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Ademco - 1689 1684 Receivers (telstat Wireless System)

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used with: TELSTAT Wireless System Transmitters Nos. 1661DC, 1662, 1663, 1665, 1667, 1666 INDEX Page Sections GENERALINFORMATION ............................................................. CODING ............................................................................ .............................................................. CodeSwitchLocation: Code Selection. .................................................................... CodeSetting ....................................................................... RECEIVERS, Nos. 1680,1684 ............................................................ ReceiverCoding .................................................................... .................................................................. ReceiverPower.. ReceiverAntenna ................................................................... ReceiverLocation .................................................................. Receiver Wiring and Connections ..................................................... TRANSMllTERS ..................................................................... Applicable to All Transmitters ........................................................ No. 1681 DC Window Transmitter .................................................... No. 1682 Portable Panic Transmitter. .................................................. No. 1683 Money Clip Transmitter. ..................................................... ........................................................... No.1685DoorTransmitter No. 1687 Gas Detector Transmitter. ................................................... No. 1689 Smoke Detector Transmitter. ................................................. TROUBLESHOOTING ................................................................. SPEClFlCATlONS....................................................................l Receivers ......................................................................... Transmitters.......................................................................l 2 3 3 3 3 4 4 4 4 4 5 6 6 7 6 6 8 9 10 11 3 13 3 Illustrations Diagram Diagram Diagram Diagram Diagram Diagram Diagram Diagram Diagram 1: TELSTAT WIRELESS SYSTEM .............................................. 2: TRANSMllTER CODING SWITCH AND BATTERY LOCATIONS. .................. 3: DIGITAL CODING SWITCH. ................................................. 4: No. 1680 RECEIVER PROGRAMMING 8 CONNECTIONS ........................ 5: No. 1684 RECEIVER PROGRAMMING 81CONNECTIONS ........................ 6: Nos. 1681 DC, 1685 TRANSMllTER CONNECTIONS ........................... 7: LOCATING No. 1665 DOOR TRANSMITTER. ................................... 6: MAGNET for No. 1686 DOOR TRANSMllTER .................................... 9: MOUNTING TEMPLATE for Nos. 1681 DC, 1685 TRANSMITTERS. ................ 556 565 www.PDF-Zoo.com .14 .15 .16 .17 .18 .19 .19 20 21 GENERAL INFORMATION An Ademco TELSTAT Wireless System may consist of any number of TELSTAT Transmitters used in conjunction with a No. 1880 (Single Channel) Receiver or No. 1884 (Three Channel) Receiver. Sea Diagram 1. TELSTAT SYSTEM TRANSMITTERS Catalog No. 1881DC 1882 1883 1885 1887 1889 Signal Channel BURGLARY /FIRE’ PANIC PANIC’ BURGLARY’ PANIC FIRE Description Window Transmitter (with Closed Circuit Loop) Portable Panic Transmitter Money Clip Transmitter Door Transmitter (with Magnet 8 Built-in Contacts) Gas Detector Transmitter Smoke Detector Transmitter ‘Low Battery Signal also transmitted when battery weak. The receiver and all transmitters must be field programmed to the same digital code, as described later. The No. 1664 TELSTAT Receiver has three independent channels that respond individually to alarm signals from like coded-fire”, burglary and panic (including money clip and gas) transmitters. Alarm relay dry contact outputs from each of these channels can be used for a variety of purposes, including triggering a No. 800LR or 801 LR Assist Alert System, digital communicator or tape dialer, or tripping an alarm control (such as a No. 1023 or No. 342R-50). “Fire Channel can be used as a second Burglary Channel if desired. The No. 1680 TELSTAT Receiver is a single channel receiver that can receive signals from any likecoded fire, panic, gas and burglary Status-Monitoring transmitter, or can be field programmed (by cutting jumpers) to eliminate its response to signals from fire and/or panic (including money clip and gas) transmitters. The dry output(s) of the receiver’s SPOT alarm relay(s) can be programmed for open circuit or closed circuit use and normally “follow” the presence or absence of an alarm signal. The three channels of the No. 1884 (and the sole channel of the No. 1880) can all be programmed (by cutting a jumper) to latch on the receipt of a transmission. A. latched burglary channel can thereby avoid possible