User manual - Infopulsas
Contents
1. Pin 1 SGND Pin 2 SGND Pin 3 RS485 Pin 4 RS485 Pin5 R 485 Modem GDX 800 Pin 6 RS485 Pin 7 12V EXT Pin 8 12V EXT 00000 At RS485 data cable more then 10m it is need to use overvoltage protection on CDX 800 modem side 14 CDX 800 DESCRIPTION Connection of PORT2 connectors RS422 Panel socket RJ45 eos Data flow Sr Description rection GND Signal and supply ground 2 GND Signal and supply ground 3 RxD Receive Data Output 4 RxD Receive Data Output 5 TxD Transmit Data Input 6 TxD Transmit Data Input 7 12V EXT External power supply 8 12V EXT External power supply U ATTENTION External supply is for converter RS422 The converter must have external power supply because of galvanic separated Circuit example of the meter with modem CDX 800 with data length less then 10 m Pin 1 SGDN Pin 2 SGND Pin 3 RxD Pin 4 RxD Pin 5 TxD Modem CDX 800 Pin 6 TxD Pin 7 12V EXT Pin 8 12V EXT 15 CDX 800 DESCRIPTION OVPM 31 Pin 1 SGND Pin 2 SGND Pin 3 RxD Pin 4 RxD Pin 5 TxD Modem CDX 800 Pin 6 TxD Pin 7 12V EXT Pin 8 12V EXT 0000 At RS485 data cable more then 10m it is ne2. mene ee ener eee een CD RR R T RR re 27 2 12 PRC SS OOS ssa abe sete a aS dea age cess cha cae ae cetacean bd a ago Mesa de isa nda and 28 2 13 Additional ACCCSSONSS siisii annakaan a a EEN ENET ANTT AKE maba 28 2 14 Assembly procedures iiinn anaue n ENEE EEA clan a AU aaa 30 2 15 Mechanical and inbuilt dimensions and recommendation for mounting 32 Foi o EOL Marking asaini ia ea Aa sas AT iaia iaa 35 2 17 PORT2 Marking erd ea aeea a O OPEN Eana aa are Ee CD r Eiai 35 2 18 CDX 800 production labels ires eenreraraanareeanereannnana 35 2 19 Production labels of interfaces POR TZ seuesensiisasicsenipnes coeso r aa pecataashraadfdsco ha gia ida cada inadaiande 35 3 CIO ANALOGUE INPUTS AND BINARY OUTPUTS ss ssennne 36 ore aid o s Ulett Oois q ee re ee RA A E A 36 3 2 Description of I O signal evaluation and reception ana 36 3 2 1 Analogue NIU CORRA E DRE DI UR Rr ERR A RR DO RR RR 36 3 2 2 Binary OUTS nnna a A hoon a a ires EANET 36 3 2 3 1 0 signals inside CDX SOO ise octets ccic rcs cada ed Sie ee ennet 36 3 2 4 1 0 signal o e gel gy e eae nee eee eee eee ee ee eee 37 3 3 Measuring other CDX 800 SIQHAlS sncvissiccecccssteecennessciessasndedeedensaniendessereminanaententsaaccseanerernes 37 3 3 1 Measuring the supply voltage eee eeeeneeeeneeeeeeeeeeeeesneeeeseneeeesesseenenenees 37 3 3 2 Measuring internal CDX 800 tem
3. GND Pin 3 PWRSV Pin 4 INAC Modem CDL 800 CDL 400 DC supply with backup battery with present supply monitoring Pin1 12V Pin 2 GND Pin 3 PWRSV Pin 4 INAC Modem CDL 800 CDL 400 21 CDX 800 DESCRIPTION DC supply with backup battery without present supply monitoring Pin 1 12V Pin 2 GND Pin 3 PWRSV Pin 4 INAC Modem CDL 800 CDL 400 22 CDX 800 DESCRIPTION 2 7 Antenna connection The antenna is connected to CDX 800 by the RPSMA connector on the back panel RPSMA antenna connector PORT2 PORTI PWR 2 8 Power supply CDX 800 requires DC supply of 10 to 30 V During reception consumption is 1 W During data sending peak consumption is 3 5 W For proper function it is necessary that the power source can supply peak current of 500 mA 23 CDX 800 DESCRIPTION 2 9 Ports technical specifications 24 Expansion port RS232 Name of product E 0 Power supply Internal 300Bd 200nF km 20 455C Environment Operating temperature Storage temperature 20 85 C Standards Emission EN 55022 B Immunity ETS 300 342 Safety EN 60950 RS232 specifications Max operating bus current 15 mA EN 1434 Max bit rate 230400 bps Max overvoltage 30 V Max total cable length 20 m 300Bd 200nF km e Expansion port M BUS Power supply Voltage 10 8 15 6 V Supply power Max 30 W Environment Operating temperature 20 55 C
4. Storage temperature 20 85 C Standards Emission EN 55022 B Immunity ETS 300 342 Safety EN 60950 M Bus specifications Max devices each 1 5 mA 30 EN 1434 Max operating bus current 60 mA Overload detection 100 mA Short circuit strength Permanent Bus voltage mark 36 43 V Bus voltage space 24 31 V Max total cable length 1000 m CDX 800 DESCRIPTION e Expansion port RS485 RS422 Name of product SBS RS422 Power supply External 10 8 15 6 V Internal e Supply power Max 30 W Supply current Max 250 mA Environment Operating temperature 20 55 C Storage temperature 20 85 C Standards Emission EN 55022 B Immunity ETS 300 342 Safety EN 60950 RS485 specifica Max devices each 1 5 mA 256 tions Max bit rate 38400 bps EN 1434 Overload detection 250 mA Short circuit strength Permanent Max total cable length 300Bd 1200 m 200nF km External or internal power supply of module Expansion port RS485 RS422 it is can evoke by wiring of the jumper J2 and J3 on this module If it is necessitated external power supply of module it must be by jumper J2 and J3 connection pin 2 3 Internal power supply is evoke of connection pin 1 2 on jumper J2 and J3 Interface behaviour of module Expansion port RS485 RS422 it is can evoke by wiring of the jumper J4 J5 and J6 on this module If it is necessitated RS485 of module it must be by jumper J4 and J5 connect and jumper J6 disconnect If it is necessitated RS422
