GPS satellite receiver for world wide application
Contents
1. Auxiliary Voltage Interface 111 9024 45 H1 AC DC 88V 264V D2 RS485 111 9024 46 H2 DC 18V 72V D2 RS485 111 9024 47 H1 AC DC 88V 264V D1 RS232 111 9024 48 H2 AC 18V 72V D1 RS232 Drilling Template Drilling Template 10 11 a eberle A Regulations norms guidelines The appliance is equivalent the following norms EN 60950 1 2001 about security of appliances of information technology and general reguirement EN 61000 6 1 2001 about electromagnetic compatibility EN 61000 6 3 2001 EMV special basic norm for the house use and similar applications This product meets the EG Guidelines 73 23 EWG dated 29 04 2004 low voltage guidelines 39 336 EWG dated 23 04 2004 EMV guideline including amended guideline 92 31 EWG 93 68 EWG dated 22 07 1993 labelling guideline Trouble shooting what to do if Power supply line Please deal with cable to power input carefully The cable should not be bended or broken Damage If the power supply line is damaged please disconnect the line and exchange to new one If the case is damaged please send the complete device to the manufacturer Protect against water The GPS time receiver is not to be used in the water or in the humid area Especially not under the power supply of 230V AC at the device The connected DCF clock doesn t get the correct time Please check the cable connections to the clock The polarity of the connectio2. a eberle 7 Operating manual GPS satellite receiver for world wide application Versions Article Number Auxiliary Voltage Interface 111 9024 45 H1 AC DC 88V 264V D2 RS485 111 9024 46 H2 DC 18V 72V D2 RS485 111 9024 47 H1 AC DC 88V 264V D1 RS232 111 9024 48 H2 AC 18V 72V D1 RS232 GPS Clock We take care of it Page 2 Note Please note that this operating manual cannot describe the latest version of the device in all cases For example if you download a more recent firmware version from the internet the following description may no longer be accurate in every point In this case either contact us directly or refer to the most recent version of the operating manual available on our website www a eberle de A Eberle GmbH amp Co KG Aalener Stra e 30 32 D 90441 Nuremberg Tel 0911 6281080 Fax 0911 62 81 08 96 E Mail info a eberle de Internet www a eberle de A Eberle GmbH amp Co KG cannot be held liable for any damage or losses resulting from printing errors or changes to this operating manual Furthermore A Eberle GmbH amp Co KG does not assume responsibility for any damage or losses resulting from defective devices or from devices altered by the user a eberle A Content 1 General Informati n scssi a iin 4 2 GESEIS EEN 4 3 Installation and Start DD 4 3 1 EE 4 3 2 mstallation site for the antenna ea 5 3 3 installing the antenna ee 5 4 Electronic connec
3. 911 62 81 08 96 E Mail info a eberle de http www a eberle de Software Version Copyright by A Eberle GmbH amp Co KG All rights reserved GPS satellite time receiver GPS Clock
4. RS232 SUB D Plug Pin2 RXD DCF Pin3 TXD Pin5 GND Pin7 RTS Adapter RXD gn TXD sw RTS rt GND ws Cable Lengths GPS Antenne 5m Auxiliary Voltage 2 5m RS232 5m max 15m Page 10 Electronic connection DCF output Data protocol a eberle 4 N 4 5 Auxiliary Voltage H2 DC 18V 72V br bl Interface D2 RS232 SUB D Plug Pin2 RXD DCF Pin3 TXD Pin5 GND Pin7 RTS Adapter RXD gn TXD sw RTS rt GND ws Cable Lengths GPS Antenne 5m Auxiliary Voltage 2 5m RS232 5m max 15m Electronic connection DCF output Data protocol Page 11 Time zone map We take care of it 5 3 021 3506 3009 300 a0 Time zone map ueipusu p au uea yaimuaalg INS 7 BWI plepuejsS ay jo SES de t N coe EEN i m X 9 EL N 6 azueape Ul NOY Ajensn si ya ya Ol M S y4 za W 8 H TA e ee A r D ole a Lt 9 au Humes yybiyAeq 6 A C d WAA 0E9 A oe D ES fortiori SEET au Jawuuns daay sadejd awos H zs f S O o 4H os A S WA AEN SER Se sjewixoidde aie sauepunog den s uoz sul 11 GN i NW CWN NS wi at jw F DI Id eh ols glalelvlz Page 12 a eberle 4A 6 Setting up the system 6 1 Setting of time zone The time zone setting is made using the DIP switches marked TIME ZONE Areas with special time zones 0 5h pen North Hemisph