unwanted recurrent sounding of outside bells, etc., that have timed out. Low battery signals are transmitted automatically and continually (at least once a minute) from Nos. 1881DC. 1883 and 1885 Transmitters if the strength of their self-contained battery falls to a predetermined level (and the transmitter is not in an alarm condition). If an optional, but’recommended, No. 708 Mini- Howler (or No.6281 Buzzer) and No. 884 Switch/LED are connected to the receiver, these low battery signals will be locally annunciated audibly and visually as described later. Note: The No. 1889 sounds a self-contained audible low battery alert itself and so does not transmit such a message to the receiver. Low battery in the No. 1882 is indicated if its LED does not light when its pushbutton is depressed (although successful transmission might still be possible). The No. 1887 does not contain a battery, but is powered from the AC outlet in which its power cord is plugged. Each tmnsmltter, while It remains actuated, will signal the receiver repeatedly, at intervals of it least once a minute. Note: Repeated transmissions from Nos. 1881 DC and 1885 installed on doors or windows that are left open for long periods of time may be optionally eliminated by cutting a resistor on those units, as described later. This will extend battery life. (The Nos. 1887 and 1889 signal continuously while tripped.) The outputs are prioritized. The alarm outputs take priority over low battery signals. Fire has highest priority, then burglary, then panic, then low battery. For instance, when a fire alarm has been detected, lower priority alarms will not be detected. 557 566 www.PDF-Zoo.com . IMPORTANT Even though the system utilizes transmitters that send repeated transmissions while they are actuated, as well as repeated low battery indications from some when that condition occurs, the system, like all wireless signal systems, is neither completely “failsafe” nor “foolproof”. Continual periodic testing by the user and service company is advisable to insure reliable performance. The No. 1687 Gas Detector Tmnsmltter as well as tmnsmltters which require a battery for opemtlon (as do those descrtbed herein) should be tested by the user at least weekly. Batteries should be replaced at least every twelve (12) months (preferably scheduled and done by the service company) or within 48 hours of a low battery condition being indicated. Use specified alkaline or carbon-zinc batteries such as Eveready Nos. 522, 216, 1222 or Mallory MN1604. The entire system, including the transmitter(s), receiver and the controlled equipment must be tested once a year by the service company. IMPORTANT 1 Whenever beginning toinstall or service the receiver, physically touch terminal 12 (ground) to discharge any static electricity you may be carrying. This will minimize the chance of possible damage to static-electricity-sensitive circuit components. CODING Each receiver and transmitter contains a Digital Coding Switch with 8 “keys” that must be set during installation to insure that the receiver will respond only to signals from those transmitters that are a part of that particular system. Code Switch Location Diagram 2 shows the location of the Digital Coding Switches in the battery powered transmitters. For the No. 1687 Gas Detector Transmitters, see Diagram 1. For the receivers, see Diagrams 4 and 5. The appearance of the coding switch is shown in Diagram 3. Code Selection Note that the coding switch contains eight numbered keys each of which may be set elther ON or OFF (see Diagram 3). All receivers and transmitters leave the factory with key 8 OFF and the seven other keys ON. THE RECEIVER AND ALL TRANSMITTERS SHOULD BE RECODED BY THE INSTALLER, because of the consequent probability of unwanted operation caused by adjacent systems with the same codes if recoding is not done. There are 256 possible code combinations, but to minimize the possibility of code duplication, select a code with the following precautions In mlnd: 1. 2 3. 4. 5. Do not Do not Do not Do not Do not use the factory set code, or any other code with only one key ON or OFF. set all keys ON. set all keys OFF. set keys in alternating ON-OFF positions (1,3,5,7 ON). set keys in alternating OFF-ON positions (2,4,6,8 ON). This leaves 236 preferred codes that may be used. Code Setting (See Diagram 3) Use a pencil, straightened ‘paper clip or other pointed object to set the eight keys on the coding switch hi their ON or OFF positions in accordance with the selected code. 558 567 www.PDF-Zoo.com RECEIVERS; Nos. 1680 and 1684 Receiver Coding Set the receiver’s digital coding switch as described on page 3, if this has not already been done. Receiver Power The Nos. 1660 and 1664 are designed to be powered by a 6 or 12V. DC filtered, regulated source, and each draws 35 ma continuously in.thenormal mode. During alarm the No. 1660 draws SO ma additional and the No. 1664 draws 60 ma addltional per channel sctlvated. When activated, the No. 706 Mini- Howler draws 15 ma (No. 6261 Buzzer draws 10 ma) on these devices only. The receiver may be powered by any control with adequate continuous auxiliary current capability such as the Nos. 330R to 342R Series combination burglarlflre controls, the Nos. 1021,1022,1023, 1024,1026 and 4021 Alarm Processing Centers and the Nos. 600LR and 661LR Assist Alerts. When powered from a separate source, a No. 492 or 493 Battery Pack, or equal, may be used. Unfiltered supplies such as the No. 63 Energy Pack may not be used. Do not connect power to the receiver until !nstallatlon and wlrlng is complete. Receiver Antenna The receiver is provided with a 126” long (#22GA wire) antenna which should not be cut shorter. The antenna, which connects to terminal 1 of the receiver, should be exposed completely outside of the receiver’s enclosure. Ideally, the antenna should be situated as shown in A, B or C below: T 120’ Vertical I 1 A. C. B. Other antenna configurations can function adequately, but: 1. Avoid arrangement d. 2 Do not co!1 the antenna. 3. ,Do not drop the antenna randomly InsIde a wall. 4. Avoid running the antenna near metal, such as heating ducts, wire lath in plaster walls or other metallic objects which may reduce or block the operating range. Receiver Location 1. The No. 1680 or 1684 can be mounted Inside a control’s cabinet (via its mounting bracket which can slip over the edge of the cabinet) or be held in place (in, for instance, a No. 600LR or 6OlLR Assist Alert) with double-sided tape. 568 www.PDF-Zoo.com CAUTION When selecting a location for the receiver, check preliminarily for the ability to receive signals from all required areas, as described below and in the “Transmitter” section. Remember, metal shielding such as heating ducts and metal doors can block radio signals and prevent an alarm message from reaching the receiver. lo check this, temporarily hook up the receiver and lay out the antenna in the intended position. Cut the receiver’s appropriate programming jumpers for the particular installation as described in the “Receiver Wiring” section and Diagram 4 or 5. Using one transmitter (a No. 1685 Door Transmitter is the most convenient), check for proper transmission to the receiver. Hold the transmitter in the intended mounting location for each system component and activate it. (Be sure to wait a minimum of 5 seconds between each test to allow the receiver circuitry to reset.) The receiver’s relay should close. To check relay operation an ohmmeter or suitable powered sounder (such as Ademco No. 1615 Annunciator) may be connected across the receiver’s alarm relay dry output terminals (see Diagram 4 or 5) to indicate when the unit’s internal contacts operate. If no signal is received, check the troubleshooting guide in this booklet. Receiver Wiring and Connections See Diagram 4 (for No. 1680) or 5 (for No. 1684). IMPORTANT Whenever beginning to install or service the receiver, physically touch terminal 12 (ground) to discharge any static electricity you may be carrying. This will minimize the chance of possible damage to static-electricity-sensitive circuit components. 1. Select cutting output tivated OPEN CIRCUIT or CLOSED CIRCUIT action for the alarm relay output terminals by jumper(s) as indicated on the diagram (with CLOSED CIRCUIT action selected, the will open on alarm). In the non-latch mode, an activated alarm relay will remain acfor 4 to 8 seconds. 2. Connect the alarm relay output termln@s to the protective circuit(s) or equipment that operation of the relay(s) is to control. Note: With the No. 1660, the alarm relay will respond to fire, panic and burglary transmitters unless optional jumpers are cut to eliminate response to fire and/or panic transmitters. 3. It LATCHING ACTION is desired for the alarm relay outputs on the No. 1684 (or the single relay output on the No. 1680) cut-the GREEN latching jumper indicated on the diagram. With the jumper Intact, the output of any channel will “follow” the presence or absence of an alarm signal on that channel. The latch mode is particularly useful for the burglary channel when the system is connected to a remote monitoring device such as a digital communicator or tape dialer, or where an outside audible alarm with alarm cutoff and automatic reset is required. When the latch mode is selected, the receiver output will lock-in on the first signal and ignore subsequent repeated alarm signals from a transmitter on a door or window that has been left open by an intruder. This is particularly important in localities where noise abatement laws are in force and recurrent sounding of bells, etc., is not desired. Resetting of a latched receiver is accomplished by pressing the switch portion of a No. 664 Switch and LED that must be connected to the receiver. 560 l , www.PDF-Zoo.com 569 CAUTION Do not select latch mode if the No. 1684 receiver is to be powered from a No. 8OOLR or 801LR Assist Alert or any power supply incapable of supplying 185 ma continuously (85 ma for No. 1680) on full alarm. When a No. 706 Mini-Howler has been installed it will require 15 ma additional when sounding a low transmitter battery condition (No. 8261 Buzzer draws 10 ma). 