastened upon counter clockwise rotation of the screw the connection is faulty Disconnect the wire check the terminal hole and then re connect the wire lel t O X Clockwise Counter clockwise 3 12 3 4 Handling of a Slave Unit Compact Type 3 4 5 Hard Wiring for e CON Connector E Recommended connector and suitable wires Use a connector as prescribed below Panasonic Industrial Devices SUNX Co Ltd Suitable wires cover Model i ini i color AWG Nominal cross Finished outside sectional area diameter Yellow CN EP2 3 1 0 to 61 15 mm 27 to 20 0 1 to 0 5 mm Orange CN EP3 0 6 to 60 9 mm Tyco Electronics Japan GK Suitable wires Cover F color Part no Nominal cross Finished outside AWG sectional area diameter Green 4 1473562 4 1 35 to 61 6 mm Blue 2 1473562
48. l Software FPWIN GR7 4 8 4 3 2 Final Slave No and Settings and Operations Concerning Select Slaves to be Connected eranan etal veel ee Rated ene 4 10 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table of Contents 4 3 3 Settings and Operations of PHLS Slave Connection Waiting Time 4 11 5 Startup and Operation of the PHLS System 5 1 5 1 Startup of the PALS Systems ccsciisscessccedsacaysnuaseeguinncdethacsbladent eect eewcnveuan 5 2 5 1 1 Check Before Turning On the Power 5 2 5 1 2 Procedure for Turning On Off the Power eceeeeeeeeeeeeeeeeenteeeeeeaeees 5 2 5 2 Pre Operation Checks Before Switching to the RUN Mode cee 5 3 5 2 1 Check of Communication Status 5 3 5 2 2 Check of Output Status ite ia ie a 5 3 5 3 Response Times in the PHLS System 5 5 5 3 1 Input Output Response Times ccccceceeeeeeeeeeeeeeeeeeeeeeeeenaeeeeeeeereees 5 5 6 TroubleShoOtindnssr ennemie 6 1 6 1 Self Diagnosis Function 2885588 8 cree coe hd sn dan te tre tra din r been 6 2 6 1 1 Operation If an Error Occurs cccccceececeeeeeeececeaeeeeeeeeeeeeseenieeeeeeeeteees 6 2 6 2 What to Do If an Error Occurs 0 cccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeesseeeeeeeeeees 6 3 6 2 1 ALM LED Turns On on the Master Unit 6 3 6 2 2 ERR LED Turns On on the Master Unit 6 3 6 2 3 PWR LED Does Not Turn On on th
49. ly cables and input output cables Size AWG22 to 14 Rated temperature 60 to 75 C m Suitable solderless terminal M3 terminal screws are used for the terminal The following suitable solderless terminals are recommended for wiring to the terminals Manufacturer Shape Part no Suitable wires Round type 1 25 MS3 5 0 25 to 1 65 mm Fork type 1 25 B3A J S T Mfg Co Ltd Round type 2 MS3 2 1 04 to 2 63 mm Fork type 2 N3A E Screwing torque for the terminal block 0 6 to 0 8N m 3 7 Installation and Wiring 3 4 Handling of a Slave Unit Compact Type 3 4 1 Clearance E Measures regarding heat discharge e In order to secure clearance for ventilation ensure that the top and sides of the unit are at least 10 mm away from other devices wiring ducts etc In order to secure clearance for power supply and transmission cables ensure that the bottom of the unit is at least 50 mm away from other devices 10 mm or more 50 mm or more e Do not install the unit above devices which generate heat such as heaters transformers or large scale resistors e See the figure below for direction of unit attachment pi Vertically installed Horizontally installed Installed in vertically reversed orientation e In order to eliminate any effects from noise emission power wires and
50. menu bar select Debug Force I O functions The Force I O dialog box is displayed F Force 1 0 PB comment Type 1 Zz Close Key operation PB name Slot No Device Force state Comment Release Startup and Operation of the PHLS System 2 Press the Input device button The Force I O devices dialog box is displayed 1 0 device Es Global devices PB1 SS nce Local devices Slot No Device type OT direct output x No 0 0 62F Number of continuous registrations 16 1 32 Register devices in use only A 3 Enter the device type and no slot no and number of consecutive registrations and press the OK button initial word number is 0 Setting item Setting method Device type Select OT direct output No In accordance with the I O allocation specify the numbers Note that the Specify a value subtracting 1 from the relevant slave number The registered settings are indicated Slot No Enter the slot number where the master unit is installed No of continuous Enter the number of input output points to be registered Enter 16 to registrations enable registrations for one slave r Force 1 0 PB comment Close Key operation PBname Slot No Device Force state Comment 1 Ctrl 0 1 OTO OFF Ctrl 1 1 OTI OFF Ctrl 2 1 OT2 OFF Ctrl 3
