COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS 3 63-2686—02 Table 2. Universal input circuit specifications. BEFORE INSTALLATION The controller is available in eight models (see Table 1).
ComfortPoint Programmable Lon, VAV/Unitary Controllers PRODUCT DATA PRODUCT DESCRIPTION ComfortPoint product line family. The eight controllers are Free Topology Transceiver (FTT) LONMARK®-compliant devices designed to control HVAC equipment. These controllers provide many options and advanced system features that allow state-of-the-art commercial building control. Each controller is programmable and configurable through software. These controllers are for use in VAV (Variable Air Volume) and Unitary HVAC control applications. Each controller contains a host micro controller to run the main HVAC application and a second micro controller for LONWORKS® network communications. Each controller has flexible, universal inputs for external sensors, digital inputs, and a combination of analog and digital Triac outputs. The eight models are described in Table 1. The photo to the left is of the model CP-VL6436AS, which includes the actuator. The CP-UL1012S, CP-UL4024S, CP-UL6438S, CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS controllers are part of the Table 1. Controller configurations. Controller Model CP-UL1012S CP-UL4024S CP-UL6438S CP-VL0000AS CP-VL4022AS CP-VL4024NS CP-VL6436AS CP-VL6438NS Programmable Type Unitary Unitary Unitary VAV VAV VAV VAV VAV Universal Inputs (UI) 1a 4a 6 0 4a 4a 6 6 Digital Inputs (DI) 0 0 4 0 0 0 4 4 Analog Outputs (AO) 1 2 3 0 2 2 3 3 Digital Outputs (DO) 2 4 8 0 2 4 6 8 Velocity Pressure Sensor (Microbridge) NO NO NO YES YES YES YES YES Series 60 Floating Actuator NO NO NO YES YES NO YES NO a One Universal Input (UI-1*) is user selectable as a fast digital pulse meter. Each controller communicates via the 78 kbps Echelon® LONWORKS® Network, using the FTT-10A LONWORKS® interface, and is LONMARK® compliant. Controllers are field-mountable to either a panel or a DIN rail. Contents Product Description .......................................................... 1 Specifications ................................................................... 2 Installation ........................................................................ 3 Checkout .......................................................................... 21 Controller Replacement .................................................... 22 63-2686-02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS SPECIFICATIONS General Specifications Rated Voltage: 2030 Vac; 50/60 Hz Power Consumption: 100 VA for controller and all connected loads (including the actuator on models CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS) Controller Only Load: 5 VA maximum; models CP-UL1012S, CP-UL4024S, CP-UL6438S, CP-VL4024NS, and CP-VL6438NS Controller and Actuator Load: 9 VA maximum; models CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS External Sensors Power Output: 20 Vdc ±10% @ 75 mA maximum VAV Operating & Storage Temperature Ambient Rating (models CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS): Minimum 32° F (0° C); Maximum 122° F (50° C) Unitary Operating & Storage Temperature Ambient Rating (models CP-UL1012S, CP-UL4024S, and CP-UL6438S): Minimum -40° F (-40° C); Maximum 150° F (65.5° C) Relative Humidity: 5% to 95% non-condensing LED: Provides status for normal operation, controller down- load process, alarms, manual mode, and error conditions Velocity Pressure Sensor (models CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS only) Operating Range: 0 to 1.5 in. H2O (0 to 374 Pa) Series 60 Floating Actuator (CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS) Rotation Stroke: 95° ± 3° for CW or CCW opening dampers Torque Rating: 44 lb-in. (5 Nm) Run Time for 90° rotation: 90 seconds at 60 Hz Operating Temperature: -4 F to 140 F (-20 to 60 C) Real Time Clock Operating Range: 24 hour, 365 day, multi-year calendar including day of week and configuration for automatic daylight savings time adjustment to occur at 2:00 a.m. local time on configured start and stop dates Power Failure Backup: 24 hours at 32 to 100° F (0 to 38° C), 22 hours at 100 to 122° F (38 to 50° C) Accuracy: ±1 minute per month at 77 F (25 C) Digital Input (DI) Circuits Voltage Rating: 0 to 30 Vdc open circuit Input Type: Dry contact to detect open and closed circuit Operating Range: Open circuit = False; Closed circuit = True Resistance: Open circuit > 3,000 Ohms; Closed circuit < 500 Ohms Digital Triac Output (DO) Circuits Voltage Rating: 20 to 30 Vac @ 50/60Hz Current Rating: 25 mA to 500 mA continuous, and 800 mA (AC rms) for 60 milliseconds Analog Output (AO) Circuits All three analog outputs must be configured for either current or voltage. Configuring analog outputs individually for current or voltage is not possible. ANALOG CURRENT OUTPUTS: Current Output Range: 4.0 to 20.0 mA Output Load Resistance: 550 Ohms maximum ANALOG VOLTAGE OUTPUTS: Voltage Output Range: 0 to 10.0 Vdc Maximum Output Current: 10.0 mA Analog outputs may be configured as digital outputs and operate as follows: False (0%) produces 0 Vdc, (0 mA) True (100%) produces the maximum 11 Vdc, (22 mA) Universal Input (UI) Circuits See Table 2 for the UI circuit specifications. ORDERING INFORMATION When purchasing replacement and modernization products from your TRADELINE® wholesaler or distributor, refer to the TRADELINE® Catalog or price sheets for complete ordering number. If you have additional questions, need further information, or would like to comment on our products or services, please write or phone: 1. Your local Honeywell Automation and Control Products Sales Office (check white pages of your phone directory). 2. Honeywell Customer Care 1885 Douglas Drive North Minneapolis, Minnesota 55422-4386 In Canada--Honeywell Limited/Honeywell Limitée, 35 Dynamic Drive, Toronto, Ontario M1V 4Z9. International Sales and Service Offices in all principal cities of the world. Manufacturing in Australia, Canada, Finland, France, Germany, Japan, Mexico, Netherlands, Spain, Taiwan, United Kingdom, U.S.A. 63-2686--02 2 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS Table 2. Universal input circuit specifications. Input Type Sensor Type Operating Range Room/Zone Discharge Air Outdoor Air Temperature 20K Ohm NTC -40 F to 199 F (-40 C to 93 C) Outdoor Air C7031Ga Temperature -40 F to 120 F (-40 C to 49 C) C7041Fa -40 F to 250 F (-40 C to 121 C) PT1000 -40 F to 199 F (IEC751 3850) (-40 C to 93 C) TR23 500 Ohm Setpoint to Potentiometer 10,500 Ohm -4° DDC to +4° DDC (-8° DDF to +7° DDF) or 50 F to 90 F (10 C to 32 C) Resistive Input Generic 100 Ohms to 100K Ohms Voltage Input Transducer, Controller 010 Vdc Discrete Input Dry Contact closure Open Circuit > 3000 Ohms Closed Circuit < 3000 Ohms Pulse Inputb Counter/Meter Max. frequency: 15 Hz Min. pulse width: 20 ms Max. chatter 5 ms a C7031G and C7041F are recommended for use with these controllers, due to improved resolution and accuracy when compared to the PT1000. b One Universal Input (UI-1*) on the CP-UL1012S, CP-UL4024S, CP-VL4022AS, and CP-VL4024NS is user selectable as a fast digital pulse meter. BEFORE INSTALLATION The controller is available in eight models (see Table 1). Review the power, input, and output specifications on page 2 before installing the controller. -- Hardware driven by Triac outputs must have a minimum current draw, when energized, of 25 mA and a maximum current draw of 500 mA. -- Hardware driven by the analog current outputs must have a maximum resistance of 550 Ohms, resulting in a maximum voltage of 11 volts when driven at 20 mA. If resistance exceeds 550 Ohms, voltages up to 18 Vdc are possible at the analog output terminal. WARNING Electrical Shock Hazard. Can cause severe injury, death or property damage. Disconnect power supply before beginning wiring or making wiring connections to prevent electrical shock or equipment damage. INSTALLATION The controller must be mounted in a position that allows clearance for wiring, servicing, removal, connection of the LonWorks® Bus Jack, and access to the Neuron® Service Pin (see Fig. 16 and Fig. 17 on page 14). The controller may be mounted in any orientation. IMPORTANT Avoid mounting in areas where acid fumes or other deteriorating vapors can attack the metal parts of the controller, or in areas where escaping gas or other explosive vapors are present. Fig. 4Fig. 7 on page 6 for mounting dimensions. For CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS models, the actuator is mounted first and then the controller is mounted. For the other models, go to "Mount Controller" on page 5 to begin the installation. Mount Actuator onto Damper Shaft (CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS) CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS controllers include the direct-coupled actuator with Declutch mechanism, which is shipped hard-wired to the controller. The actuator mounts directly onto the VAV box damper shaft and has up to 44 lb-in. (5 Nm) torque, 90-degree stroke, and 90 second timing at 60 Hz. The actuator is suitable for mounting onto a 3/8 to 1/2 in. (10 to 13 mm) square or round VAV box damper shaft. The minimum VAV box damper shaft length is 1-9/16 in. (40 mm). The two mechanical end-limit set screws control the amount of rotation from 12° to 95°. These set screws must be securely fastened in place. To ensure tight closing of the damper, the shaft adapter has a total rotation stroke of 95° (see Fig. 1). NOTES: 1. 