Carrier 33CSPREMLK Air Conditioner User Manual
Contents
1. PremierLink Connections 40RM Connections 38AKS Terminal Board TB2 PWR RED s s ee rt Se eee Se eS x ee Si HS3 EXH RVS ORN 40RM 40RMQ 40RMS HEAT ACCESSORY IE FE PNK r W1 E EA sis CE ota n 5 Wl OE CMP2 BLU EECHER Q CMP1 _ _ ee l YEL un G OBE FAN La 5 cm e onze l GY BRN 5 l l Ss o sss eed LEGEND CCR l CCR Capacity Control Relay If Equipped LLSV CCSV Capacity Control Valve Indoor Coil If Equipped Lev SE CR2 Control Relay No 2 Liquid Line Solenoid Valve IFC Indoor Fan Contactor LLSV Liquid Line Solenoid Valve Fig 2B Typical PremierLink Control Wiring 38AKS013 024 Units 4 PremierLink Connections 40RM Connections 38ARD Terminal Board TB PWR RED R HS3 EXH RVS ORN Y1 40RM 40RMQ 40RMS 1 SS HEAT ACCESSORY l SS PNK gt Mu wi u RUE RUE Wa w2 ed DEZ 1 je 252 usi wr Li e pure c Ras Hc Mar Ges v2 5x0 l X E aw OF eure BLU 5 CCR m zun2. To access the sub mode to change the Unoccupied OAT Lockout Setpoint press the down arrow to scroll down until the NavigatorTM module display reads SETP OATL gt NTLO UHDB To view an expansion of the sub mode press the ENTER and ESCAPE keys simultaneously and the Navigator will display gt NTLO UNOCC OAT LOCKOUT TEMP The Navigator will remain in the expanded display mode until the ESCAPE key is pressed Use the arrow keys to view expansions for any of the other sub modes within the Setpoint mode Password Protection If an area is entered that is password protected or an item is selected for change that is password protected the Navigator will display Enter Password 1111 default password The first digit of the password will be flashing Hold either of the arrow keys down to change the value of the first digit 1f necessary and press ENTER to accept Repeat the process for the remaining three digits The message Invalid Password is displayed if the pass word is not correct The password can not be disabled from the Navigator nor can it be changed Forcing Values and Configuring Items Cer tain items are allowed to be forced and other items are user configurable Both of these changes can be made using the Navigator CONFIGURATION The following sections describe the computer configuration screens whic
3. CCN COM SENSOR WIRING JUMPER TERMINALS AS SHOWN Fig 4 Space Temperature Sensor Typical Wiring 33ZCT56SPT SUPPLY AIR TEMPERATURE SAT SENSOR INSTAL LATION The 33ZCSENSAT supply air temperature sensor is required for controller operation The sensor consists of a thermistor encased within a stainless steel probe The SAT sensor probe is 6 in nominal length with 114 in of unshielded 2 conductor 18 AWG twisted pair cables The sensor tempera ture range is 40 to 245 F with a nominal resistance of 10 000 ohms at 77 F The sensor measures accuracy of 0 36 F The SAT sensor is supplied with a gasket and 2 self drilling mounting screws NOTE The sensor must be mounted in the discharge of the unit downstream of the cooling coil and heat exchanger Be sure the probe tip does not come in contact with any of the unit surfaces See Fig 11 for mounting location Do not run sensor or relay wires in the same conduit or race way with Class 1 AC service wiring Do not abrade cut or nick the outer jacket of the cable Do not pull or draw cable with a force that may harm the physical or electrical properties Avoid splices in any control wiring Perform the following steps to connect the SAT sensor to the PremierLink M controller 1 Locate the opening in the control box Pass the sensor p
4. 26 This control is designed to allovv users the access and ability to Install Navigator Display Module 26 change factory defined settings thus expanding the function of Ds Dui the standard unit control board The complete PremierLink Password Protection 28 k ber 33CSPREMLK f ol Forcing Values and Configuring Items 28 package part number consists of a contro circuit board with plastic cover and label wire harnesses spade connectors wire nuts and 4 mounting screws Manufacturer reserves the right to discontinue or change at any time specifications or designs without notice and without incurring obligations Catalog No 533 80072 Book 1 4 PC 111 Tab 2 Printed in U S A Form 38 5451 Pg 1 11 02 Replaces 38 52S1 IMPORTANT PremierLinkTM part number 33CSPREMLK should only be used in applications where the integrity of the Underwriters Laboratories rat ing will be maintained Carrier s diagnostic standard tier display tools such as Navigator or Scrolling Marquee can be used with the Premier Link controller Access is available via an RJ 11 connection or a 3 wire connection to the communication bus User interfaces available for use with the CCN system are PC s equipped with Carrier user interface software such as Service Tool Comfort VIEWTM or Comfort WVORKS software When used as part of the CCN other devices such as the CCN data tran
