D-tect X 30 Mkii Gjd 430 ®

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D-TECT X 30 MKII ® Wireless Detector GJD 430 INSTALLATION MANUAL & SET UP GUIDE SPECIFICATIONS Transmission Range Transmission Codes Beam Range Programmable Coverage Adjustment Mounting Height Fresnel Lens Customised Optics Power Input Current Pulse Count Walk Test Operating Temp Temp Compensation Adjustable Timer Options Adjustable Light Sensing Housing Protection Rating Dimensions Weight Up To 500 meters 16,700.000 Up To 30 meters 10-70 degree detection angle, 30m x 30m max 180 degree pan + 90 degree tilt Variable up to 6 meters – Optimum 3 meters 28 Zones for each Pyro pair Double silicon shielded quad element eliminates 50,000 lux of white light 3 x C batteries or optional 12-24v AC/DC <40 uA (battery) 6mA (power supply) 1-3 Output test mode using walk test signal strength detector -20 degree C to + 55 degree C Conformally coated electronics for increased stability Digital sensitivity adjustment 2 to 60 seconds Dusk (2 Lux) to 24 Hour High Impact ABS Minimum IP 65 145 x 120 x 145 mm 376g GJD Manufacturing Limited, Unit 2 Birch Business Park, Whittle Lane, Heywood, Lancs., OL10 2SX, UK. Web www.gjd.co.uk T. 01706 363998 email [email protected] D-TectX30 MKII Detectors Introduction The D-TectX30 MKII is a wireless CCTV intruder detector designed to transmit reliable event triggers that individually or simultaneously control and activate CCTV cameras, security lights, DVRs, autodialers and virtually any low-voltage switching device. The detector unit utilises two independent passive infrared detectors combined in a TO5 package. Both sensors have to be triggered before the detector signals an alarm. These are very reliable high precision wireless presence detectors, which have a line of sight range to the receiver of up to 500 metres. Each D-TectX30 MKII detector transmits radio signals to the receiver and has over 16.7 million individual codes. The receiver only responds to the transmissions of the detector that has been linked to the channel that identfies it. The receiver can only analyse this information after the individual codes have been transferred via the secure wire code learning link (see “SET-UP” information). This transfer is only required on the initial set up and any subsequent changes to the detector programming will be relayed automatically and wirelessly to the receiver. (See PROGRAMMING CHART) The weatherproof D-TectX30 MKII detectors automatically send out a signal every 2 minutes to confirm that every one of up to 16 detectors are active. If a signal is not received within 6 minutes from a registered detector an ‘RF loss of active signal indicator’ and output is activated on the receiver. The D-TectX30 MKII receiver can be mounted internally or externally but reductions in signal strength can occur when a line of sight is obstructed by a wall or any other object. Detector Programmable Parameters Programmable parameters for the detector include: Contact active Timer Pulse count feature And a choice of detection ranges from 8 to 30 metres. Detector Features There are independent front and rear tamper circuits which are combined to provide a volt-free tamper alarm contact. The flexibility of the various outputs and timers allows the DTectX30 MKII to be used in multiple situations without the need for any further customised equipment – and of course as these are wireless movement detectors the installation work is minimal. The integral dual axis tilt sensor allows 180 degrees of pan and 90 degrees of tilt. This increases the speed of the outdoor installation and provides incredible accurate aiming of the detection pattern, particularly important for BS 8418 installations. The electronics module is acrylic coated for additional component stability The sensors are encased in a vandal-resistant high impact ABS housing with a UV stabilised translucent front cover, ensuring the sensor is impervious to and unaffected by adverse weather conditions. The combination of precision electronics, digital white light filter and double shielding eliminates false and nuisance alarms from the sun and othe visible light sources. When a low battery is detected a signal is sent to the receiver unit which displays a low battery indication and operates the ‘LOW BATTERY’ contacts for the relevant detector. The D-TectX30 MKII design has a neat and aesthetically pleasing appearance with no visible indication of the orientation of the detector head. SEE INSTALLATION DIAGRAMS, MULTI-BEAM LENS DATA, TROUBLE SHOOTING CHART AND SPECIFICATIONS WITHIN THIS LEAFLET DETECTOR SET-UP Before the detector is mounted in its