2. The actuator is shipped with the mechanical endlimit set screws set to 95 degrees of rotation. Adjust the two set screws closer together to reduce the rotation travel. Each "hash mark" indicator on the bracket represents approximately 6.5° of rotation per side. The Declutch button, when pressed, allows you to rotate the universal shaft adapter (see Fig. 1). IMPORTANT Determine the damper rotation and opening angle prior to installation. See Fig. 2 below and Fig. 3 on page 4 for examples. 3 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS UNIVERSAL SHAFT CLAMPING BOLTS (2) UNIVERSAL SHAFT ADAPTER MECHANICAL END LIMIT SET SCREWS (2) 3. Determine the direction the damper shaft rotates to open the damper (CW or CCW) (see Fig. 3). Typically, there is an etched line on the end of the damper shaft that indicates the position of the damper. In Fig. 2, the indicator shows the damper open in a CW direction. 4. Determine the damper full opening angle (45, 60, or 90 degrees). In Fig. 2, the damper is open to its full open position of 90 degrees. TYPE A DAMPER DECLUTCH BUTTON AIR FLOW CW TO OPEN, CCW TO CLOSE TYPE B DAMPER M23568 Fig. 1. Series 60 Floating Actuator. DAMPER DAMPER SHAFT ROTATES CLOCKWISE TO OPEN M23569 Fig. 2. Damper with 90 degree CW rotation to open. IMPORTANT Mount actuator flush with damper housing or add a spacer between the actuator mounting surface and damper box housing. Before Mounting Actuator onto Damper Shaft (CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS) Tools required: -- Phillips #2 screwdriver - end-limit set screw adjustment -- 8 mm wrench - centering clamp Before mounting the actuator onto the VAV box damper shaft, determine the following: 1. Determine the damper shaft diameter. It must be between 3/8 in. to 1/2 in. (10 to 13 mm). 2. Determine the length of the damper shaft. If the length of the VAV box damper shaft is less than 1-9/16 in. (40 mm), the actuator cannot be used. AIR FLOW M2067B CCW TO OPEN, CW TO CLOSE Fig. 3. Determining the rotation direction (CW or CCW) for damper opening. Mounting Actuator Onto Damper Shaft (CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS ) The unit is shipped with the actuator set to rotate open in the clockwise (CW) direction to a full 95 degrees. The extra 5 degrees ensures a full opening range for a 90 degree damper. The installation procedure varies depending on the damper opening direction and angle: 1. If the damper rotates clockwise (CW) to open, and the angle of the damper open-to-closed is 90 degrees: a. Manually open the damper fully (rotate clockwise). b. Using the Declutch button, rotate the universal shaft adapter fully clockwise. c. Mount the actuator to the VAV damper box and shaft. d. Tighten the two bolts on the centering clamp (8 mm wrench; 70.888.5 lb-in. [810 Nm] torque). When the actuator closes, the damper rotates CCW 90 degrees to fully close. 2. If the damper rotates clockwise (CW) to open, and the angle of the damper open-to-closed is 45 or 60 degrees: a. Manually open the damper fully (rotate clockwise). b. The actuator is shipped with the mechanical end-limits set at 95 degrees. Adjust the two mechanical end-limit set screws to provide the desired amount of rotation. Adjust the two set screws closer together to reduce the rotation travel. c. Tighten the two mechanical end-limit screws (Phillips #2 screwdriver; (26.531 lb-in. [3.03.5 Nm] torque). d. Using the Declutch button, rotate the universal shaft adapter fully clockwise. e. Mount the actuator to the VAV damper box and shaft. f. Tighten the two bolts on the centering clamp (8 mm wrench; 70.888.5 lb-in. [810 Nm] torque). g. When the actuator closes, the damper rotates CCW either 45 or 60 degrees to fully close. 3. If the damper rotates counterclockwise (CCW) to open, and the angle of the damper open-to-closed is 90 degrees: 63-2686--02 4 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS a. Manually open the damper fully (rotate counterclockwise). b. Using the Declutch button, rotate the universal shaft adapter fully counterclockwise. c. Mount the actuator to the damper box and shaft. d. Tighten the two bolts on the centering clamp (8 mm wrench; 70.888.5 lb-in. [810 Nm] torque). When the actuator closes, the damper rotates CW 90 degrees to fully close. 4. If the damper rotates counterclockwise to open, and the angle of the damper open-to-closed is 45 or 60 degrees: a. Manually open the damper fully (rotate counterclockwise). b. The actuator is shipped with the mechanical end-limits set at 95 degrees. Adjust the two mechanical end-limit set screws to provide the desired amount of rotation. Adjust the two set screws closer together to reduce the rotation travel. c. Tighten the two mechanical end-limit screws (Phillips #2 screwdriver; (26.531 lb-in. [3.03.5 Nm] torque). d. Using the Declutch button, rotate the universal shaft adapter fully counter-clockwise. e. Mount the actuator to the VAV damper box and shaft. f. Tighten the two bolts on the centering clamp (8 mm wrench; 70.888.5 lb-in. [810 Nm] torque). g. When the actuator closes, the damper rotates CW either 45 or 60 degrees to fully close. IMPORTANT Special precautions must be taken for dampers that open in a CCW direction. The actuator is shipped with its rotation direction set to CW to Open, which applies to the damper direction in steps 1 and 2 above. If the damper shaft rotates in the CCW direction to open, the controller software must be programmed to change the rotation to "Reverse to Open," which applies to the damper direction in steps 3 and 4 above. IMPORTANT It is advisable to leave the dampers in an open position after installation to avoid the possibility of over-pressurizing the duct work on fan startup. Use the Declutch button (see Fig. 1 on page 4) to open the box damper on controllers that are powered down, to prevent over-pressurization in the duct work on fan startup. To Declutch, press and hold the button to disengage the motor. Turn the damper shaft until the damper is open and release the button. When power is restored to the controller, the controller synchronizes the damper actuator, so that the damper is in the correct position upon startup. Mount Controller NOTE: The controller may be wired before mounting to a panel or DIN rail. Terminal blocks are used to make all wiring connections to the controller. Attach all wiring to the appropriate terminal blocks (see "Wiring" on page 9). See Fig. 4Fig. 7 for panel mounting dimensions. See Fig. 8 on page 6 for DIN rail mounting. 4-1/8 (105) 8-9/32 (211) 1-15/16 (49) 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 6-1/4 (159)5-7/8 (149) 27/32 (21) 6-9/32 (159) 1 2 3 4 5 6 7 8 3/16 (4.5) PANEL MOUNTING HOLE (4X) DEPTH IS 2-1/4 (57) NOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION. M28648 Fig. 4. Panel mounting -- controller and actuator dimensions in inches (mm) for CP-VL0000AS and CP-VL4022AS only (CP-VL4022AS shown). 