Astra-R Kit Wireless Alarm System Operation Manual This operation manual describes principles of functioning, proper use, maintenance and service for the wireless alarm system Astra- R Kit (Figure 1). The manufacturer reserves the right to make improvements in the design of the devices without prior notice. The alterations shall be included into a new edition of the Operation Manual. List of abbreviations used: WAS is a wireless alarm system Astra-R Kit; RVC is a wireless receiver Astra-RVC; TRC is a wireless transmitter Astra-TRC; IP is an indication panel Astra-931; CP is a Control Panel Astra-712 or similar one. 1 Function 1.1 Alarming System Organization of individual protection and protection of sites by transmitting alarm signals from registe wireless transmitters via radio and generating notifications through actuation of built-in relays, and indication of transmitter numbers on the display of indication panel Astra-931. 1.2 Remote Control of Electrically Operated Mechanisms Organization of control through actuation of built-in relays within preset time or by latching upon receipt of signals from registe transmitters. 2 Components 2.1 RVC TRC 2.1.1 RVC is a stationary device designed to: Figure 1 receive signals from wireless transmitters via radio, decode and identify the received signals, generate notifications by actuation of integrated relays, transmit numbers of transmitters to IP Astra-931 through serial interface. 2.1.2 RVC is able to register up to 25 TRCs, and it saves this information when power is off. 2.1.3 RVC is powe from an external stabilized power supply unit Astra-712/0 or a similar one. 2.2 TRC RVC 2.2.1 TRCs are small self-powe wireless transmitters designed to generate and transmit encoded signals upon pressing a button on the transmitter. 2.2.2 In order to avoid discharging of the battery TRC will stop transmitting in 10 s after the button is pressed, if the button is held down. 2.3 The manufacturer guarantees a minimum communication range of 150m between the receiver and the transmitter in line of sight in areas with dry ground, and in the absence of strong radio interference, and objects interfering with and reflecting radio waves. The communication range between the receiver and the transmitter can be cut down to 30 m inside concrete buildings and in presence of radio interference. 3 Specifications Operating frequency, МHz....from 433.82 to 434.02 Technical Parameters of RVC Power supply voltage, V... from 10 to 15 Current consumption, mа, max... 60 Maximum switching voltage of relay contacts with load current 1 А, V, max... 250 Technical readiness time, s, max... 10 Overall dimensions (without antenna), mm... 87 54 26.5 Weight (without antenna), kg, max... 0.056 Technical Parameters of TRC Power supply voltage provided by integrated battery CR 2430, V, max... 3 Output power, mw, max... 10 Current consumption: - in standby mode, µa, max... 5 - in radio transmission mode, mа, max... 25 Overall dimensions, mm... 56 40 12.5 Weight, kg, max... 0.04 Technical Parameters of IP Number of bits, max... 2 Character height, mm, max... 14 Power supply voltage, V... from 10 to 15 Current consumption, ма, max... 130 Technical readiness time, s, max... 5 Overall dimensions, mm... 80 50 25 Weight, kg, max... 0.05 Operating Conditions Temperature range for RVC, о С... from 0 up to +50 Temperature range for TRC, о С... from 0 up to +50 Temperature range for IP, о С... from -30 up to +50 Relative air humidity,....up to 95 at + 35 C without moisture condensation 4 Delivery Set Wireless transmitter Astra-TRC... 2 pcs. Wireless receiver Astra-RVC... 1 pcs. Antenna... 1 pcs. Screw 2.9 25... 2 pcs. Dowel 5 25... 2 pcs. Operation Manual... 1 copy. Notes 1 TRC is registe in RVC. 2 The indication panel Astra-931 shall be delive separately. 1