4. Connect a No. 6B4 Switch and LED and a No. 706 Mini-Howler (or No. 8261 Buzzer) to the receiver as shown for optional (but recommended) visual and audible annunciation of low battery signals when they are received from a No. 168lDC, 1633 or 1685 transmitter. Note: If receiver latching action has been selected, a No. 554 must be installed to permit reset (the No. 664’s LED does not light during latch or reset). Upon initial receipt of a low battery transmission the Mini-Howler (or buzzer) will sound continuously. A single press of the No. 664’s switch will silence the sounder and light the No. 664’s LED. The LED will remain lit as a reminder until the transmitter’s low battery has been replaced and the No. 664’s switch is pressed again. The LED will then go out and the system will be ready to respond to subsequent low battery signals should they occur. 5. Connect power to the receiver as indicated. Note: When initially applying power, latching may occur even though latching action has not been selected (GREEN jumper has’not been cut). In any case, press the No. 664’s switch momentarily (or, if not used, momentarily short terminals 3 and 12 together) after initial power-up, to ensure proper initialization of all circuits. TRANSMITTERS Applicable to All Tmnsmltters (Noa. 199lDC. 1992,1993, 1995, 1997, 1999, except as indicated): 1. Set each transmitter’s been done. 2. digital coding switch as described in CODING if this has nof already The transmitters (except for No. 1597) each require a 9 volt alkaline battery for proper operation. Diagram 2 shows the battery locations. The batteries should be changed at least every 12 months (preferably scheduled and done by the service company) or within 48 hours of a low battery condition being indicated. Note: Transmitter Nos. 1681 DC, 1683 and 1685 each contain a low battery monitor. When a unit’s battery drops to a predetermined voltage, that transmitter sends a low battery signal to the receiver at least once each minute, and the transmitter’s LED lights while each tmnsmission is taking place. If the receiver has a No. 706 Mini-Howler (or No. 8261 Buzzer) and No. 664 Switch and LED installed, audible and visual annunciation of the low battery condition occurs as described In the RECEIVER section. Low battery tmnsmission will not be sent while a transmitter is in an alarm condition, as alarm transmissions take priority. 3. The transmitters must be tested for proper operation from all areas of the opemtlng premises to determine that the transmission signals will not be obstructed from reaching the receiver. Heavy metal objects such as refrigerators, plumbing pipes, or wire lath in plaster walls can bock the transmission path. The approximate range of a transmitter is one hundred (100) feet with a fresh battery (75 feet for No. 1662 Portable Panic Transmitter). 4. If a transmltter is dropped, immersed in water or abused in any way, It may not operate properly. The service company should be called if there is any doubt that the system is operating properly. 570 www.PDF-Zoo.com 5. A transmitter must not be operated while the user is bathing or showering. Proper signal reception cannot be assured and water may cause permanent failure. 6. Transmitters should be installed only where the temperature is malnteined between 32’F and 120°F (OX and SO’C). Do not mount the transmitter where it will be exposed to freezing temperatures or direct sunlight. Note: With the No.1681DC Window Transmitter, the transmitter may be mounted, if necessary, in a temperature controlled area and wire run to the contacts or foil on the door or window to be protected. No. 1681DC Window Tmnsmltter (with Closed Clrcult Loop) 1. This transmitter can be selected to report on either the “burglary”or “fire” channel of the No. 1684 receiver. The latter selection would be used if fire detection reporting was not going to be used in the system and a second burglary zone reporting capability was desired (e.g. entry/ exit delay and interior zones). For “fire” channel reporting of a burglary condition, the uninsulated wire jumper located between RlO and R12 under the Printed Circuit Board cover on the No. 1681 DC should be left intact. If “burglary” channel reporting is desired, the jumper should be cut. 2. The “burglary” or “fhe” channel of the No. 1684 (or the single channel of the No. 1680, If so programmed) will respond to alarm slgnals from thls tmnsmltter. 3. The No. 1681DC contains terminals for the connection of a closed circuit protective loop which may include such sensors as magnetic reed contacts, foil or Ademco’s No. 9 glass break sensor. See Diagram 6. Important: Route loop wires only as shown in the diagram. Do not route wires near printed circuit board components, as reduced transmission range may result. Important: DO NOT use foil take-off switches, mechanical magnetic or pressure activated contacts, or vibration contacts (e.g. No. 11). Each time the loop is opened (response time: 15 milliseconds) a signal will be transmitted and the unit’s LED will light during transmission. (Note: Because of this fast response, and to lessen the chance of false alarms, switches with e%posed metal contacts should not be used in the loop.) An LED on the unit lights during each transmission. 