desired position, the detector and receiver must be able to communicate with each other, therefore the detector’s identification and communication codes must be transferred to the relevant channel in the receiver unit in the following way: 1) Connect a 12-24 volt power source to the receiver (see Diagram 1) and insert the 3 C alkaline batteries into the detector, as described in Diagram 2. Always check that the batteries have been inserted correctly. Alternatively the detector module can be powered from the 4.5 volt output plug on the receiver (see Diagrams 1 & 4). When powered up the detector takes approximately 2-3 minutes to stabilise and the red LED in the detector will flash 3 times when the power is connected. 2) Plug in the Programme Link Wire from the detector into the code transfer socket in the receiver (see Diagram 4). 3 ) Press the ‘Programme button’ on the detector once (see Diagrams 1 & 5) The red LED will light. 4 ) Within 2 seconds press the respective ‘Channel button’ on the receiver module once and the LED’s will light up for the selected channel. When the red LED on the detector turns off the code is transferred and the 3 LED’s on thes selected channel will flash. The code has now been transferred from the detector to the receiver. 5) Remove the link wire from the receiver module and plug it into the Tamper PCB Connector on the top of the detector (see Diagram 5). Repeat steps 2 to 5 for all the detectors to be on the receiver module. The receiver box is equipped with one 4 way PCB module as standard, but can accept up to 3 additional expander modules in total. As each module can communicate with 4 detectors, each receiver box is able to monitor 16 separate wireless D-TectX30 MKII detectors. 6) To verify that a code has been stored for any individual detector, press the appropriate Channel button on the receiver module once (see Diagram 1) and 4 LED’s will flash 3 times to indicate a code has been stored. 7) To delete a code from a channel, press and hold the Channel button; all 4 LED’s will light. Keep the Channel button pressed for approximately 4 seconds until the alarm LED flashes, then release the button. The channel is now blank. PROGRAMMING THE DETECTOR The factory default settings are set to suit the most popular applications but can be changed to suit individual requirements, either before installation or on-site. Once changes have been made they are stored in a non-volatile memory. The default factory settings for the D-TectX30 MKII detector are as follows: Range 20 metres Pulse Count 1 Timer (seconds) 5 To change factory default settings, proceed as follows: 1) Press the ‘Program Button’ the required number of times to access the setting/mode that needs changing and a red LED will illuminate (see following information and programming chart) Once transfers code Twice sets detector range in metres Three times sets the pulse count Four times adjusts LUX level Five times sets alarm activation time in seconds Six times shows existing settings Seven times resets detector to factory settings Eight times & hold down starts RF continuity test Nine times & hold down generates new random communication code PROGRAMMING CHART Setting 1 2 3 4 5 6 7 8 Press twice – Range 10 15 20 25 30 (Metres) Press 3 times – Pulse 1 2 3 Count Press 4 times – “S” 24 2 5 10 20 30 40 50 Output LUX level hour Press 5 times – Timer 2 5 10 20 30 40 50 60 (seconds) 2) When the ‘Program Button’ has been pressed the required number of times, wait 4 seconds until the red LED indicator goes off. 3) After a short delay, the LED will then flash a number of times to indicate the existing setting (eg in detectro range mode, 4 flashes will show that the existing range has been programmed to 25 metres) 4) To change the setting for that option – wait until the LED stops flashing then press the ‘Program Button’ the number of times needed to programme in the new setting (eg pressing the button twice in range mode will change the setting to 15 metres). The LED will blink twice to indicate that the new setting has been saved. FUNCTIONS Range settings are self explantory but for reference, other settings/modes are defined below: Pulse Count (1, 2 or 3) – this is the number of times the unit has to detect an intruder on both of its sensors before signalling an activation. The range of the detector will decrease if there is little difference in temperature between the moving object and the background. 