51. n mode switch on the slave unit and confirm that the slave numbers are specified correctly Troubleshooting 6 2 3 PWR LED Does Not Turn On on the Slave Unit m Situation It is possible that sufficient power is not supplied E Solution Confirm the status in the following procedure A PROCEDURE 1 Power off the slave unit and double check the wiring status e g Is there any loose terminal 2 Disconnect the power supply wiring to the other devices if the power supplied to the unit is shared with them If LED on the slave unit turns on following the above step undercapacity of power supply is possible Review the power supply design 6 2 4 If Expected Output Is Not Available m Situation Both hardware reasons e g wiring power supply and software reasons e g program I O allocation are possible E Solution check of the output side Proceed from the check of the output side to the check of the input side a PROCEDURE 1 Check if output indication LED on the slave unit is on If it is on proceed to the next step If it is not proceed to Step 4 2 Check the wiring of the load e g Is there any loose terminal If LED on the slave unit turns on following the above step undercapacity of power supply is possible Review the power supply design 3 Check if the power is properly supplied to both ends of the load If the power is properly supplied to the load there is probably an abno
52. ng procedure it is assumed that the PHLS master unit is already allocated in the I O map under the configuration menu A PROCEDURE 1 From the menu bar select Option FP7 Configuration In the left pane select I O Map Select the slot where the PHLS master unit is registered and press the Advanced button The PHLS master unit settings dialog box is displayed E PHLS master unit setting l End slave No H 1 63 Communications retry count 3 3 7 Cancel PHLS slave connection wait time 0 0 to 300 sec Specify 0 for unlimited wait Select connection slave 01 16 jou mo os Mos Eos Eos Mor Fos fos Hi tt 0 01 4 is Hie A7 32 Mir Oise Mis M20 Ma Mize M23 M24 2 26 27 M2 m29 M30 M31 m2 33 48 33 34 35 se 37 ss 39 Ma 41 Oa 084 Du Ds Ma M4 4 E49 63 149 mso msi m5 53 54 55 56 157 se ss meo et Me 63 4 Enter the slave final address communication retry times and PHLS slave communication waiting time Select the slave to be connected Press OK button The set values become valid when the mode is switched to RUN after downloading the values in a project together with the program 4 3 Configuration Concerning PHLS E Setting item Items Default Setting range Settings End slave No 63 1 to 63 Among the slave units to be connected specify the slave number that has the largest value Th
53. nit error occurred Stop operation Unit verification error detection Stop operation Registered unit count mismatch Stop operation Unit initialization complete wait timeout Stop operation Unit configuration data target unit mismatch Stop operation Operation error Stop operation Bus current error Continue operation Service power supply current error Continue operation CPU temperature error 1 Continue operation CPU temperature error 2 Continue operation CPU configuration menu 4 11 Unit Settings and Configuration 4 12 3 Startup and Operation of the PHLS System Startup and Operation of the PHLS System 5 1 Startup of the PHLS System 5 1 1 Check Before Turning On the Power In order to prevent malfunctions and accidents check the following items before starting up the system E Items to be checked 1 Check to make sure the various devices have been connected as indicated by the design 2 Make sure settings have been entered so that power supplies will be turned on according to the procedure outlined in section Procedure for Turning On the Power 3 Ensure that the CPU unit is started up in the PROG mode by default 5 1 2 Procedure for Turning On Off the Power In order to prevent malfunctions at the time of system startup or stop observe the following procedure to start up the PHLS system E Procedure for turning on the power 1 Power on I O devices connected to the PHLS
