TC_08-14 Horiz Standard PE with Econo 276 lbs
Transcription
TC_08-14 Horiz Standard PE with Econo 276 lbs
SUBMITTAL DATE: 1 / 07 FORM NO. 2140-13P Carrier Units DRAWN BY: JOB NAME: EQUIPMENT: NOTES: 48/50TC A/D08; 48/50TF,TM 008-009; 50TFQ 008; 48/50HJ 008; 50HJQ 008 48/50HC D08-D09; 50TFQ 009 48/50TC A09; 50TCQ D08-D09; 48/50HJ 009; 50HJQ 009 Power Exhaust • Blower motor includes automatic internal thermal protection. • Blower motor includes adjustable pulley. • Transformer, contactor, and relay are factory mounted in electrical box, located on hinged front panel. • Blowers have prelubricated ball bearings with rubber isolators and a dynamically balanced wheel. • Package includes 0849 horizontal economizer, economizer enthalpy controls, and centrifugal power exhaust. • Modulating power exhaust available. CM ® 1882-0202, 0302 Power Exhaust Specifications SUBMITTED TO COMPANY: LISTED Part Number: Centrifugal Power Exhaust and Economizer for Horizontal Application for Carrier 48/50TC A/D08,A09,A/D12,D14; 50TCQ D08-D12; 48/50HC D08-D12; 48/50TF,TM,HJ 008-014; 50TFQ 008-014; 50HJQ 008-009 Units MicroMetl Voltage 1882-0202-54930 208/230V, 3PH 4882-0202-54930 460V, 3PH 5882-0202-54930 575V, 3PH 1882-0202-8-54930 208/230V, 3PH 4882-0202-8-54930 460V, 3PH 5882-0202-8-54930 575V, 3PH 1882-0302-54930 208/230V, 3PH 4882-0302-54930 460V, 3PH 5882-0302-54930 575V, 3PH CFM Performance by Ext. Static 0.1 0.2 0.25 0.3 3420 2970 2700 2430 Full Load Amps (1) Motor RPM HP APPRX. WT. LBS 1725 1 272 1725 1 274 1725 2 276 3.3/3.4 1.7 1.1 3.3/3.4 3420 2970 2700 2430 1.7 1.1 6.6/6.6 3780 3670 3600 3465 3.3 2.4 Note: (1) For proper wire sizing to the unit, add unit full load amps and MicroMetl power exhaust full load amps. (2) External static would be specific to each job and may include return air duct, dampers in return air and/or return grilles. (3) Package includes 0849 horizontal economizer, enthalpy economizer controls and centrifugal power exhaust. Return air damper on 0849 economizer CM C 48/50TC A/D12,D14; 48/50HC D12; 48/50TF,TM,HJ 012-014; 50TCQ D12; 50TFQ 012-014 MicroMetl Part Numbers Rooftop HVAC unit Filter access door LISTED Economizer rain hood 18.000 28.250 28 Economizer includes Honeywell W7212 controller capable of CO2 demand control and power exhaust control. .00 0 A Top Application View Specifications (in inches) B 31.438 Carrier Units Side View "A" 48/50TC A/D08; 48/50TF,TM 008-009; 50TFQ 008; 48/50HJ 008; 50HJQ 008 16.000 1.0 TY 00 P. Field supplied return duct Barometric backdraft damper 26.000 Blower hood requires field provided support Centrifugal exhaust fan 48/50HC D08-D09; 50TFQ 009 48/50TC A09; 50TCQ D08-D09; 48/50HJ 009; 50HJQ 009 48/50TC A/D12,D14; 48/50HC D12; 48/50TF,TM,HJ 012-014; 50TCQ D12; 50TFQ 012-014 Power Exhaust Part No. A B 34 1/2" 32 1/2" 37 1/2" 35 1/2" 37 1/2" 35 1/2" 1882-0202-54930 4882-0202-54930 5882-0202-54930 1882-0202-8-54930 4882-0202-8-54930 5882-0202-8-54930 1882-0302-54930 4882-0302-54930 5882-0302-54930 THIS DOCUMENT IS THE PROPERTY OF MICRO METL CORPORATION AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DISCLOSED OR USED WITHOUT MICRO METL'S WRITTEN CONSENT. MMC Indianapolis - 3035 north shadeland AVENUE, suite 300 INDIANAPOLIS, IN. 46226 1-800-662-4822 / MMC West 202 South 18th St. Sparks, NV 89431 1-800-884-4662 MicroMetl Horizontal Economizer Only INSTALLATION INSTRUCTIONS 1882, 4882, 5882 - 0102, 0202, 0302 Horizontal Economizer and Power Exhaust Top filter access door. (shipped with HVAC unit) ILL.#1 1) Disconnect power to HVAC unit. Set aside for use later. Remove and discard the filter access door and bottom panel shipped with HVAC unit. Disc ard pan this el 2) Unpack economizer. 