5. in which explosives are used e When using the communication module in close proximity of personal medical devices such as cardiac pacemakers or hearing aids you must proceed with heightened caution e lf it is in the proximity of TV sets radio receivers and personal computers the telephone may cause interference connectors or modem e Caution Don t connect data cable with service interconnection SEPRO to M BUS A e Caution Don t connect power supply to data connectors it could be damage data A interface it could be damage SEPRO e It is recommended that you should create an appropriate copy or backup of all the important settings that are stored in the memory of the device to database by help program Radwin reference 3 CDX 800 DESCRIPTION 2 Description of the CDX 800 communication module 2 1 General description The communication module is a device for wireless data transmission The communic ation module is one of the basic elements of AGNES system The system AGNES character istics are described in reference 1 The 869 MHz according to CEPT ERC Rec 70 03 for used radio frequency and for running equipment of a short distance telemetrics security sys tems fleet management or for radio equipment of small performance bands are used for the wireless communication as a line layer ARNEP protocol is implemented above the line layer The protocol ARNEP is described in reference 2 One may simply imagine
6. 09 SAFETY INSTRUSTIONS 1 Safety instructions amp Please observe the following safety instructions e The communication module must be used in compliance with any and all applicable international and national laws and in compliance with any special restrictions regulating the utilization of the communication module in prescribed applications and environments e Use only the original Conel company accessories Thus you will prevent possible health risks and damage to the devices and ensure compliance with all relevant provisions Unauthorised modifications or utilization of accessories that have not been approved may result in damage to the communication module and in a breach of applicable regulations Unauthorized modifications or utilization of accessories that have not been approved may result in the termination of the validity of the guarantee which however does not affect your legal rights e The communication module must not be opened e Voltage at the feed connector of the communication module must not be exceeded e Do not expose the communication module to extreme ambient conditions Protect the communication module against dust moisture and high temperature e It is recommended that the communication module should not be used at petrol stations We remind the users of the duty to observe the restrictions concerning the utilization of radio devices at petrol stations in chemical plants or in the course of blasting works
7. Pin 8 Modem CDX 800 12 CDX 800 DESCRIPTION Pin 1 SGND E Pin 2 Meter RS485 1X ay Pin 3 RS485 ox 2Y oh E Modem CDX 800 OVPM 21 Pin 6 RS485 Pin 7 Pin 8 OOO Meter S485 RS485 At RS485 data cable more then 10m it is need to use over voltage protection on CDX 800 modem side 2 6 3 Connection of PORT2 connectors RS485 Panel socket RJ45 ne Data flow Sore Description rection 1 GND Signal and supply ground 2 GND Signal and supply ground 3 TxRx RS485 B Input Output 4 TxRx RS485 A Input Output 5 TxRx RS485 B Input Output 6 TxRx RS485 A Input Output 7 12V EXT External power supply 10 8 15 6V 8 12V EXT External power supply 10 8 15 6V 4 ATTENTION External supply is for converter RS485 The converter must have external power supply because of galvanic separated 13 amp CDX 800 DESCRIPTION Circuit example of the meter with modem CDX 800 with data length less then 10 m SGND Meter RS485 Meter S485 RS485 Pin 1 SGDN Pin 2 SGND Pin 3 RS485 Pin 4 RS485 dE he Modem CDX 800 Pin 6 RS485 Pin 7 12V EXT Pin 8 12V EXT 1X ay 2Y 2X OVPM 21
8. The user can use five adjustable inputs outputs which are placed on the I O connector at the back panel of the module More about CIO 2 modules see 4 3 2 Description of I O signal evaluation and reception On the input output there are five signals which can be processed and controlled by settings of the ClO 2 module It is possible to control these signals remotely or to send their values in the data form to a remote location of a data network 3 2 1 Analogue input Every 100 msec the voltage value of the analogue input is read converted to a digital decabit value and adjusted by the calibration constant The value is further average computed according to user setting and saved in the computer memory The basic range of the input voltage is 0 to 5V 3 2 2 Binary output Binary output is implemented by a transistor with open collector connected to I O signal When inactive log 0 the transistor does not conduct and acts like an opened switch When active log 1 the transistor acts like a switch connecting the I O signal to the ground GND In both cases the I O value is measured as an analogue input too The status of the switched circuit is being checked this way 3 2 3 I O signals inside CDX 800 RJ45 1 0 Lo DA Sutnesesa 36 8 CDX 800 DESCRIPTION I O signals wiring diagram 3 2 4 I O signal parameters Signal Measuring Resolution Sampling Aver
9. antenna except switch board it is necessary use fit over voltage wardships lightning arrester we recommend coax cable LMR195 e for single cables we recommend to bind the bunch according to the following picture for this use we recommend 32 CDX 800 DESCRIPTION length of the bunch combination of power supply and data cables can be maximum 1 5 m if length of data cables exceeds 1 5 m or in the event of the cable leads towards the switch board we recommend to use fit over voltage protectors surge suppressors with data cables they mustn t carry cables with reticular tension 230 V 50 Hz all signals to sensors must be twisted pairs O e sufficient space must be left before individual connectors for handling of cables a e for correct function of the modem we recommend to use in switch board earth bond ing distribution frame for grounding of power supply of modem data cables and an tenna 33 CDX 800 DESCRIPTION e the circuit diagram of the modem is on the following pictures Lightning arrester optional PWR see chapter 2 6 6 cio see chapter PORT2 8 283 see chapter 2 6 1 or 2 6 3 PORT1 or 2 6 4 see chapter 2 6 1 or 2 6 2 34 CDX 800 DESCRIPTION 2 16 Product marking Antenna Frequency Communication Power CDX 800 CDX 800 RPSMA 869 MHz 1 315 mW 1x RS232 10 30V 2 17 PORT2 marking Internal from module CDX 800 Expansion port RS232 XC 232 Expansi