5. switch has been incorrectly set at 1h or 1h there will be no time change Setting up the system Page 15 We take care of it 6 3 Setting example for Germany 0 Please take the time zone from the time zone map Please set the DIP switches according to the setting table Germany is located in the time zone 1 and north hemisphere The time difference to UTC time is positive 1 hour The summer time changeover takes place at the last Sunday in March The end of summer time takes place at the last Sunday in October Step 1 Setting of time zone DIP switch 1 of TIME ZONE OFFSET to ON UTC 1 hour TIME ZONE OFFSET Step 2 Setting of time difference DIP switch of UTC to ON DIP switch NORTH SOUTH to OFF f 1 0 5h n 117 8 NORTH SOUTH UTC Step 3 Setting of summer time begin DIP switch 1 and 2 of MONTH 1 to ON Month March DIP switch 1 and 3 of SUNDAY to ON last Sunday Step 4 Setting of summer time end DIP switch 2 and 4 of MONTH 1 to ON Month October DIP switch 1 and 3 of SUNDAY to ON last Sunday SUMMERTIME DST Daylight saving time Summer time Page 16 Setting up the system 7 RS232 data protocol Technical Data Baudrate 9600Baud Data bits 8 Stop bits 1 Parity odd Handshake none a eberle A Data transmission of time day of the week and date takes place each second If the GPS time receiver has failure or no GPS time signal recep
6. that there will be time shift outputs of 13 14 or even 15 hours Setting the Daylight Saving Time Changes The summer winter daylight saving time changes are set up using the following DIP switches Begin of summer time End of summer time DST Daylight saving time Summer time Use the NORTH SOUTH switch to specify whether you are in the southern or the northern hemisphere The northern hemisphere is set when the unit is delivered Set the switch to OFF for the northern hemisphere set the switch to ON for the southern hemisphere The start and finish of summer time is set as shown in the coding table below The switches marked MONTH are used for setting the month of the change and the switch es marked SUNDAY are used for specifying on which Sunday in that month the change falls 1st to 4th Sunday or last Sunday in the month BEGIN indicates the switches for the start of summer time and END indicates the end of summer time 1h for beginning of summer time and 1h for end of summer time Setting up the system a eberle JA Setting summer time changeover Setting the MONTH DIP switches Month switch 1 switch 2 switch 3 switch 4 January om OFF OFF OFF April OFF OFF om OFF November om Im OFF ON December OFF OFF om ON Setting the Sunday DIP switches Sunday im month switch 1 switch 2 switch 3 no time changeover en OFF No change is made for summer time if the DIP switches are set to fault If the DIL
7. Hz means an outdoor aerial is always necessary for receiving GPS satellite data The antenna must not have any directional char acteristics because it needs to receive data from all directions Consequently boosting the reception characteristics of the antenna by shaping it mechanically as in the case of a para bolic antenna for example is not a viable option This means the signal magnitude at the antenna output is below the general background noise level An extremely low noise pre amplifier is therefore connected to the antenna in put to make it possible to evaluate the signals The antenna should have a clear line of sight to the entire horizon to guarantee that the GPS reception will be as continuous as possible The start up phase may take a long time if the reception arc is obstructed by objects or buildings depending on the configuration of the satellites As a result the antenna should be set up where the maximum possible clear line of sight to the horizon is guaranteed In general the more of the sky you can see from the installation site the quicker the GPS clock will be radio synchronized and the longer it will remain so General Information a eberle A 3 2 Installation site for the antenna The GPS antenna is located in the control unit housing when the unit is delivered Please observe the instructions below if the reception conditions make it necessary to in stall the antenna separately The length of the antenna