3) Remove the discharge air sensor from the economizer and install in the supply air chamber next to the indoor blower. (ILL. 6) 4) Turn economizer on end. Slide economizer into return air chamber. (ILL. 2) Be sure return damper is oriented toward horizontal return opening. Some units will require slightly lifting top up. HVAC unit's bottom panel. Remove and discard. ILL.#2 5) On 10-12 1/2 ton units and some 8 1/2 ton units only. Install horizontal blank off (ILL. 3.) on top of horizontal return air opening. Rooftop Unit Outside Air Damper 6) Caulk the outside air hoods and secure to panel. Install aluminum filters in hoods. 7) Install hood/panel assembly over the economizer. NOTE: You must lift the unit top to install this panel over the economizer. Screw in place. Filter Door ILL.#3 END VIEW Horizontal Blank off for 10-12 1/2 ton and some 8 1/2 ton units only 12 11/16"" 3 3/4" M M C 3035 N. Shadeland Avenue, Suite Indianapolis, IN. 46226 MMC West Relief Blades 202 S. 18TH ST. Sparks, NV. 89431 Manufacturer reserves the right to discontinue, or change at any time, specifications, designs and prices without notice and without incurring obligations. Form No. 2909-5P Copyright MicroMetl Corporation 2003. All rights reserved. 7) On 7 1/2, 8 1/2 ton units remove panel extender. (ILL. 5) ILL.#4 8) Install the field supplied horizontal return air duct over the opening (ILL. #4) caulk and screw it in place. Field supplied return duct. 9) Connect the wiring per the enclosed instructions and diagrams. 10) Test cycle the economizer. Motor and logic access provided behind filter access door. Panel extender (10 & 12 1/2 ton and some 8 1/2 ton units only) Panel extender for 10, 12 1/2 and some 8 1/2 ton units only (See note 10) STEP #3 - ILL.#5 Filter Door Rainhood with aluminum filter IMPORTANT ! - please read ! Use 1 of the next 2 pages to wire the economizer. To determine which page to use, check economizer harness in HVAC unit and compare to wiring instruction description at top of each page. Cycle test and adjust. ILL.#6 Side View Mount discharge sensor here Plug-in economizer harness Indoor blower HVAC unit filter 2 Wiring Instruction for Use whth 12 Pin Plug Enthalpy and Adjustable Dry Bulb terminal board PLEASE READ CAREFULLY ! Follow these instructions if the economizer wiring harness in the HVAC unit has a 12 pin plug. 9962-0142 Wiring Harness with 12 pin plug Factory installed harness... ILL. #11 factory attached to terminal board Control compartment IMPORTANT ! Economizer and hood CONTROL SYSTEM NOTES: 1. The HVAC unit has an economizer wiring harness factory installed. It attaches to the 9962-0142 economizer harness on one end and is factory attached to the unit's terminal board on the other end (ILL. #11). 2. The 9962-0047 pigtail and the 9962-0073 adaptor harness are available from factory for obsolete units with 9 pin plug. 9962-0142 Wiring Harness WIRING INSTRUCTIONS for use with 12 pin economizer plug. STEP #4 ILL. #12 • Plug the economizer's 9962-0142 wiring harness into the HVAC unit's harness. 1 If using differential enthalpy, setpoint should be at "D". 2 Compressor lockout switch on some models. Lockouts out compressors at 35°F (+/- 5°). STEP #5 • Mount the MicroMetl discharge sensor in the unit blower compartment. (see ILL. 6) Remove this jumper / resistor 3 when using differential enthalpy. NOTE: There are (4) loose wires available in the HVAC unit. Connect the pink and voilet wires to the discharge sensor. Do not use the brown and white wires. MicroMetl discharge sensor (mount in blower compartment) Connect the pink and voilet wires to the discharge sensor. Do not use brown or white wires. To compressor lockout "1" on HVAC unit To compressor lockout "2" on HVAC unit (if 2 stage is used). Pink 4 Maintains mixed air temperature 4 between 50° - 56°. Plug