10-5/16 (262) 8-5/16 (211) 6-29/64 (164) 1-55/64 (47) 5-3/4 (146) 22222222233333333334 12345678901234567890 7/16 (11) 5-3/64 (128) 12345678 11111111 901234567 6-17/64 (159) PANEL MOUNTING HOLE (4X) 3/16 IN. (4.5) DEPTH IS 2-1/4 (57) NOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION. M28647 Fig. 5. Panel mounting -- controller and actuator dimensions in inches (mm) for CP-VL6436AS only. 4-13/16 (122) 4-1/8 (105) 6-1/4 (159) 5-7/8 (149) 1 1 1 1 1 1 1 2 2 2 2 2 3 4 5 6 7 8 9 0 1 2 3 4 1 1 1 2 3 4 5 6 7 8 9 0 1 2 DEPTH IS 2-1/4 (57) 4-13/16 (122) 4-1/8 (105) 6-1/4 (159) 5-7/8 (149) 1 1 1 1 1 1 1 2 2 2 2 2 3 4 5 6 7 8 9 0 1 2 3 4 1 1 1 2 3 4 5 6 7 8 9 0 1 2 3/16 (4.5) PANEL MOUNTING HOLE (4X) NOTE: CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION. M28649 Fig. 6. Panel mounting -- controller dimensions in inches (mm) for CP-UL1012S, CP-UL4024S, and CP-VL4024NS only (CP-UL4024S and CP-VL4024NS shown). 5 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS 5-3/4 5-3/64 (146) (128) PANEL MOUNTING HOLE (4X) 29/64 IN. (12) CP-VL6438NS 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 5-3/64 (128) CP-UL6438S 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 5-29/64 (139) 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 5-29/64 (139) 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 NOTE: 6-29/64 (164) 6-27/32 (174) DEPTH IS 2-1/4 (57) CONTROLLER CAN BE MOUNTED IN ANY ORIENTATION. 6-29/64 (164) 6-27/32 (174) M29168 Fig. 7. Panel mounting -- controller dimensions in inches (mm) for models CP-UL6438S and CP-VL6438NS only. Panel Mounting The controller enclosure is constructed of a plastic base plate and a plastic factory-snap-on cover. NOTE: The controller is designed so that the cover does not need to be removed from the base plate for either mounting or wiring. The controller mounts using four screws inserted through the corners of the base plate. Fasten securely with four No. 6 or No. 8 machine or sheet metal screws. The controller can be mounted in any orientation. Ventilation openings are designed into the cover to allow proper heat dissipation, regardless of the mounting orientation. DIN Rail Mounting (CP-UL1012S, CP-UL4024S, CP-UL6438S, CP-VL4024NS, and CP-VL6438NS) To mount the CP-UL1012S, CP-UL4024S, CP-UL6438S, CP-VL4024NS, or CP-VL6438NS controller on a DIN rail [standard EN50022; 1-3/8 in. x 9/32 in. (7.5 mm x 35 mm)], refer to Fig. 8 and perform the following steps: 1. Holding the controller with its top tilted in towards the DIN rail, hook the two top tabs on the back of the controller onto the top of the DIN rail. 2. Push down and in to snap the two bottom flex connectors of the controller onto the DIN rail. IMPORTANT To remove the controller from the DIN rail, perform the following: 1. Push straight up from the bottom to release the top tabs. 2. Rotate the top of the controller out towards you and pull the controller down and away from the DIN rail to release the bottom flex connectors. TOP TABS DIN RAIL BOTTOM FLEX CONNECTORS M16815 Fig. 8. Controller DIN rail mounting (models CP-UL1012S, CP-UL4024S, CP-UL6438S, CP-VL4024NS, and CP-VL6438NS). Piping (CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS) Air flow Pickup For CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS, connect the air flow pickup to the two restrictor ports on the controller (see Fig. 9). NOTES: -- -- Use 1/4 inch (6 mm) outside diameter, with a 0.040 in. (1 mm) wall thickness, plenum-rated 1219 FR (94V-2) tubing. Always use a fresh cut on the end of the tubing that connects to the air flow pickups and the restrictor ports on the controller. Connect the high pressure or upstream tube to the plastic restrictor port labeled (+), and the low pressure or downstream tube to the restrictor port labeled (-). See labeling in Fig. 9. When twin tubing is used from the pickup, split the pickup tubing a short length to accommodate the connections. 63-2686--02 6 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS NOTES: -- -- -- If controllers are mounted in unusually dusty or dirty environments, an inline, 5-micron disposable air filter (use 5-micron filters compatible with pneumatic controls) is recommended for the high pressure line (marked as +) connected to the air flow pickup. The tubing from the air flow pickup to the controller should not exceed three feet (0.914 m). Any length greater than this will degrade the flow sensing accuracy. Use caution when removing tubing from a connector. Always pull straight away from the connector or use diagonal cutters to cut the edge of the tubing attached to the connector. Never remove by pulling at an angle. AIR FLOW PICKUP CONNECTOR TUBING RESTRICTOR PORT RESTRICTOR PORT P 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 M23556A 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 Fig. 9. Air flow pickup connections (CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS). Power Before wiring the controller, determine the input and output device requirements for each controller used in the system. Select input and output devices compatible with the controller and the application. Consider the operating range, wiring requirements, and the environment conditions when selecting input/output devices. When selecting actuators for modulating applications consider using floating control. In direct digital control applications, floating actuators will generally provide control action equal to or better than an analog input actuator for lower cost. Determine the location of controllers, sensors, actuators and other input/output devices and create wiring diagrams. Refer to Fig. 19Fig. 25 beginning on page 16 for illustrations of typical controller wiring for various configurations. The application engineer must review the control job requirements. This includes the sequences of operation for the controller, and for the system as a whole. Usually, there are variables that must be passed between the controller and other ComfortPoint Lon controller(s) that are required for optimum system wide operation. Typical examples are the TOD, Occ/ Unocc signal, the outdoor air temperature, the demand limit control signal, and the smoke control mode signal. It is important to understand these interrelationships early in the job engineering process, to ensure proper implementation when configuring the controllers. Refer to the controller Application Guides. Power Budget A power budget must be calculated for each device to determine the required transformer size for proper operation. A power budget is simply the summing of the maximum power draw ratings (in VA) of all the devices to be controlled. This includes the controller itself and any devices powered from the controller, such as equipment actuators (ML6161 or other motors) and various contactors and transducers. IMPORTANT · If a controller is used on Heating and Cooling Equipment (UL 1995, U.S. only) and transformer primary power is more than 150 volts, connect the transformer secondary common to earth ground (see Fig. 12 on page 10). · When multiple controllers operate from a single transformer, connect the same side of the transformer secondary to the same power input terminal in each device. The earth ground terminal (terminal 3) must be connected to a verified earth ground for each controller in the group (see Fig. 13 on page 10). POWER BUDGET CALCULATION EXAMPLE Table 3 is an example of a power budget calculation for typical CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS controllers. While the example is shown for only these models, the process is applicable for all controller models. Table 3. Power budget calculation example. Device VA Information Obtained From CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS controllers (include Series 60 Floating Damper Actuator) 9.0 See "Specifications" on page 2. R8242A Contactor fan rating 21.0 TRADELINE® Catalog inrush rating D/X Stages 0.0 For example, assume cooling stage outputs are wired into a compressor control circuit and have no impact on the budget. M6410A Steam Heating Coil Valve 0.7 TRADELINE® Catalog, 0.32A 24 Vac TOTAL 30.7 The system example above requires 30.7 VA of peak power. Therefore, a 100 VA AT92A transformer could be used to power one controller of this type. Because the total peak power is less than 33 VA, this same transformer could be used to power three of these controllers and meet NEC Class 2 restrictions (no greater than 100 VA). See Fig. 11Fig. 13 beginning on page 10 for illustrations of controller power wiring. See Table 4 for VA ratings of various devices. 