10. between serial link RS232 and RS485 bus Configuration is possible by the program RADWIN 3 If it is selected RS485 bus the CDX 800 modem can automatically detects service cable After time of modem configuration the PORT1 interface is temporary switched to RS232 serial link 2 4 5 Optional hardware interface PORT2 PORT2 on the CDX 800 back panel provides for direct use of other HW interface than the standard RS232 It is due to the design of the interface as a separate module built inside CDX 800 Thus you may use the CDX 800 module combined with RS232 RS485 RS422 M BUS or CNT Such interface is physically linked to RJ45 PORT2 connector 2 4 6 User interface protocols There are numerous standard industrial protocols implemented on the user interface ARNEP UI AT modem DLMS MODBUS IWKA M BUS MODBUS PROFIBUS RADOM RDS CONEL SAUTER SBUS Transparent bus New protocols can be implemented according to the customer s needs not supported by the communication module yet The CDX 800 module also enables the implementation of customized user protocol directly by the customer CDX 800 DESCRIPTION 2 4 7 Technical parameters Complying with the Power safety following standards EMC Radio parameters Frequency bands Transmission power Sensitivity Communication speed Temperature range Function Storage Supply voltage car dashboard Consumption TX RX Dimensions Weight Antenna connector User interfaces PORT 1 PORT2 CI
11. input counter input Input 2 BIN1 CNT1 Binary input counter input Input 3 BIN2 Binary input Input 4 BIN3 Binary input Input 5 GND Signal ground 6 OUTO Binary output Output 7 ANO Analogy input Input 8 AN1 Analogy input Input Typical connection of CDX 800 measuring circuits 12VDC 12VDC COM2 XC CNT CONNECTOR RJ45 SECURE BILL AT THE BACK a SA a ma 2 XOCNTI ADR 0 7925 NTI COUNTER BIN INPUT COUNTERS INPUTS 1 AND 2 CAN WEIDMULLER B ae an COUNTER BIN INPUT2 BE USED ALSO AS BINARY INPUTS gt THEIR CONNECTION IS SAME AS CONNECTION OF INPUTS 3 AND 4 2 oncer Ep BINS BINARY INPUTS BLUE BING BINARY INPUT4 SIGNAL_GROUND EEE OUT BINARY OUTPUT1 COUNTER BINARY INPUTS CONNECT 7 Ja ANALOGUE INPUT A _BROWN WHTE fag aN2 ANALOGUE INPUTZ ONLY AGAINST GROUND 2x ANALOGUE SENSOR CURRENT LOOP 4 20mA 2x COUNTER INPUT EC OPTOSENSOR IS0 12 FOR SENSUS WATER METER BINARY INPUTS AND OUTPUTS VIA RELAY INTERFACE KA101 19 CDX 800 DESCRIPTION 2 6 6 Connection of I O connector Panel socket RJ45 TET Data flow Nel meme Description ion 1 KO 5 Input Output analogue or binary input or binary Input Output output open collector 2 KO 4 Input Output analogue or binary input or binary Input Output output open collector 3 VO3 Input Output analogue or binary input or binary Input Output output open coll
12. of module it must be by jumper J4 and J5 disconnect and jumper J6 connect Jumpers is placement them to a picture below module Expansion port RS485 RS422 from TOP layer We recommended internal power supply only in the event of that it is not possible ensure external power supply If it is choose internal power supply converter RS485 RS422 is not galvanic separated Jumper J3 Jumper J3 J J2 Jumper J2 The jumper circuitry for internal supply The jumper circuitry for external supply 25 CDX 800 DESCRIPTION Jumpery J4 a J5 Jumper J6 The jumper circuitry for RS485 The jumper circuitry for RS422 e Expansion port CNT Name of product Expansion port CNT Power supply Voltage Internal Sleep 100 pA counter is functional Operation 2mA Environment Operating temperature 20 55 C Storage temperature 20 85 C Standards Emission EN 55022 B Immunity ETS 300 342 Safety EN 60950 Isolation EN 60747 Inputs outputs 2x counter Max 100 Hz 2x analogy inputs 0 20 mA 2x binary inputs 1x output open collector 100 mA Others Voltage resistance Permanent Sleeping mode Controlled 26 CDX 800 DESCRIPTION 2 10 CDX 800 configuration The Radwin configuration program 3 has been designed to set up the CDX 800 radio data modem The software is created for MS WINDOWS NT 98 ME 2000 XP Vista platforms See User manual Radwin software for description ofthe software A service cable is designated to connect the mo
13. the CDX 800 module as a protocol converter between the user device PLC automatic PC data terminal etc and radio network it provides the user with possibility to communicate simply between all the systems The CDX 800 module is controlled by communication 32 bit microprocessor It ensures radio communication data transfer on serial user interfaces 1 x RS232 RS485 1 x optional porta 1 x CIO and a number of diagnostic and service features CDX 800 module in the basic version has one user interfaces RS232 RS485 multi communication ports which is program configurable and one interface for direct connection of inputs and outputs CIO for data collection and technological process management It is possible to set transfer parameters and communication protocol for each user interface separately As a result you may communicate with various user interfaces using different communication protocols on serial interface Port 2 is configurable RS232 RS485 RS422 M BUS or CNT interfaces can be ordered as its interface position Separate the two CDX 800 modems by a minimum distance 10 meters because of communication problems 2 2 Examples of possible applications e Security systems e Telematics e Telemetrics e Remote monitoring e Automatic sensors e Metering 2 3 Compatibility with other Conel company modems Regarding the communication and data transfers the CDX 800 module is compatible with modules communicating via the ARNEP proto
