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TRANSMITTER
TRANSMITTER
RECEIVER
3
6
4
6
5
5
7
2
3
1- Terminals
2- Programming LED
3- Push button
1
4- DIP - Switch
5- Relays LED
6- Buzzer
1- Terminals
7- Resistor output bridge selectors
2- Battery 1
3- Battery 2
4- Programming LED
5- DIP - Switch
6- Push button
TECHNICAL SPECIFICATIONS
Receiver supply voltage
12/24 AC/DC
Transmitter supply voltage
2x AA lithium battery 3.6V
Transmitter inputs
Selectable by dip-switch and prog.
1 Resistive / contact /optical
1 Resistive / contact
Transmitter Inhibition input type
Power free contact
Receiver memory
7 transmitters per channel
Receiver Output
2 Relay, micro disconnection 1B
or power free contact
Receiver test inputs
2
Type
- 12/24V AC/DC , contact, open collect.
Receiver Power consumption
0.5 W - 12 V / 1,2 W - 24 V
Ball pressure test (IEC 695-10-2)
PCB (125ºC) WRAP (75ºC)
Pollution degree
2
Protection class (IEC 60529)
Ip55
Frequency Channels
868.95MHz & 869.85MHz
Range
100m
Working temperature
-20ºC to +55ºC
Software
Class A
Rated transient over voltage
330V
Transmitter power consumption
Transmitting 17mA / stand by 16uA
Machine Security Normative
954-1 Category 2
- Installation, startup, modification and retrofitting of the system may only be carried out by an electrician.
WARNING!!
- Switch off the operating voltage before working on the system.
- The control unit may only be used to protect against dangers at crushing and shearing points on automatic sliding gates (designated Use). Any other
use is prohibited.
Instruction Manual
GENERAL
Radio transmission system for resistive safety edges (8K2), contacts (0 Ohms) and optical safety edges (Low power).
The system consists of a transmitter unit and a receiver unit.
2
The system is fully compatible with the existing 1 channel wirelessband
4
Important:
- The system has no fuse protection. It is advisable to include a fuse protection of minimum 100mA and maximum 250mA into the external
Power.
START-UP
1
WirelessBand transmitter and receiver must be mounted on separate surfaces.
1.- Insert the enclosed batteries into the transmitter
2.- Connect receiver to supply voltage. (Note correct polarity for DC.)
3.- Check switch settings (See Table 1)
4.- Carry out programming steps.(See Code Memorization Process. Page 2) Transmitter and receiver are now matched to one another.
5.- If you are using an optical safety edge turn ON the option selector nº2 (See Table 1) and program the optical option (See below)
6.- Install transmitter on gate.
7.- Wire safety edge to transmitter (See Table 2).
8.- Install receiver at designated location.
9.- Wire supply voltage, test input and output to control unit (See Table 2).
10.- Switch on the power supply.
11.- Carry out test by activating the connected safety edge in different gate positions, particularly the open and closed positions.
12.- A minimum distance of 1m must be observed between the transmitter and receiver.
In2 LOW POWER OPTICAL SAFETY EDGE or RESISTIVE PROGRAMMING PROCESS
Before starting the procedure, please read all the steps carefully.
1.- Connect, the Low Power Optical Safety Edge, power supply into Vcc terminal.
2.- Connect the Optical output signal to terminals 4 and 5 ( See Table 1)
3.- During the first 10 sec. start up, the programming LED flashes 2 times indicating that Input 2 is configured as an optical safety edge. If the
Programming LED flashes 5 times indicates that Input 2 is configured as a
until the programing LED makes 1 flash indication the start-up exit.
4.- To configure Input 2 as low power optical safety edge or resistive input, press the programing button for 1,5s sec, during the first 10 secs before the
start-up flash exit. Programming LED flashes 5 time or 2 times depending on the previous configuration and then one LED flash indicates the start-up
exit.
5.- To check or change the configuration again, disconnect power suply and follow the steps 4 to 6.
6.- Now the In2 terminal has change the safety edge type configuration.
BATTERY LIFE
Battery life of nearly 10 years at -20ºC without optical safety edge, and is increased if the system works at higher temperatures. if you are using
optical safety edge it is approximately 2 years battery life. (In order to maintain the battery live is highly recommended to connect the
transmitter-receiver inhibition input - See INBIBITOR INPUT page 4)
( WIRELESS BAND 2.F)
resistive
safety edge. If you dont want to change the configuration, wait
RoHS
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