7 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS Table 4. VA ratings for transformer sizing. Device Description VA CP-VL0000AS, CP- Controller and Actuator 9.0 VL4022AS, and CP- VL6436AS controllers and Series 60 Floating Damper Actuator CP-UL1012S, CP- Controller 5.0 UL4024S, CP- UL6438S, CP- VL4024NS, or CP- VL6438NS ML684 Versadrive Valve Actuator 12.0 ML6161 Damper Actuator, 35 lb-in. 2.2 ML6185 Damper Actuator SR 50 lb-in 12.0 ML6464 Damper Actuator, 66 lb-in. 3.0 ML6474 Damper Actuator, 132 lb-in. 3.0 R6410A Valve Actuator 0.7 R8242A Contactor 21.0 For contactors and similar devices, the in-rush power ratings should be used as the worst case values when performing power budget calculations. Also, the application engineer must consider the possible combinations of simultaneously energized outputs and calculate the VA ratings accordingly. The worst case, which uses the largest possible VA load, should be determined when sizing the transformer. Each controller requires 24 Vac power from an energy-limited Class II power source. To conform to Class II restrictions (U.S. only), transformers must not be larger than 100 VA. A single transformer can power more than one controller. GUIDELINES FOR POWER WIRING ARE AS FOLLOWS: -- For multiple controllers operating from a single transformer, the same side of the transformer secondary must be connected to the same power input terminal in each device. The earth ground terminal must be connected to a verified earth ground for each controller in the group (see Fig. 13 on page 10). Controller configurations are not necessarily limited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only). -- See Fig. 12 on page 10 for controller power wiring used in UL 1995 equipment (U.S. only). -- Many controllers require all loads to be powered by the same transformer that powers the controller. -- Keep the earth ground connection wire run as short as possible (refer to Fig. 11Fig. 13 beginning on page 10). -- Do not connect earth ground to the controller's digital or analog ground terminals (refer to Fig. 11 and Fig. 13). -- Unswitched 24 Vac power wiring can be run in the same conduit as the LONWORKS® Bus cable. -- Maintain at least a 3 in. (76 mm) separation between Triac outputs and LONWORKS® Bus wiring throughout the installation. Line-Loss Controllers must receive a minimum supply voltage of 20 Vac. If long power or output wire runs are required, a voltage drop due to Ohms Law (I x R) line-loss must be considered. This line-loss can result in a significant increase in total power required and thereby affect transformer sizing. The following example is an I x R line-loss calculation for a 200 ft. (61m) run from the transformer to a controller drawing 37 VA and using two 18 AWG (1.0 sq mm) wires. The formula is: Loss = [length of round-trip wire run (ft.)] x [resistance in wire (ohms per ft.)] x [current in wire (amperes)] From specification data: 18 AWG twisted pair wire has a resistance of 6.52 ohms per 1000 feet. Loss = [(400 ft.) x (6.52/1000 ohms per ft.)] x [(37 VA)/(24V)] = 4.02 volts This means that four volts are going to be lost between the transformer and the controller. To assure the controller receives at least 20 volts, the transformer must output more than 24 volts. Because all transformer output voltage levels depend on the size of the connected load, a larger transformer outputs a higher voltage than a smaller one for a given load. Fig. 10 shows this voltage load dependence. In the preceding I x R loss example, even though the controller load is only 37 VA, a standard 40 VA transformer is not sufficient due to the line-loss. Looking at Fig. 10, a 40 VA transformer is just under 100 percent loaded (for the 37 VA controller) and has a secondary voltage of 22.9 volts. (Use the lower edge of the shaded zone in Fig. 10 that represents the worst case conditions.) When the I x R loss of four volts is subtracted, only 18.9 volts reaches the controller. This is not enough voltage for proper operation. In this situation, the engineer has three alternatives: 1. Use a larger transformer. For example, if an 80 VA model is used, an output of 24.4 volts, minus the four volt lineloss, supplies 20.4V to the controller (see Fig. 10). Although acceptable, the four-volt line-loss in this example is higher than recommended. IMPORTANT No installation should be designed where the line-loss is greater than two volts. This allows for nominal operation if the primary voltage drops to 102 Vac (120 Vac minus 15 percent). 2. Use heavier gauge wire for the power run. 14 AWG (2.0 sq mm) wire has a resistance of 2.57 ohms per 1,000 ft. Using the preceding formula results in a lineloss of only 1.58 volts (compared with 4.02 volts). This would allow a 40 VA transformer to be used. 14 AWG (2.0 sq mm) wire is the recommended wire size for 24 Vac wiring. 3. Locate the transformer closer to the controller. This reduces the length of the wire run, and the line-loss. The issue of line-loss is also important in the case of the output wiring connected to the Triac digital outputs. The same formula and method are used. Keep all power and output wire runs as short as practical. When necessary, use heavier gauge wire, a bigger transformer, or install the transformer closer to the controller. 63-2686--02 8 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS To meet the National Electrical Manufacturers Association (NEMA) standards, a transformer must stay within the NEMA limits. The chart in Fig. 10 shows the required limits at various loads. With 100 percent load, the transformer secondary must supply between 23 and 25 volts to meet the NEMA standard. When a purchased transformer meets the NEMA standard DC20-1986, the transformer voltage regulating ability can be considered reliable. Compliance with the NEMA standard is voluntary. SECONDARY VOLTAGE 27 26 25 24 23 22 21 20 19 18 17 16 15 14 0 50 100 150 200 % OF LOAD M993 Fig. 10. NEMA Class 2 transformer voltage output limits. The Honeywell transformers listed in Table 5 meet the NEMA standard DC20-1986. Table 5. Honeywell transformers that meet NEMA standard DC20-1986. Transformer Type AT40A AT72D AT87A AK3310 Assembly VA Rating 40 40 50 100 NOTE: The AT88A and AT92A transformers do not meet the voluntary NEMA standard DC20-1986. Wiring All wiring must comply with applicable electrical codes and ordinances, or as specified on installation wiring diagrams. Controller wiring is terminated to the screw terminal blocks located on the top and the bottom of the device. WARNING Electrical Shock Hazard. Can cause severe injury, death or property damage. Disconnect power supply before beginning wiring or making wiring connections, to prevent electrical shock or equipment damage. NOTES: -- -- -- -- For multiple controllers operating from a single transformer, the same side of the transformer secondary must be connected to the same power input terminal in each controller. Controller configurations will not necessarily be limited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only). For power and wiring recommendations, See "Power" on page 7. The earth ground terminal (terminal 3) must be connected to a verified earth ground for each controller in the group (see Fig. 13 on page 10). All loads on the controller must be powered by the same transformer that powers the controller itself. A controller can use separate transformers for controller power and output power. Keep the earth ground connection (terminal 3) wire run as short as possible. Do not connect the universal input COM terminals, analog output COM terminals or the digital input/ output COM terminals to earth ground. Refer to Fig. 18Fig. 23 beginning on page 15 for wiring examples. The 24 Vac power from an energy limited Class II power source must be provided to the controller. To conform to Class II restrictions (U.S. only), the transformer must not be larger than 100 VA. Fig. 11 depicts a single controller using one transformer. IMPORTANT Power must be off prior to connecting to or removing connections from the 24 Vac power (24 Vac/24 Vac COM), earth ground (EGND), and 20 Vdc power (20 Vdc) terminals.. IMPORTANT Use the heaviest gauge wire available, up to 14 AWG (2.0 sq mm), with a minimum of 18 AWG (1.0 sq mm), for all power and earth ground wiring. Screw-type terminal blocks are designed to accept up to one 14 AWG (2.0 sq mm) conductor or up to two 18 AWG (1.0 sq mm) conductors. More than two wires that are 18 AWG (2.0 sq mm) can be connected with a wire nut. Include a pigtail with this wire group and attach the pigtail to the terminal block. IMPORTANT If the controller is used on Heating and Cooling Equipment (UL 1995, U.S. only) and the transformer primary power is more than 150 volts, connect terminal 2, (the 24 Vac common [24 VAC COM] terminal) to earth ground (see Fig. 12). For these applications, only one controller can be powered by each transformer. NOTES: -- -- Unswitched 24 Vac power wiring can be run in the same conduit as the LONWORKS® cable. Maintain at least a 3 in. (7.6 cm) separation between Triac outputs and LONWORKS® wiring throughout the installation. 