4. Should the loop remain open, the unit will transmit at least once each mlnute, to slgnal its open status. a. If the unit is connected to an opening that remains open for long periods of time, these subsequent repeated transmissions can be eliminated by cutting a resister as shown in Diagram 6. This will extend battery life. b. 5. Alternatively, on a window protected by a magnetic reed contact a second magnet can be installed on the window to permit the windows to be left open for ventilation (6” or less, to prevent intrusion) while keeping the contact “closed.” The No. 1681DC “Window” Transmitter can also be used to protect a door. CAUTION If the burglar or fire channel output of the receiver is connected in the entry/exit circuit of an alarm control, and the door is used during exit, and the receiver’s latch option has been selected, then a No. 35Wl-l Magnetic Contact with Shunt should be used to protect the door, so that the user can exit without causing a transmission that will latch the receiver and (after the exit and entry delay period) cause an alarm. 6. The unit may be mounted with screws or double sided tape. A mounting template is shown in Diagram 9. 7. If the unit’s battery begins to weaken, a low battery signal is sent repeatedly to the receiver (at least once a minute) and the unit’s LED lights during transmission. Note: During an alarm condition, alarm transmissions take priority over low bsttery transmissions. 562 571 www.PDF-Zoo.com No. 1682 Portable Panic Transmitter 1. The “panic” channel of the No. 1684 (or the single channel of the No. 1880, If so pro grammed) will respond to alarm signals from this transmitter. 2. No installation is required. This transmitter may be carried about the protected area in a pocket or purse or clipped to a belt. If desired, however, the transmitter may be mounted in any convenient location via a slotted mounting hole in its beltlmounting clip. 3. Momentary actlvatton (even for a fraction of a second) of the unit’s pushbutton will cause a signal tmnsmission. 4. The and but No. unit’s LED tights when the pushbutton is activated to indicate that the battery is good proper transmission is taking place. If the LED does not light, the unit may still transmit, the battery should be replaced. No low battery signal is sent to the receiver’from the 1682. No. 1683 Money Clip Transmitter 1. The “panic” channel of the No. 1684 (or the single channel of the No. 1680, If so pro. grammed) will respond to alarm signals from this transmitter. 2. This transmitter is designed to fit Into any currency slot in a cash drawer. In use, the bottom bill from a money stack is inserted beneath the clip on the unit’s upper surface. When the money stack and the money clip’s bill are removed, transmission occurs. 3. A red LED on the unit’s surface lights during transmission. 4. Once the tmnsmltter Is triggered, it REPEATEDLY sends a signal of four seconds duration at intervals of approximately 45 seconds, until rearmed. 5. Currency may be removed when desired wlthout a signal tmnsmlssion by sliding a paper card beneath the clip and then carefully removing the bill. When reloading, insert the bill and remove the card. 6. If the unlt’s battery begins to weaken, a low battery signal is sent repeatedly to the receiver (at least once a minute) and the unit’s LED lights during transmission. Note: During an alarm condition, alarm transmissions take priority over low battery transmissions. No. 1685 Door Transmitter (with Magnet and Built-in Contacts) 1. The “burglary” channel of the No. 1684 (or the single channel of the No. 1680, if so pr@ grammed) will respond to alarm signals from this transmitter. 2. The No. 1685 is designed to be mounted directly on a door and is supplied with a magnet that mounts on the door frame. Each time the door is opened, a signal will be transmitted. An LED on the unit lights during each transmission. 3. Should the door remain open, the unit will transmit at least once each minute to signal Its open status. Note: If the unit is installed on a door that remains open for long periods of time, these subsequent repeated transmissions can be eliminated by cutting a resistor as shown in Diagram 6. This will extend battery life. 4. A shunt lock can be installed on the door and conneoted to termhalo provfdad In the No. 1685 to shunt out the unit’s built-in contacts during entry and exlt, If connection of the burglary output of the receiver to an “instant” alarm zone is desired. 