8. cable is about 5 m k Poor location activation not possible or takes long time Good location activation in 2 3 minutes b K KEE EE EE S Adeguate location H may take several hours 3 3 Installing the antenna cable Do not route the antenna lead adjacent to other HF control or power current cables Inter ference from these cables could disrupt GPS reception because of the extremely low power of the received signal Take particular care when routing the antenna cable Please observe the following points Donot get the antenna plug dirty and do not damage it Protect it with plastic foil before pulling the cable through a wall for example Do not bend the antenna cable around sharp corners Do not exceed the bending radius Do not squash the antenna cable and do not damage the insulation Installation and Start up Page 5 We take care of it A Page 6 Caution Extremely powerful voltage or current spikes may occur when outdoor antennas are used during thunderstorms These spikes represent a risk of severe or even irreparable damage not only to the unit connected directly to the antenna but also to other down circuit units The unit should be inco
9. carried out as described in the user manual of the particu lar device and is not dependent on the connection of a GPS radio clock to the bus DCF Pulse Output at RS485 Level Timebus A DCF signal at RS485 level is output at the DCF EA and DCF EA terminals To syn chronise for example a PQI D per GPS the DCF EA terminals must be connected to the Time in A and the DCF EA terminal must be connected to the Time in B of the POI D The settings needed for synchronisation are described in the user manual of the corresponding device Data Protocol at RS232 Level A data protocol for a serial RS 232 port is transmitted via the terminals TxD and GND The contents of the data are time day of the week and date The data format of inter face is set at 9600 baud rate 8 bits 1 stop bits Parity odd Electronic connection DCF output Data protocol a eberle A 4 1 Overview of GPS electronic GPS antenna input UTC or x hour ON North South hemisphere HLNOS HLYON 5 CM Com US Ot O m Time zone switch s LL GPS Receiver Mod 5 SE 1 12 hours ule 9 FNO _ x A a Sunday 1 5 5 w Control LED for D lt end ot DCF signal E u z 5 s Month 1 12 s an lt gt a Sunday 1 5 lt 5 2 Begin DST ech RS485 a a i 1h DCF Pulse Output 2 x ii Month 1 12 x S RS232 V24 N Data and DCF 2 Pulse Output Power Supply Module Power supply Microcontrolle
10. d the device for repairing please check the function of the GPS at the differ ent location Risk of abuse The incalculable risks can cause because of not proper uses and is therefore prohibited Especially the case can be opened and the operating characteristics can be changed only in voltage free condition please see the illustration under point 6 setting up the system Device changing or modifying Please do not change the device itself You will lose the guarantee You also have your contribution to environmental protection Marking of electrical and electronic eguipment in accordance with WEEE 2002 96 EC Electrical equipment shall not exceed the household garbage After the battery changing you are legally obligated to return the used batteries or accumulators A disposal of the waste is prohibited Pb Hg Cd Creates batteries are marked with a sign that describes the ban on the disposal of house hold garbage The chemical symbol of the crucial heavy metals is also indicated Pb stands for lead Hg for mercury and Cd for cadmium Your used batteries or accumula tors have to return to the public gatherings public legal disposal makers who are obliged to withdraw You meet a significant contribution to the environment Warning and security hints a eberle 4 Notes Notes Page 21 A Eberle GmbH amp Co KG Aalener Str 30 32 D 90441 Nuremberg Tel 49 0 911 62 81 08 0 Fax 49 0
11. ere off or ech South Hemisphere on O MM D n ZONE SA amp OFFSET 2D ON Location west off or GMT Greenwich Si The reference time zone time zone 0 is UTC Prime Meridian or Greenwich Mean Time The unit is supplied set up for the time zone 1 Central European Time Refer to the map of the world to determine the time zone corresponding to your location and set the switches in accordance with the table below Use the TIME DIP switch to specify whether you are east or west of the Prime Meridian The default setting is east In some countries the time difference to the adjacent time zone is only half an hour rather than a full hour refer to the map of the world The 0 5 h switch must be set to ON if the GPS receiver is used in any of these countries The switch is set to OFF when the unit is de livered DIP switch setting TIME ZONE Time zone switch 1 switch 2 switch 3 switch 4 OFF OFF OFF OFF OFF OFF OFF OFF o O OFF LX Low wn om OFF OFF OFF ON Setting up the system Page 13 WO Dis IO NS WNG We take care of it 6 2 Page 14 Time zone switch 1 switch 2 switch 3 switch 4 10 OFF om o OFF ON 12 OFF OFF om o ON If the DIP switches are set to a fault in relation to the time zone setting the values for the data output will be arithmetically correct If the time zone switches have been incorrectly set the data output values will be mathematically correct This means