5 Structure 5.1 RVC The receiver is designed as a unit consisting of a base, removable cover and antenna. There is a printed circuit board with radio elements inside the unit (Figure 2). Figure 2 The printed circuit board contains a terminal block: OUT is an input/output of serial interface; ТМP is a pair of terminals connected to the button contacts which are closed if the front cover of the receiver is closed, and opened when the cover is opened; + 12V, GND are power supply terminals; NO is a terminal connected to a normally open relay contact; NC is a terminal connected to a normally closed relay contact; COM is a terminal connected to a common relay contact. The printed circuit board contains and indicators for RVC operability supervision and notification indicating. 5.2 TRC The wireless transmitter is designed as a key fob consisting of a front cover and a base (Figure 3). The front cover contains a button and a printed circuit board with radio elements. The printed circuit board contains an indicator controlling operation of the TRC. Figure 3 6 Information Capacity 6.1 RVC Green indicator: blinks 1 time per 4 s, if RVC functions properly; illuminates during registration of TRC into RVC memory; blinks 2 times per 1 s within 4 s indicating successful registration; blinks 2 times and switches to blinking 1 time per 4s indicating failed registration. Red indicator indicates status of relay contacts: illuminates when normally open (NO) contacts are closed. The interface line OUT transmits TRC numbers and information on discharged battery to IP Astra-931. 6.2 TRC Indicator: illuminates when the button is pressed indicating transmission of encoded signals; blinks when the button is pressed indicating discharged battery. 7 Operation Modes Operation modes for WAS shall be set up with jumpers and RVC button. Jumper Button state Operation mode when the receiver is F1 F2 T switched on TRC registration + + л Not pressed Programming of relay switching time Relay actuation with latching Relay actuation with time delay + + + Pressed Any + Any "+" jumper installed on two plug pins, " " jumper removed (or installed on one plug pin), "a" any jumper position Note: jumpers must be removed or installed when the power is off, unless otherwise stated. 8 Pre-starting Procedure 8.1 It is advisable to leave the unpacked receivers and transmitters in operating conditions for at least 2 hours, after they have been transported in conditions which differ from operating one. 8.2 All the TRCs included in the delivery set have already been registe in RVC. Additional TRCs must be registe in RVC memory as described in 8.4.2 of the present Operation Manual. 8.3 Clearing RVC Memory Clear (erase) the receiver memory before registration of the first transmitter. 2) Install jumpers on F1 and F2 plugs. 3) Power the receiver up. The indicator on the receiver will blink 1 time per 4 s. 4) Press and hold the button until the indicator is off. The receiver memory is clear. 5) Power the receiver down. 8.4 TRC Registration in RVC Memory Transmitters shall be registe one after another in any succession. After successful registration the receiver shall remember a unique serial number of the transmitter in its non-volatile memory and assign a reference sequential number following the order of registration. An illustrated manual describing registration of transmitters is provided in Annex A. 8.4.1 Registration of First Two TRCs 2) Install jumpers on F1 and F2 plugs. 3) Power the receiver up. The indicator on the receiver will blink 1 time per 4 s., while the indicator is off. 4) Briefly press the button on the receiver. The indicator will illuminate. The receiver will switch to the registration mode for 30 s. 5) Press the button on the transmitter which is to be registe (Figure 4). The indicator on the receiver will be off. 6) Press again the button on the transmitter which is to be registe. (Figure 4). The indicator on the receiver will be Figure 4 blinking 2 times per 1 second within 4 seconds. It will indicate successful registration. The indicator will blink 2 times and switch to the standard mode (blink 1 time per 4 seconds). It will indicate a failed registration. Possible causes of failed registration: 2
transmitter has been earlier registe if you press the button on the transmitter the indicator will illuminate on the receiver; registration procedure is wrong repeat registration steps till 8.4.1 or 8.4.2. 7) Power the receiver down. 8) Remove jumpers from F1 and F2 plugs. 9) Close the receiver cover. 8.4.2 Registration of Third and the Following TRCs 2) Install jumpers on F1 and F2 plugs. 3) Power the receiver up. The indicator on the receiver will blink 1 time per 4 s, the indicator is off. 4) Briefly press the button on the receiver. The indicator will illuminate. The receiver will switch to the registration mode for 30 s. 5) Press the button on one of two transmitters registe firstly (Figure 4). The receiver`s indicator will illuminate. 