14. 1 cable for CIO modules connections 29 CDX 800 DESCRIPTION 2 14 Assembly procedure The CDX 800 module is designed as a standard for 1 Assembly to a panel using through holes Through holes for montage 30 CDX 800 DESCRIPTION 2 DIN 35 mm rail assembly using plastic grips 3 To be put on a worktop 31 CDX 800 DESCRIPTION 2 15 Mechanical and inbuilt dimensions and recommendation for mounting i o AEE CO EEE SE ew ES VS SE q fl Space for data cable l and data connectors i 90 i o O ha Po Ge Po N 2 i M z D i se Jo i E i N i Pann vals AS a N LZ 65 DIN 35 mm o 19 Space for connector i CIO a cable CIO PEENE LEONEE ee ee Se E For majority applications with built in modem in switch board it is possible recognize two sort of environment e no public and industry environment of low voltage with high interference e public environment of low voltage without high interference For both of these environments it is possible to mount modems to the switch board which it doesn t need to have no examination immunity or issues in connection with EMC ac cording to EN 60439 1 ed 2 For compliance of EN 60439 1 ed 2 specification it is necessary observe next as sembly of the modem to the switch board e we recommended to using external
15. ADWIN this software provides for creation installation and administration of data networks 6 Product disposal informations The WEEE Waste Electrical and Electronic Equipment 2002 96 EC directive has been introduced to ensure that electrical electronic products are recycled using the best available recovery techniques to minimise the impact on the environment This product contains high quality materials and components which can be recycled At the end of it s life this product MUST NOT be mixed with other commercial waste for disposal Check with the terms and conditions of your supplier for disposal information 40 COMPLAINTS PROCEDURE 7 Complaints procedure Dear customer The product you have purchased had passed manufacturer s tests and its functions had been checked by our technician before sale In case any defect shows up during the guarantee period that prevents normal use we ask you to follow the Complaints procedure when registering your claim To make a possible complaint procedure easier please make sure when taking over the product that your vendor has duly filled in all the relevant parts of the warranty including date seal and signature This Complaints procedure relates to the purchased products This Complaints procedure does not relate to the services provided Guarantee period of the products Guarantee period of 24 months from the date of purchase is provided for the device source antenna
16. O EN 60 950 1 ed 2 ETSI EN 301 489 1 V1 8 ETSI EN 300 220 1 V2 1 869 MHz based on CEPT ERC Rec 70 03 1 315 mW 112 dBm 24 kbps 10 TX RX 20 C to 55 C 40 C to 85 C 10 to 30 V DC 3W 350 mW 30 x 90 x 102 mm moulding fixed to 35 mm DIN rail 150g RPSMA 50 Ohm RS232 RS485 RJ45 connector 150 b s 115 200 b s SW configuration Optional RJ45 connector 150 b s 115 200 b s RS232 RS485 M BUS or I O 5 SW adjustable inputs analogue binary outputs open collector RJ45 connector 1 1 CDX 800 DESCRIPTION 2 5 Module state indication There are two LED indicators on the front panel informing on its status Flashes once a sec proper function GREEN Pu One a O fault Oli Ee RR no DC supply ED E e e co Si E O a is ade ear MELLOW NC a ne des vg O eai GREEN DR sa cs AE ee ene a E ee ee ere er 2 6 User interfaces connectors There are a two RJ45 PORT1 and PORT2 a RJ12 PWR and a RPSMA ANT connectors located on the back panel Two connectors marked PORT1 and PORT2 are used for serial user interfaces typically RS232 The fourth connector marked PWR is used for connecting the supply adapter Antenna is connected to the last ANT connector Port RS232 RS485 Optional interface Power supply PORT2 PORT1 PWR 10 CDX 800 DESCRIPTION An RJ45 CIO connector is located on the front panel of CDX 800 CIO connector is for direct in
17. WWW INFOPULSAS LT info O infopulsas lt Radio data modem CDX 800 USER S GUIDE EA tv Corset ISO 9001 2001 Contents SAFETY INSTRUCTIONS c aaas ssa soaniaasiinos ida io raise Diana d a dl sarbasdasoihasal ja apace Db anami arkana iarain i Taea kan 4 2 DESCRIPTION OF THE CDX 800 COMMUNICATION MODULE 5 2 1 General dESCrpHON cccasscitinen cessecectacscdeeadndeatedeanssseee escent dedasdtanddgeadencniinaatdnectemneseteeradgccestectcaiant 5 2 2 Examples Of possible ADPlIGALONS siscccicsentsvesincees teecaratersidenctictadiens cevesabnaeentaed Resteee dantas Picanha 5 2 3 Compatibility with other Conel company modems aaa 5 2 4 Description of the individual parts of the CDX 800 6 2 AAC INOOU qe RE RR Ra AERA AAE 6 24 2 CONTO MIGTOpraCESSO a ssacanpizaas isaainido nad cease consectaidstenjadacendeanyweanndoass seandaneasbonaaasatanassaadeed 6 2 4 3 Inputs and outputs for telemetry asasissa acto cavniocadases bs napeneeevnsna venenedenctdeng nde inca ndas is aasade 6 2 4 4 PORTI io eA Saco i cscs esas GR CNN nae eade EEEa EEN NEN DE 7 2 4 5 Optional hardware Interface PORT2 sessessistasasintoaaadalslnoiaaaabano could adam sa nadndamaa sas npadasna a 7 2 4 6 User interface PrOlOC IS sem eseeraa aa e cana nana as etnias ao tusg eeneiainanssedeedeueradaneneacecian 7 2 4 7 Technical parameters ccccccceceeceesseeeeeeeneeeeeeeeeeneneeeeeeeeesaeasss
