Ademco WLKFWM Wireless Receiver User Manual 62 0291 D
Honeywell International Inc Wireless Receiver 62 0291 D
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user manual
TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR INSTALLATION INSTRUCTIONS FEATURES • Wall module to Receiver (point to point) wireless kits can replace any standard wired sensor • Wireless Kits (wall module and receiver) are pre-bound at the factory for quick installation • Signal Strength LED built into the wall module • Low battery indication • Optional dip switches available to bind any wall module to any receiver • Approximate 5 year battery life with AA Alkaline (included), 7.5 year with Lithium • Locking screw discourages tampering and battery theft. APPLICATION The WRECVR receiver and TR21-WS, TR23-WS, TR21-WK, and TR23-WK are a family of wireless wall modules and receiver for use with: — Spyder Unitary Controllers: PUL, PVL, etc. — Excel 10 W7750, W7751, W7752, and W7753 controllers — T7350, T7351, and TB8575 low-voltage SuitePRO™ thermostats — Will not work with TB7220, TB8220 or TB line voltage thermostats, XL15s, W7762, W7763 or certain other XL controllers, — Will work with WEBs-AX™ I/O Module products if using a separate transformer — Compatibility with various other non-Honeywell controllers that accept 10K type2 NTC temperature inputs NOTE: Refer to the TR21 and TR23 Wall Modules – Specification Data, form 63-1332, for specific model features and additional information. Model No. FCC/IC ID’s TR21-WS TR21-WK TR23-WS TR23-WK FCC ID: HS9WLKFWM IC: 573R-WLKF TR21-WSU TR23-WSU WRECVR WRECVRU FCC ID: HS9WLKFRV IC: 573R-WLKF SPECIFICATIONS Models: For specific model information, see Specification Data, form 63-1332. Environmental Ratings: • Wall Module Operating Temperature: 45° to 99°F (7° to 37°C). • Receiver Operating Temperature: -40° to 150°F (-40° to 65.5°C). • Storage Temperature: -40° to 150°F (-40° to 65.5°C). • Operating Humidity: 5% to 95% RH (non-condensing) Accuracy: +/- 1ºF (+/- 0.5ºC) across 12ºC to 30ºC Setpoint Range for TR23: 56° to 84°F (13° to 29°C) Accessories: 50007298-001 (pack of 12) medium, cover plate; 6-7/8 x 5 in. (175 x 127 mm). Power: Receiver Voltage: 20 – 30VAC/DC, 50/60Hz; 24VAC typical Housing: • Wall Module: UL94-HB • Receiver: UL94-5VA Radio Frequency 2.4 GHz (IEEE Std 802.15.4-2003 compliant) • Open Range: 3000 feet • Typical Range: 100 feet • Output power: 16dBm • Receiver power consumption: <1.5 VA@24VAC 62-0291-07 TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR INSTALLATION Approximate battery life under normal operating conditions: • 5 years with two AA Alkaline batteries (included) • 7.5 years with two AA Lithium Batteries Transmission interval: 30 seconds Pressing override button or signal strength button will force an immediate transmission. Approvals: This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions: 1) this device may not cause harmful interference, and 2) this device must accept any interference received, including interference that may cause undesired operation. CAUTION Erratic System Operation Hazard. Failure to follow proper wiring practices can introduce disruptive electrical interference (noise). Keep wiring at least one foot away from large inductive loads such as motors line starters, lighting ballasts, and large power distribution panels. Shielded cable is required in installations where these guidelines cannot be met. Ground shield only to grounded controller case. IMPORTANT All wiring must comply with local electrical codes and ordinances or as specified on installation wiring diagrams. — Receiver wiring can be sized from 16 to 22 AWG (1.31 to 0.33 sq. mm) depending on the application. — The maximum length of wire from a device to a receiver is 100 ft. (30.5 m). Mounting the Receiver 3-13/64 (81) 24VAC EGND LOW BAT COM OVERRIDE 5-1/2 (140) TEMP 2-13/64 (56) SETPT 2-25/32 (71) POWER 5-3/32 (129) RFSignal CONTROLLER SELECTION S1 ON S2 DEVICE S3 ON ON 1 2 3 4 5 6 ON ON ON 1 2 3 4 5 6 1 2 3 4 5 6 M29049 Fig. 1. Receiver dimensions in in. (mm). The receiver can be mounted on any surface using screws (No. 6 or No. 8) appropriate for the mounting surface. The receiver can also be mounted to the Spyder controller using the mounting slots and tabs (dovetails), and can be mounted to a DIN rail. 62-0291—07 TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR Mounting the Wall Module Mount the wall module on an inside wall approximately 54 in. (1372 mm) from the floor (or in the specified location) to allow exposure to the average zone temperature. Do not mount the wall module on an outside wall, on a wall containing water pipes, or near air ducts. Avoid locations that are exposed to discharge air from registers or radiation from lights, appliances, or the sun. When mounting to drywall, use the horizontal mounting screw locations, as shown in Fig. 3. 