6) Immediately, press the button on the transmitter which is to be registe (Figure 4). The indicator on the receiver will be off. 7) Press the button on the transmitter which is to be registe again. The indicator on the receiver will be blinking 2 times per 1 second within 4 seconds, and the indicator will be off. It will indicate successful registration. The indicator will blink 2 times and switch to the standard mode (blink 1 time per 4 seconds). It will indicate a failed registration. Possible causes of failed registration see in 8.4.1. 8) Power the receiver down. 9) Remove jumpers from F1 and F2 plugs. 10) Close the front cover of the receiver. 8.5 Programming of Relay Switching Time Default setup 2 s. 8.5.1 Programming the Relay for a Switching Time from 2 to 4 Minutes 2) Remove jumper from the T plug, install jumpers on F1 and F2 plugs. 3) Press the button on the receiver, and while holding it, power the receiver up. 4) Release the button. 5) Wait during the requi (programmed) time interval (from 2 s till 4 min) and install jumper on T plug. 6) Power the receiver down. 7) Remove jumpers from F1 and F2 plugs. 8) Close the front cover of the receiver. 8.5.2 Accelerated Programming of Relay Switching Time from 20s to 30 min In case of accelerated programming, the programming time is uced 10 times, the programming step being 10-15 s. 2) Remove jumper from T plug, install jumpers on F1 and F2 plugs. 3) Press the button on the receiver, and while holding it, power the receiver up. 4) Release the button, and then press for 1-2 s. 5) Wait during the requi (programmed) time interval uced 10 times (from 2 s to 3 min), and install jumper on T plug. 6) Power the receiver down. 7) Remove jumpers from F1 and F2 plugs. 8) Close the front cover of the receiver. 8.5.3 Default Setting of Relay Switching Time (2 s) 2) Install jumpers on T, F1 and F2 plugs. 3) Press the button on the receiver, and while holding it, power the receiver up. 4) Release the button. 5) Power the receiver down. 6) Remove jumpers from F1 and F2 plugs. 7) Close the receiver cover. 9 Operability Test 9.1 Relay Actuation with Latching 2) Remove jumpers from T, F1 and F2 plugs. 3) Connect terminals of the receiver to IP Astra-931 and power supply unit as shown in Figure 5. Figure 5 4) Power the receiver and the indication panel Astra-931 up. The indicator of the receiver will blink 1 time per 4 s., the indicator is off. 5) Press the button on the transmitter (Figure 4). The indicator will be on. Normally open (NO) relay contacts will close. The indication panel Astra-931 will display the number of the transmitter which sent the signal. If the battery in the transmitter is low, the number will blink. 6) Press the button on the transmitter (Figure 4). The indicator will be off. The relays will return to the initial status. The relay and indicator status of the receiver will change with each pressing the button on the transmitter. 7) Power the receiver down. 9.2 Relay Actuation with Time Delay 2) Install jumper on T plug, remove jumpers from F1 and F2 plugs. 3) Connect terminals of the receiver to the indication panel Astra- 931 and power supply unit as shown in Figure 5. 4) Power the receiver and the indication panel Astra-931up. The indicator of the receiver will blink 1 time per 4 s, while the indicator is off. 5) Press the transmitter button (Figure 4). The indicator will be on, and the relay will be actuated within the preset time interval. The indication panel Astra-931 will display the number of the transmitter which sent the signal. If the battery in the transmitter is low, the number will blink. 6) Power the receiver down. WARNING! If you press the button on the transmitter more than 15 times outside WAS coverage area, the synchronization between the receiver and the transmitter will be disrupted, and no identification shall occur. To synchronize the equipment again, reenter the WAS coverage area and press the button on the transmitter 2 times. 10 Replacing TRC Battery 1) Open the front cover of TRC. 2) Remove old battery. 3) Install a new battery in maximum 10s. 4) Close the front cover of TRC. 3