18. age from Hysteresis 1 01 5 Oto 5 100 Optional Optional Optional 1 128 0 255 3 3 Measuring other CDX 800 signals 3 3 1 Measuring the supply voltage In CDX 800 two more signals are evaluated The first is called UN DC SUPLY it is an internal signal and measures supply voltage on CDX 800 supply terminals The measuring ranges from 0 to 30 V The supply voltage value influences the function of CDX 800 The second one is INAC AC SUPLY linked to the supply connector see the supply connector description The measuring ranges from O to 30 V The signal is protected against over voltage by a protection element that blocks voltage in excess of 16 V INAC is designed for measuring of network supply voltage presence Change of the value is recorded in CDX 800 statistics as a failure and rise of supply voltage 230 V Beware it is impossible to connect 230V supply voltage directly to the input Signal Measuring Resoluti Sampling Average from range V on bit samples Hysteresis Control level O to 30 5000 Optional INAC O to 30 10 5000 4 2V Optional 3 3 2 Measuring internal CDX 800 temperature Signal Measuring Resolutio Sampling Average from range C n bit samples Hysteresis Control level 40 to 100 5000 Optional 3 3 3 Measuring DSR output signal level DSR signals on separate user interfaces are output signals from CDX 800 viewpoint They are not controlled from the inside Individual signals are linke
19. and the new product becomes property of the purchaser New guarantee period starts from takeover of the new product In cases when the vendor settles the matter upon agreement with the customer by replacement of the subject of the complaint for a faultless product the new guarantee expires 1 After 12 months since the replaced product was taken over by the customer 2 On the date when the original guarantee period subject of the complaint would have expired should it not have been replaced whichever comes first 41 COMPLAINTS PROCEDURE 3 The claim is deemed unsubstantiated when the defect is not found by the vendor processing the complaint or the defect is not covered by the guarantee under Article 3 of the procedure 4 In case the claimed defect is not found and functionality is proven to the customer the customer is obliged to pay demonstrable cost related to expert assessment of the claimed defect 5 In case defect is found when processing the complaint that is not covered by the guarantee extra warranty repair the vendor shall inform the customer and the customer shall inform the vendor whether he she wishes to have the defect repaired for the price set A protocol shall be made on exact conditions of the extra warranty repair and signed by both the customer and the vendor Should the customer not require remedy through extra warranty repair under the conditions the device shall be returned to him her after he she pays the de
20. col on the RS232 interface This means it is possible to combine different types in one network and simply extend for example an existing network of the CGU 04i CDA70 modules with new communication points using CDX 800 modules In addition the CDX 800 module provides some features not included in older types User and industrial communication protocol implemented on serial interfaces are compatible with the protocols used for Conel radio modems e g CDA 70 Thus you may establish complex combined data networks consisting of both radio and GPRS modems CDX 800 DESCRIPTION 2 4 Description of the individual parts of the CDX 800 2 4 1 Radio module The radio transceiver XBee has been used for wireless communication on the radio channel The module achieves high rate parameters thanks to used digitalization of both the transmitter and receiver The modem works in the band 869 MHz For usage within specific regions restrictions as to the frequency selection are provided to comply with the appropriate legislation The transmitter works with the OFDM modulation the transmitting power output can be programmed in steps of 1 mW up to 315mW The maximum transmission rate is 24 kb s with duty cycle receiving transmitting 10 1 The duty cycle is according to the ERC REC 70 03 document 2 4 2 Control microprocessor Thirty two bit microprocessor Freescale Coldfire with 512 kByte FLASH EEPROM memory and real time circuit with reserve power supply
21. d through 330 Ohm resistors By placing a 100 Ohm ground resistor on the DSR output the voltage will fall to 1 V Following this fall CDX 800 will recognize service cable connected and start to communicate 37 CDX 800 DESCRIPTION on this user interface via the ARNEP protocol with defined communication parameters Itis not allowed to load the output to a level when voltage falls below 3 V As well as the other signals DSR values are accessible within the CIO communication reports see the ARNEP protocol description 3 4 Output signal for disconnection of supply voltage The only exclusively output signal is PWRSV Power Save The signal is linked to the supply connector see the supply connector description It is connected as universal I O signal outputs This is an open collector that switches PWRSV signal to the ground GND The output is controlled by a report similarly to I O outputs 3 5 Technical parameters Number of I O signals on I O port 5 Basic range of the analogue input supply voltage 0 to 5V Maximum switched current of binary output 500 mA Maximum switched voltage of binary output 30 V 3 6 Connecting CIO signals to user device It is not appropriate and often even possible to connect I O interface signals directly to the user device In order to measure currents resistance and large voltage it is necessary to connect electric circuits before I O signals that will adjust the values measured to a voltage w