harness installed in HVAC unit. Exhaust Fan Set Point MicroMetl economizer harness / plug Minimum Position Setting 3 DCV / CO2 maximum setpoint DCV / CO2 activation setpoint Power exhaust fan connection EF EF1 AQ To optional CO2 Sensor Enthalpy 1 changeover setpoint AQ1 N Black 24V HOT 3 MicroMetl Integrated Economizers The purpose of an economizer is to use outdoor air for cooling , whenever possible, to reduce compressor operation. The economizer system initially responds to a signal from the cooling thermostat and functions as a true first stage for cooling, while providing maximum fuel economy. The economizer is automatically locked out during the heating mode and holds the outdoor air damper at the minimum position settings. During the occupied period, on a call for cooling, when outdoor air temperature or enthalpy conditions are low, the economizer actuator will proportion to maintain between 50º F and 56º F at thermistor discharge sensor. If the mixed or discharge temperature is above 56º F, actuator will open to admit additional outdoor air until the temperature returns to the 50º to 56º F range. If the mixed or discharge air temperature is below 50º F, the actuator will proportion closed, shutting the outdoor air damper until the temperature returns to the 50º to 56º F range. During the occupied period, the actuator will not close past the minimum position. 4 If the fully open actuator cannot satisfy the space demand, mechanical cooling is sequenced on. During the unoccupied period, the actuator will override minimum position setting and drive fully closed. On a loss of power, the actuator will spring return fully closed. When in heating operation, or when outdoor air temperature or enthalpy conditions are high, economizer operation is locked out, and actuator is held at minimum position. The staging relay is used when the first stage compressors must provide mechanical cooling when assisting the economizer. The staging relay can be omitted when the second stage compressors can be used to assist the economizer with mechanical cooling. Component Description 1 4C 3 4A 4B 2 5 1.) Damper actuator ... 9901-1865 provides 24v modulating control of economizer dampers, 25 in. lb. of torque. (Honeywell M7215A-1008) 2.) Discharge sensor ... 9901-0001 provides a signal (3000 Ohms at 25°C or 77°F) to the actuator during free cooling or economizer mode. The signal opens the economizer damper until the discharge temperature drops below 55°. At this time the signal causes the motor to modulate the damper and mix outside air with return air to maintain a 50° F. to 56° F. discharge temperature. 3.) Economizer logic ... 9901-1805 accepts input from discharge sensor and outside air sensor. Analyzes input to control actuator modulation and economizer switching. Logic also houses minimum position adjustment, enthalpy or adjustable dry bulb adjustment, power exhaust control, and CO2 demand control ventilation adjustment. When used with optional differential sensors in the return air, the logic is capable of selecting the most economical air available for cooling. (Honeywell W7212-A1009) 4A.) Enthalpy sensor ... 9901-0018 senses and combines temperature and humidity of outdoor air. And also provides the signal to the economizer logic. (Honeywell C7400A used on 1008-0100) 4B.) Adjustable dry bulb...9901-0251 senses temperature of outside air and provides signal to the economizer logic. (Honeywell C7650A-1001 used on 1009-0100) 4C. Fixed dry bulb... 9901-0183 senses temperature of outside air. If below 70° setpoint, allows for free cooling. 5.) Wire harness color coded and pre-wired to actuator and economizer logic. 5 Minimum Position Adjustment The minimum position potentiometer keeps the outdoor air damper from closing completely during system operation to provide ventilation. 