5. UN Bloc uomeubised Wun RSS queue YULTAIIM IA MINZHASDEE JOQUIAN HEC 297545 pofito m ANA t Nell o 16 SUPPLY AIR Z TEMPERATURE SENSOR LEXIBLE CONNECTOR TYPICAL HEATER ACCESS PANELS BASE UNIT 1 J FRONT VIEW Fig 11 Typical Mounting Location for Supply Air Temperature SAT Sensor On Split System Units RELAY NC m ALARM CONTACTS H G 24 VAC OR 24 VDC Fig 12 Outdoor Air Quality CO5 Sensor 33ZCSENCO2 Typical Wiring Diagram 17 6 1 2 Cover Remove Side View Fig 13 Outdoor Air Quality Sensor Cover 1 2 IN NPT MALE THREADED ADAPTER SS gt Fig 14 Outdoor Air Temperature Sensor OAT LOCATION TYPICAL OUTDOOR AIR DUCT RETURN DUCT P N HH79NZ017 Fig 15 OAT Sensor Location in Outside Air Duct BUILDING WALL 1 2 EMT MALE FIELD SUPPLIED WIRING IN WATERPROOF JUNCTION BOX WITH 1 2 EMT CONDUIT ADAPTOR GASKET COVER 1 2 NPT FEMALE AND SCREWS ADAPTOR WIRE NUTS 7 MIN OUTDOOR AIR TEMPERATURE SENSOR ei EMT ELECTRICAL METAL TUBING Fig 16 Outdoor Air Temperature Sensor Installation Located in Building Wall 2 x 4 x 1 5 IN ELECTRICAL BOX FIELD SUPPLIED 1 4 BEAD SILICONE SEALER Gt 1 1
6. wi 7 CMP1 Bis Uu _ _ _ A g EH f ule l oca FAN bars Em lt c 5 E BRN e m e l gt Jee IL LEGEND CCR CCR Capacity Control Relay If Equipped CCSV Capacity Control Valve Indoor Coil If Equipped IFC Indoor Fan Contactor LLSV Liquid Line Solenoid Valve NOTE Configure AC to 0 Fig 2C Typical PremierLink Control Wiring 38ARD012 Units PremierLink Connections 40RM Connections 38AKS Terminal Board TB3 o PWR RED m R HS3 EXH RVS e ORN Yi 40RM 40RMQ 40RMS Y HEAT ACCESSORY l E 1 E e PNK 7 r Wt wi 7 n 7 121 L diz an ER ED Hc wer y Eze Dow re LI x BLU gt gt is 5 wi E wa e CMP1 E ees E aal YEL NN i 7 S ozun FAN ui E E m zx C 322 e GRN Se BRN LEGEND CCR Capacity Control Relay If Equipped CCSV Capacity Control Valve Indoor Coil If Equipped IFC Indoor Fan Contactor Fig 2D Typical PremierLink Control Wiring 38AKS028 044 Units 5 CUT TO PremierLink Connections 40RM Connections 38AH Terminal Board TB2 Hsa EXH RVS ORN 40RM 40RMQ 40RMS HEAT ACCESSORY
7. 7 Lrnwoy Start Bias Time olm Tsrrsas Heat HARO HEM Cool HT co IAQ Control YT oa Demand Limit HOY DEM Temp Compensated Start IAQ Pre Occupancy Purge Unoccupied Free Cool Fire Shutdown Linkage Control Field Startup Test Heat Submaster Ref Cool Submaster Ref Economizer Submaster Ref Economizer Submastr Gain Compressor Starts Compressor 1 Runtime Compressor 2 Runtime Supply Fan Runtime Linkage Thermostat Linkage Status Supervisory Element Supervisory Bus Supervisory Block Average Occ Heat Setpt Average Occ Cool Setpt Average Unoc Heat Setpt Average Unoc Cool Setpt Average Zone Temp Average Occ Zone Temp Occupancy Status 1 occ 500 dF 100 dF TT Ne T T HTresm IQPRG NTFCL FIRES DAVCL FIELD SHSR CCSR ECONSR ECONGN CMPST CM1RT CM2RT FANRT LINKSTAT SUPE ADR SUPE BUS BLOCKNUM OCLOSTPT OCHISTPT UNLOSTPT UNHISTPT 5 RT oofa 1 J aro OCCSTAT NOTE Bold values indicate points that can be forced through communications 42 Copyright 2002 Carrier Corporation Manufacturer reserves the right to discontinue or change at any time specifications or designs without notice and without incurring obligations Book 1 4 PC 111 Catalog No 533 80072 Printed in U S A Form 38 5451 Pg 44 11 02 Replaces 38 528SI Tab ls bs
8. CCNPLUG PIN SIGNAL TYPE COLOR NUMBER Ground 2 3 Install Sensors See Fig 3 10 The PremierLinkTM controller can be used with either the T58 Communicating sen sor or any combination of CO and space temperature sensors Refer to the instructions supplied with each sensor for electrical requirements NOTE All sensors are field installed accessories SPACE TEMPERATURE SPT SENSOR INSTALLA TION There are three types of SPT sensors available from Carrier The 33ZCT55SPT space temperature sensor with timed override button the 33ZCTS6SPT space temperature sensor with timed override button and set point adjustment and the 33ZCTS8SPT T58 communicating room sensor with timed override button set point adjustment and manual fan control The space temperature sensors are used to measure the building interior temperature The T58 communicating room sensors measure and maintain room temperature by communi cating with the controller Sensors should be located on an interior building wall The sensor wall plate accommodates the NEMA National Electrical Manufacturers Association standard 2 x 4 junction box The sensor can be mounted direct ly on the wall surface if acceptable by local codes Do not mount the sensor in drafty locations such as near air conditioning or heating ducts over heat sources such as base board heaters radiators or directly above wall mounted light ing dimmers Do not mount the sensor near a window