12. esponding to an orbital altitude of 20 183 km These satellites are now in operation Each satellite has a mass of about 430 kg and contains a transmitter a receiver an antenna an atomic clock for maximum accuracy and a control system for the satellite s functions The principal applications of the GPS system are for fixing positions and as an aid to navigation Operating Principles Once the GPS system is switched on it first has to receive and evaluate valid data from the satellites in its line of sight This start up phase may take as little as 2 3 minutes if recep tion conditions are favourable However as long as half an hour may be needed if there is a poor line of sight to the horizon This start up phase is also influenced by the configuration the satellites are in at any particular time It is impossible to fix a position or obtain time in formation with fewer than three satellites The red LED GPS IS WORKING flashes while the satellite signals are being received When the unit subsequently commences continuous operation this light emitting diode only flashes when the number of satellites being re ceived falls below three It is simple to set up the system and the procedure does not require any particular special ist knowledge The daylight saving time changes start and finish and the time zone can be set using slide switches Installation and Start up Generals The high frequency of the GPS signal approx 1 5 G
13. n cable is correctly GND and DCF SIG Please check the signal level of GPS output positive or negative Output LED blinks in second tact If not please replace an antenna correctly fyes there will be a DCF signal output f no then check if the GPS antenna is connected and in the correct position If the GPS antenna is not connected then a DCF signal output is not possible for more information see points 3 1 and 3 2 Antenna installation location LED GPS is working blinks Please be patient for a while Until the GPS catches the time signal from the GPS satellites it takes some minutes depending on the location Check the antenna location 0 Possibly search for a better location Isit possible that the antenna is being blocked by metallic objects After the time reception this LED flushes permanently Time reception problem See under point 3 2 Installation site for the antenna If you have still problem with the device please disconnect the power supply and wait for min 1 minute After that please re start the device again Regulations norms guidelines Page 19 We take care of it 12 Page 20 Warning and security hints Please understand The device is inspected before the delivery and is fully functional Sometimes the no func tion doesn t come from the technical defect for example the interference at the location of an antenna or not suitable place and so on Before you sen
14. r Gei GPS is working Steady LED GPS timeok v Flashing LED searching LED flushes permanent GPS Time is OK L N PE es Power supply LED blinks no time recep connector 230V 50H tion no reception Electronic connection DCF output Data protocol Page We take care of it 4 2 Overview 111 9024 45 GPS Empf nger Receiver eee r Ant 111 9024 45 Hi Power supply external AC 85V 110V 264VIDC 88V 220V 280V Di R3485 A CE m Pes Auxiliary Voltage H1 AC DC 88V 264V Europlug Interface D2 RS485 EA gn EA ws GND br Cable Lengths GPS Antenne 5m Auxiliary Voltage 2 5m RS485 5m max 1200m Page 8 Electronic connection DCF output Data protocol a eberle JA 4 3 Overview 111 9024 46 s x GPS Empf nger Receiver Arh 7111 9024 46 H2 Power supply external DC 18V BOW fav D2 RS485 q AN CE Bl Pes a eberle A Auxiliary Voltage H2 DC 18V 72V br bl Interface D2 RS485 EA gn EA ws GND br Cable Lengths GPS Antenne 5m Auxiliary Voltage 2 5m RS485 5m max 1200m Electronic connection DCF output Data protocol Page 9 We take care of it 4 4 Overview 111 9024 47 gt 4 GPS Empf nger Receiver Art 111 9024 47 Hi Power supply external AC SE 210DN 2BAMIDC BBV 220W 280V Di R3232 ALE e revere AX Auxiliary Voltage H1 AC DC 88V 264V Europlug Interface D2