563 572 www.PDF-Zoo.com CAUTiON If the burglary channel output of the receiver is connected in the entry/exit circuit of an alarm control and the door is In the exlt path and the receiver’s latch option has been selected, then the door should be protected, Instead, wlth a No. 35WH Magnetic Contact with Shunt connected to a No. 1881 DC “Window” Transmitter (or connnected to a No. 1885 in. stalled adjacent to the door and used wlthout Its supplied magnet) as described in paragraph 5 under “No. 1881DC Window Transmitter.” This is necessary to prevent a false alarm when exiting. 5. The No. 1885 contains terminals which enable the unit to be used In conJunction wtth closed chwlt contacts exactly like a No. 1881 DC Window Transmitter. When so used, the magnet prc+ vided with the No. 1885 is not employed. For more Information, see “No. 18SlDC Window Transmitter.” 8. If the unit’s battery begins to weaken, a low battery signal is sent repeatedly to the receiver (at least once a minute) and the unit’s LED lights during transmission. Note: During an alarm condition. alarm transmissions take priority over low battery transmissions. 7. When installing the No. 1885 transmitter on a door and Its magnet on the frame, observe the following guidelines: a. The best location for the transmitter is at the upper edge of the door adjacent to the non-hinged corner with the magnet mounted on the door frame as shown in Diagram 7. b. Before mounting permanently, hold the transmitter and magnet temporarily in place (the maximum permissible gap be?ween magnet and transmitter with the door closed is noted in Diagram 7). Open the door slowly. The transmitter must be able to send an unblocked signal to the receiver with the door open 2,to 3 inches as well as when the door is completely open. c. Mount the transmitter to the door with double sided tape or with screws (use the mounting template as shown in Diagram 9). d. install the magnet on the door frame, obsenring the maximum permissible gap indicated in Diagram 7. The cover of the magnet may be opened by inserting a small screwdriver in the slot on its back and prying it open. Special mounting legs are provided (see Dia. gram 8) which can be used, if needed, to mount the magnet securely on the frame in relation to the transmitter. No. 1887 Gas Detector Transmitter 1. The “pertic” channel of the No. 1884 (or the single channel of the No. 1680, If so pro. gmmmed) will respond to alarm signals from this transmitter. 2. For information on proper placement see the instructions mounting template is included in the No. 1887’s instructions. that accompany the No. 1887. A 3. The unit’s line cord should be plugged Into a continuously powered llOV, 60Hz wall outlet (not controlled by a wall switch). The unit does not contain a battery. 4. Normally the unit’s POWER ON LED will be lit, indicating power is available and (2 to 4 minutes after power is supplied) the READY LED will be llf indicating the detector is ready to sense gas leaks (natural or LP gas). Note: Upon lnlttal power-up, an additional 1 to 2 minutes may be necessary after READY LED comes on before unit becomes fully operational. 5. When the presence of gas activates the unft, Its built-In horn sounds steadily and Its bull&in transmitter sends a panic alarm signal continuously to the receiver until the gas has been cleared from the sensor. 564 573 www.PDF-Zoo.com 6: B the detocto~s gas aenaor falir during opemtllan, the unit will sound a periodtc trouble “BEEP” without triggering the receiver. Should this occur, the gas detector should be disconnected and returned to Ademco for service (after a Return Authorization Number is first obtained from the nearest Ademco Distribution Center). 7. The unit should be tested at least weekly by depressing the test button located near the center of the cover fore few seconds. The unit’s horn will sound and an alarm signal will be transmitted to the receiver. No. 1889 Smoke Detector Tmnsmitter 1. The “fire” channel of the No. 1684 (or the single channel of the No. 1680, if so programmed) will respond to alarm signals from this transmitter. 2. For information on propsrpiacsmen~ see the instructions that accompany the No. 1669. 3. Normally, ths unit’s LED flashes every minute to indicate the battery is good and the circuitry is functioning properly. 4. When fire or smoke activates the unit. its built-in horn sounds continuously, its LED lights steadily and its built-in transmitter sends an alarm signal continuously to the receiver until the fire or smoke condition clears. 5. if the battery weakens, the unit’s horn will “beep” once a minute as the LED flashes. No low battery signal will be sent to the receiver. 6. The unit should be tested (prefembiy weekly) by pressing its test switch/LED momentarily. The alarm will sound, the LED will light and an alarm signal will be transmitted to the receiver. I IMPORTANT Be sure to notify the central monitoring station, if any, before condu’cting any system test. 565 574 www.PDF-Zoo.com 1 1 TROUBLESHOOTING Problem I: TRANSMIHED : SIGNAL NOT RECEIVED Remedy Cause 1A. Transmitter powered. or receiver not 1A. Check transmitter’s battery and/or receiver power. Check No. 1687’s power cord for Insertion in live outlet. properly 18. Transmitter and receiver not set to same code. 18. Check code switches and receiver. inside transmitter 1C. Receiver’s antenna not extended enough or in wrong position. 