9 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS P 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 P 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 CONNECT POWER TO TERMINALS 1 AND 2 COM 24 VAC TRANSFORMER 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 EARTH GROUND (TERMINAL 3) OUTPUT DEVICE POWER M23557A Fig. 11. Power wiring details for one controller per transformer. CONNECT POWER TO TERMINALS 1 AND 2 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 TRANSFORMER COM 24 VAC EARTH GROUND (TERMINAL 3) LINE VOLTAGE GREATER THAN 150 VAC 1 EARTH GROUND OUTPUT DEVICE POWER 1 IF THE CONTROLLER IS USED IN UL 1995 EQUIPMENT AND THE PRIMARY POWER IS MORE THAN 150 VOLTS, GROUND 24 VAC COM SIDE OF TRANSFORMER SECONDARY. M23558A Fig. 12. Transformer power wiring details for one controller used in UL 1995 equipment (U.S. only). More than one controller can be powered by a single transformer. Fig. 13 shows power wiring details for multiple controllers. NOTE: Controller configurations are not necessarily limited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only). For power wiring recommendations, see "Power" on page 7. P 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 P 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 P 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 CONNECT POWER TO TERMINALS 1 AND 2 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 120/240 VAC COM 24 VAC EARTH GROUND (TERMINAL 3) 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 EARTH GROUND (TERMINAL 3) 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 EARTH GROUND (TERMINAL 3) TRANSFORMER OUTPUT DEVICE POWER M23559A Fig. 13. Power wiring details for two or more controllers per transformer. Communications Refer to "LONWORKS® Wiring Guidelines," form 74-2865, for a complete description of LONWORKS® Bus network topology rules and approved cable types. Honeywell provided cable types for LONWORKS® Bus communications wiring are Level IV 22 AWG (0.34 sq mm) plenum or non-plenum rated unshielded, twisted pair, stranded conductor wire. · For non-plenum areas, U.S. part AK3798 (single-pair stranded) can be used. · In plenum areas, U.S. part AK3797 (single-pair stranded) or U.S. part AK3799 (two-pair stranded) can be used. Contact Echelon Corp. Technical Support for the recommended vendors of Echelon approved cables. Communications wiring can be run in a conduit, if needed, with non-switched 24 Vac or sensor wiring. If a longer LONWORKS® Bus network is required, a Q7751A,B router (configured as a repeater) can be added to extend the length of the LONWORKS® Bus. Each network segment can have a maximum of one repeater. 63-2686--02 10 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS Pull the cable to each controller on the LONWORKS® Bus and connect to the controller's communication terminals 7 and 8. (See Table 6 and Table 7 on page 13, and Fig. 16 on page 13 for location of terminals 7 and 8.) NOTE: Connection for operator access to the LONWORKS® Bus is provided by plugging the Serial LONTALK® Adapter (SLTA) connector into the LONWORKS® Bus jack (see Fig. 16 on page 13). IMPORTANT Notes on communications wiring: · All field wiring must conform to local codes and ordinances (or as specified on installation drawings). · Do not bundle device output wires with sensor, digital input or communications LONWORKS® Bus wires. · Do not use different wire types or gauges on the same LONWORKS Bus segment. The step change in line impedance characteristics causes unpredictable reflections on the LONWORKS® Bus. · In noisy (high EMI) environments, avoid wire runs parallel to noisy power cables, motor control centers, or lines containing lighting dimmer switches. Keep at least 3 in. (76 mm) of separation between noisy lines and the LONWORKS® Bus cable. · The theoretical limit for each LONWORKS® Bus segment is 60 controllers. Up to 120 controllers can be configured when a repeater is used, and the bus must be either singly or doubly terminated. Actual installations may have a lower limit depending on the devices connected. · The singly terminated bus must have one 209541B FTT Termination Module for T tap or Star configurations. · The doubly terminated bus must have two 209541B FTT Termination Modules, one at each end of the daisy chain (Bus style) wiring run. Note that the Q7751A,B router (configured as a repeater) has onboard terminating networks that can be jumperselected on each segment. · Make sure that neither of the LONWORKS® Bus wires are grounded. NOTE: If a 209541B Termination Module is required at the controller, connect two of the three termination module wires to the LONWORKS® Bus terminals 7 and 8, which are labeled Net-1 and Net-2, on the controller. Selecting the appropriate two wires depends on the LONWORKS® Bus network topology. Refer to the "LONWORKS® Bus Wiring Guidelines," form 74-2865, and the "FTT Termination Module Installation Instructions," form 95-7554. For example, on a doubly terminated daisy-chained bus topology, where controllers are on either end of an LONWORKS® Bus wire run, mount the termination module on the appropriate terminals, as shown in Fig. 14. CP-VL6436AS 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 NOTE: ALL LONWORKS® CONNECTIONS ARE MADE TO: NET-1 NET-2 CP-VL6438NS CP-VL6436AS 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 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 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 BROWN ORANGE PART NO. 209541B TERMINATION MODULE PART NO. 209541B TERMINATION MODULE BROWN ORANGE M29169 Fig. 14. Termination modules (LONWORKS® daisy chain connections). Wiring Method WARNING Electrical Shock Hazard. Can cause severe injury, death or property damage. Disconnect power supply before beginning wiring, or making wiring connections, to prevent electrical shock or equipment damage. NOTE: When attaching two or more wires to the same terminal, other than 14 AWG (2.0 sq mm), be sure to twist them together. Deviation from this rule can result in improper electrical contact (see Fig. 15). Each terminal can accommodate the following gauges of wire: -- Single wire: from 22 AWG to 14 AWG solid or stranded -- Multiple wires: up to two 18 AWG stranded, with 1/4 watt wire-wound resistor Prepare wiring for the terminal blocks, as follows: 1. Strip 1/2 in. (13 mm) insulation from the conductor. 2. Cut a single wire to 3/16 in. (5 mm). Insert the wire in the required terminal location and tighten the screw. 11 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS 3. If two or more wires are being inserted into one terminal location, twist the wires together a minimum of three turns before inserting them (see Fig. 15). 4. Cut the twisted end of the wires to 3/16 in. (5 mm) before inserting them into the terminal and tightening the screw. 5. Pull on each wire in all terminals to check for good mechanical connection. 1.STRIP 1/2 IN. (13 MM) FROM WIRES TO 1/2 BE ATTACHED AT (13) ONE TERMINAL. 2. TWIST WIRES TOGETHER WITH PLIERS (A MINIMUM OF THREE TURNS). 