54. onnected 2 1 FP7 PHLS Master Unit 2 1 2 Operation Monitor LEDs E LED indications and their meanings Signs and LED colors Description PWR Blue Turns on when the power is ON 1xn 16xn Indicates the setting status or the communication status of each slave unit Green Depending on settings of the operation mode switch the slave number to be monitored varies COMM Green Turns on while communicating with the slave ERR Red Turns on when an error occurs in communication with the specified slave Turns on when an error in communication with the specified slave does not recover ALM Red after retry PHLSM 0 7 8 F ERROR COMM ALARM 2 1 3 Operation Mode Switch E Settings of switches Switch no Settings ON The slave number as specified in the Select a connected slave Status dialog box under the configuration menu of FPWIN GR7 turns on sw1 ue by OFF The slave number that is currently communicating turns on monitor LEDs Slave numbers larger than the Max slave number does not turn on Switching becomes possible while the power supply is ON Used for setting slave numbers to be monitored by operation monitor LEDs Switching becomes possible while the power supply is ON swe a by When SW2 OFF and SW3 OFF Slave No 1 to No 15 SW3 operation When SW2 OF
55. onnector terminal block e CON gt 500V AC 1 minute Note 1 I O terminals Between power supply terminals and functional earth terminals I O terminals Between power supply terminals and communication terminals Between communication terminals and functional earth terminals lt Relay output gt 2 300V AC 1 minute Note 1 Between output terminals and power supply terminals Between output terminals and functional earth terminals Between output terminals and communication terminals Between power supply terminals and functional earth terminals Between power supply terminals and communication terminals Between functional earth terminals and communication terminals Between output terminals and output terminals between different commons Note AFPRP2X16D2 should be used within the following voltage range depending on the ambient temperature Voltage V 28 8 26 4 24 7 4 7 1 Common Specifications PHLS Slave unit compact type Connector terminal block Items e CON Input type Output type Mixed I O type Relay output AFPRP2X16D2 AFPRP2Y16T AFPRP2XY16D2T AFPRP2X08D2E AFPRP2Y04R lt Connector terminal block e CON gt 100 MQ or more I O terminals Between power supply terminals and functional earth terminal I O terminals Between power supply terminals and communication terminals Between communication terminals and functional ear
56. ontact input or no voltage input connect to the respective input terminals and terminals In the case of an input device that requires power supply e g sensor terminals can be used Wiring of the output circuit In the case of rated 24 V DC load connect to the respective output terminals and terminals As a DC type inductive load attach a counter EMF absorption diode E Wiring of transmission Lines Terminals for connection to the transmission line TR TR and earth terminals should be connected in a daisy chain wiring Avoid T letter wiring or octopus wiring In order to avoid influence of noise connect the shielded wire of the transmission cable on one side to the functional earth terminal and make sure to ground the functional earth terminal p KEY POINTS e Do not supply power from outside to the terminals and the terminals e Inthe input circuit or the output circuit the maximum current that can be withdrawn from the internal circuit 24 V DC is 2 A 3 6 3 3 Handling of a Slave Unit Standard Type REFERENCE In the internal circuit diagram on the previous page a typical example of the mixed input output unit AFPRP1XY16D2T is indicated For specifications of individual slave unit please see 7 3 Internal Circuit Diagram Terminal Layout 3 3 4 Hard Wiring m Suitable wires copper strand wire e Recommended transmission cable Shinko Seisen Industry Co Ltd ZHY221PS e Power supp
