Conel CGK-5x Manuel utilisateur
CGK-5x
USER'S GUIDE
SYMBOLS USED
Symbols used
Danger – important notice, which may have an influence on the user’s safety or the function of
the evice.
Attention – notice on possible problems, which can arise in specific cases.
Information notice – information, which contains useful a vices or interest notice.
Conel s.r.o., Sokolska 71, 562 04 Usti na Orlici, Czech Republic
Issue in CZ, 16/04/13
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CONTENTS
Contents
1. Safety instructions 4
2. Description of the CGK-5x 5
2.1. General escription 5
2.2. Examples of using 5
2.3. Description of the in ivi ual parts of the CGK-5x 5
2.3.1 Programmable GSM-GPRS mo ule 5
2.3.2 Control microcontroller 5
2.3.3 Inputs an outputs 5
2.4. Technical parameters 6
2.5. Mo ule state in ication 7
2.6. User interfaces (connectors) 8
2.6.1 Connection of the COM connector 9
2.6.2 Connection of the IO connector 10
2.6.3 Connection of the supply PWR connector 12
2.6.4 Connection of the USB connector 12
2.7. Antenna connection 13
2.8. Power supply 13
2.9. Stan ar accessories 13
2.10. Mechanical external imensions an mounting recommen ations 14
2.11. Pro uction label 16
3. CGK-5x possibilities – firmware versions 17
3.1. GSM key application 17
3.2. AGNES application 17
3.3. Own JAVA application 17
3.4. Terminal 17
4. Reference 18
5. Links to relate pro ucts of the manufacturer 18
6. Software 18
7. Pro uct isposal informations 18
8. Complaints proce ure 19
9. Warranty 21
SAFETY INSTRUCTIONS
1. Safety instructions
Please, observe the following instructions:
1. The CGK-5x must be use in compliance with any an all applicable international
an national laws an in compliance with any special restrictions regulating the
utilization of the CGK-5x in prescribe applications an environments.
2. To prevent possible injury to health an amage to appliances an to ensure that all
the relevant provisions have been complie with, use only the original accessories
of the Conel company. Unauthorise mo ifications or utilization of accessories that
have not been approve may result in amage to the CGK-5x an in a breach of
applicable regulations. Unauthorize mo ifications or utilization of accessories that
have not been approve may result in the termination of the vali ity of the guarantee,
which, however, oes not affect your legal rights.
3. The CGK-5x must not be opene . Only the replacement of the SIM car is permitte .
4. Caution! The SIM car coul be swallowe by small chil ren.
5. Voltage at the fee connector of the CGK-5x must not be excee e .
6. Do not expose the CGK-5x evice to extreme ambient con itions. Protect this evice
against ust, moisture an high temperature.
7. It is recommen e that the CGK-5x shoul not be use at petrol stations. We remin
the users of the uty to observe the restrictions concerning the utilization of ra io
evices at petrol stations, in chemical plants, or in the course of blasting works in which
explosives are use .
8. When using the CGK-5x evice in close proximity of personal me ical evices, such as
car iac pacemakers or hearing ai s, you must procee with heightene caution.
9. If it is in the proximity of TV sets, ra io receivers an personal computers, the
telephone may cause interference.
10. It is recommen e that you shoul create an appropriate copy or backup of all
the important settings that are store in the memory of the evice.
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CGK-5x DESCRIPTION
2. Description of the CGK-5x
2.1. General description
The CGK-5x is application which contain programmable GSM/GPRS mo ule Cinterion.
The CGK-5x mo ule is fitte with a Java-base control software which is use to ata or
RS232 serial port maintaining, control two output ports with relays an four optically separate
input ports. To this evice can be connecte 12 V lea backup battery.
Configuration of the CGK-5x mo ule can be carrie out through the RS-232 serial
interface by means of the GSM key ADMIN [1] or RADWIN [2] service program.
2.2. Examples of using
• GSM key – gates, motors or barrier controlling by mobile
• Alarms SMS etector from connecte inputs (sensors)
• Technology remote control
• GPRS ata transmition from in ustry, measurements an security evices
• GSM/GPRS terminal
2.3. escription of the individual parts of the CGK-5x
2.3.1 Programmable GSM-GPRS module
Wireless communication in the GSM network is carrie out by means of the OEM
mo ule TC65i-X Java of the Cinterion company. It has been incorporate irectly in the
printe -circuit boar . The push-out hol er of the SIM car rea er is accessible from the front
panel. The antenna connector is accessible from the rear panel. The TC65i-X mo ule is
suitable for communication in both GSM ban s 850/900/1800/1900 MHz.
The TC65i-X mo ule is fitte with two serial interfaces, ASC0 an ASC1. The ASC1
interface has been brought out to the RJ45 connector, which is labelle COM. All the RS232
signals are protecte against the over voltage coming through the ata cable.
The mo ule TC65i-X contain interface USB2.0 full spee too, which is take out on USB
connector of type 'B' un er marking USB. For this interface it is elivere river. The USB
interface is not exploite by Java application.
2.3.2 Control microcontroller
The CGK-5x communication mo ule has been fitte with an 16-bit microcontroller that
serves for starting an monitoring the TC65i-X mo ule operation. The operating microcontroller
is also use for monitoring the state of the supply voltage (see section 2.8 Power supply).