1 – will give a fast response 2 – gives better immunity with good response 3 – gives higher immunity to false activation/alarms Timing 1 (2 & 3 < 6 seconds) LUX ‘S’ Output only – 7 settings from 2 to 240 lux – the 8th setting is the 24 hour mode. a) LUX – is a measurement of ambient light levels that must be reached before the ‘S’output will become active when there is an activation of the detector (2 is night and 240 is bright daylight). b) 24 HOUR – the detector will operate the ‘S’ output day and night, irrespective of light levels. All other outputs operate day and night irrespective of the ‘S’output setting. TIME ‘ALARM’ OUTPUT TIMER This is the time delay in seconds that the ‘alarm’ volt free output will activate after an activation of the detector. RF CONTINUITY TEST It is always advisable to test the RF signal at the detector location prior to installation. To enter the RF continuity test mode – press the ‘Program Button’ (see Diagram 5) on the D-TectX30 MKII 8 times. On the 8th press – ‘hold’ down the ‘Program Button’ for 5 seconds until the LED goes out – the LED indicator will then flash and transmit one signal per second to the receiver. The corresponding Channel Indicator on the receiver module will also flash once per second if a strong enough RF link has been established. This test mode will automatically cancel after five minutes. Alternatively, to cancel the RF continuity test immediately – press and hold the ‘Program Button’ until the LED illuminates then release the button. If it is necessary to conduct a site survey prior to the installation of this equipment, it is advisable to power up the receiver temporarily with a PP3 (9 volt) battery. Register one detector as described in ‘PROGRAMMING THE DETECTOR’, then conduct an RF continuity test as detailed above. As the signals to the receiver are sent once per second, the optimum position of bot the DTectX30 MKII detector and the receiver box can easily and quickly be established. CHANGING THE RANDOM CODE In the unlikely event of another radio signal interfering with and affecting the correct operation of a single RF channel, the D-TectX30 MKII is able to generate an alternative random code. To do this, press the Program Button on the D-TectX30 MKII nine times. On the ninth press, ‘hold’ down the button for 5 seconds until the LED goes out, then release the button. Erase the existing code from the receiver by holding down the Channel Button until the alarm LED flashes, then repeat steps 3 to 6 of the ‘SET-UP’ procedure to programme in the new code. MOUNTING THE DETECTOR IMPORTANT – During the installation the electronics must be protected against water as trapped moisture can affect or damage the unit. 1) Using the template provided, drill the wall to accept the two wall plugs and fixing screws – and the tamper cup (if used) see Diagram 8. NOTE: We recommend using the Tamper Cup on uneven wall surfaces. 2) Remove the detector’s cover assembly by loosening the Locking Screw at the bottom of the case using the allen key provided see Diagram 3. The cover hinges from the top and will then lift out of its location slot. 3) Swivel the Detector Module and then unplug the power lead. 4) Unscrew the 2 cross head screws to remove the detector back plate. This reveals the battery compartment see Diagram 2. 5) Screw the unit to the wall ensuring that the tamper pin is correctly located see Diagram 2. 6) Install 3 C alkaline batteries into the battery holder observing correct polarity see Diagram 2. 7) Always ensure when replacing the detector module that the LED is facing forward so as to ensure correct alignment of the beam pattern. (Refer to section entitled ‘Multibeam Alignment & Masking’). NOTE: The D-TectX30 MKII can also be mounted on a pole using a special bracket kit available separately. 8) The detector can also be powered from a 12-24 AC/DC power supply. MULTI-BEAM ALIGNMENT & MASKING The GJD multifunction lens fitted to the D-TectX30 MKII detector produces 7 long range beams and 7 short to medium range curtain beams. Movement across the beams produces the best response and range, whilst movement towards the detector will be less responsive. The unit detects the changes in heat and movement in the beam pattern, therefore objects such as trees, shrubs, ponds, boiler flues and animals should be considered when positioning the detector. NOTE: It is important that the front protective cover is fitted to the detector before beam pattern alignment or output testing is undertaken as the range of the detector increases without this cover and therefore settings will be incorrect. 1) The detector module’s lens is fitted with two sliding shutters to reduce the detection angle as required (see Diagram 3). An additional set of sliding shutters are provided if the beam pattern needs to be narrowed even further, eg should the minimum detection angle of 10 degrees be required. 