11 Installation 11.1 Select Installation Location 11.1.1 The receiver performs best for optimum coverage when installed at a maximum height (minimum 2m). 11.1.2 Avoid running power supply cables and the interface line of the receiver close to heavy duty power lines and high frequency cables. 11.1.3 Avoid the following locations for the receiver: - massive metal constructions or closer than 1m from them; - closer than 1 m from power mains and metal water or gas pipes which may cause radio interference; - lower than 1,5 m above the floor; - inside metal constructions. WARNING! Do not place the receiver at a distance less than 10 m from another wireless unit (including its antennas), which is a source of interference for the receiver. Do not place the receiver at a distance less than 5 m from the computer (system block and display), uninterruptible power supply unit and other power equipment. 11.2 RVC Installation procedure Step-1 Push the base lock from the cover slot. Remove the cover. c b Step-2 Carefully bend the hooks on the base. Remove the PC board. Step-3 Mark mounting holes on a flat surface using receiver base as a template. Insert wires from the power supply unit and interface line through the wire access hole. Mount the receiver base. Step-4 Reinstall the printed circuit board Step-5 Connect the antenna to RF terminal block 12 Labeling The label on the receiver case specifies: - the trademark of the manufacturer; - abbreviated name of the receiver; - firmware version; - month and year (last two digits) of manufacture; - certification mark; - barcode which duplicates textual information. 13 EC Conformity Declarations This product is in conformity with the provisions of: R&TTE Directive 1999/5/EC, Article 10.5; EN 60950: 2001 Safety of information technology equipment; EN 50371 Generic standard to demonstrate the compliance of lowpower electronic and electrical apparatuses with the basic restrictions related to human exposure to electromagnetic fields (10 MHz - 300 GHz) General public; EN 301489-17 V1.1.1 (09-2000) Electromagnetic Compatibility and radio spectrum Matters (ERM); Electromagnetic Compatibility (EMC) standard for radio equipment and services; Part 17: Specific conditions for wideband data Hiperlan equipment; EN 300220-1 V1.3.1 (2000-09) Electromagnetic compatibility and Radio spectrum Matters (ERM); Short range devices; Technical characteristics and test methods for radio equipment to be used in the 25 MHz to 1 000 MHz frequency range with power levels ranging up to 500 mw; Part 1: Parameters intended for regulatory purposes. 14 Recycling 14.1 WAS kit does not pose any threat to life and health of people, as well as to the environment. After the expiry of its service life period, WAS shall be disposed of without special environmental precautions. 14.2 Waste batteries must be returned to the trading organization, service center, and manufacturer or to a recycling organization. 15 Manufacturer Warranties 15.1 The manufacturer guarantees that WAS will comply to technical requirements, provided that the consumers adhere to specified technical conditions of transportation, recommendations on storage and use. 15.2 The warranted shelf life for RVC and IP is 5 years 6 months from the manufacturing date. The warranted shelf life for TRC is 1 year 6 months from the manufacturing date. 15.3 The warranted service life for RVC and IP is 5 years from the commissioning date, but not more than 5 years 6 months from manufacturing date. The warranted service life for TRC is 1 year from the commissioning date, but not more than 1 year 6 months from manufacturing date. 15.4 The manufacturer must repair or replace WAS within the warranty period. 15.5 The warranty does not become effective in the following cases: failure to comply with this Operation Manual; mechanic damage of WAS; if WAS is improperly repai by anyone other than the manufacturer. 15.6 The warranty applies to WAS only. All other equipment of other manufacturers used with WAS is subject to other manufacturer s warranties. In no case shall the manufacturer be liable for any death, physical injury or property damage, or any other accidental or intentional loss based on claim that WAS failed to perform its functions. Step-6 Wiring to the receiver output terminals must be performed as shown in Figure 5. If necessary, connect ТМP terminals to the alarm loop of CP. Step-7 Replace the cover (until the closing click is heard). Sales: Controlex GmbH Philosophenweg 31-33 47051 Duisburg, Germany Phone: +49 (0) 203 / 393 91 188 Fax: +49 (0) 203 / 393 91 189 GSM: +49 (0) 178 / 218 48 22 E-mail: info@controlex.eu Web: www.controlex.eu Made in Russia Warranty service and technical support: ТЕКО-TD Prospect Pobedy str. 19 420138 Kazan, Russia Phone: +7 (843) 261-55-75 Fax: +7 (843) 261-58-08 E-mail: info@teko.biz support@teko.biz Web: www.teko.biz 4
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