9. 0 Network Access Read Only LINKAGE THERMOSTAT The following Linkage Ther mostat points display the standard values received from a Linkage Thermostat if one is being used to provide space temperature set point and occupancy information Linkage Status Display Range 3 Default Value 2 Netvvork Access None The Supervisory Element displays the address of the device sending the linkage supervisory table to the PremierLinkTM controller Supervisory Element Default Value 0 Network Access Read Only The Supervisory Bus displays the bus number of the device sending the linkage supervisory table to the PremierLink controller Supervisory Bus Default Value 0 Network Access Read Only The Supervisory Block displays the block or table number of the linkage table occurrence in the supervisory device Some linkage supervisory devices may contain more than one linkage table for different air sources Supervisory Block Default Value 0 Network Access Read Only The Average Occupied Heat Set Point displays the Occupied Heat set point from the Linkage Thermostat Average Occupied Heat Set Point Display Units Degrees F Degrees C Display Range 0 0 to 99 9 Default Value 0 0 Network Access None The Average Occupied Cool Set Point displays the Occu pied Cool set point from the Linkage Thermostat Average Occupied Cool Set Point Display Units Degrees F Degrees C Display Range 0 0 to 99 9 Defaul
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11. Linkage Control Display Range No Yes Default Value No Network Access Read Write FIELD STARTUP TEST This point is used to enable field test of the controller When forced to Yes the controller will perform a test of all outputs and reset to NO at end of test The test may be aborted at any time by forcing value to NO Field Startup Test Display Range No Yes Default Value No Network Access Read Write HEAT SUBMASTER REFERENCE When in sensor mode the Heat Submaster Reference point displays the supply air temperature calculated by the heating PID loop This value is compared to the actual supply air temperature to determine the number of required stages When in the thermostat mode the value displayed is zero Heat Submaster Reference Display Units Degrees F Degrees C Display Range 40 0 to 150 0 Default Value 40 Netvvork Access Read Only COOL SUBMASTER REFERENCE The Cool Submas ter Reference point displays the supply air temperature calcu lated by the cooling PID loop when in sensor mode This value is compared to the actual supply air temperature to determine the number of required stages When in the thermostat mode the value displayed is zero Cool Submaster Reference Display Units Degrees F Degrees C Display Range 40 0 to 150 0 Default Value 150 Network Access Read Only ECONOMIZER SUBMASTER REFERENCE This point displays the supply air temperature determined by the
12. The CCN network service jack requires a separate shielded CCN communication cable Always use sepa rate cables for CCN communication and sensor wir ing Refer to Fig 5 for wire terminations 7 Replace the cover by inserting the cover at the top of the mounting plate first then swing the cover down over the lower portion Rotate the two Allen head screws counter clockwise until the cover is secured to the mounting plate and locked in position NOTE See Table 3 for thermistor resistance vs temperature values Wiring the Space Temperature Sensor To wire the sensor perform the following see Fig 3 5 1 Identify which cable is for the sensor wiring 2 Strip back the jacket from the cables for at least 3 inches Strip 1 4 in of insulation from each conductor Cut the shield and drain wire from the sensor end of the cable 3 Connect the sensor cable as follows a Connect one wire from the cable to BLU wire on J6 7 analog connector on the controller Connect the other end of the wire to the left terminal on the SEN terminal block of the sensor b Connect another wire from the cable to BRN J6 6 analog connector on the controller Connect the other end of the wire to the remaining open ter minal on the SEN terminal block c On 33ZCT56SPT thermostats connect the remain ing wire to the BLK STO on J6 5 connector on the controller Connect the other end of the wire to the SET terminal on the sensor d In
13. gt EX 1 zu ro Dans 0 9 H C EVHT F e BLU X H W o CMP YEL Y gt Bs l SEE FAN Faou e GRN zm 5 BE 58 3 onza 1 BRN 1 D LEGEND CR Control Relay Field Supplied AQ Indoor Air Quality IFC Indoor Fan Contactor NOTES 1 Configure AC to 1 for heat pump units 2 Configure AUXOUT to 3 for reversing valve 3 Configure PremierLink control for 2 stage heat and single stage cool 4 If IAQ is high priority wire HS2 to W1 If not wire HS1 to W1 Fig 2G Typical PremierLink Control Wiring 38AQ007 Units PremierLink Connections 40RM Connections 38AQS008 Terminal PWA Board TB o RED HS3 EXH RVS l e ORN CR 1 40RM 40RMQ 40RMS 1 HEAT ACCESSORY l re H PNK AM ulu R 20k Lo IW2 3H E DA nag pog VVHT C FC C C TOE e HS1 WHT i Eur 1 EXO 1 9 1 e HE BLU p REE ERS A wi 177 ek CR EE 6 CMP1 e n x m _ 8 g SP 8 0 25 FAN l c Cam E EE rags sl e GRN i 8 z BRN e l z E e 2 z D 5 LEGEND CR Control Relay Field Supplied IFC Indoor Fan Contactor IAQ Indoor Air Quality LLSV Liquid LIne Solenoid V
