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CONEL CDA 70 [6/43] Cda70 modem description
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CDA70 MODEM DESCRIPTION
6
2.3.2. Modem component
The modem part converts digital bit flow from the microcomputer to the FFSK or GMSK
analogue modulation, which is brought to the transmitter of the radio data module. And vice
versa, it converts analogue signal from the receiver to digital bit flow to the microcomputer.
The modem part is designed on the basis of a CML integrated circuit.
2.3.3.
Microcomputer
The base of the radio data modem controlling microcomputer is represented by a 32-bit
processor with 1 MB of RAM, 512 kB of FLASH ROM and real time clock circuit with a back-up
power supply.
On one side, the microcomputer is connected to the radio data module via the modem
component; on the side of user interface, it is connected to circuits generating signals within
the RS232, RS485, M-BUS or Ethernet standard levels. The microcomputer provides for
connection of up to four user interfaces. All ports are terminated by RJ45 connectors marked
PORT1, PORT2, PORT3 and ETH. All RS232 ports are protected against overvoltage
incoming via data cable. If a device with RS485 interface is to be connected, a level converter
suitable for the appropriate application can be connected to the serial port. Different converters
will be used in case of connection on a short distance or in case galvanic separation is
necessary. The modem's microcomputer can be set for necessary control of the converter
(RS485). To each interface, a device with different communication protocol can be connected -
i.e. the microcomputer can also work as a converter of protocols between individual serial
ports. The wide range of radio modem functions can be set via any of RS232 communication
ports.
In addition, the microprocessor manages numerous functions of servicing
and installation purposes. Apart from other important information, the microcomputer memory
records data transmission statistics, strength of signals from individual radio modems,
statistics of communication on individual serial ports, power failures, voltage of backup power
source and temperature inside the radio data modem. See Service manual for description
of service functions.
Configuration of the CDA70 radio data modem is stored in the permanent FLASH ROM
memory. See the Configuration of radio modem chapter for description of its settings.
2.3.4.
Inputs and outputs for telemetry
As an option, customers may wish to install inputs and outputs for data collection
and controlling of technological processes in the radio modem. These signals are then led
to an RJ45 connector marked I/O. Five signals are led to this connector. Each of them can be
used either as input or output. Input is analogue 0 to 5V or digital with adjustable threshold.
The output is an open collector able to switch up to 500 mA. Reading and control of I/O signals
is possible both via the radio data network and from any serial RS232 interface. Two radio
data modems can make up a simple technology control, where changes on one modem input
signals can control remote output signals of the other modem and vice versa.
For multi-purpose usage, we supply an interface between the I/O connector
and the technology providing configurable voltage and current inputs, inputs for resistance
measurement (thermometers, barometers etc.), binary inputs with optical isolation and relay
Содержание
- Declared system iso 9001 2009 1
- Contents 2
- Contents 3
- Symbols used 3
- Safety instructions 4
- Cda70 modem description 5
- Description of individual components 5
- Description of the cda70 radio modem 5
- Examples of possible applications 5
- General 5
- Radio component 5
- Cda70 modem description 6
- Inputs and outputs for telemetry 6
- Microcomputer 6
- Modem component 6
- Cda70 modem description 7
- User interface protocols 7
- Cda70 modem description 8
- Technical parameters 8
- Cda70 modem description 9
- Radio modem status indication 9
- User interfaces connectors 9
- Cda70 modem description 10
- Connection of port1 port2 and port3 connectors rs232 10
- Modem cda7 10
- Cda70 modem description 11
- Connection of port1 connectors m bus 11
- Modem cda7 11
- The converter must have external power supply because of galvanic separated 11
- Cda70 modem description 12
- Connection of port2 connectors rs485g 12
- External or internal power supply of expansion port m bus it is can evoke by wiring of the jumper for details see chapter 2 12
- M bus data cable more than 10 m it is need to use over voltage protection on cda 70 modem side 12
- The converter must have external power supply because of galvanic separated 12
- At rs485 data cable more than 10 m it is need to use over voltage protection on cda 70 modem side external or internal power supply of expansion port rs485 it is can evoke by wiring of the jumpers for details see chapter 2 13
- Cda70 modem description 13
- Circuit example of the meter with modem cda70 with data length less than 10 m 13
- Circuit example of the meter with modem cda70 with data length more than 10 m 13
- Modem cda70 13
- Cda70 modem description 14
- Connection of eth connectors ethernet 14
- Connection of i o connector 14
- To equipment with etherne 14
- Cda70 modem description 16
- Power supply connector pwdd 16
- Cda70 modem description 17
- Antenna connection 18
- Cda70 modem description 18
- Power supply 18
- Cda70 modem description 19
- Ports technical specifications 19
- Cda70 modem description 20
- Cda70 modem description 21
- Cda70 modem description 22
- Configuration of radio modem 22
- Service cable 22
- Accessories 23
- Additional accessories 23
- Cda70 modem description 23
- Cda70 modem description 24
- Mechanical drawing of cda70 and recommendations for montage 24
- Cda70 modem description 25
- Cda70 modem description 26
- Cda70 modem description 27
- Product marking 27
- Cda70 modem description 30
- Product label 30
- Basic parameters description 31
- Cda70 modem description 31
- Cda70 modem description 32
- Cda70 modem description 33
- Cda70 modem description 34
- Analogue input 35
- Binary output 35
- Cio analogue inputs and binary outputs 35
- Cio description 35
- Description of multi purpose signal evaluation and reception 35
- I o signals inside cda70 35
- Introduction 35
- Cio description 36
- I o signals parameters 36
- Measuring internal cda70 temperature 36
- Measuring other cda70 signals 36
- Measuring the supply voltage 36
- Cio description 37
- Connecting cio signals to user device 37
- Measuring dsr output signal level 37
- Output signal for disconnection of supply voltage 37
- Technical parameters 37
- Cio description 38
- Links to related products of the manufacturer 39
- Product disposal informations 39
- Products 39
- Protocols 39
- Reference 39
- Reference and links 39
- Software 39
- Systems 39
- Complaints procedure 40
- Complaints procedure 41
- Warranty 42
- Warranty 43
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