Table of contents Important safety instructions Use of the equipment Introduction Operating Receiver RB3 R916 Transmitter RB3 T916 Assembly and installation Installation of the equipment Connecting the receiver to the control panel Adjustment of the receiver / Operating modes ATEST signal Connecting the safety edge to the transmitter Programming Mode 1: Safety edge connected to IN1 activates R1...
Important safety instructions Disconnect the power supply whenever you proceed to the installation or repair of the equipment. In compliance with the European Low Voltage Directive, we inform you of the following requirements: •When the devices remain permanently connected, an easily accessible connecting device must be incorporated into the wiring.
Introduction Operating The RadioBand system is designed for Domestic, Commercial and Industrial door and gate applications where a safety edge is used. The system provides a wireless system replacing spiral cables or energy chain systems to provide the safety signal to the door or gate control panel.
Connecting the receiver to the control panel Connecting the safety outputs to control panel. Example: connection to control panel with safety contact / STOP input Example: connection to control panel with input for 8k2 / 10k safety edge The equipment can be connected to the control panel with input for 8k2 / 10k safety edge or directly into a safety input nor- mally closed contact as if it were a photocell or stop signal.
Adjustment of the receiver / Operating modes ↑ Any change in the configuration of the switches needs a reprogramming of the system (see "Programming"). ↓ Autocheck period ↑ The system performs a complete test of the equipment, including radio communication. ↓...
ATEST signal polarity (depends on the control panel) ATEST negative: ATEST signal is a fixed 12 or 24V signal that the control panel sets to 0V to ↑ Negative make the system check. ATEST positive: ATEST signal is disconnected and when the control panel makes a testing ↓...
Connecting the safety edge to the transmitter Connection examples IMPORTANT: The position of the selector must cor- respond to the type of safety edge con- nected. IN 2 only supports 8k2 resistive safety devices and mechanical / contact devices. The selector 3 is not applic- able if nothing is connected to IN2.
Programming •Working with one safety edge, it must be connected to IN1 of the transmitter. IN2 does not work. This band can work on R1 (mode 1) or R2 (mode 2) or simultaneously on the 2 relays (mode 3). •Working with two safety edges (mode 4), the safety edge connected to IN1 act on R1 and the safety edge IN2 con- nected on R2.
There are four programming modes, depending on the inputs you wish to use of the transmitter and the outputs required to activate on the receiver. Mode 1 IN1 → R1: Safety edge in IN1 on transmitter activates R1 on receiver 2 IN1 →...
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Programming sequence: •Press PROG button on the receiver (1) until R2 LED lights (2). •Press PROG button on the transmitter (3). •A beep will be heard on the receiver indicating the transmitter is properly programmed (4). •To exit programming mode, wait for 20 seconds or press PROG button on the receiver. Two beeps will be heard. jcmtechnologies...
Mode 3: Safety edge connected to IN1 activates R1 and R2 Safety edge connected in IN1 will activate R1 and R2. Employed receiver memory = 2 transmitters Programming sequence: •Press PROG button on the receiver (1) until R1 LED and R2 LED light (2). •Press PROG button on the transmitter (3).
Mode 4: Safety edge connected to IN1 activates R1 and safety edge con- nected to IN2 activates R2 Safety edge connected in IN1 will activate R1 and IN2 will activate R2. Employed receiver memory = 2 transmitters Programming sequence: •Press PROG button on the receiver (1) until R1 LED and R2 LED flash (2). •Press PROG button on the transmitter (3).
Checking and maintenance Does the equipment work properly? Once the safety edge is wired and programmed into the receiver, R1 and / or R2 (according to programming mode) is at standby state (off), also IN1 and IN2 at the transmitter. If the safety edge has been programmed in R1 and R1 LED is at ON, check that the safety edge is not pushed/detecting (IN1 LED at ON on the transmitter) or it is not properly configured (IN1 LED flashing on the transmitter).
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Low signal coverage increases battery consumption. To exit Check mode, press the CHECK button or wait 5 minutes. On exiting check mode, seven consecutive beeps will be heard and the indicator light will flash continuously in case of failure. It is recommended to perform a CHECK function at the end of the installation process to ensure a proper system operation. jcmtechnologies...
Batteries Storage •Store the lithium cells in a cool, dry and ventilated area far from fires and heating sources. •It is recommended the use of a non-combustible structure and keep adequate clearance between walls and batteries. •The maximum temperature suggested for the storage is +30°C. •Higher temperatures are allowed but cause an increase in the self discharge of the battery and speed up the process of passivation.
Technical data Glands must be installed to ensure IP65. Replace glands for caps on the cable entries that are not used. Battery life time: 2 years approximately. With standard low power opto safety edges, the life time will depend on the working mode and the number of man- euvres per day.
RB3 R916 RB3 T916 Frequency Multifrequency system 916MHz / 433MHz auto-adjustable 6 transmitters (3 on relay 1, 3 on Memory relay 2) Operating consumption Max 255mA 12mA Radiated power < 25mW Minimum / Maximum range (in 50 m open field) Reaction time 35ms (typical)
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