1. Make sure the factory installed jumper is in place across 3. Connect 24V AC to system and adjust the potentiomterminals P and P1. eter on the face of the logic module with a screwdriver for desired minimum position. 2. If remote control of dampers is desired, connect the remote potentiometer to P and P1 and turn it fully clockwise before adjusting the minimum position. Single enthalpy: The enthalpy changeover setpoints is set to return the outdoor air damper to minimum position when the enthalpy rises above its set point. The enthalpy setpoint scale markings, located on W7212 are A,B,C,D as shown below. The factory-installed 620-ohm jumper must be in place across terminals + and SR unless using differential enthalpy. Single Dry Bulb: The dry bulb changeover setpoint is set to return the outdoor air damper to minimum position when the temperature rises above it's setpoint. The setpoint scale markings, located on the W7212, are A,B,C,D as shown below. The factory installed 620-ohm jumper must be in place across terminals + and SR unless using differential dry bulb. mA Signal Adjustable Dry Bulb Changeover Setpoint (1009-0100) 10 11 12 13 14 15 16 17 18 19 20 Enthalpy Changeover Setpoint (A1008-0100) 40 D setting C setting B setting A setting 50 60 70 80 90 100 EXAMPLE FOR DETERMINING ADJUSTABLE DRY BULB CONTROL SETTING (1009-0100) Differential Changeover Setting Differential enthalpy control utilizes two enthalpy sensors connected to one W7212 Economizer Control. The enthalpy setpoint scale markings, located on the W7212, are A,B,C,D. Turn the setpoint potentiometer fully clockwise past the D setting. The economizer will select the air with lower enthalpy for cooling; i.e., if outdoor air has lower enthalpy than return air, then the outdoor air damper will be opened to bring in outdoor air for free cooling. The differential enthalpy connects to SR and + on the W7212 logic. Note: The C7650A adjustable dry bulb can also be used for differential change over. Only the temperature of the outdoor air and return air will be compared and the best selected for free cooling. 6 CAUTION Exercise care when adjusting the changeover set point and minimum position setting. EX CESSIVE FOR CE MA Y XCESSIVE FORCE MAY DAMAGE THE CONTROLS POWER EXHAUST INSTRUCTIONS: Rooftop HVAC Unit Hinged and latched filter access door MicroMetl series horizontal economizer ILL. #1 MicroMetl Power Exhaust Package Apply gasketing this side. C Economizer Hoods Field supplied return air duct Side View "A" A Barometric backdraft damper "A" B Quick disconnect plug NOTE: Blower hood may require field provided support. IMPORTANT NOTE: Follow all local codes when wiring system. 1.) The switch which activates the power exhaust is an intergal part of the economizer logic. Adjust to job requirements on the economizer. Install the horizontal economizer per instructions provided. 2.) Apply gasketing to mating flanges of exhaust assembly. Lift top of HVAC unit so that wires can be run to HVAC unit's control compartment. Slide top flange of exhaust section under top flange of unit and secure in place (ILL. #1). 3.) Apply gasket to mating flanges of fan / hood assembly. Slide top flange of hood under access panel's bottom flange and secure fan / hood assembly in place. Centrifugal exhaust fan Contactor provided with power exhaust package. Specifications (in inches) MicroMetl Power B C Exhaust Part No. A 1882, 4882, 5882 26 3/ " 16 5/ " 22" 8 8 -0102-54930 1882, 4882, 5882 35 1/ " 19" 28 3/ " 4 8 -0202-54930 1882, 4882, 5882 43 1/ " 19" 30 1/ " 4 2 -0302-54930 4.) First Calculate MCA New using the following formula: MCA New = MCA unit only + MCA of Power Exhaust For example, using a 48HJD006—5 unit with MCA = 28.9 and MOCP = 35, with CRPWREXH030A00 power exhaust. MCA New = 28.9 amps + 1.6 amps = 30.5 amps. 5a.) If MCA New < MOCP for the HVAC unit, you can tie the power wire to the HVAC contactor terminal strip. See Diagram 1, or follow 5b. SEE REVERSE SIDE OF THIS SHEET FOR WIRING INSTRUCTIONS. 