14. to connect the sensor to the control board terminals To connect the sensor to the control identify the positive 4 to 20 mA and ground SIG COM terminals on the sensor Connect the 4 20 mA terminal to terminal IAQ RED and connect the SIG COM terminal to terminal GND BRN OUTDOOR AIR QUALITY CO SENSOR INSTALLA TION OAQ The Outdoor Air CO sensor is designed to monitor carbon dioxide CO levels in the air and interface with the ventilation damper in an HVAC system The OAQ sensor is packaged with an outdoor cover See Fig 12 and 13 The outdoor air CO sensor must be placed in an area that is representative of the entire conditioned space A mounting height of 6 feet is recommended For installation where it is not necessary to reach the control it may be mounted higher on the wall or on the ceiling provided the location represents a good sampling of air Wiring the Outdoor Air CO Sensor Power requirements are 18 to 36 vac RMS 50 60 Hz 18 to 42 vdc polarity protected dependent and 70 mA average 100 mA peak at 24 vdc All system wiring must be in compliance with all applicable local and national codes A dedicated power supply is required for this sensor A two wire cable is required to wire the dedicated power supply for the sensor The two wires should be connected to the power supply and terminals 1 and 2 To connect the sen sor to the control identify the positive 4 to 20 mA and ground SIG COM terminals
15. Derivative Gain 50 KD Starting Value STARTVAL Staged Heating T Total Number of Stages 2 STAGES Stage 1 Time Guard Enable TG1 Stage 2 Time Guard Enable TG2 Stage 3 Time Guard Enable TG3 IAQ PID 1 Proportional Gain 01 KP Integral Gain 001 KI Derivative Gain oo KkD Starting Value 0 0 156 STARTVAL Economizer PID Wee O 1 Proportional Gain 401 Integral Gain 201 Derivative Gain 30 KD Starting Value STARTVAL Submaster Gain Limit 551 ESG Submaster Center Value 6o K CTRVAL Damper Movement Band ol K ECONBAND OAT Temp Band 25 F Minimum Damper Position 20 K MDP Low Temp MDP Override 100 LOWMDP DX Cooling Lockout On J DXCTLO DX Cooling Lockout Temp 45 0 dF DXLOCK SAT CMP1 Lockout Temp 55 0 dF SATLO1 SAT CMP2 Lockout Temp 50 0 4 SATLO2 Time Guard Override 1 TGO Continuous Power Exhaust Disable MODPE Supply Fan Status Enable Disable SFSENABL Max Offset Adjustment 20 F LimT Space Temp Trim 0 0 F RATTRIM Supply Air Temp Trim 0 0 112 SATTRIM STAGED COOLING The staging function is used for DX cooling 1 or 2 stages The staging function uses the cooling submaster reference from the PID and compares the value to the supply air temperature to calculate the required number of output stages to energize Time Guard delays are provided to allow for up to 2 stages of com
16. IAQ control of the minimum damper position is active whenever the configured parameters for the IAQ PID calculate a minimum position greater than the config ured economizer minimum position IAQ Control Display Range No Yes Default Value No Network Access Read Only DEMAND LIMIT Indicates that a command has been received to limit capacity or reduce capacity of the heating or cooling Demand Limit Display Range No Yes Default value No Network Access Read Only TEMP COMPENSATED START Indicates that the con troller has started the equipment prior to occupancy in order to be at the occupied set points at the start of occupancy Temp Compensated Start Display Range No Yes Default Value No Network Access Read Only IAQ PRE OCCUPANCY PURGE Indicates that the pre occupancy purge mode is currently active IAQ Pre occupancy Purge Display Range No Yes Default Value No Network Access Read Only UNOCCUPIED FREE COOLING Indicates that unoccu pied free cooling is in effect Unoccupied Free Cooling Display Range No Yes Default Value No Network Access Read Only FIRE SHUTDOWN Indicates in a sensor mode that the Fire shutdown input has been sensed This will cause the supply fan and heating and cooling to be turned off also Fire Shutdown Display Range No Yes Default Value No Network Access Read Write LINKAGE CONTROL Indicates if the controller is receiving linkage communication
17. Wa Sie e Hes DNK r wi xut Le lolo w2 V gt VVHT CC FC 3 C DZ m VVHT T pom 5 520 re 2 MP2 OF e BLU 4 A zi _ m _ o E o CMP1 A Le 3 ule b 392 e EAN GRN 20 7 7 7 lt 2 OFS Si BRN LEGEND IFC Indoor Fan Contactor Fig 2E Typical PremierLink Control Wiring 38AH024 034 Units IFC IFR LLS TB CUT FOR DUAL TRANSFORMER CUTTO ISOLATE CONTROLLER EQUIPTMENT POWER PremierLink Connections 38AH Connections PWR ACCESSORY RED RELAY PACKAGE HSS EXH RVS ORN CRI RED lt HS2 PNK RED 51 WHT 9 amp CMP2 d BLU tr HER CMP1 YEL RED FAN Sege z BRN amp 5 LEGEND Control Relay Indoor Fan Contactor Indoor Fan Relay Liquid Line Solenoid Terminal Block Fig 2F Typical PremierLink Control Wiring 38AH004 104 Units PremierLink Connections 40RMQ Connections 38AQ007 Control Connections o PWE RED HS3 EXH RVS E 0 m 7 m BS e HS2 PNK 1 Y2 su5 w1 f GER T i Wk wz CR y SE o WHT