70 Improper Electrical Contact Hazard. Screw type terminal blocks are designed to accept no more than one 16 AWG (1.31 sq. mm) conductor. Connect multiple wires that are 16-18 AWG (1.31-0.82 sq. mm) with a wire nut. Include a pigtail with this wire group and attach the pigtail to the individual terminal block. STANDARD UTILITY CONDUIT BOX (2 X 4) MOUNTING HOLES 7/8 (22) 4-11/16 (119) 2-3/8 (60) 80 60 WIRING CAUTION 7/8 (22) Wire the terminal block as follows: 1. For single wires, strip 3/16 in. (5 mm); for multiple wires going into one terminal, strip 1/2 in. (13 mm) insulation from the conductor. 2. If two or more wires (18 to 22 AWG only) are being inserted into one terminal, twist the wires together before inserting. 9/16 (14) 1-5/32 (29) For TR23 models, insert the desired dial through the opening in the cover. Align the keyed shaft on the knob with the keyed slot into the fitting on the subbase, then press down until it snaps into place. Attach the wires from the device terminals to the appropriate receiver terminals. 3 (77) 63/64 (25) If desired, insert the two red end stoppers into temperature scale to set the desired temperature range limit. See Fig. 3. 2-3/8 (60) M29050 NOTE: When two or more wires are being inserted into one terminal, be sure to twist them together. Deviation from this rule can result in improper electrical contact. See Fig. 4. Fig. 2. Wall Module subbase dimensions in inches (mm) (TR23 shown). 3. WALL 4. SUBBASE Insert the wire in the required terminal location and tighten the screw to complete the termination. Review and verify the terminal connection wiring and DIP switch settings. NO. 6 SCREW FRONT COVER 1/2 (13) TEMPERATURE LIMIT END STOPPER LOCATIONS 1. STRIP 1/2 IN. (13 MM) FROM WIRES TO BE ATTACHED AT ONE TERMINAL. CONTROLLER OR RECEIVER E-BUS CONNECTOR TERMINALS END STOPPERS M29054 2. TWIST WIRES TOGETHER WITH PLIERS (A MINIMUM OF THREE TURNS). Fig. 3. Mounting the wall module on the wall and temperature limit set screw locations (TR23 shown). 3. CUT TWISTED END OF WIRES TO 3/16 IN. (5 MM) BEFORE INSERTING INTO TERMINAL AND TIGHTENING SCREW. THEN PULL ON EACH WIRE IN ALL TERMINALS TO CHECK FOR GOOD MECHANICAL CONNECTION. M29055 There is a locking screw option to prevent tampering and access to batteries. The screw is provided with the wall module, and screws into the slot shown in Fig. 9 after the device is snapped onto the subbase. Fig. 4. Attaching two wires (18 to 22 AWG) to receiver terminals. 62-0291—07 8 TEMP EM SETPT LOW BAT OVERRIDE EGND COM AC 24VAC TEMP SETPT EGND COM 24VAC OVERRIDE LOW BAT Fig. 6. Wiring receiver to Spyder Unitary Controller. DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM AO-1 COM AO-2 AO-3 COM DI-1 DI-2 COM DI-3 DI-4 20V DC UI-1 COM UI-2 UI-3 COM UI-4 UI-5 COM UI-6 TEMP EM SETPT EGND COM AC 24VAC OVERRIDE LOW BAT EGND COM 24VAC OVERRIDE LOW BAT TEMP SETPT COM EARTH OUT 1 OUT 2 LED BYPASS SENSOR GND SET PT 24 VAC 11 10 E-BUS 12345678 WALL MODULE 62-0291—07 NOT EARTH GROUND MICROBRIDGE DP SENSOR 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR W7751H TRIAC EQUIVALENT CIRCUIT 12 POWER M29051 Fig. 5. Wiring receiver to Excel 10. 22222222233333333334 12345678901234567890 11111111112 901234567890 POWER M29052 TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR AC 24VAC 24VAC COM EGND COM EGND LOW BAT OVERRIDE TEMP SETPT NOTE 1. WHEN USING THE WIRELESS TR23 SENSOR WITH THE T7350 BE SURE TO USE THE RELATIVE SCALE SETPOINT KNOB. OVERRIDE SETPT LOW BAT Y1 W1 AUX RC RH Y2 W2 AS AS OS OS T3 T4 T7 T6 T5 TEMP EM SUBBASE POWER NOTE 2. WHEN USING THE WIRELESS TR21 SENSOR WITH THE T7350, DO NOT WIRE TERMINAL 5 AND TERMINAL 6. M28646 Fig. 7. Wiring receiver to T7350 thermostat. DIP Switch Labels This device is packed with tear-off DIP switch labels you can attach to the receiver and indicate which DIP switches are on and off. POWER RFSignal ON CONTROLLER SELECTION S1 ON ON 1 2 3 4 5 6 ON 1 2 3 4 5 6 DEVICE ON ON ON S2 S3 1 2 3 4 5 6 ON 1 2 3 4 5 6 1 2 3 4 5 6 S3 DIP S1 DIP M29053 S2 DIP Fig. 8. Wall module DIP switches and Receiver DIP switches S1, S2, and S3. Figure shows an example of sensor DIP switches matching S2 and S3 DIP switches on receiver. TESTING FOR SIGNAL STRENGTH diameter probe with flat or rounded face (a common paperclip will do) (see Fig. 9). This may be required to initiate communication when replacing a wall module. When the receiver is powered and batteries are placed in the wall module, communication will begin automatically within 2 seconds. The receiver RF signal light will flash every 30 seconds to confirm each transmission. You can force immediate communication by pressing the signal strength button on the side of the wall module with a 1-1.6 mm The signal strength LED next to the signal strength button will light up on the side to show the relative signal strength. The signal strength LED will initially light amber when the signal strength button is pressed to verify that you are pressing the signal strength button. When you release the signal strength button, the light will behave as shown in Table 1. 