57. ration 9 8 m s X Y and Z axes 10 sweeps each 1 octave mm Shock Based on JIS B 3502 and IEC 61131 2 resistance 147 m s or more X Y and Z axes 3 sweeps each Noise resistance 1 000V P P with pulse widths of 50 ns or 1 us Environment Free from corrosive gases and excessive dust EU Directive applicable EMC Directive EN 61131 2u standard Overvoltage category Category II or lower Pollution degree Pollution degree 2 or lower Weight main unit Approx 110 g Approx 140 g Approx 210 g Note 1 Cutoff current 5 mA This excludes the protective varistor Factory default setting Note 2 Power supply terminal and functional earth terminal of the control unit 7 3 Specifications Items PHLS Slave unit compact type Connector terminal block Input type Output type Mixed I O type e CON Relay output AFPRP2X16D2 AFPRP2Y16T AFPRP2XY16D2T AFPRP2X08D2E AFPRP2Y04R Current consumption 170 mA or less 40 mA or less 110 mA or less 100 mA or less 85 mA or less Rated voltage 24V DC Operating voltage range 20 4 to 28 8 V DC Operating ambient temperature 0 to 55 C Storage ambient temperature Operating ambient humidity 40 to 70 C 10 to 95 RH at 25 C no condensing Storage ambient humidity 10 to 95 RH at 25 C no condensing Breakdown voltage lt C
58. ries Dimensions AFPRP2Y04R 59 5 18 31 5 gt t S HAE U Cee ED 49 5 TERM OFF D ON 10 Lo Unit mm 7 21 Specifications 744 Slave Unit Compact Type e CON Item No AFPRP2X08D2E Series E Dimensions AFPRP2X08D2E 59 5 9 31 5 ja jat P4 A m D Gees sees 1 re i Zz as io oy m ae m A a y T T T at Y gt ee g a m D 1_T Unit mm
59. rmality in the load If the power is not supplied to the load there is probably an abnormality in the unit s output part 4 Monitor the output status using the tool software FPWIN GR7 If the output monitored is turned on there is probably a duplicated output error etc 6 2 What to Do If an Error Occurs 5 Forcibly turn on and off the relevant output using the forced input output functions of the tool software FPWIN GR7 If the output indicator LED of the slave unit is turned on go to input condition check If the output indicator LED remains off there is probably an abnormality in the unit s output part E Solution check of the input side Clarify the situation in the following procedure a PROCEDURE 1 p KEY POINTS Check if input indication LED on the slave unit is on If it is off proceed to the next step If it is on proceed to Step 3 Check the wiring of the input device e g Is there any loose terminal If LED on the slave unit turns on following the above step undercapacity of power supply is possible Review the power supply design Check that the power is properly supplied to the input terminals If the power is properly supplied to the input terminals there is probably an abnormality in the unit s input part If the power is not supplied to the input terminal there is probably an abnormality in the power supply or the input device Monitor the input status using the tool softwar
60. ror If the time is set to 0 the master unit continues waiting until communication with the slave unit is established No error is reported Whether the master unit allows transition to the RUN mode while an error is being reported depends on settings under Select operation when a self test error occurs A unit error occurred in the CPU configuration Select slaves to be connected No check 01 to 63 Turn on the check box for the number of slave to be connected If the slave of the specified number is not connected an error is reported after PHLS slave connection waiting time has passed 4 9 Unit Settings and Configuration 4 3 2 Final Slave No and Settings and Operations Concerning Select Slaves to be Connected e The master unit does not communicate with slave units that have slave numbers larger than the specified final slave number Among the slave units to be connected specify the slave number that has the largest value for the final slave number e The master unit also communicates with units whose check boxes in Select slaves to be connected are not turned on as long as their slave numbers are smaller than the specified final slave number No connection waiting check is conducted for such commutation No error is reported either even if the relevant units are not connected p KEY POINTS e Among the slave units to be connected specify the slave number that has t