1C. Make sure antenna is not coiled up but extended. Move antenna to different position for better reception. 10. Transmitter located too far from receiver. 1D. Move transmitter closer to receiver. 1E. Dead battery. 1E. Change transmitter battery. 1F. Metal shielding between transmitter and receiver. IF. Check for shielding, transmitter, if necessary. 1G. Transmitter malfunctioning. 1G. Verify by activating receiver with another similar transmitter. Return transmitter for service if not functioning (see IMPORTANT NOTE at end of this section). 1H. Receiver malfunctioning. 1H. Verify by making sure other similar transmitters cannot activate receiver. Return receiver for service if found not functioning (see IMPORTANT NOTE at end of this section). then relocate Problem 2 FALSE ALARM Cause Remedy 2A. Sensors not properly installed or connections bad. 2A. BURGLARV: Check wired circuits on each transmitter. PANIC: Be sure panic transmitter’s button is not accidentally pressed or, if money clip is being used, be sure bill is piaced properly on the switch and under the clip. If a gas detector is being used, be sure it is placid in an area where it will not false trigger (see instructions with gas detectors). FIRE: Be sure the smoke detectors are Placed in areas where they will not false trigger (see instructions with smoke detectors). Assure that all No. 168lDC “burglary” transmitters have their jumpers cut to s‘elect “burglary” channel reporting. 28. Check neighbors. Free space (no obstruction) range of system can be 300 feet. Change code if necessary. 28. Nearby neighbor has same equipment on same house code. 2C. Not a common occurrence. Unlikely to repeat. Change code if necessary. 2C. Atmospheric disturbance. 566 575 www.PDF-Zoo.com Problem 3: INTRUSION ALARM, NO APPARENT CAUSE Cause 3A. Locate and close. 3A. Protected door or window open. 38. Sensing circuit with corporated is intermittent. Remedy switches 38. Check sensing circuits to transmitters make sure none are intermittent. in- to 3C. Check all openings for proper switch and 3C. Magnets located too far from switches, or magnet orientation. doors and windows improperly aligned. Problem 4: REPEATED LOW BATTERY SIGNAL (Nos. 1681,1683,1686) Remedy Cause 4A. Transmitter located drops below 32°F. where temperature 48. Poor quality or non-specified transmitter. 4A. Move transmitter to climate controlled location and extend sensing circuit to protect the opening. 48 Check battery. Use only Eveready No. 522 or Mallory Duracell No. 1604 alkaline batteries or Eveready 216 or 1222 carbon zinc batteries. battery in 4C. Return faulty transmitter for service (see IMPORTANT NOTE at end of this section). Problem 5: SINGLE LOW BATfERY SIGNAL (DOES NOT REPEAT EACH MINUTE) Remedy Cause 4C. Transmitter malfunctioning. 5A. Replace transmitter’s battery. 5A. Marginal strength battery in door or window transmitter results in single “pre warning” low battery signal upon closure of door or window. Problem 6: LOW BATTERY SIGNAL TRANSMITTED, BUT RECEIVER NOT SOUNDING THIS CONDITION Remedy Cause 6A. Check all wiring. Check No. 766 (or No. 8261) separately to be sure it is functioning. 6A. Wires to No. 706 (or No. 8281) sounding device not connected properly. Problem 1: LOW BATTERY SIGNAL SOUNDS, BUT ITCANNOT BE SILENCED Remedy Cause 7A. Check wire connections to No. 664 and, if necessary, check switch action separately. 7A. No. 664 switch not installed properly. 78. Return receiver for service (see IMPORTANT NOTE at end of this section). Problem 8: ALARM OUTPUT LATCHES, BUT LATCHING JUMPER NOT CUT Remedy cause 78. Receiver malfunctioning. 8A. Press No. 664’s switch (if used) or momentarily short receiver terminals 3 and 12. 8A. When power first applied to receiver, output relay(s) may latch. IMPORTANT NOTE Before any equipment is returned to Ademco for service, a Return Authorization should first be obtained from the nearest Ademco Distribution Center. 567 576 www.PDF-Zoo.com Number RECEIVERS (Nos. 1680,16&t) Physical (Approximate Dimensions): 6%” 3%” 1%” Width: Height: Thickness: (17.5 cm) ( 9.8cm) ( 3.2cm) Electrical: 6 to 12V. DC, filtered, regulated. 35 ma normal (nominal), pltis, For No. 1680: 50 ma on alarm (85 ma total alarm current) For No. 1684: 50 ma per channel alarmed (185 ma total full alarm current). Voltage: Current: Note: No. 706 Mini-Howler draws 15 ma while sounding. No. 8261 Buzzer draws 10 ma max. while sounding. output 1 AMP at 28V. DC Relay 0.5 Amp at 12OV.AC Contacts: Low Battery Buzzer Output: 5V.DC MAX. into 1,000 ohms Min. Load. Low Battery LED Indicator Output: 5V. DC MAX. into 10,OOQohms Min. Load. TRANSMITTERS PhysIcal (Approximate Dimensions) No. 1661DC or 1685 No. 1682 No. 1683 2!5” ( 6.4 cm) 4%” (12.4 cm) %*( 3.0cm) 2%” ( 6.4 cm) 4%“(11.1 cm) lZ@( 3.2cm) 2%” ( 6.4 cm) 6#“(15.9cm) I%“( 2.9cm) Width: Height: Thickness: Electrical: Range (Nominal): Loop Response: LOOP Resistance: No. 1689 6%” (15.9 cm) l%“( 2.8t.m) - No. 1687 3%” ( 9.8 cm) 72” (19.0 cm) I%“( 4.8cm) 9V alkaline 9V carbon-zinc 9V carbon-zinc 9V carbon-zinc 120V. AC or alkaline or alkaline battery or alkaline 6OHZ battery battery Eveready 522 Outlet battery Eveready 216, Eveready 216, Eveready 2l6, Mallo~“MNl 604 1222, or522; 1222, or 522; 1222, or 522; Mallory MN1604 Mallory MN1604 Mallory MN1604 100 ft. 75 ft. 100 ft. 100 ft. lOOft. 