62-0291—07 TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR remove and re-install one battery, leaving it out for 10 seconds OR you can initiate communication by pressing the signal strength button on the sensor (using paperclip). Each wireless kit has a unique binding, so even though multiple wireless kits have S2 and S3 switches all in the OFF position, each device will only communicate to the device to which it was paired and shipped as a kit. TEMPERATURE DIAL, FAHRENHEIT DIAL SHOWN 70 60 80 LED BYPASS (OVERRIDE) BUTTON LOCKING SCREW SLOT SIGNAL LED SIGNAL STRENGTH BUTTON DIP switches S2/S3 are provided for two reasons: M29048 Fig. 9. Wall module features (TR23 shown). Table 1. Signal Strength LED. LED Signal Strength Remains Green for 5 seconds Strong Remains Amber for 5 seconds Weaker (still acceptable) Amber blinks for 5 seconds There may be times when you want to bind a receiver to a wall module using the DIP switches. This is done simply by matching any S2/S3 DIP switch settings on the receiver with the DIP switch settings on the wall module. Wall modules in close proximity must have different DIP switch settings (except when modules are using the all-OFF default binding). No signal If no signal is received, test the wall module in a different location until a suitable signal strength is received by the receiver. Pressing the signal strength button on the wall module will cause a five-second flash on the RF signal LED on the receiver, and pressing the override button will cause a single flash on the receiver. If communication is lost between the wall module and receiver, the receiver will try three times to reestablish communication. After 3 tries (90 seconds), the receiver will go into a sleep mode, and will retry to communicate every 10 minutes. Output from the receiver will be an open circuit for temperature and setpoint output (simulating cut wires on a wired sensor). Communication will re-establish automatically once signal is within range. • If the wall module needs to be replaced, a TR21-WS or TR23-WS wall module can be purchased. To bind any wall module and receiver, simply set the DIP switches S2/S3 on both the receiver and the wall module to any matching DIP configuration. To prepare for this ahead of time, the receiver and wall module in the WK kit can be set with a matching dip switch configuration when mounted. The tear off tab on the receiver allows the installer to write down the on/off DIP configuration. Then the new wall module’s DIP switches can be set by matching the old wall module’s DIP switches, without having to set or check the DIP switches on the receiver. • If wall modules and receivers get mixed up in the field (even though they are marked with matching numbers from the factory), DIP switches can be used to bind any wall module to any receiver simply by matching the S2/S3 DIP switches. If setting DIP switches, be sure that each wireless sensor/receiver pair in a given building has a unique DIP switch setting to prevent cross-talk. Fig. 8 shows matching DIP switch settings binding the wall module and receiver. Controller Matching The TR21 and TR23 wireless wall modules can be used with many different controllers. The S1 switch on the receiver can be set for a number of different controller requirements. See Table 2 for DIP switch settings, and see Table 3 for a description of the controller. BINDING THE WALL MODULE AND RECEIVER TO EACH OTHER Table 2. S1 DIP Switch Settings. S1 DIP Switches Controller The TR21-WK and TR23-WK wireless kits include a wall module and receiver that have already been bound in the factory to automatically communicate with each other. They can be identified as matching by the identical bind numbers printed on the labels. The S2 and S3 DIP switches on the receiver (used to bind the two devices) and the 12 DIP switches on the wall module will all be in the OFF position. As soon as power is applied to the receiver and the batteries are installed in the wall module, the two devices start to talk to each other. If the two devices don’t communicate immediately, 62-0291—07 1. Spyder/ComfortPoint ON OFF OFF OFF OFF OFF 20Kohm, XL10 2. XL600, 500, 100, 80 OFF ON OFF OFF OFF OFF 3. 