18. and allow sufficient access for service and wiring For service access there should be at least 6 in of clearance between the front of the PremierLink controller and adjacent surfaces Be sure to leave 1 2 in clearance in front of RJ 14 connector for attaching RJ 14 cable from CCN or NavigatorTM display module A field supplied right angle 6 pin RJ 14 connector can be attached if necessary NOTE If the PremierLink controller must be installed in a location where there is not easy access to CCN connectors a remote connection kit part number 33CSREMCCN can be ordered MOUNTING Refer to Mounting Sheet included with controller for additional detailed mounting instructions Ensure all power to unit is removed 2 Locate a space in the unit control panel or a space inside the equipment that is free from dirt and dust 3 Remove plastic cover by gently squeezing the middle of longer sides of the cover and pull away from the board This will release the locking tabs inside 4 Mount the PremierLink controller to the desired location by holding the controller firmly in place Be sure all standoffs are in contact with mounting surface and board DOES NOT flex Attach controller to unit using 4 screws provided ensuring a secure grip to unit surface See Fig 1 5 Provide 24 v power to the circuit board from the unit transformer or an isolated power transformer Use the appropriate conductors for voltage per base unit name plate Se
19. closed contact indicates that outside air is preferred to the return air An open contact indicates that the economizer should remain at minimum position The solid state return air enthalpy sensor senses and com bines the temperature and humidity levels of outdoor and re turn air The sensors provide information for comparison of outdoor temperature and humidity to return air temperature and humidity in order to determine the most economical mixture of air 120 VAC LINE VOLTAGE 55 Toy Y X 24 VAC SECONDARY 24 VAC OUTPUT FROM N C CONTACT WHEN THE OUTDOOR ENTHALPY IS LESS THAN THE INDOOR ENTHALPY ENABLE ECONOMIZER 24 VAC OUTPUT FROM N O CONTACT WHEN THE N 33CSENTHSVV JUMPER SETTINGS FOR 33CSENTHSW OUTDOOR ENTHALPY IS GREATER THAN THE OUTDOOR ENTHALPY ENABLE ENERGY RECYCLER HI LOW GND 24 ENTHALPY VAC LEGEND N C Normally Closed N O Normally Open 5 5 M OMO Fig 21 Differential Enthalpy Control Wiring Wiring Enthalpy Sensors To wire the enthalpy sensor per form the following see Fig 24 and 25 NOTE To mount outdoor air sensor remotely remove it from back of enthalpy control and follow steps 3 and 6 Use a 2 conductor 18 or 20 AWG twisted pair cable to connect the return air enthalpy sensor to the differential enthalpy control Use a 4 conductor 18 or 20 AWG cable to connect the ent
20. stage of heat for temperature tempering 2 If priority is set to LOW no tempering will occur 3 For air conditioners use HS1 for IAQ tempering 4 For heat pumps use HS2 for IAQ tempering Fig 21 Typical PremierLink Control Wiring 38AQS012 016 Units Table 1 PremierLink Controller Inputs and Outputs INPUTS SPACE TEMPERATURE SPT SET POINT ADJUSTMENT STO SUPPLY AIR TEMPERATURE SAT OUTDOOR AIR TEMPERATURE OAT IAQ SENSOR IAQI OUTDOOR AQ SENSOR OAQ REMOTE TIME CLOCK RMTOCC COMPRESSOR LOCKOUT CMPSAFE FIRE SHUTDOWN FSD SUPPLY FAN STATUS SFS NOT USED ENTHALPY STATUS ENTH OUTPUTS ECONOMIZER ECONPOS FAN SF COOL STAGE 1 CMP1 COOL STAGE 2 CMP2 HEAT STAGE 1 HS1 HEAT STAGE 2 HS2 HEAT 3 EXHAUST REVERSING VALVE HS3 EXH RVS LEGEND Al Analog Input DI Digital Input DO Digital Output Al 10K Thermistor Al 10K Thermistor Al 10K Thermistor Al 10K Thermistor 4 20 mA 4 20 mA DI 24 VAC DI 24 VAC DI 24 VAC DI 24 VAC DI 24 VAC 4 20 mA DO Relay 24 VAC 1A DO Relay 24 VAC 1A DO Relay 24 VAC 1A DO Relay 24 VAC 1A DO Relay 24 VAC 1A DO Relay 24 VAC 1A I II JS JO 1 J J TERMINAL S J6 7 J6 6 J6 5 J6 6 J6 3 J6 4 J6 1 J6 2 J5 5 J5 6 J5 2 J5 3 J4 11 J4 12 J4 9 J4 10 J4 7 J4 8 J4 5 J4 6 J4 1 J4 2 TERMINAL S J9 1 J9 2 J8 18 J8 15 J8 12 J8 9 J8 6 J8 3 Table 2 Color Code Recommendations CCN BUS WIRE
21. the value of the Space Temperature offset calculated from the input of a T56 sensor slide bar SPT Offset Display Units Delta Degrees F Delta Degrees C Default Value 0 0 Display Range 15 to 15 Network Access Read Write COMPRESSOR 1 This point displays the commanded state of the compressor 1 output Compressor 1 Display Units Discrete ASCII Default Value Off Display Range Network Access Read Only COMPRESSOR 2 This point displays the commanded state of the compressor 2 output Compressor 2 Display Units Discrete ASCII Range Off On Default Value Off Network Access Read Only COMPRESSOR SAFETY When the controller is in sensor mode this point can be used to monitor the status of the compressor trouble output supplied with some equipment When the input is detected the controller will energize all available stages to satisfy the demand and issue a compressor trouble alert on the communications network Compressor Safety Display Units Discrete ASCII Display Range Default Value Off Network Access Read Only Thermostat Control Input Screen The Thermo stat Control Input Display is used to display the input status of equipment requests from the thermostat TSTAT See Table 8 Alarm Service Configuration Screen The Alarm Service Configuration is used to configure the alarms used on the PremierLink M controller See Table 9 ALARM ROUTING CONTROL The Alarm