15msec. (1681 DC) 300 ohms NIA N/A NIA NtA N/A NIA NIA NIA TO THE INSTALLER Regular maintenance by the installer and frequent testing by the user is vital to continuous satisfactory operation of any alarm system. The installer should assume the responsibility of developing and offering a regular maintenance program to the user as well as acquainting the user with the proper operation and limitations of the alarm system and its component parts. Recommendations must be included for a specific program of frequent testing to insure the system’s proper operation at all times. 568 577 www.PDF-Zoo.com / II3 CONTAINS TEitMlNALS FOR CLOSED LOOP (SEE DIAGRAM 6). CONTAINS TERMINALS FOR SHUNTSWiTCH OR (IN LIEU OF MAGNET) CLOSED LOOP. TEST SWITCH/LED: NOlEz LED NORMALLY FLASHES EVERY MINUTE. MAGNEf: MOUNTS ON DOOR FRAME. LED LED TRANSMITTER: MOUNTS ON DOOR No. 1681DC Wlndow Tmnsmltter No. 1685 uoor 1mnsmitter No. 1689 Smoke Detector Transmitter 4 , No.766 OPTIONAL, BUT RECOMMENDED No. 1680 RECEIVER (SINGLE CHANNEL) OR No. 1684 RECEIVER (THREE CHANNEL) FOR CONNECTIONS DIAGRAMS 4 and 5 SEE I No. 664 RESETSWITCH AND LOW BAmRY LED “READY” d PANIC LED PUSHBUTTON: Portable Panic Tmnsmitter No. 1687 Money Clip Transmitter Diagmm 1: TELSTAT WIRELESS SYSTEM 569 578 www.PDF-Zoo.com Gas Detector Transmitter COVER PRY-OFF SLOlTED HOLE FOR OPTIONAL MOUNTING. LED COVER FOR ACCESS TO DIGITAL CODING ypl , I DIGITAL CODING SWITCH - INSIDE _.__.-_ UNIT Nos. 1681 DC Window and 1665 Door Transmitters No. 1682 Portable Panic Transmitter (viewed from rear) TEST BUTTOP DIGITAL BILL RETAINER TO DlGlTAL CODING SWITCH Money Clip Transmitter No. 1689 Smoke Detector Transmitter (cover removed) NO. 1683 For No. 1687 Gas Detector Transmitter: See Diagram 1 For Nos. 1880,1884 Receivers: See Diagrams 4.5 Diagram 2: TRANSMITTER CODING SWITCH AND SAmERY LOCATIONS 570 579 www.PDF-Zoo.com USE PENCIL, PAPER CLIP OR OTHER POINTED OBJECT TO SET EACH KEY “ON” OR “OFF.” ON SIDE VIEW MODEL 1082 NOTES: 1. Receiver and Transmitter(s) must be Identically coded. 2. For switches shown, keys 1, 2, 3, 5, 6, 7, 8, are “on”, key 4 Is ‘off”. Diagram 3: DIGITAL CODING SWlTCH 571 580 www.PDF-Zoo.com LATCHING JUMPER: CUT FOR LATCHING ALARM OUTPUT. ALARM RELAY NORMALLY RESPONDS TO PANIC, FIRE AND BURGLARY TRANSMITTERS. CUT JUMPER(S) TO ELIMINATE RESPONSE TO FIRE AND/OR PANIC TRANSMITTERS. CUT APPROPRIATE / JUMPER FOR DESIRED DRY OUTPUT. 120’ ANTENNA (SUPPLIED): EXTEND OUTSIDE OF CABINET. (See ‘%aceiver Antenna” section in text.) CABINET ALARM REL@Y DRY OUTPUfs: CONNECT TO CONTROL PANEL, e COMMUNICATOR, etc. ‘Optional, but recommended, for tmnsmlttef low battey annunciation. (No. 664 Is needed for reset If latchlng jumper is cut.) Dlagmm 4: No. 1880 RECEIVER: PROGRAMMING AND CONNECTIONS 572 No. 706’ (or No. 8261 Buzzew) 581 www.PDF-Zoo.com H I rillNG JUMPER: CUT FOR LATCHING bl *mu nn,rs,,rc -GRN (Jj) DIGlTAL CODING SWITCH ALARM RELAYS 1. TERMINALS CLOSED NORMALLY OPEN NORMALLY ALARM RELAYS’ CONTACT PROGRAMMING JUMPERS. CUT ONE OF EACH COLOR FOR DESIRED CHANNEL DRY OUTPUTS, AS INDICATED. 129’ ANTENNA (ISUPPUED): EKTEND OUTSIDE OF CABINR. (Sea “Recdver Antenna” section in text.) 1 PROGRAMMING 1 [ CONNECTIONS CABINET 1 ALARM RELAY DRY OUTPUTS: &T? “------jjf CONNECT TO CONTROL PANEL COMMUNICkiT& etc.------’ ) ‘Optional, i i Pttsry but recommended, for transmitter low annunciation. No. 664 is needed for reset if latching jumper is cut.) No. 706’ (or No. 8281 Buzzor) e-i2V. DC, FILTERED, REGULATED Diagram k No. 1684 RECEIVER: PROGRAMMING AND CONNECTIONS 573 582 www.PDF-Zoo.com TO EUWINATE REPEATED TRANSMISSIONS SHOULD UNIT REMAIN DISTURBED, PRY OPEN CIRCUIT .BOARD GUARD ALoNG THIS EDGE AND CUT AWAY RB RESISTOR, DIRECTLY I BEHIND THIS TERMINAL \ COVER MAGNETlC REED CO BUILT INTO No. 1685 IMPORTANT: ROUTE WIRES ONLY AS SHOWN. TO CLOSED CIRCUK CONTACT(S) FOR No. 16BlDC (OR 1885. IF USED IN LIEU OF MAGNET) OR SHUNT LOCK FOR No. 1685 (IF USED, SEE TEXT). Diagram B: Nor. 1661DC. 1685 TRANSMmERS MAGNET / MAXIMUM SPACE ON DOD OR METAL DOOR Diagram 7: LOCATING NO. 1esS DOOR TRANSMlmER 574 583 www.PDF-Zoo.com / OPENING SLOT MOUNTING LEGS MAGNET WITH COVER OPEN MAGNET r\ :, MOUNTINGLEGS 11 MAGNET MOUNTED ON FRAME Dlagmm B: MAGNET for No. 1685 DOOR TRANSMITTER 575 584 www.PDF-Zoo.com HOLD TEMPLATE WITH LINE AT THE TOP EDGE OF DOOR (No. 1685 Door Transmitter ONLY). MARK SCREW HOLE POSlTlONS IScrew ’ Holes, 1” I I I OUTLINE TRAN&TER A I Dbgmm 0: MOUNTING TEMPLATE for Nos. 168lDC and 1686 TRANSWllERS 576 585 www.PDF-Zoo.com