61. s and Functions of Parts 2 3 PHLS Slave Unit Compact Type 2 3 1 Names and Functions of Parts ii ill it im m il iF af Le W 00 NULS TF SS SS Ni DT Connector Type Relay Output type Terminal Block HHHH M ne 00000000000 elelele _ elelelelelet i FC S Le e CON type 2 6 2 3 PHLS Slave Unit Compact Type m Names and functions of parts 1 POWER LED Turns on when the slave unit power is ON 2 Communication status LED Shows the status of communication with the master unit 3 Mode selec
62. side and make sure to ground the functional earth terminal on the other side p KEY POINTS e Do not supply power from outside to the terminals and the terminals e inthe input circuit or the output circuit the maximum current that can be withdrawn from the internal circuit 24 V DC is 2 A REFERENCE In the internal circuit diagram on the previous page a typical example of the mixed input output unit AFPRP2XY16D2T is indicated For specifications of individual slave unit please see 7 3 Internal Circuit Diagram Terminal Layout Installation and Wiring 3 4 4 Hard Wiring for Terminal Blocks E Suitable wires and screwing torque P SE E F Tightening Unit type and wiring position Suitable wire Communicatio Recommended transmission cable n terminal Manufactured by Shinko Seisen Industry Co 0 22 to 0 25 Nm Compact type block Ltd ZHY221PS ii P AWG 24 to 16 trand wire ower supply o copper strand wire f terminal block Rated temperature 60 to 75 C 0 22 t0 0 25 Nim Compact connector 1 0 terminal AWG 24 to 16 copper strand wire 0 22 to 0 25 Nm terminal block type block Rated temperature 60 to 75 C Compact relay output Output AWG 22 to 14 copper strand wire 0 5 to 0 6 Nem type terminal block Rated temperature 60 to 75 C Compacts COM VO terminal Refer to 3 4 5 Hard Wiring for e CON Type connector type block E Wiring method 1 Remove a potion of the wire s insulat
63. slave unit 2 Power onthe PLHS slave unit 3 Power on FP7 where the PHLS master unit is installed Procedure for turning off the power Power off FP7 where the PHLS master unit is installed Power off the PLHS slave unit on gt H Power off I O devices connected to the PHLS slave unit 5 2 5 2 Pre Operation Checks Before Switching to the RUN Mode 5 2 Pre Operation Checks Before Switching to the RUN Mode 5 2 1 Check of Communication Status e While the slave unit and the master unit are communicating normally the COMM LED flashes The numbers of the connected slaves can be confirmed by checking the operation monitor LEDs of the master unit e Check that the COMM LEDs on the master unit and all the slave units are turned on Subsequently check that the numbers of the connected slaves are correct by checking the operation monitor LEDs of the master unit REFERENCE e For the operation monitor LEDs of the master unit please see 6 2 What to Do If an Error Occurs e If there is abnormality e g ERR LED or ALARM LED is turned on please see 6 2 What to Do If an Error Occurs 5 2 2 Check of Output Status The output status of the PHLS system can be checked using the tool software FPWIN GR7 E Setting method In the following procedure it is assumed that the tool software FPWIN GR7 has already been started up and the PHLS master unit is already allocated in the I O map PROCEDURE 1 From the
64. tching surges 100 mm or more m Handling Do not touch connector pins directly to prevent static electricity from causing damage Always rid yourself of any static electricity before handling this product 3 2 Installation and Wiring of the Master Unit 3 2 Installation and Wiring of the Master Unit 3 2 1 Installation For installation of the master unit please see the FP7 CPU Unit Users Manual Hardware 3 2 2 Wiring Respectively connect TR and TR of the PHLS master unit with TR and TR of the PHLS slave unit Connect the shielded wire of the transmission cable to the functional earth terminal of the slave unit PHLS master unit PHLS slave unit RE PaM nnn oo aya Sa lO 8 F T COMV ALARM 2 MODE 3 2 3 Hard Wiring E Suitable transmission cable Recommended product Shinko Seisen Industry Co Ltd ZHY221PS E Suitable solderless terminal M3 terminal screws are used for the solderless terminal Use the solderless terminal specified below Fork type terminal Round type terminal 6 mm or less 6 mm or less 3 2 mm or more 3 2 mm or more Manufacturer Shape Part no Suitable wires Fork type 1 25 B3A gt J S T Mfg Co Lt