22. to the minus terminal on the loop isolator 5 Using the transformer supplied with the 40RM econo mizer connect 24 vac to actuator terminals TR and TRI 6 Connect the plus terminal from the loop isolator to J9 1 terminal on the PremierLink Controller Connect the minus terminal from the loop isolator to J9 2 terminal on the PremierLink Controller 7 Restore power to unit Q769C The Q769C adapter incorporates a female quick connect terminal that attaches to P1 and P male quick connects on the actuator IMPORTANT It is recommended that the Q769C adapter be used with a field supplied 500 ohm resistor across the terminals Using the Q769C with actuator requires a sepa rate field supplied transformer because the actuator with Q769C is a positive ground device The PremierLink con trol is a negative ground device The positive P1 terminal on the Q769C goes to ground See Fig 27 To connect the Q769C adapter to the actuator follow the steps below and refer to Fig 27 1 Remove power from unit 2 Remove the logic module from the actuator and discard 3 Mount the adapter onto the actuator by gently pushing the adapter onto terminals P1 and P of actuator 4 NOTE Be sure the plus terminal on the adapter connects to P1 on the actuator and the minus terminal on the adapter connects to P terminal on the actuator See Fig 27 5 Using the transformer supplied with the 40RM econo mizer connect 2
23. which may be opened near a wall corner or a door Sensors mounted in these areas will have inaccurate and erratic sensor readings The sensor should be mounted approximately 5 ft from the floor in an area representing the average temperature in the space Allow at least 4 ft between the sensor and any corner and mount the sensor at least 2 ft from an open doorway The SPT sensor wires are to be connected to terminals in the unit main control board Install the sensor as follows 1 Locate the two Allen type screws at the bottom of the sensor 2 Turn the two screws clockwise to release the cover from the sensor wall mounting plate 3 Lift the cover from the bottom and then release it from the top fasteners 4 Feed the wires from the electrical box through the open ing in the center of the sensor mounting plate 5 Using two no 6 32 x 1 mounting screws provided with the sensor secure the sensor to the electrical box NOTE Sensor may also be mounted directly on the wall using 2 plastic anchors and 2 sheet metal screws field supplied 6 Use 20 gage wire to connect the sensor to the controller The wire is suitable for distances of up to 500 ft Use a three conductor shielded cable for the sensor and set point adjustment connections The standard CCN communication cable may be used If the set point adjust ment slidebar is not required then an unshielded 18 or 20 gage two conductor twisted pair cable may be used
24. 0 00 IIAQREFH IAQ Maximum Damper Pos Indoor AQ Low Ref Indoor AQ High Ref Outdoor AQ Low Ref oo OLIAQREFL Outdoor AQ High Ref 2000 0 OIAQREFH Outdoor AQ Lockout Point OlIAQLOCK Service Password 1111 PASSWORD Password Enable Disable S PASS EBL Metric Display Of D SPUN T LOADSHED GROUP NUMBER The Loadshed Group Number function defines the Loadshed table number LDSH DxxS where xx is the configured loadshed group number that the controller will respond to when a broadcast for Redline Loadshed has been detected on the CCN bus Unoccupied Free Cool Range 1 to 16 Default Value 1 CCN BROADCAST OAT ENTHALPY OAQ Config ures the controller to CCN broadcast any or all of the point values for Outside Air Temperature OAT Enthalpy ENTH and Outdoor Air Quality OAQ Example To broadcast OAQ and ENTH but not OAT the cor responding bitmap is 110 the binary equivalent of the decimal number 6 The configuration decision would then be set to a 6 CCN Broadcast OAT Enthalpy OAQ Allowable Entries 0 None 5 OAT and OAQ OAT Only 6 ENTH and OAQ 2 ENTH Only 7 OAT ENTH and OAQ 3 OAT and ENTH 4 OAQ Only Default Value O disabled no broadcasts performed GLOBAL SCHEDULE BROADCAST The Global Sched ule Broadcast setting configures the controller to broadcast or receive a global schedule If set to Yes the controller will act as a glob