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. M17207 Fig. 15. Attaching two or more wires at terminal blocks. Wiring Details Each controller is shipped with the digital outputs, which switch the 24 Vac to the load (High Side). The three analog outputs (AO) are used to control modulating heating, cooling and economizer equipment. Any AO may be used as a digital output, as follows: -- False (0%) produces 0 Vdc, (0 mA) -- True (100%) produces the maximum 11 Vdc (22 mA) The wiring connection terminals described in Table 6 and 7 are shown in Fig. 16 and Fig. 17 starting on page 13. Table 6. Description of wiring terminal connections for CP-UL6438S, CP-VL6436AS, and CP-VL6438NS. Terminal Label Connection INPUT POWER & GROUND 1 24 Vac 24 Vac Power 2 24 Vac COM 24 Vac Power 3 EGND Earth Ground 4 SHLD Shield 5 SBUS 1 Sylk 6 SBUS 2 Sylk NETWORK CONNECTIONS 7 NET-1 LONWORKS® communications 8 NET-2 LONWORKS® communications DIGITAL OUTPUTSa 9 DO-1 Digital Output 10 DO-2 Digital Output 11 COM Common 12 DO-3 Digital Output 13 DO-4 Digital Output 14 COM Common 15 DO-5 Digital Output 16 DO-6 Digital Output 17 COM Common 18 DO-7 Digital Output 19 DO-8 Digital Output 20 COM Common ANALOG OUTPUTSb 21 AO-1 Analog Output 22 COM Common 23 AO-2 Analog Output 24 AO-3 Analog Output 25 COM Common DIGITAL INPUTSc 26 DI-1 Digital Input 27 DI-2 Digital Input 28 COM Common 29 DI-3 Digital Input 30 DI-4 Digital Input ATTACHED DEVICE(S) POWER 31 20 Vdc 20 Vdc Power UNIVERSAL INPUTS 32 UI-1 Universal Input 33 COM Common 34 UI-2 Universal Input 35 UI-3 Universal Input 36 COM Common 37 UI-4 Universal Input 38 UI-5 Universal Input 39 COM Common 40 UI-6 Universal Input a For the CP-VL6436AS controller ONLY, terminals 18, 19, and 20 (DO7, DO8, & COM) are not present. The actuator is internally hardwired to these terminals. b Analog outputs may be configured as digital outputs and operate as follows: False (0%) produces 0 Vdc, (0 mA) True (100%) produces the maximum 11 Vdc (22 mA) c Digital inputs: Open circuit = False; Closed circuit = True 63-2686--02 12 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS Table 7. Description of wiring terminal connections for CP-UL1012S, CP-UL4024S, CP-VL0000AS, CP-VL4022AS, and CP-VL4024NS. Terminals, CP- UL4024S, CP- VL4024NS 1 2 3 4 5 6 7 8 9 10 11 12 Terminals, CP- VL4022ASa Terminals, CP- UL1012S Terminals, CP- VL0000ASa Label INPUT POWER & GROUND 1 1 1 24 Vac 2 2 2 24 Vac COM 3 3 3 EGND 4 4 4 20 Vdc 5 5 5 SBUS 1 6 6 6 SBUS 2 NETWORK CONNECTIONS 7 7 7 NET-1 8 8 8 NET-2 DIGITAL OUTPUTS b NA NA NA DO-3 NA NA NA COM NA NA NA DO-4 NA NA NA COM Connection 24 Vac Power 24 Vac Power Earth Ground 20 Vdc Power Sylk Sylk LonWorks® communications LonWorks® communications Digital Output Common Digital Output Common 13 9 9 NA DO-1 Digital Output 14 10 10 NA DO-2 Digital Output 15 11 11 NA COM Common ANALOG OUTPUTSc 16 12 12 NA AO-1 Analog Output 17 13 13 NA COM Common 18 14 NA NA AO-2 Analog Output UNIVERSAL INPUTS 19 15 14 NA UI-1* Universal Inputd 20 16 15 NA COM Common 21 17 NA NA UI-2 Universal Input 22 18 NA NA UI-3 Universal Input 23 19 NA NA COM Common 24 20 NA NA UI-4 Universal Input a For the CP-VL0000AS and CP-VL4022AS controllers, DO3 and DO4 are internally hardwired to the actuator. b Digital inputs: Open circuit = False; Closed circuit = True c Analog outputs may be configured as digital outputs and operate as fol- lows: - False (0%) produces 0 Vdc, (0 mA) - True (100%) produces the maximum 11 Vdc (22 mA) b Digital inputs: Open circuit = False; Closed circuit = True d UI-1* is a hybrid input. It can be configured as either a DI (fast digital pulse meter) or a UI. IMPORTANT If the controller is not connected to a good earth ground, the controller's internal transient protection circuitry is compromised and the function of protecting the controller from noise and power line spikes cannot be fulfilled. This could result in a damaged circuit board and require replacement of the controller. Refer to installation diagrams for specific wiring. All controllers have the terminal arrangements similar to the examples shown in Fig. 16 and Fig. 17 as described in Table Table 6 on page 12 and Table 7 on this page. NEURON® SERVICE PIN The NEURON® Service Pin pushbutton (when pressed) transmits the Service Message to the network, regardless of the controller's current mode of operation (see Fig. 16 and Fig. 17). CAUTION Equipment Damage Hazard. Can cause controller damage or failure. Do not use any metal object to press the NEURON® Service Pin. Use a plastic rod or wood device (such as a pencil with the lead broken off) to press the pin. Using a metal object can damage the circuitry of the controller. LONWORKS BUS CONVENIENCE JACK The LONWORKS Bus connection is provided by plugging the Serial LONTALK® Adapter (SLTA) connector into the LONWORKS® Bus Jack (see Fig. 16 and Fig. 17). TERMINALS 21-40 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 1 2 3 4 5 6 7 8 TERMINALS 1-8 LONWORKS® BUS JACK (LABELLED SRV JCK) 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 TERMINALS 9-20 NEURON® SERVICE PIN (LABELLED SRV PIN) M23561B Fig. 16. Controller Terminal Connections, NEURON® Service Pin, & LONWORKS® Bus Jack for the CP-UL6438S, CP-VL6436AS, and CP-VL6438NS (CP-VL6438NS shown). 13 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS COM DO-4 COM DO-3 NET-2 NE1-2 S-BUS 2 S-BUS 1 20VDC EGND 24VAC COM 24VAC UI-4 COM UI-3 UI-2 COM UI-1* AO-2 COM AO-1 COM DO-2 DO-1 TERMINALS 13-24 1 1 1 1 1 1 1 2 2 2 2 2 3 4 5 6 7 8 9 0 1 2 3 4 1 1 1 2 3 4 5 6 7 8 9 0 1 2 TERMINALS 1-12 LONWORKS ® BUS JACK (LABELLED SRV JACK) NEURON® SERVICE PIN (LABELLED SRV PIN) M28650 Fig. 17. Controller terminal connections, NEURON® Service Pin and LONWORKS® Bus Jack for the CP-UL1012S, CP-UL4024S, CP-VL0000AS, CP-VL4022AS, and CP-VL4024NS (CP-VL4024NS shown). Wiring Applications (Examples) Fig. 18Fig. 24, beginning on page 15, illustrate controller wiring for the following configurations. · Typical controller wiring for VAV application using the TR23 wall module and a C7770A Air Temperature Sensor (see Fig. 18 on page 15). · Typical controller wiring for VAV application with staged reheat (see Fig. 19 on page 16). · Typical controller wiring for PWM reheat and PWM peripheral heat valve actuator (see Fig. 20 on page 17). · Typical controller wiring for AHU application (see Fig. 21 on page 18). · Typical controller wiring for 4 to 20 mA enthalpy sensors and digital inputs (see Fig. 22 on page 19). · Typical controller wiring for 4 to 20 mA heating, cooling, and model ML6161 floating motor control (see Fig. 23 on page 20). · Typical controller wiring for a pneumatic transducer, model RP7517B (see Fig. 24 on page 21). 63-2686--02 14 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS AIR FLOW PICKUP WINDOWS CONTACTS OCCUPANCY SENSOR (CONTACTS CLOSED (CONTACTS CLOSED EQUALS WINDOW CLOSED) EQUALS OCCUPIED) 3 P AO-1 DI-2 DI-1 2 COM 3 DI-3 UI-4 UI-1 UI-2 COM UI-3 COM C7770A AIR TEMPERATURE SENSOR 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM SERIES OR PARALLEL FAN CONTACTOR REHEAT STAGE CONTACTORS 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 24 VAC +- 24 VAC COM 2 1 LONWORKS-BUS LONWORKS-BUS 12 11 10 9 8 7 6 5 4 3 2 1 COM DO-6 DO-5 COM DO-4 DO-3 COM DO-2 DO-1 24 VAC HUM OVERRIDE LED SETPT LON LON + SENSOR GND TR23-H ONLY DIP ON SWITCH S1 4 SW1 SW2 ON DIP SWITCH S2 DO NOT CHANGE SW1 SW2 THIS SWITCH POSITION. ON DIP SWITCH S3 (TR23 AND TR24 ONLY.) SW1 SW2 SW3 REHEAT STAGE 3 REHEAT STAGE 2 (OR CLOSE) REHEAT STAGE 1 (OR OPEN) DAMPER CLOSE DAMPER OPEN CW COM CCW ML6161 DAMPER ACTUATOR 1 EARTH GROUND WIRE LENGTH SHOULD BE HELD TO A MINIMUM. USE THE HEAVIEST GAUGE WIRE AVAILABLE, UP TO 14 AWG (2.O MM2) WITH A MINIMUM OF 18 AWG (1.O MM2) FOR EARTH GROUND WIRE. 2 TO ASSURE PROPER ELECTRICAL CONTACT, WIRES MUST BE TWISTED TOGETHER BEFORE INSERTION INTO THE TERMINAL BLOCK. 3 CONTACTS MUST BE SUITABLE FOR DRY SWITCHING, 5V AT 10 mA. USE SEALED TYPE, GOLD FLASHED OR PIMPLED CONTACTS. 4 DIP SWITCH S1 FOR HUMIDITY MODELS ONLY. SEE TR23 INSTALLATION INSTRUCTIONS, FORM NO. 62-0267, FOR CONFIGURATION DETAILS. M29753 Fig. 18. Controller wiring diagram (model CP-VL6438NS shown) for typical VAV application, using the TR23 wall module and a C7770A air temperature sensor. (For note 2, refer to Fig. 15.) 15 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS AIR FLOW PICKUP WINDOWS CONTACTS (CONTACTS CLOSED EQUALS WINDOW CLOSED) OCCUPANCY SENSOR (CONTACTS CLOSED EQUALS OCCUPIED) 3 P AO-1 DI-2 DI-1 2 COM 3 DI-3 UI-3 UI-1 UI-2 COM 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM 24 VAC + - 24 VAC COM 1 2 3 4 5 6 7 8 2 1 LONWORKS-BUS LONWORKS-BUS 12 11 10 9 8 7 6 5 4 3 2 1 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 COM DO-3 DO-2 DO-1 STAGE 3 STAGE 2 STAGE 1 24 VAC HUM OVERRIDE LED SETPT LON LON + SENSOR GND TR23-H ONLY DIP DIP SWITCH S2 SWITCH ON ON S1 DO NOT CHANGE 4 SW1 SW2 SW1 SW2 THIS SWITCH POSITION. ON DIP SWITCH S3 (TR23 AND TR24 ONLY.) LINE POWER SW1 SW2 SW3 1 EARTH GROUND WIRE LENGTH SHOULD BE HELD TO A MINIMUM. USE THE HEAVIEST GAUGE WIRE AVAILABLE, UP TO 14 AWG (2.O MM2) WITH A MINIMUM OF 18 AWG (1.O MM2), FOR EARTH GROUND WIRE. 2 TO ASSURE PROPER ELECTRICAL CONTACT, WIRES MUST BE TWISTED TOGETHER BEFORE INSERTION INTO THE TERMINAL BLOCK. 3 CONTACTS MUST BE SUITABLE FOR DRY SWITCHING, 5V AT 10 mA. USE SEALED TYPE, GOLD FLASHED OR PIMPLED CONTACTS. 4 DIP SWITCH S1 FOR HUMIDITY MODELS ONLY. SEE TR23 INSTALLATION INSTRUCTIONS, FORM NO. 62-0267, FOR CONFIGURATION DETAILS. M29755 Fig. 19. Controller wiring diagram (model CP-VL6436AS shown) for typical VAV application with staged reheat. (For note 2, refer to Fig. 15.) 