22. data cable and possible accessories The date of purchase is at the same time date of takeover Registering a claim It is necessary to register your claim at the vendor where the subject of the complaint has been purchased Customer shall present duly filled warranty and the complete subject of the complaint Subject of the complaint shall be presented in a condition adequate to that at the moment of purchase Caution The vendor is not responsible for keeping individual settings or data saved in the subject of the complaint The customer is obliged to clarify the defect or how it is displayed and what claim he intends to register Processing the complaint The vendor shall provide free remedy depending on particular conditions or replace the subject of the complaint for a new product or settle the matter in another manner in compliance with the Civil Code and the Act on consumer s protection As of the moment the claim is registered by the customer and the subject of the complaint is taken over by the vendor the guarantee period stops running The guarantee period continues on the date of takeover of the repaired subject of the complaint or replaced faultless product by the customer or should it not be taken over on the date the customer is obliged to take over the repaired or replaced product In case the vendor replaces the subject of the complaint for a new product the original subject of the complaint becomes property of the vendor
23. dem with a PC After the service cable is connected to any of the three RS232 serial ports and the service SW runs on the connected PC it is possible to execute not only all the needed radio modem settings but service interventions in the radio data network as well KD 2 data cable 2 11 Service cable CDX 800 PC connection cable with DCR and GND signals connected at 100 Ohm It is made from normal data cable by adding service interconnection It is necessary to interconnect all eight signals between CDX 800 and PC See description of the RJ45 connector in chapter lt O oe E EL Ss S Z se aa E A dl RE RES Ed LL ae OE hs 7 z ae fe Service jumper SEPRO on data cable 27 CDX 800 DESCRIPTION 2 Power supply connector for a power supply cable Three RJ45 connectors to complete the data cable by snapping to the cable Compliance certificate Complaint procedure Warranty 2 akWND 1 2 28 12 Accessories 13 Additional accessories Supply adapter FO a go a we Nm oe a aoe we i Vie oe LN SIE Antenna GP 868 9 CDX 800 DESCRIPTION 3 PORT2 modules e Expansion port RS232 e Expansion port RS485 RS422 e Expansion port M BUS e Expansion port CNT 4 ClO modules e ClO ReO 2 expansion module with relay output e CIO Opl 2 expansion module with binary input e CIO Anl 2 expansion module with analogy input 5 Cables e KD 5
24. ector 4 12V Output 12V for supply of other circuits connected Output directly to modem supply 5 GND Signal and supply ground 6 O2 Input Output analogue or binary input or binary Input Output output open collector 7 I O 1 Input Output analogue or binary input or binary Input Output output open collector 8 Service For servicing purposes only Input Output Circuit example of the meter with modem CDX 800 Cable KD 51 AC DC 330V CIO 2 Opl Modem CDX 800 binary input 4 climp CIO 2 Anl resistor 4 analogy metering Cable KD 51 Switching contact Break contact 20 CDX 800 DESCRIPTION 2 6 7 Power supply connector PWR Panel socket RJ12 No ma Desctpton direction 1 UN Positive pole of supply voltage 10 30 V 2 PWRSV Open collector output Power Save for controlling of Output supply voltage of the whole radio modem see chapter about CIO INAC Input power failure supervision Analogue input 0 16V Input UN Positive pole of supply voltage 10 30 V GND Negative pole of supply voltage GND Negative pole of supply voltage Sa Ro On the power supply connector it is possible to use the signal INAC NAP230 for present AC voltage monitoring for power supply it can be functional only in case of supply ac cumulator backup O Beware on INAC NAP230 input it isn t possible connect link voltage 230 V direct EC Circuit example DC supply Pin 1 12V Pin 2
25. ed to use over voltage protection on CDX 800 modem side 16 CDX 800 DESCRIPTION 2 6 4 Connection of PORT2 connectors M BUS Panel socket RJ45 Data flow ae SGND Signal and supply ground SGND Signal and supply ground 3 TxRx M BUS B Input Output 4 TxRx M BUS A Input Output 5 TxRx M BUS B Input Output 6 TxRx M BUS A Input Output 7 12V EXT External power supply 10 8 15 6V 8 12V EXT External power supply 10 8 15 6V 4 ATTENTION External supply is for converter M BUS The converter must have external power supply because of galvanic separated Circuit example of the meter with modem CDX 800 with data length less then 10 m Pin 1 SGDN Pin 2 SGND Pin 3 MBUS Pin 4 M BUS Modem CDX 800 Pin 5 M BUS Pin 6 M BUS Pin 7 12V EXT Pin 8 12V EXT 17 amp 1X 2X 1Y 2Y OVPM 21 CDX 800 DESCRIPTION Pin 1 SGND Pin 2 SGND Pin 3 M BUS Pin 4 M BUS Pin 5 M BUS Pin 6 M BUS Pin 7 12V EXT Pin 8 12V EXT Modem CDX 800 M BUS data cable more then 10m it is need to use over voltage protection on CDX 800 modem side 18 CDX 800 DESCRIPTION 2 6 5 Connection of PORT2 connectors CNT Panel socket RJ45 me a a DO 1 BINO CNTO Binary
26. eeesaeaneneneeseneeenenenenenenenes 8 2D MOGULS state Indication scams scottscntveesa abro rao aaa das Nado aaea aaa cus RS Saddi 9 2 6 User interfaces CONMGCIOIS ssa tciicececeiesdantnientecerenvas sinwoseatesnxnideesiespiedumneas akarata Enoia ieta 9 26 1 PORTT and POR TZ connectors RS2B2 quepasispasasiasns de dhdass rss dita ga da Susa nda doadas nadas sansnado 11 2 6 2 Connection of PORT1 connector RS485 a 12 2 6 3 Connection of PORT2 connectors RS485 13 Connection of PORT2 connectors RS422 rrenan 15 2 6 4 Connection of PORT2 connectors M BUS ccesssceeeeesseceeeeeeeeeeeeeesseneeeeesseaeaeeeeees 17 2 6 5 Connection of PORT2 connectors ONT sscctscsccsesscutetarvecntenateaebempenrsescersdeetonetiaenmeaeneisge 19 2 6 6 Connection of TAD COMME GION sa ccccnsecrccnccacactavsaden neceqaitaedeamnd saeriemaisacereneathieaerenneawaaces 20 2 6 7 Power supply connector PIVA vccdetcasatsdtactcnceactaceadsnetdtnminentavectaddseeiehtieatugiarneheesientas 21 2 7 Antenna CONNCC NOI eas cacdesstctoricde cs saeaastesenteiedcaaededeiadcaseecccns saat suceeexeesan cas tacdoctdemmscaeutenvedeatete 23 2 O OWE SUPPLY iissa aaia a AEE EE Da A A AAE AE aT AA E ENa 23 2 9 Ports technical specifications sennnonnrrrrrnrrrrrrrrnnnneerrrrnnnnnnnssustteenanaessesererererrrenenenene 24 2 10 CDX 21018 Foo gy fs 0 2 0 g Paneer AEDES SEG a er SD 27 reli RS 21g eS cable