5b.) If MCA New > MOCP for the HVAC unit, you must run power wire for the power exhaust to an external disconnect. Make sure the disconnect is sized properly for the power from the power exhaust as well as the HVAC unit. *Refer to Diagram 1 on Page 8 for more information. 7 5a From power exhaust terminal block 5b DIAGRAM 1 NOTES: 1. 575 V transformer No. HT01AH859 is ordered separately from power exhaust. 2. EconoMi$er2 actuator and controller are shipped with the EconoMi$er2 — not with power exhaust. 3. Connections from End Switch plug to the EconoMi$er2 controller are made by installer. 4. If a single power source is to be used, size wire to include power exhaust MCA and MOCP. Check MCA and MOCP when power exhaust is powered through the unit. Determine the new MCA including the power exhaust using the following formula: MCA New = MCA unit only + MCA of Power Exhaust 8 For example, using a 48HJD006—5 unit with MCA = 28.9 and MOCP = 35, with CRPWREXH030A00 power exhaust. MCA New = 28.9 amps + 1.6 amps = 30.5 amps. If the new MCA does not go over the MOCP published, then MOCP would not change. The MOCP in this example is 35 amps, the MCA New is below 35, therefore the MOCP is OK. If “MCA New” is larger than the published MOCP, raise the MOCP to the next larger size. For separate power, the MOCP for the power exhaust will be 15 amps per NEC. POWER EXHAUST WIRING WIRING INSTRUCTIONS ILL. #3 Rooftop HVAC Unit STEP 4 • Connect power exhaust cord to HVAC unit disconnect by removing HVAC unit top (see ILL. #3). • Component wired per diagram shown below. Route line voltage wires back to unit's disconnect box. Secure wires in place away from all moving parts. MicroMetl Power Exhaust Package Field supplied return air duct IMPORTANT NOTE: Follow all local codes when wiring system. Economizer hood CAUTION ! Outside air blades will be completely open before exhaust fan is activated. CAUTION ! Exhaust fan can cause severe injury. Always disconnect power before servicing. Exhaust fan activation adjustment ILL. #4 **Wire color can be substituted to Red, White, Black, and Green between the motors and power exhaust terminal block. 24-Volt Transformer Color Code ** Refer to Diagram 1. Use the formula on page 2 and 3 to determine electrical configuration. Common Power Yellow ________ Red - 208V Yellow ________ Orange - 230V Yellow ________ Black - 460V Black _________ Grey - 575V 9 PLUG #2 MODULATING BLOWER POWER EXHAUST (OPTION) Blower Modulation Installation Instructions (use this page only if the modulating exhaust option has been ordered) This Power Exhaust contains a motor controller that varies the blower speed in order to maintain an acceptable room pressure. The power exhaust is equipped with a pressure sensing transducer that compares room pressure to atmospheric. This transducer sends a signal to the motor controller which varies the motor voltage in order to provide pressure relief. Installation Instructions: 1. Install 1/8" i.d or 3/16" i.d. pressure tubing to the room pressure sensor located within the building space. 2. Place the HVAC unit in continuous operation mode. 3. In order to determine system operation conditions, adjust the economizer minimum position to 100% outside air. At this time measure the room static pressure differential to insure that the space is balanced to an acceptable pressure difference (i.e. less than 0.05” w.g.). If the room pressure is above 0.05” w.g., increase the blower speed by adjusting the motor pulley. 