63-2686--02 16 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 24 VAC +- 24 VAC COM 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 ML7984B REHEAT VALVE ACTUATOR PWM VALVE ACTUATOR 4 24 (H) 24 (N) PWM (H 24 VAC) PWM OUTPUT FROM CNTRL 1 23 4 ON OFF 3 ML7984B CONFIGURATION DIP SWITCHES (LOCATED ADJACENT TO THE INPUT TERMINAL BLOCK) DO-3 T6 T5 C B W R 2 PERIPHERAL HEAT VALVE ACTUATOR PWM VALVE ACTUATOR 4 24 (H) 24 (N) PWM (H 24 VAC) PWM OUTPUT FROM CNTRL 2 DO-2 T6 T5 C B W R 2 DO-1 4 24 VAC 24 VAC COM 1 EARTH GROUND WIRE LENGTH SHOULD BE HELD TO A MINIMUM.USE THE HEAVIEST GAUGE WIRE AVAILABLE, UP TO 14 AWG (2.O MM2) WITH A MINIMUM OF 18 AWG (1.O MM 2), FOR EARTH GROUND WIRE. 2 TO ASSURE PROPER ELECTRICAL CONTACT, WIRES MUST BE TWISTED TOGETHER BEFORE INSERTION INTO THE TERMINAL BLOCK. 3 TURN POWER OFF BEFORE SETTING THE DIP SWITCHES. 4 MAKE SURE ALL TRANSFORMER/POWER WIRING IS AS SHOWN: REVERSING TERMINATIONS WILL RESULT IN EQUIPMENT MALFUNCTION. M23573B Fig. 20. Controller wiring diagram (model CP-UL6438S shown) for typical PWM reheat and PWM peripheral heat valve actuator. (For note 2, refer to Fig. 15.) NOTE: Make sure to set the Configuration DIP Switch as shown in Fig. 20. Switches 1 through 3 set the timing of the ML7984B valve actuator to match the controller outputs (0.1 second minimum with a maximum time of 25.6 seconds). Switch 4 determines the action of the actuator (Off = Direct Acting, On = Reverse Acting). 17 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS DI-1 AO-1 20 VDC 20 VDC UI-5 UI-1 UI-2 COM UI-3 499 COM 3 UI-4 499 2 COM UI-6 OUTDOOR ENTHALPY RETURN ENTHALPY 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 DISCHARGE AIR TEMP 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM FAN 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 +- 24 VAC 24 VAC COM 2 1 COM DO-4 COM DO-8 HEAT 1 LONWORKS-BUS DO-3 COM LONWORKS-BUS 12 11 10 9 8 7 6 5 4 3 2 1 DIP SWITCH ON S1 DIP SWITCH S2 DO NOT ON DO-2 CHANGE THIS SWITCH 24 VAC HUM OVERRIDE LED SETPT LON LON + SENSOR GND 4 SW1 SW2 SW1 SW2 POSITION. TR23-H DIP ON DO-1 SWITCH ONLY S3 (TR23 AND TR24 SW1 SW2 SW3 ONLY.) HEAT 2 COMP 1 COMP2 1 EARTH GROUND WIRE LENGTH SHOULD BE HELD TO A MINIMUM. USE THE HEAVIEST GAUGE WIRE AVAILABLE, UP TO 14 AWG (2.O MM2) WITH A MINIMUM OF 18 AWG (1.O MM2), FOR EARTH GROUND WIRE. 2 TO ASSURE PROPER ELECTRICAL CONTACT, WIRES MUST BE TWISTED TOGETHER BEFORE INSERTION INTO THE TERMINAL BLOCK. 3 ANALOG OUTPUTS FROM SENSOR ARE 4 TO 20 mA SIGNALS. A 499 OHM 1% TOLERANCE (OR BETTER) PRECISION RESISTOR IS REQUIRED TO DRIVE THIS AND OTHER 4 TO 20 mA SIGNAL DEVICES. PLACE THIS RESISTOR AS CLOSE AS POSSIBLE TO THE DRIVEN DEVICE. 4 DIP SWITCH S1 FOR HUMIDITY MODELS ONLY. SEE TR23 INSTALLATION INSTRUCTIONS, FORM NO. 62-0267, FOR CONFIGURATION DETAILS. M29756 Fig. 21. Controller wiring diagram (model CP-UL6438S shown) for typical AHU application. (For note 2, refer to Fig. 15.) 63-2686--02 18 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS OCCUPANCY SENSOR (CONTACTS CLOSED EQUALS OCCUPIED) WINDOWS CONTACTS (CONTACTS CLOSED EQUALS WINDOW CLOSED) AO-1 DI-3 COM 2 DI-2 20 VDC 20 VDC UI-5 DI-1 COM UI-1 UI-2 UI-3 499 COM 3 UI-4 499 2 COM UI-6 OUTDOOR ENTHALPY RETURN ENTHALPY 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 DISCHARGE AIR TEMP 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM FAN 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 +- 24 VAC 24 VAC COM 2 1 LONWORKS-BUS LONWORKS-BUS 12 11 10 9 8 7 6 5 4 3 2 1 COM DO-4 DO-3 COM COM DO-8 HEAT 1 HEAT 2 24 VAC HUM OVERRIDE LED SETPT LON LON + SENSOR GND DO-2 COMP 1 TR23-H ONLY DIP DIP SWITCH S2 SWITCH ON ON S1 DO-1 DO NOT CHANGE 4 SW1 SW2 SW1 SW2 THIS SWITCH POSITION. ON DIP SWITCH S3 (TR23 AND TR24 ONLY.) SW1 SW2 SW3 COMP2 1 EARTH GROUND WIRE LENGTH SHOULD BE HELD TO A MINIMUM. USE THE HEAVIEST GAUGE WIRE AVAILABLE, UP TO 14 AWG (2.O MM2) WITH A MINIMUM OF 18 AWG (1.O MM2), FOR EARTH GROUND WIRE. 2 TO ASSURE PROPER ELECTRICAL CONTACT, WIRES MUST BE TWISTED TOGETHER BEFORE INSERTION INTO THE TERMINAL BLOCK. 3 ANALOG OUTPUTS FROM SENSOR ARE 4 TO 20 mA SIGNALS. A 499 OHM 1% TOLERANCE (OR BETTER) PRECISION RESISTOR IS REQUIRED TO DRIVE THIS AND OTHER 4 TO 20 mA SIGNAL DEVICES. PLACE THIS RESISTOR AS CLOSE AS POSSIBLE TO THE DRIVEN DEVICE. 4 DIP SWITCH S1 FOR HUMIDITY MODELS ONLY. SEE TR23 INSTALLATION INSTRUCTIONS, FORM NO. 62-0267, FOR CONFIGURATION DETAILS. M29757 Fig. 22. Controller wiring diagram (model CP-UL6438S shown) with 4 to 20 mA enthalpy sensors and digital inputs. (For note 2, refer to Fig. 15.) 19 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS TWO - OR THREE-WAY CHILLER WATER VALVE TWO - OR THREE-WAY HOT WATER/ STEAM VALVE SERIES 70 VALVE ACTUATOR 24 IN- VAC COM PUT SERIES 70 VALVE ACTUATOR 24 IN- VAC COM PUT AO-3 DI-1 AO-1 AO-2 UI-1 UI-3 UI-2 COM COM UI-6 DISCHARGE AIR TEMP 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 FAN 3 24 VAC +24 VAC COM 1 2 3 4 5 6 7 8 2 1 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 COM DO-4 COM CW COM CCW ML6161 DAMPER ACTUATOR LONWORKS-BUS DO-2 DO-1 DAMPER CLOSED LONWORKS-BUS 12 11 10 9 8 7 6 5 4 3 2 1 DIP SWITCH ON S1 DIP SWITCH S2 DO NOT ON CHANGE THIS SWITCH DAMPER OPEN 24 VAC HUM OVERRIDE LED SETPT LON LON + SENSOR GND 4 SW1 SW2 SW1 SW2 POSITION. TR23-H ONLY DIP ON SWITCH S3 (TR23 AND TR24 SW1 SW2 SW3 ONLY.) 1 EARTH GROUND WIRE LENGTH SHOULD BE HELD TO A MINIMUM. USE THE HEAVIEST GAUGE WIRE AVAILABLE, UP TO 14 AWG (2.O MM2) WITH A MINIMUM OF 18 AWG (1.O MM2), FOR EARTH GROUND WIRE. 2 TO ASSURE PROPER ELECTRICAL CONTACT, WIRES MUST BE TWISTED TOGETHER BEFORE INSERTION INTO THE TERMINAL BLOCK. 3 MAKE SURE ALL TRANSFORMER/POWER WIRING IS AS SHOWN: REVERSING TERMINATIONS WILL RESULT IN EQUIPMENT MALFUNCTION. 4 DIP SWITCH S1 FOR HUMIDITY MODELS ONLY. SEE TR23 INSTALLATION INSTRUCTIONS, FORM NO. 62-0267, FOR CONFIGURATION DETAILS. M29758 Fig. 23. Controller wiring diagram (model CP-UL6438S shown) with 4 to 20 mA heating, cooling, and model ML6161 damper actuator. (For note 2, refer to Fig. 15.) 63-2686--02 20 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS AO1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 + 24 VAC 24 VAC - COM 2B 1 RP7517B PNEUMATIC VALVE ACTUATOR BROWN BLACK BLUE 1M M 1 USE 1/4 IN (6 MM) PNEUMATIC TUBING. MINIMUM BRANCH LINE MUST BE 6 FT. (1.8M) OR LONGER. 2 TERMINALS 21, 23, AND 24 ARE ANALOG OUTPUTS. M29170 Fig. 24. Controller wiring diagram (model CP-UL6438S shown) for RP7517B pneumatic transducer. CHECKOUT Step 1. Check Installation and Wiring Inspect all wiring connections at the controller terminals, and verify compliance with installation wiring diagrams. If any wiring changes are required, first be sure to remove power from the controller before starting work. Pay particular attention to: -- 24 Vac power connections. Verify that multiple controllers being powered by the same transformer are wired with the transformer secondary connected to the same input terminal numbers on each controller. Use a meter to measure 24 Vac at the appropriate terminals (see Fig. 13 on page 10). Controller configurations are not necessarily limited to three devices, but the total power draw, including accessories, cannot exceed 100 VA when powered by the same transformer (U.S. only). -- Be sure that each controller has terminal 3 wired to a verified earth ground, using a wire run as short as possible with the heaviest gauge wire available, up to 14 AWG (2.0 sq mm) with a minimum of 18 AWG (1.0 sq mm) for each controller in the group (see Fig. 13 on page 10). -- Verify that Triac wiring of the digital outputs to external devices uses the proper load power and 24 Vac common terminal (digital output common terminals) for High-Side switching. NOTE: All wiring must comply with applicable electrical codes and ordinances or as specified on installation wiring diagrams. For guidelines for wiring run lengths and power budget, see "Power" on page 7. VERIFY TERMINATION MODULE PLACEMENT (MULTIPLE CONTROLLERS ONLY) The installation wiring diagrams should indicate the locations for placement of the 209541B termination module(s). See Fig. 14 on page 11 and refer to the "LONWORKS® Bus Wiring Guidelines," form 74-2865, and the "FTT Termination Module Installation Instructions," form 95-7554. Correct placement of the termination module(s) is required for proper LONWORKS® Bus communications. Step 2. Startup Refer to