2) When mounting the D-TectX30 MKII detector higher than a boundary fence, rotate the module and mask off any beams, either vertically or horizontally, that fall outside the required detection area required to prevent problems such as boundary overspill. Use portions of the Self-adhesive Clear Mask supplied and apply these to the inner smooth side of the lens as shown in Diagram 3 and Beam Coverage. Always replace the lens the correct way up to ensure the correct beam pattern coverage (the top of the Fresnel lens is marked – TOP). MULTI-BEAM LENS DATA – please see separate sheet. WALK TESTING The walk test LED is factory set to the OFF position. Pressing the Program Button once (see Diagram 5) will illuminate the LED and activate the walk test function for a period of 5 minutes. On detection the red LED will flash momentarily. NOTE: The front cover must be fitted when walk testing. Replace the front cover and locking screw as shown prior to commencing the test. Use the programming table to adust the range as necessary and pan and tilt the lens module over the field of view to obtain the correct coverage area (see Multi-Beam Alignment & Masking). 1 – Press the Program Button momentarily on the D-TectX30 MKII detector and the red LED will light up and Pulse Count ‘1’ is automatically selected. 2 – Align or realign the unit and when a detection takes place the red LED indicator will light up momentarily This test mode will automatically cancel five minutes after last detection has been made. If automatic lighting is required to illuminate the area during a CCTV recording, the D-TectX30 MKII will communicate directly into any of the GJD lighting controllers, via the receiver, for simultaneous CCTV recording and automatic lighting at dusk. The RF signals from the detector to the receiver also provide an audible and visual indication of detection activity 24 hours a day. As the GJD lighting controllers also have a pulse count optoin, this must be set to ‘1’ on the controller when using the D-TectX30 MKIi for event recording. GJD reserve the right to amend specifications without prior notice. Copyright GJD Manufacturing, January 2013 D-TECT X 30 MKII® Wireless Detector and Receiver GJD 430 & GJD 392 TECHNICAL SPECIFICATIONS & BEAM PATTERNS SPECIFICATIONS – D-TectX 30 MKII Detector (GJD430) SPECIFICATIONS – D-TectX Receiver (GJD392) Transmission Range Transmission Codes Beam Range Programmable Coverage Up To 500 meters 16,700.000 Up To 30 meters 10-70 degree detection angle, 30m x 30m max Transmission Range Transmission Codes Power Input Indicators Adjustment 180 degree pan + 90 degree tilt Operating Temp Mounting Height Variable up to 6 meters – Optimum 3 meters Connections Fresnel Lens 28 Zones for each Pyro pair Outputs (per Detector) Customised Optics Double silicon shielded quad element eliminates 50,000 lux of white light Capacity Power Input Current Pulse Count 3 x C batteries or optional 12-24v AC/DC <40 uA (battery) 6mA (power supply) 1-3 Receiver Housing Walk Test Output test mode using walk test signal strength detector – 1 x red walk test LED -20 degree C to + 55 degree C Conformally coated electronics for increased stability Digital sensitivity adjustment 2 to 60 seconds Dusk (2 Lux) to 24 Hour Front & rear tamper switches , case open and removal from wall High Impact ABS Minimum IP 65 145 x 120 x 145 mm 376g Protection Rating Operating Temp Temp Compensation Adjustable Timer Options Adjustable Light Sensing Tamper Switches Housing Protection Rating Dimensions Weight Case Dimensions Weight Up To 500 meters 16,700.000 12 – 24V AC/DC 1 x LED on detection 1 x LED tamper 1 x LED RF loss 1 x LED low battery indication -20 degrees C to + 55 degrees C Conformally coated electronics for increased stability 1 x programming socket for Detectors Expansion socket for connection to additional modules 2 volt-free, silent solid state magnetically immune contacts 2 neg. switched plus one common tamper (front and rear switches) 1 RF loss 1 low battery 4 detector module fitted as standard 3 slots for additional 4 channel expansion modules (total 16 detectors) High impact flame retardant, UV stabilised Polycarbonate Minimum IP55 210 x 180 x 75mm (excluding aerial) 685g NET, 720g GROSS Multi-Beam Alignment & Masking The GJD multifunction lens fitted to the D-TectX range detectors produces 7 long range beams and 7 medium to short range curtain beams. Movement across the beams produces the best response and range, whilst movement towards the detector will be less responsive. The unit detects the changes in heat and movement in the beam pattern, therefore objects such as trees, shrubs, ponds, boiler flues and animals should be considered when positioning the detector. Note: :It is important that the front protective cover is fitted to the detector before beam pattern alignment or output testing is undertaken as the range of the detector increases without this cover and therefore settings will be incorrect. 