4. Measure the power exhaust line amperage at the disconnect box. Compare the amperage to the table below to insure that the motor will not overload during modulation. 5. The amp draw must not exceed the values listed below. 6. If the amperage is too high, the blower must be slowed down by adjusting the pulleys. Repeat steps 3 to 6. If the room pressure is excessive at this point, call MicroMetl for further assistance. ILL. #13 Factory installed tubing to atmospheric pressure port Factory installed tubing to room pressure sensor 25 ft of tubing factory supplied Factory installed motor controller Return air duct. Field supplied 10 Transducer factory installed Tubing for room pressure field installed Factory installed atmospheric pressure port. Covered by hood Maximum Amp Draw Room pressure sensing port. Mount to ceiling or wall HP 208 V 230 V 460 V 575 V 3-6 ton 1/2 2.3 2.2 1.1 .65 7 1/2 - 8 1/2 ton 1 3.3 3.4 1.7 1.1 10- 12 1/2 ton 2 6.6 6.6 3.3 2.4 MODULATING POWER EXHAUST WIRING ILL. #8 **Wire color can be substituted to Red, White, Black, and Green between the motors and VFD. ORANGE YELLOW TR ORANGE TR1 ECONOMIZER LOGIC ORANGE 24 Volt Power 1 2 5 12 2 14 13A 2 S Series Controller ** Refer to Diagram 1. Use the formula on page 2 and 3 to determine electrical configuration. Fuse Block BLUE YELLOW BLUE BLACK YELLOW BLACK 10 amp KTK-R Fuses 1682-0201 (12 amp KTK-R Fuses) G Setting PID Set-point: 1) Power the Power Exhaust. CAUTION: MOVING PARTS! 2) Set-point value is displayed (factory pre-set to 125 psi). 3) Using the arrow keys, set the desired pressure level (in w.g. * 1000). 4) In order to fine tune the PID Control, refer to above. The drive password is 14. Please note that the PI units displayed on the drive are reference units only. Multiply PI Units, set-point and feedback, by 0.001 to determine space pressure. Transducer Output Space Pressure Vdc " wg 0 0 1 0.025 1.5 0.0375 2 0.05 3 0.075 4 0.1 5 0.125 6 0.15 7 0.175 8 0.2 9 0.225 10 0.25 PI Units Psi 0 25 37.5 50 75 100 125 150 175 200 225 250 11 12 13 14 15 16 17 18 19 20 21 22 23 MicroMetl Call Toll-Free: 1-800-662-4822 Fax: 1-317-543-5986 MicroMetl West Call Toll-Free: 1-800-884-4662 Fax: 1-775-356-9184 MMC 3035 N. Shadeland Ave., Suite 300 Indianapolis, IN 46226 MMC West 202 South 18th St. Sparks, NV. 89431 Manufacturer reserves the right to discontinue, or change at any time, specifications, designs & prices without notice and without incurring obligations. Form Copyright MicroMetl Corporation 2003. All rights reserved. 24 No. 2909-5P I&M011-10130_CXLdp:Layout 1 2/26/09 9:23 AM Page 1 MODEL CXLdp DIFFERENTIAL PRESSURE TRANSDUCER INSTALLATION & MAINTENANCE SHEET WARNING! READ BEFORE INSTALLATION 1. GENERAL: A failure resulting in injury or damage may be caused by excessive overpressure, excessive vibration or pressure pulsation, excessive instrument temperature, corrosion of the pressure containing parts, or other misuse. Consult Ashcroft Inc., Stratford, Connecticut, USA before installing if there are any questions or concerns. 2. OVERPRESSURE: Pressure spikes in excess of the rated overpressure capability of the transducer may cause irreversible electrical and/or mechanical damage to the pressure measuring and containing elements. 3. STATIC ELECTRICAL CHARGES: Any electrical device may be susceptible to damage when exposed to static electrical charges. To avoid damage to the transducer the operator/installer should follow proper ESD (electrostatic discharge) protection procedures before handling the pressure transducer. 4. USE IN LIFE SUPPORT DEVICES: Ashcroft Inc. products are not authorized for use as critical components in life support devices or systems without the express written approval of the General Manager, Stratford Operations of Ashcroft Inc. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. SPECIFICATIONS INSTALLATION Accuracy: (2) options,specified at time of order. • ±0.8% span - (±0.128ma for 4-20ma output units) - (±0.08V for 0-10Vdc output units) • ±0.4% Span - (±0.064ma for 4-20ma units) - (±0.04V for 0-10Vdc output units) Mounting: Output Signal: Specified at time of order. • 4-20ma (For symmetric bidirectional ranges 0IW= 12ma) • 0-10Vdc; 0-5Vdc User selectable option (For symmetric bidirectional ranges 0IW= 5 or 2.5Vdc respectively). Supply Voltage: • 4-20ma: 12-36 Vdc (no regulation required) (see Figure 1) • 0-10Vdc (0-5Vdc User selectable option): 1436 Vdc or 24 Vac (+/- 20%) Figure 1 Load Limitations 4-20mA Output The transmitter can be mounted on a 35 mm DIN rail or with #8 or #10 screws using the 4 mounting holes provided. Torque limits on the mounting holes provided is 6 inch-pounds. (see Figure 3) Figure 3 Use #10 screw or Use #8 screw Green LED Zero Pot Electrical Wiring: 1. Remove the terminal block on the front of the transmitter. 2. Follow the terminal block label markings on the CXLdp to identify the terminals; • 4-20ma Ouput: The left, negative (-), and right, positive (+) terminals are used, ignore the center terminal which is not used. Connect the power supply positive lead to the CXLdp positive terminal, connect the negative power supply lead to the negative terminal of the BCS 4-20ma input. Last, connect the (-) negative terminal on the CXLdp to the (+) positive BCS input. Loop Resistance (Ω) TING Vmin = 12V+ [.022A*(RL)] *includes a 10% safety factor RL = RS + RW RL = Loop Resistance (ohms) RS = Sense Resistance (ohms) RW = Wire Resistance (ohms) ZERO SPAN – + Loop Supply Voltage (Vdc) * F.S. pressure is equivalnt to the span of the transmitter (16mA). Zero adjust potentiometer Span adjust potentiometer + Reverse Wiring Protected + BCS – POWER – SUPPLY Electrical Connection: unpluggable terminal block accepts 12-26 AWG Operating Temperature: 0-160°F Enclosure: NEMA 1 Fire-retardant ABS Meets UL 94-5VA DESCRIPTION Weight: Approx. 2.5 oz. The Ashcroft® Model CXLdp is a low differential pressure transmitter to be used on clean, dry, non-corrosive gases. It is available in two accuracy classes and its performance is traceable to the U. S. National Institute of Standards and Technology (NIST). The 8 or 4 located in the third position of the product code distinguishes a 0.8% from a 0.4% accuracy transmitter. Both unidirectional (e.g. 0 to +1.0 IW) or bi-directional (e.g. ±2.0 IW) models are available. A green LED located on the front of the transmitter indicates power and operational status. The LED light intensity increases as pressure increases. Pressure Connection Options: 1⁄4˝ Brass Barbs or 1⁄8 NPT Female Brass Optional: 1⁄2˝ conduit or plenum mounting bracket and cover available as separately ordered kit – part number 101A213-01. (see Figure 2) • 0-10Vdc; 0-5Vdc Output: Follow label markings for terminal assignments; COM is for Common (supply and output negative), VIN is for supply positive and VOUT is for output signal. The CXLdp Voltage Output unit is supplied as standard with 0-10 V output, to convert to 0-5 V output see following instructions. Figure 2 Ashcroft Inc. 250 East Main Street 06614, Tel: 203-378-8281 • Fax: 203-378-0499, All specifications are subject to change without notice. © Copyright 2009. All sales subject to standard terms and conditions. www.ashcroft.com All rights reserved. I&M011-10130 AMR 1M 02/09 ZERO Zero adjust potentiometer SPAN Span adjust potentiometer COM VOUT VIN I&M011-10130_CXLdp:Layout 1 2/26/09 9:23 AM Page 2 MODEL CXLdp DIFFERENTIAL PRESSURE TRANSDUCER INSTALLATION & MAINTENANCE