15. rporated into the building s lightning protection system in order to avoid suffering costly damage and concomitant costs The lightning protection system may only be installed by qualified professionals Electronic connection DCF output Data protocol Consistent with the products in the REGSys range the GPS receiver is available in two var iations for different voltage supplies See Technical Data It is connected using the terminals marked L N and PE Only an electrician is allowed to do this The GPS receiver allocates three different output signals DCF Pulse Output at RS232 Level A DCF signal at RS232 level is output at the DCF and GND terminals To synchronise for example a REG D per GPS the GND terminals must be connected to the GND and the DFC terminal must be connected to the RXD of a RS232 interface controller The settings needed for synchronisation are described in the user manual of the corre sponding device DCF Pulse Output at RS485 Level Timebus A DCF signal at RS485 level is output at the DCF EA and DCF EA terminals To syn chronise for example a PQI DA via GPS the devices must be connected as follows GPS Radio Clock PQI DA DCF EA A to connection X6 No 47 DCF EA B to connection X6 No 48 GND GND to connection X6 No 50 The settings needed for synchronisation are described in the user manual of the corre sponding device Termination of the bus should be
16. tion DCF output Data protocol cco o o ooo oo 6 41 Overview of GPS electronic 7 4 2 Oven en nb 8 4 3 Overview LIE RE na ai 9 4 4 Overview 111 902 an ea an nang 10 4 5 Oven en ORA Ae kan Khana 11 5 Time zone kn in 12 6 Setting up the system s euu 13 6 1 SEAME Oa 13 6 2 Setting the Daylight Saving Time Changes oo 14 6 3 Setting example for Gea naa Mn Gaib nan opa 16 7 RS232 data PrOID Bl ae eures 17 8 LE lu THE CC EE 17 9 Drilling Template 2 een Naa 18 10 Regulations norms guidelines cooooooo ooooooooooooooooooooooooooooooooo o oo o 19 11 Trouble shooting What to do if coco coco oooooooooooooooooooooooooooooo o 19 12 Warning and security hints ooooooooooooooooooooooooooooooooooooooooooooooo o 20 Content Page 3 We take care of it Page 4 GPS RECEIVER WITH SIMULATED DCF77 OUTPUT General Information The Global Positioning System GPS is a satellite system developed in the USA and based on the NAVSTAR satellites made by Rockwell With this system it is possible to receive ex act time information anywhere in the world anytime To meet these requirements it was necessary to position a total of 24 satellites in 6 almost circular orbits The satellites orbits are inclined at 55 to the equator with an orbital period of about twelve hours corr
17. tion the data transmission is blocked The data transmission takes place in three steps 1 transmit a control character STX 2 transmit time day ofthe week and date 3 transmit a final character ETX STX time day of the week Date 02 12 34 56 7 31 01 06 Day of the week 1 Monday 7 Sunday STX O2hex ETX O3nex 3A hex ZE tex 8 Technical data GPS time receiver Output pulse Phase position output pulse Power Weight incl active antenna Antenna with magnetic clamp wm Cable length Cable diameter Connector diameter Maximum cable length RS232 Interface gt Device RS485 Interface gt Device Cable entry points Max clamp wire diameter Case Index of protection Dimensions W x H x D incl PG screw joints Operating temperature RS232 data protocol ETX 03 100 200ms positive or negative approx 3VA approx 650g 5 Meters 3mm 5mm 15 Meters RS232 Specification 1200 Meters RS485 Specification PG 7 1 5 mm Polycarbonate plastic case IP65 195 x 80 x 65 mm 25 up to 65 C Page 17 We take care of it Page 18 GPS time receiver Feature H1 Operating voltage AC 85V 110V 264V 220V GPS time receiver Feature H2 Operating voltage 60V 72V GPS time receiver Feature D1 Interface DCF77 Signal RS 485 GPS time receiver Feature D2 Interface DCF77 Signal RS 232 Versions Article Number
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