10K type 2, 3-wire ON ON OFF OFF OFF OFF 4. 10K type 2, see I&I OFF OFF ON OFF OFF OFF 5. 10K type 2, 4-wire ON OFF ON OFF OFF OFF 6. 10K type 2, 3-wire OFF ON ON OFF OFF OFF TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR Table 3. Controller Descriptions. Controller Description 1. Spyder/ComfortPoint Default setting. For use with Spyder and Comfort Point 20K ohm controllers 20Kohm, XL 10 For use with XL10 VAV, W7750, W7751, etc. 2. Honeywell Other For use with XL600/500/100. 3. 10K type 2 10K ohm NTC type 2 output, 2K-3K ohm knob span: • Common • Temperature (Override button temporarily shorts the temperature output) • Setpoint 4. 10K type 2 10K ohm NTC type 2 output, 1K -11K ohm knob span. 5. 10K type 2 10K ohm NTC type 2 output, 0-10K ohm knob span: • 10K out • Common (for temperature, override, and setpoint) • Override • Setpoint 6. 10K type 2 (ComfortPoint 10K ohm controllers) 10K ohm NTC type 2 output, 0-9500 ohm knob span: • Common • Temperature (Override button temporarily shorts the temperature output) • Setpoint Low Battery Signal When there are approximately 2 months of battery life remaining, the LED on the front of the wall module (next to the Override button) will flash red every 15 seconds. In addition, the LOW BAT digital output from the receiver will close. This LOW BAT output signal can be sent to an unused DI on the controller to let the user know that there is a low battery condition. Replace the batteries whenever the LOW BAT contact closes, or flashing red light is seen next to the Override LED on the face of the wall module. Normal operation will automatically resume. NOTE: If the batteries go dead, the LOW BAT digital output (open/close) signal will open again. The LOW BAT digital output will close only when batteries are running low, not when they are completely dead, or are not installed. This ensures that a lack of signal is not confused with dead or missing batteries. Whenever there is no signal, or batteries have gone completely dead, the receiver LOWBAT output will send an open circuit reading to the controller for temperature (and set point, if applicable). Override Button To save battery life, the override button LED will only light when the button is pressed. It will not remain lit, as on standard wired TR23 and TR24 models. Override will still be activated when the button is pressed. If using with the XL10, pressing and briefly holding the override button will cause it to behave like other standard wired TR23s. The LED will remain lit for 9 seconds max. to confirm it has been pressed from 1-4 seconds. REPLACING A WALL MODULE When replacing a wall module, set the DIP switches the same as the wall module being replaced. If the previous wall module DIP switches are all set to OFF, it will be necessary to reset the S2 and S3 receiver dip switches to any configuration not being used by other receivers in the area, and then set the wall module DIP switches to the same setting. At least one of the 12 DIP switches must be set to the ON (up) position. General Rules for Installing Wireless Wall Modules Communication between the wall module and receiver can be influenced by a number of factors. Type and thickness of building materials and the way in which they are oriented in relation to the wall module and receiver will affect communication. Do not place either the wall module or receiver inside metal cabinets or enclosures.Try to orient the wall module and receiver so that if they are separated by a wall(s), the direction of signal travel is as perpendicular to the wall(s) as possible. This reduces the effective wall thickness. When mounting the receiver on a metal duct, stronger communication is possible if the wall module is on the same side of the duct so the signal doesn’t need to travel through the metal duct. Reduce as much as possible the amount of metal (ducts, file cabinets, etc.) between the sensor and the wall module. Standard drywall (gypsum board) does not greatly affect signal strength. For the most robust wireless link, install the wall module in locations with the strong signal (Green light as described in Table 1). 62-0291—07 TR21-WS, TR23-WS, TR21-WK, TR23-WK, WRECVR Warning: Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. LONWORKS® is a registered trademark of Echelon® Corporation. LONMARK® and the LonMark Logo are trademarks of the LonMark Association. Automation and Control Solutions Honeywell International Inc. Honeywell Limited-Honeywell Limitée 1985 Douglas Drive North 35 Dynamic Drive Golden Valley, MN 55422 Toronto, Ontario M1V 4Z9 customer.honeywell.com ® U.S. Registered Trademark © 2009 Honeywell International Inc. 62-0291—07 E.K. Rev. 06-09
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