25. 25 DIA TN P HOLE 5 OAT SENSOR OA DUCT 1 2 CONDUIT NUT 2 10 DRILL TAP REWS FIELD SUPPLIED OUTSIDE AIR DUCT DUCT MOUNTED EXPLODED VIEW LEGEND OA Outdoor Air OAT Outdoor Air Temperature Fig 17 Outdoor Air Temperature Sensor Installation Located in Outdoor Air Duct Connect to CCN Communication Bus The PremierLinkTM controller connects to the bus in a daisy chain arrangement Negative pins on each component must be connected to respective negative pins and likewise positive pins on each component must be connected to respective positive pins The controller signal pins must be wired to the signal ground pins Wiring connections for CCN must be made at the 3 pin plug 18 At any baud 9600 19200 38400 baud the number of con trollers is limited to 239 devices maximum Bus length may not exceed 4000 ft with no more than 60 total devices on any 1000 ft section Optically isolated RS 485 repeaters are required every 1000 ft NOTE Carrier device default is 9600 baud COMMUNICATION BUS WIRE SPECIFICATIONS The CCN Communication Bus wiring is field supplied and field installed It consists of shielded three conductor cable with drain ground wire The cable selected must be identical to the CCN Communication Bus wire used for the entire net work See Table 4 for recommended cable Table 4 Recommended Cables MANUFACTURER CABLE PART NO Alpha 2413 or 5463 American
26. 4 vac to actuator terminals TR and TR1 6 Connect 500 ohm resistor field supplied to the plus and minus terminals on adapter 7 Connect the plus terminal from the adapter to J9 1 terminal on the PremierLink Controller Connect the minus terminal from the adapter to J9 2 terminal on the PremierLink Controller 8 Restore power to unit 000 LN3 LI4INVEE 013U09 djeuiu3 BUMIM YUI17131WS1d sz Du pepeeu JOU SI Z 6T 021400 xurdieiueag UOWWOD uay epis UOWWOD uo si Jojenjoe pue si Jej ouo2 y XurqielueJg H ALON HOlvnlov RV E LNAWdINOS wuoz p Ww ANNOYD NUE dn Ad WHINA T7IVLLN3Y 34310A uopeubiseg pun eue YULTAIDLMOIS AT XIW3HdSOEE JequnN Wed 4275 140 40 m dau 23 TRANSFORMER PREMIERLINK Q769B CONTROL ADAPTER J9 20 LOOP ISOLATOR ACTUATOR Fig 26 PremierLink Control Wiring to Q769B Adapter and Actuator 24 VAC gt gt TRANSFORMER SEPARATE FIELD SUPPLIED PREMIERLINK Q769C CONTROL ADAPTER J9 500 OHM RESISTOR OO ACTUATOR Fig 27 PremierLink Control Wiring to Q769C Adapter and Actuator Economizer with Johnson 4 to 20 mA Actua tor The PremierLink Controller can be connected to an economizer that uses a Johnson 4 t
27. A22503 Belden 8772 Columbia 02525 NOTE Conductors and drain wire must be at least 20 AWG American Wire Gage stranded and tinned copper Individual conductors must be insulated with PVC PVC nylon vinyl Teflon or polyethylene An aluminum polyester 100 foil shield and an outer jacket of PVC PVC nylon chrome vinyl or Teflon with a minimum operating temperature range of 20 C to 60 C is required The communication bus shields must be tied together at each system element If the communication bus is entirely within one building the resulting continuous shield must be connected to ground at only one single point If the communi cation bus cable exits from one building and enters another building the shields must be connected to the grounds at a lightning suppressor in each building one point only Enthalpy and Differential Enthalpy Control Fig 18 23 There are two options for field supplied enthalpy and differential enthalpy control the enthalpy switch receiver option and the outdoor and return air sensor option Either option can be used to indicate when the outdoor air is suitable for free cooling ENTHALPY SWITCH RECEIVER The accessory en thalpy switch receiver 33CSENTHSVV senses temperature and humidity of the air surrounding the device and calculates the enthalpy when used without an enthalpy sensor The relay is energized when enthalpy is high and deenergized when enthalpy is low based on ASHRAE 90 1
28. Air Temperature conditions IAQ Pre Occupancy Purge Algorithm will use this value whenever Outdoor Air Temperature is below Unoccupied OAT Lockout Temperature Low Temperature Minimum Position Units Percent Range 0 to 100 Default Value 10 0 HIGH TEMPERATURE MINIMUM POSITION The High Temperature Minimum Position specifies the value for Purge Minimum Damper Position for High Outdoor Air temperature conditions 33 IAQ Pre Occupancy Purge Algorithm shall use this value whenever Outdoor Air Temperature is above or at Unoccupied OAT Lockout Temperature and also OAT is above Occupied Cool Set Point or Enthalpy is High Whenever OAT gt NTLO and OAT lt OCSP and Enthalpy is Low the Purge algorithm vvill set Purge Minimum Damper Position to 10096 High Temperature Minimum Position Units Percent Range O to 100 Default Value 35 0 POWER EXHAUST SET POINT The Power Exhaust Set Point describes the minimum damper position that the Econo mizer Damper must be before the power exhaust fan will be energized Power Exhaust Set Point Units Percent Range 0 to 100 Default Value 50 0 Table 13 Set Point Configuration DESCRIPTION NAME Setpoints ee ee Occupied Low Setpoint OHSP Occupied High Setpoint OCSP Unoccupied Low Setpoint 69 0 dF UHSP Unoccupied High Setpoint UCSP Hi OAT Limit for dF OATL AQ Pre Occ Purge Unocc OAT Lockout TEMP 50 0 dF NTLO Unocc Heating Deadband 1 01 F UHDB Uno