Fig. 25 and the following text for startup information. LED TERMINALS 21-40 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 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 24 VAC 24VAC COM EGND SHLD SBUS1 SBUS2 NET-1 NET-2 DO-1 DO-2 COM DO-3 DO-4 COM DO-5 DO-6 COM DO-7 DO-8 COM 1 2 3 4 5 6 7 8 1 1 1 1 1 1 1 1 1 1 2 9 0 1 2 3 4 5 6 7 8 9 0 TERMINALS 1-8 LONWORKS® BUS JACK (LABELLED SRV JCK) TERMINALS 9-20 NEURON® SERVICE PIN (LABELLED SRV PIN) M23562B Fig. 25. LED, service pin, and network connection locations. BROADCAST THE SERVICE MESSAGE The Service Message allows a device on the LONWORKS® Bus to be positively identified. The Service Message contains the controller's Neuron® ID number and node type. This is used to confirm the physical location of a particular ComfortPoint Lon device in a building. · To send the Service Message from the controller, press the NEURON® Service Pin pushbutton on the controller (see Fig. 25 above, and Fig. 16 and Fig. 17 on page 14). This button sends out the Service Message when it is pressed, regardless of the controller's current mode of operation. CAUTION Equipment Damage Hazard. Can cause controller damage or failure. Do not use any metal object to press the NEURON® Service Pin. Use a plastic rod or wood device (such as a pencil with the lead broken off) to press the pin. Using a metal object can damage the circuitry of the controller. CONTROLLER STATUS LED: The LED on the front of the controller provides a visual indication of the status of the device. When the controller receives power, the LED appears in one of the following allowable states, as described in Table 8. 21 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS Table 8. Status LED states. LED State Blink Rate Status or Condition OFF Not applicable No power to processor, LED damaged, low voltage to board, or controller damaged. ON ON steady; Processor and/or not blinking controller is not operating. Very Slow Blink 1 second ON, Controller is operating (continuous) 1 second OFF normally. Slow Blink (continuous) 0.5 second ON, 0.5 second OFF Controller alarm is active, controller in process of download, or controller lost its configuration. Medium Blink 0.25 second ON, Controller firmware is (continuous) 0.25 second OFF loading. Fast Blink (continuous) 0.10 second ON, Controller is in manual 0.10 second OFF mode under control of the PC-based software tool. Step 3. Checkout Completion At this point the controller is installed and powered. To complete the checkout, the NIAGARA FRAMEWORK® application (run on a PC) is used to configure the I/O and functions of the controller. Refer to the Programming Tool User Guide, form no. 63-2662, for controller configuration and programming details. CONTROLLER REPLACEMENT There are no serviceable or repairable parts inside the controller. WARNING Fire, Explosion, or Electrical Shock Hazard. Can cause severe injury, death or property damage. Do not attempt to modify the physical or electrical characteristics of this device in any way. Replace the controller if troubleshooting indicates a malfunction. WARNING Electrical Shock Hazard. Can cause severe injury, death or property damage. Disconnect power supply before beginning controller replacement to prevent electrical shock or equipment damage. Terminal Block Removal To simplify controller replacement, all terminal blocks are designed to be removed with the wiring connections intact and then re-installed on the new controller. See Fig. 26 and refer to the following procedure: IMPORTANT To prevent bending or breaking the alignment pins on longer terminal blocks, insert the screwdriver at several points to evenly and gradually lift up the terminal block. Insert the screwdriver blade no more than 1/8 in. (3 mm) to prevent damage to the terminal block alignment pins on the controller circuit board. SHORT TERMINAL BLOCK LONG TERMINAL BLOCK M23563 Fig. 26. Removing Terminal Blocks. 1. Use a thin-bladed screwdriver to evenly raise the terminal block from its alignment pins: a. For short terminal blocks (1 to 5 terminals), insert screwdriver blade in the center of the terminal block and use a back and forth twisting motion to gently raise the terminal block from its alignment pins 1/4 in. (6.35 mm). b. For long terminal blocks (6 or more terminals), insert screwdriver blade on one side of the terminal block and gently rotate the blade 1/4 turn. Then, move to the other side of the terminal block and do the same. Repeat until the terminal block is evenly raised 1/4 in. (6.35 mm) from its alignment pins. 2. Once the terminal block is raised 1/4 in. (6.35 mm) from its alignment pins, grasp the terminal block at its center (for long terminal blocks grasp it at each end) and pull it straight up. Controller Replacement (CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS) For CP-VL0000AS, CP-VL4022AS, and CP-VL6436AS controllers, which are hard-wired to an actuator, perform the following actions to replace the complete assembly (controller and actuator): 1. Remove all power from the controller. 2. Remove the two air flow pickup connections from the pressure sensor. 3. Remove the terminal blocks (See "Terminal Block Removal"). 4. Remove the old controller and actuator assembly from its mounting. · Loosen the two bolts on the actuator clamp to release the actuator from the shaft. · Remove the controller's mounting screws. · Gently pull the controller and actuator assembly straight out, until the assembly is clear of the actuator shaft. 5. Mount the new controller and actuator assembly (See "Installation" on page 3.). 63-2686--02 22 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS 6. Reconnect the two air flow pickup tubes to the pressure sensor (See "Piping (CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS)" on page 6.). 7. Replace the terminal blocks: · Insert each terminal block onto its alignment pins. · Press straight down to firmly seat it. · Repeat for each terminal block. 8. Restore power to the controller. 9. Perform "Checkout" on page 21. Controller Replacement (CP-VL4024NS and CP-VL6438NS) Perform the following to replace the CP-VL4024NS and CP-VL6438NS controllers: 1. Remove all power from the controller. 2. Remove the two air flow pickup connections from the pressure sensor. 3. Remove the terminal blocks. · See "Terminal Block Removal" on page 22. 4. Remove the old controller from its mounting. IMPORTANT (FOR CONTROLLERS MOUNTED TO A DIN RAIL): 1. Push straight up from the bottom to release the top pins. 2. Rotate the top of the controller outwards to release the bottom flex connectors (see Fig. 8 on page 6). 5. Mount the new controller. · See "Installation" on page 3. 6. Reconnect the two air flow pickup tubes to the pressure sensor (See "Piping (CP-VL0000AS, CP-VL4022AS, CP-VL4024NS, CP-VL6436AS, and CP-VL6438NS)" on page 6.). 7. Replace the terminal blocks: · Insert each terminal block onto its alignment pins. · Press straight down to firmly seat it. · Repeat for each terminal block. 8. Restore power to the controller. 9. Perform "Checkout" on page 21. Controller Replacement (CP-UL1012S, CP-UL4024S, and CP-UL6438S) Perform the following to replace the CP-UL1012S, CP-UL4024S, and CP-UL6438S controllers: 1. Remove all power from the controller. 2. Remove the terminal blocks (See "Terminal Block Removal" on page 22.). 3. Remove the old controller from its mounting. IMPORTANT (FOR CONTROLLERS MOUNTED TO A DIN RAIL): 1. Push straight up from the bottom to release the top pins. 2. Rotate the top of the controller outwards to release the bottom flex connectors (see Fig. 8 on page 6). 4. Mount the new controller (See "Installation" on page 3.). 5. Replace the terminal blocks: · Insert each terminal block onto its alignment pins. · Press straight down to firmly seat it. · Repeat for each terminal block. 6. Restore power to the controller. 7. Perform "Checkout" on page 21. 23 63-2686--02 COMFORTPOINT PROGRAMMABLE LON, VAV/UNITARY CONTROLLERS Automation and Control Solutions Honeywell International Inc. 1985 Douglas Drive North Golden Valley, MN 55422 Honeywell Limited-Honeywell Limitée 35 Dynamic Drive Toronto, Ontario M1V 4Z9 customer.honeywell.com By using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys' fees, arising out of, or resulting from, any modification to the literature by you. ® U.S. Registered Trademark © 2010 Honeywell International Inc. 63-2686--02 M.S. Rev. 01-10 Printed in U.S.A.Acrobat Distiller 9.2.0 (Windows)