SHEET - 0-10 Vdc Output: Product is supplied as standard with 0-10 V output, see instruction below to access the Voltage Output jumper. - 0-5 Vdc Output: See below for proper jumper selection. To convert the unit from a 0-10 V output to a 0-5 V output unit note the following. Access the jumper by simultaneously pushing both housing tabs away from the housing, see drawings under “General Dimensions” for details. Change Figure 4 Jumper jumper (orange) (orange) into position as 0-10 Vdc shown below, carefully reattach housing cover. When finished mark check box on front label in0-5 Vdc dicating that the unit now provides a 0 – 5Vdc output. Label Part No. 238A713-01 3. Firmly reinstall the terminal block plug to its mating connector. Set Up: The transmitters are calibrated at the factory in the vertical position. Mounting in the horizontal position can cause a zero shift of as much as ±1% F.S. in ranges below 1 IW dp. Any minor zero offset can be minimized using the zero adjust potentiometer located on the front, left side of the instrument. To find true zero differential pressure, pneumatically connect the high and low pressure connections together using the tubing provided with the transmitter. The Figure 5 barbed connection accept 1⁄4˝ O.D. 1⁄8˝ I.D. tubing. (see Figure 5) When 1⁄8 NPT female brass fittings are used, do not exceed 60 inchpound torque force on female NPT fitting. When connecting to the NPT fittings, do not apply torque to the CXLdp fitting. Use a 9⁄16˝ wrench to hold the CXLdp. (see Figure 6) Figure 6 Zero potentiometer adjustment requires using a 3⁄32˝ or 2.5 mm slotted or phillips screwdriver. The tubing should remain in place until the transmitter is to be connected to the BCS tubing system. (see Figure 7) GENERAL DIMENSIONS FOR MODEL CXLdp (in inches) MB2 1⁄4˝ BARB FITTINGS "B2" 1/4 BARB FITTINGS 1.45 Zero and Span Potentiometers .37 1.32 ÿ .20 Figure 7 ZERO POWER SPAN Zero adjust potentiometer Span adjust potentiometer HI LO ZERO SPAN 2.90 3.33 ÿ .16 HOUSING TABS (2) Routine Maintenance: 1.89 The CXLdp is a very stable and reliable transmitter incorporating a proven, micro-machined silicon capacitive sensor and a new, state-of-the-art application specific integrated circuit (ASIC). All calibration and temperature compensation functions are done with a microprocessor and digital routines. To troubleshoot or verify performance, it is recommended to pneumatically connect the pressure ports to each other and establish a zero offset reading in the as-installed position. Adjusting zero will not affect span calibration. F01 1⁄8 NPT FEMALE FITTINGS "01" 1/8 FEMALE NPT FITTINGS 1.45 .37 1.32 POWER .56 Adjusting span should only be attempted when a high accuracy pressure standard and high quality electrical meter are able to be used. HI LO ZERO SPAN 2.90 3.33 1.89 DIN Rail Transmitter Removal: In order to remove the transmitter when it is installed on a DIN rail, it is necessary to first unplug the wiring terminal block from the transmitter. Insert a small slotted screwdriver into the black plastic clip extending slightly below the transmitter case. (see Figure 8) ASSEMBLED WITH 101A213-01 CONDUIT KIT ASSEMBLED WITH 101A213-01 CONDUIT KIT Figure 8 4.85 Next, raise the screwdriver handle up thereby forcing the spring clip down. If questions or concerns need to be addressed, our Low Pressure Product Manager or Engineering Personnel can be contacted at (203) 378-8281 or visit our website at www.ashcroft.com. 2.06 R .88 .78 Ashcroft Inc. 250 East Main Street 06614, Tel: 203-378-8281 • Fax: 203-378-0499, All specifications are subject to change without notice. © Copyright 2009. All sales subject to standard terms and conditions. www.ashcroft.com All rights reserved. I&M011-10130 AMR 1M 02/09