65. th terminal lt Relay output gt Insulation resistance 100 MQ or more Test voltage Between output terminals and power supply terminals 500 V DC Between output terminals and functional earth terminals Between output terminals and communication terminals Between power supply terminals and functional earth terminals Between power supply terminals and communication terminals Between functional earth terminals and communication terminals Between output terminals and output terminals between different commons Based on JIS B 3502 and IEC 61131 2 Vibration 5 to 8 4 Hz half amplitude 3 5 mm resistance 8 4 to 150 Hz constant acceleration 9 8 m s X Y and Z axes 10 sweeps each 1 octave mm Shock Based on JIS B 3502 and IEC 61131 2 resistance 147 m s or more X Y and Zaxes 3 sweeps each lt Connector terminal block e CON gt Noise 1 000V P P with pulse widths of 50 ns or 1 us resistance lt Relay output gt 1 500V P P with pulse widths of 50 ns or 1 us Environment Free from corrosive gases and excessive dust EU Directive applicable EMC Directive EN 61131 2 standard Overvoltage category Category II or lower Pollution degree Pollution degree 2 or lower Weight main unit Approx 75g Note 1 Cutoff current 5 mA This excludes the protective varistor Factory default setting Note 2 Power supply terminal and functional earth terminal of the control unit 7 5
66. tor switches Used for setting slave numbers Baud rate and output status during error 4 I O circuit operation monitor LEDs Shows ON OFF status of the input circuit or the output circuit 5 DIN rail attachment hook Used for attachment to the DIN rail 6 Terminal block for connection of the I O circuit CN1 10P CN2 11P Used for connecting I O devices 7 Terminal block for connection of the relay output circuit 7P Used for connecting output devices 8 e CON socket for connection of the input circuit 4Px8 Used for connecting input devices e CON should be used for connection 9 Termination resistance selector switch Set to ON when the slave becomes a terminal unit of the transmission line 10 Terminal block for power supply Used for connecting a unit driving power supply 24 V 11 Terminal block for connection to the transmission line Used for connecting transmission cables The two TR terminals TR terminals and earth terminals are respectively connected inside 2 7 Names and Functions of Parts 2 3 2 Operation Mode Setting Switches Turn off the power supply before making settings or changes E Settings of switches Switch part sign Switch no Settings OFF ON 1 2 Set slave numbers in accordance with the sum of the five dip switches 4 1 to 63 5 6 7 8 9 10 For example in order to set the total slave number to 10 make settings 8 as follows 16 1 OFF 2 ON 4 OFF 8 ON 1
67. us LED Shows the status of communication with the master unit 2 2 2 Operation Mode Setting Switches Turn off the power supply before making settings or changes Geax Slide switch OFF ON H 12 ON DIP switch TA yi C 6 OFF R No E Settings of DIP switches H 12 ON 86 D m Rotary switch amp HO OFF k L No C6 E amp E Switch settings and slave numbers Switch part sign Settings No Set slave numbers by a combination of the settings of the rotary switch Refer to the table below 12 Set Baud rate n 12 12 Mbps 6 6 Mbps H Set the output status when a transmission error occurs c H Hold Outputs are retained C Clear All outputs are turned off DIP switch ON Rotary switch settings and allocated slave numbers J OE 0 1 Ais AR ESS CN 7 NE ON AN RES ECS DR EN RE ON ON 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ON OFF 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 OFF ON 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 OFF OFF 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 Note Slave No 0 cannot be used 2 5 Name
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