2.3.3 Inputs and outputs
Besi es the service ata an USB interface, an IO interface has been create
in the CGK-5x mo ule. This is a case of two pairs of signals, where two pairs represent the
relay outputs (O1A+O1B an O2A+O2B), an four represent the separate inputs (I1, I2, I3,
I4) with common groun . The input I1 is possible use as counter input for counting with max.
frequency 100 Hz an pulse ratio 10 to 50 %. Inputs an output circuits have been esigne
for voltage up to 30 V.
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CGK-5x DESCRIPTION
Inputs Ix can use as counter input to counts with maximal frequency 500 Hz an with
uty factor 1:1 for correct pulse recognise. Inputs an outputs circuits are concepts for voltage
to 30 V.
Logical levels limits
LOG0 Vmin 0 V
LOG0 Vmax 2 V
LOG1 Vmin 4,5 V
LOG1 Vmax 30 V
Relay outputs Ox are acceptable only to static switching, maximally it can use to pulse
generates with non guarantee length. For accurate pulses generate this output isn't
acceptable. Output has parameters Imax = 0,5 A, Vmax = 30 V AC/DC a fmax = frequency of relay
switching it is impossible accurate guarantees, it is consi erably epen s on software activity.
2.4. Technical parameters
GSM module Cinterion TC65i-X Java
Complying with the following stan ar s: EN 301 511:v9.0.2
EN 55022:1998, A1:2000, A2:2003, Cor:2003
EN ISO/IEC 17025
EN 60 950-1:2001
Frequency ban s EGSM900, EGSM 850 a GSM1800,
GSM1900
Transmission power Class 4 (2W) pro EGSM900
Class 1 (1W) pro GSM1800
Temperature range Function
Storage
-20 oC to +55 oC
-40 oC to +85 oC
Supply voltage 10,8 to 15,6 V DC
21,7 to 30 V DC
Consumption Reception
Sen ing
250 mW
3 W
Dimensions 30x90x102 mm
Weight 150 g
Fixation Din ribbon 35 mm
Antenna connector FME – 50 Ohm
User interface COM
USB2.0
O1, O2
I1, I2, I3, I4
RS232 – connector RJ45 (150 b/s - 115 200
b/s)
USB – connector of type B
2 relay outputs
4 binary inputs
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CGK-5x DESCRIPTION
2.5. Module state indication
The front panel of the mo ule is fitte with six in icator lamps (LED) to provi e
information about the state of the mo ule.
LED Description
P
Permanently off .................. no power supply
Permanently on (> 1 min)... faulty function
Slowly blinking (9:1)............ the mo ule is not registere in the GSM infrastructure
Slowly blinking (1:9)............ true function
Fast blinking ....................... false PIN
GPermanently on …………... faulty function
Slightly flashing through ..... sen ing on the high frequency channel
O1 Light is off…………....the O1A an O1B contacts are isconnect
Light is on………..…. the O1A an O1B contacts are connect
O2 Light is off…………....the O2A an O2B contacts are isconnect
Light is on………..…. the O2A an O2B contacts are connect
I1 Light is off…………... voltage between the I1 an GND contacts is lower than 2 V
Light is on…………....voltage between the I1 an GND contacts is higher than 3 V
I2 Light is off…………... voltage between the I2 an GND contacts is lower than 2 V
Light is on…………....voltage between the I2 an GND contacts is higher than 3 V
I3 Light is off…………... voltage between the I3 an GND contacts is lower than 2 V
Light is on……………voltage between the I3 an GND contacts is higher than 3 V
I4 Light is off…………... voltage between the I4 an GND contacts is lower than 2 V
Light is on…………....voltage between the I4 an GND contacts is higher than 3 V
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CGK-5x DESCRIPTION
2.6. User interfaces (connectors)
At the rear panel of the CGK-5x there are situate two MRT9 connectors (12-pins IO,
2-pins PWR) an one connector FME (ANT). The IO-labelle connector has two relay outputs
an four inputs. The PWR-labelle connector is use for connecting the power supply a apter
an for monitoring the state of the main power supply. The antenna is to be connecte into the
ANT-labelle connector.
At the front panel of the mo ule there is one RJ45 connector (COM) which is use for
configuring the CGK-5x by means of the GSM key ADMIN [1] or RADWIN [2] service program
a connector USB-B (USB).
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CGK-5x DESCRIPTION
2.6.1 Connection of the COM connector
The RJ45 panel socket. (RS232 – DCE – Data Communication Equipment)
Pin
no.
Signal
identification Description Data flow
direction
1 RTS Request To Sen Input
2 CTS Clear To Sen Output
3 DTR Data Terminal Rea y Input
4 DSR Data Set Rea y Output
5 GND GROUND – signal groun
6 RXD Receive Data Output
7 CD Carrier Detect Output
8 TXD Transmit Data Input
Example of the CGK-5x connection to PC:
●cable KD2 is connecte to PC serial port (example COM1)
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GSM key CGK-5x
COM
USB
Cable KD-2
CGK-5x DESCRIPTION
2.6.2 Connection of the IO connector
Connector MRT9 P3,5/12
Pin
no.
Signal
identification Description
1 GND Power supply groun of backup battery
2 VBACK Connection for the 12V lea backup battery (see 2.8 Power supply)
3 O2B Relay output
4 O2A Relay output
5 O1B Relay output
6 O1A Relay output
7 GND Signal an power supply groun
8 IN4 Input (can to use as countig input)
9 IN3 Input
10 IN2 Input
11 IN1 Input
12 VPER Output for fee ing other circuits (connecte irectly to the fee ing
system of the mo em)
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Table des matières