27. failure voltage of backup power source and temperature inside the CDX 800 module to its memory Configuration of the CDX 800 module is stored in the FLASH EEPROM memory The RADWIN service software has been designed for setting of the CDX 800 modem configuration The description of program RADWIN is in reference 3 2 4 3 Inputs and outputs for telemetry Apart from serial data interfaces there is CIO interface established in the module These are 5 signals to be used as analogue or binary inputs or binary outputs with an open collector The input can be analogue O 5 V or digital with control level adjustment The output is an open collector able to switch up to 500 mA Reading and control of I O signals is possible from the remote CDX 800 module or any serial user interface Two CDX 800 modules can CDX 800 DESCRIPTION make up simple technology control where changes on input signals of one module can control remote outputs of the other module and vice versa Interface between I O connector and technology is supplied for general use providing voltage and current inputs of adjustable ranges inputs for resistance measuring thermometers and the like optically separated binary inputs and relay outputs With the equipment you may establish simple telemetry at low cost without the use of industrial control automatic Inputs and outputs for telemetry 2 4 4 PORT1 interface PORT1 interface in the CDX 800 modem is software configurable
28. ge of up to 350 V It includes a bipolar opto element that enables processing of both input signal polarities For AC signal it includes integration circuit that provides for direct processing of 50 Hz signal Output logical value of the measured signal is LED signalled on the front panel Input circuits are protected against short time over voltage by suppressors and against the long time one by a reverse fuse Insulation capacity of the galvanic part is 5000 V Input DC voltage 3 to 30 V Input AC voltage 3 to 30 V rms Input AC voltage high voltage input 150 to 350 V A single relay output It includes a relay with a single changeover contact The changeover contact terminal is separate common contact is doubled marked as C The LED signals the presence of the governing signal of the relay Insulation capacity of the galvanic part is 5000 V Maximum constant voltage 400 V rms Maximum constant current 5 A rms 5 1 5 2 5 3 REFERENCE AND LINKS Reference 1 Conel s r o Application CGU Server 2004 2 Conel s r o ARNEP protocol description 2008 3 Conel s r o RADWIN Program for control AGNES 2008 4 Conel s r o CIO 2 User s guide 2008 Links to related products of the manufacturer For related and referenced products and material see the Conel website www conel cz Systems AGNES a comprehensive communication system made by Conel Protocols AGNEP Advanced GPRS Network Protocol Program R
29. ithin the O to 5 V range and at the same time protect the inputs from interference and over voltage Similarly serial electric circuits should be mounted to control power parts of the user device as the transistor with open collector is able to switch current up to 500 mA and voltage up to the value of CDX 800 supply voltage Supplementary ClO modules are designed for practical I O signal use establishing an interface between the user device and I O signals Name tye description e CIOANI2 Analogue Analogue differential input for small voltage current and resistance input measuring It includes differential amplifier with adjustable power 1 to 10000 Precision source of current ranging from 0 1 to 3 mA can be used to measure resistance Configuration of the input signals amplification and current source is carried out through resistance net Presence of the input signal relevant to A D converter working range is signalled by LED on the front panel Input circuits are protected against short time over voltage by suppressors and against the long time one by a reverse fuse Ranges of the measured values U 1V U 2V U 5V U 10V U 20V 5mA 10mA 20mA Pt100 100 C Pt100 200 C Pt100 500 C Resistance 100 to 50000 Ohm METRA transmitter 38 CDX 800 DESCRIPTION CIO OPI 2 CIO REO 2 39 Binary input Binary output One galvanic separate digital input for AC DC signals up to 30 V on terminals for high volta
30. makes for the basis of CDX 800 control microprocessor Software is based on real time operating system that processes simultaneous tasks Thus parallel operation of all external interfaces of the communication module is maintained The microprocessor is connected through the synchronous serial interface to the radio component and controls the communication via the radio channel Towards a user it connected on serial interfaces typically RS232 and direct I O signal processing circuits The microprocessor enables connection of up to two user devices through two serial interfaces The ports are linked to RJ45 connectors marked PORT1 PORT2 All user interface signals are protected against over voltage on the data cable Device with different communication protocol can be connected to each interface The microprocessor may work as a protocol converter between separate serial user interfaces The wide scale of CDX 800 module features can be configured through any RS232 serial user interface using service software In case other than RS232 interface device needs to be connected e g RS485 422 it is possible to connect level converter to the serial port according to particular application The microprocessor can control such external converter The microprocessor further manages numerous functions of servicing diagnostic and installation purposes The computer saves various information such as GPRS data communication statistics ports activity power