1 - The detector modules lens is fitted with two sliding shutters to reduce the detection angle as required (see Diagram 3). An additional set of sliding shutters is provided if the beam pattern needs to be narrowed even further, eg should the minimum detection angle of 10 degrees be required. 2 - When mounting the D-TectX detector higher than a boundary fence, rotate the module and mask off any beams either vertically or horizontally, that fall outside the required detection area required to prevent problems such as boundary overspill. Use portions of the self-adhesive clear mask supplied and apply these to the rear, smooth side of the lens, refer to Diagram 3. Always replace the lens the correct way up to ensure the correct beam pattern coverage (the top of the Fresnel lens is marked –TOP – see Beam Coverage Diagrams) When mounted at heights above 3 metres there could be a significant reduction in the range of detection and the target will have to move a greater distance within the field of view before an alarm Is generated SOME Dos AND DON’Ts ABOUT MOUNTING AND POSITIONING A DETECTOR Use the pan and tilt facility to accurately target the detection zone, and adjust the range of the detector to cover the required area. When mounting the detector higher than boundary fences mask off any side beams that fall outside of the required detection area Ensure that no obstacles such as walls, fences, structures, shrubs or large trees obstruct the beam pattern view, thereby creating blind spots As the unit detects a change in heat in its field of view, avoid direct sunshine, ponds and central heating boiler flues Animals should be considered when sighting the detector so it is advisable to mask the beams or mount the detector high enough to eliminate this potential problem Floodlights also emit haze ripple therefore when installing floodlights to provide movement activated lighting, position the floods to the side or above the detector A minimum of 60cm (2 feet) is recommended to ensure the detector is not affected by the direct radiated heat from the floodlight GJD Manufacturing Limited, Unit 2 Birch Business Park, Whittle Lane, Heywood, Lancs., OL10 2SX, UK. Web www.gjd.co.uk T. 01706 363998 email [email protected] D-TECT X WIRELESS DETECTORS & RECEIVERS – INSTALLATION DIAGRAMS DIAGRAM 1 DIAGRAM 5 Channel Buttons 1 to 4 Insert Program Link Wire into Tamper PCB Connector Tamper PCB Connector 12v – 24v Power Input for Receiver Pan Mechanism Connector Ribbon for installing additional Expansion Modules 4.5v Connector for programming and powering up the Detector Power Lead for connection to Sensor Module – see Diagrams 4&5 Battery compartment 3xC Batteries DIAGRAM 3 Fresnel Lens – ribbed face on front, smooth face on back To remove lens – squeeze sides gently and slide out. To reinstall lens, locate lens between side lugs underneath sliding curtains, and allow lens to snap back in position. Note: when masking Fresnel Lens, always apply the selfadhesive black mask to the smooth back face Power lead from battery compartment Program Button DIAGRAM 6 – Installing Expansion Module Front & Rear Tamper Switch Expansion Module connects to pre-installed 4 Channel Modules using Connector Ribbon DIAGRAM 2 – inserting batteries into Detector Tamper PCB Connector Tilt Mechanism Power Lead from Battery Compartment Box Tamper Connection DIAGRAM 4 Optional 12 – 24v AC/DC power input connector Wall fixing holes Expansion Module Code Transfer Socket Aerial Connection Tamper Switch Channel Buttons 1 to 4 on Expansion Module Aerial Retaining Bolt 3 Slots for Expansion Modules Sliding Curtains DIAGRAM 7 – Screw Receiver to wall ensuring Tamper Cup is correctly located LED Tamper Cup Correctly Located Tamper Cup Programming link wire, must be plugged into the code transfer socket to transfer the unique code. The detector must have batteries fitted or be connected to the 4.5v lead on the Receiver DIAGRAM 8 – Screw Detector to wall ensuirng Tamper Cup is correctly located Tamper Cup Correctly Located Wall Fixing Holes ENGINEER NOTES GJD Manufacturing Limited Unite 2, Birch Business Park, Whittle Lane, Heywood, Lancashire, United Kingdom OL10 2SX Sales: +44 (0) 1706 363 998 Technical: +33 (0) 1706 363 990 Fax: +44 (0) 1706 363 991 Email: [email protected] Web: www.gjd.co.uk