31. monstrable cost of expert assessment The guarantee does not cover defects due to 1 Mechanical damage fall and the like 2 Use of inadequate or not recommended sources and other accessories 3 Connection of the product with non standard accessories 4 Installation or use of the product conflicting with the Manual or use for other purposes than usual for this type 5 Improper manipulation or an intervention of unauthorised person or other service than authorised by the manufacturer 6 Effects of natural forces flood fire etc or other local phenomena storm mains over voltage and the like 7 Storage under unauthorised temperatures 8 Operation in a chemically aggressive environment Other conditions The fact the subject of the complaint does not conform to parameters set for other similar product types shall not be considered a fault To assess whether it is a case of covered fault the parameters stated in the technical documentation for the product are decisive The guarantee expires in any case of changes to the subject of the complaint or damaged or otherwise unreadable serial number 42 WARRANTY Seal of the vendor 43 WARRANTY Date of complaint registration Complaint protocol number Date of reception of the device in YES NO Seal of the repair shop 44
32. on port RS485 RS422 XC 485 422 Internal External XC MBUS External 10 8 15 6 V or internal Expansion port M BUS Expansion port CNT 2 18 CDX 800 production labels CDX 800 Oc CDX 800 Conel s r o DC 10 30V 3W RPSMA 869MHz http www conel cz XC CNT Internal from module CDX 800 ce Se DM 2 19 Production labels of interfaces PORT2 XC ra 232 PES pes m XC 485 422 Comer m Nal E xpansion port RS485 R Expansion port RS232 ene ge n description Pin description E _ pa 8 n 23718 mI Ground Pin E Pin3 B RXD Pin 4 OSR Data Set Ready J 22646 Ping A RXD PinS GNO GROUND Pins Bt TXD ing Exo Receive Data mat AC TOC Pin 8 TXO Transmit ata EO external 42 V Pin 8 www conel oz 2009 XC MBUS Sm XC CNT Sie Expansion port MBUS Rev 8 Expansion port CNT ver 4i www conel cz in i ion rae RT Pin 2 cNT2 Counter input 2 Pin 3 BIN1 Binary input 1 sie NNA Pin 5 GND GROUND fy 40 V Pin 6 jour Binary output Pin 7 an1 Analog input 1 C Bd Pin 8 AN2 Analog input2 C R www conel cz 2007 roa feewaf ous 35 CDX 800 DESCRIPTION 3 CIO analogue inputs and binary outputs 3 1 Introduction CDX 800 is equipped with a user interface I O for scanning and processing of analogue signals and for controlling setting of binary signals
33. perature tea 37 3 3 3 Measuring DSR output signal l6VEl asasecensmanaa costrensincelincasiasan iene suidnaaas subia irdnera sainde 37 3 4 Output signal for disconnection of supply voltage ia 38 3 5 Technical paraMetefS iioii inie aariak a NEKANE KAA ENKE add 38 3 6 Connecting CIO signals to user device sessssseesseesrreerenretssrtrnrerrnntesttrrnsstrnnnnrssrrrnnnn nnne 38 4 REFEREN E aac ossos Fone tiarra ccrateceud anaana na iadaaa adaa idari anda cad ds dass soda unida 40 5 LINKS TO RELATED PRODUCTS OF THE MANUFACTURER 40 5 Toy SIGNS O RR PNM e DR CRE PR RG q DR RR BRR Re DR ERR RE NR 40 5 2 PrOtOCOlS RR RR RR RREO ERG RR RAR RR RR O RR Erni 40 5 3 Progr 9 ARARUNA ee RR DRE 40 6 PRODUCT DISPOSAL INFORMATIONG eccccessseeeeeseeeeeeeeseseeeeeeseeeeeneeeeeeeeeeeeeseennees 40 T GOMPLAINTS PROCEDURE ii ciesccccvecessncccusandesecdenccactexenseccecseananccextaacbivedentcewsieentnccessseceannane 41 8 WARRANT iy Qanreeer ee i er ROO RACER EO MORA OR ADS eee eran ere 43 Symbols used Danger important notice which may have an influence on the user s safety or the function of the device Attention notice on possible problems which can arise to in specific cases Information notice information which contains useful advices or special interest Conel s r o Sokolska 71 562 04 Usti nad Orlici Czech Republic Issue in CZ 25 06
34. put and output connections for data collection and technology control Modem state Port ClO RX1 RX2 R O O O O O O 9O TXI TX2 T C CDX 800 DESCRIPTION 2 6 1 PORT1 and PORT2 connectors RS232 The RJ45 panel socket RS232 DCE Data Communication Equipment Signal Data flow HE RTS Request To Send Input CTS Clear To Send Output 3 DTR Data Terminal Ready Input 4 DSR Data Set Ready connected to 4 V through 330 Output Ohm 5 GND GROUND signal ground 6 RXD Receive Data Output 7 CD Carrier Detect Output 8 TXD Transmit Data Input lt b Circuit example of the meter with modem CDX 800 Pin 1 RTS Pin2 CTS Pin 3 DTR Pin 4 DSR Modem CDX 800 Pin 5 GND Pin 6 RXD Pin 7 CD Pin 8 TXD Circuit example of the PC with modem CDX 800 Cable KD 2 Modem CDX 800 e the KD2 cable is connected to serial PC port example COM1 11 CDX 800 DESCRIPTION a Circuit example of the RS232 equipment with modem CDX 800 O Cable KD 2 Modem CDX 800 2 6 2 Connection of PORT1 connector RS485 Panel socket RJ45 Description Data flow E direction TxRx RS485 B Input Output TxRx RS485 A Input Output ONOoOahWD 1 amp Circuit example of the meter with modem CDX 800 with data length less then 10 m Pin 1 Pin 2 Pin 3 RS485 Pin 4 Pin 5 Pin 6 RS485 Pin 7
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