29. E 2 The Heat Stage 2 point provides the state of the Heating 2 output Heating Stage 2 Display Units Discrete ASCII Default Value Off Display Range Netvvork Access Read Only HEAT STAGE 3 EXHAUST FAN OR REVERSING VALVE This point displays the commanded state of auxil lary output This output can be configured to control a third stage of heat an exhaust fan or a reversing valve on some heat pump units In the exhaust fan mode vvith continuous exhaust con figured this point may control a bank of lights or another indicator that should remain ON vvhenever the controller is in the occupied mode Heat 3 Exhaust Rev Valve Display Units Discrete ASCII Default Value Off Display Range Off On Netvvork Access Read Only ENTHALPY This point displays the current status of an outdoor air or differential enthalpy input This point may be broadcast to other controllers or received from a controller vvhich supports global broadcast of the ENTH variable Enthalpy Display Units Discrete ASCII Default Value High Display Range High Lovv Network Access Read Write INDOOR AIR QUALITY IAQ The Air Quality point displays the indoor air quality reading from a CO sensor installed in the space The CO sensor maintains differential indoor air quality for demand control ventilation per ASHRAE Standard 62 1999 The controller can be configured to generate an alarm when the control is in occupied mode an
30. Economizer PID calculation Economizer Submaster Reference Display Units Degrees F Degrees C Display Range 48 to 120 Default Value 120 Network Access Read Only 41 ECONOMIZER SUBMASTER GAIN Displays the cur rent Submaster gain multiplier in use to calculate the econo mizer damper position At temperatures below 45 F this number will decrease to slow the rate of movement of the economizer damper Economizer Submaster Gain Display Range 20 to 20 Default Value 5 5 Network Access Read Only COMPRESSOR STARTS Displays the total number of compressor starts Compressor Starts Default Value O Network Access Read Only COMPRESSOR 1 RUN TIME Displays the number of run hours of compressor no 1 NOTE The clock must be set for run times to accumulate Compressor 1 Run Time Display Units Hours Default Value 0 Network Access Read Only COMPRESSOR 2 RUN TIME Displays the number of run hours of compressor 2 NOTE The clock must be set for run times to accumulate Compressor 2 Run Time Display Units Hours Default Value 0 Network Access Read Only SUPPLY FAN RUN TIME Displays the number of run hours of the supply fan NOTE The clock must be set for run times to accumulate This is not the same timer used for the filter status A sepa rate timer is used to keep track of the run hours since the last filter change Supply Fan Run Time Display Units Hours Default Value
31. INDOOR AIR QUALITY PREOCCUPANCY PURGE The Indoor Air Quality Preoccupancy Purge brings in fresh outdoor air before the Occupied mode begins The IAQ Pre Occupancy Purge is used to lower carbon dioxide levels below the IAQ set point before Occupied mode starts The Purge is started two hours before the occupied time and lasts for the specified duration Indoor Air Quality Preoccupancy Purge Range Disable Enable Default Value Disable INDOOR AIR QUALITY PURGE DURATION The Indoor Air Quality Purge Duration specifies the duration of IAQ Pre Occupancy purge The Purge is started two hours before the occupied time and lasts for the specified duration Indoor Air Quality Purge Duration Display Units Minutes Display Range 0 to 60 Default Value 5 INDOOR AIR QUALITY DELTA SET POINT The Indoor Air Quality Delta Set Point specifies the highest Indoor Air Quality level measured in ppm allowed within the space whenever unit is in Occupied mode or Supply Fan On for units with Thermostat control and Indoor Air Quality sensor is installed Indoor Air Quality Delta Set Point Display Units PPM parts per million Display Range 1to 5000 Default Value 650 INDOOR AIR QUALITY MAXIMUM DAMPER POSI TION This point displays upper limit of the Indoor Air Quality minimum damper position calculated by the IAQ control For example TAQ is calculating 10076 Minimum Damper Position but this decision is set to 5076 LAQ Minim
32. JUSTMENT Maximum Offset Adjustment value determines the degree in which the occupied heating and cooling set points can be adjusted by the setpoint adjustment slide bar on the space temperature sensor Max Offset Adjustment Units Delta Degrees F Delta Degrees C Range 0 0 to 15 0 Default Value 2 0 SPACE TEMPERATURE TRIM The Space Temperature Trim configuration is used to calibrate the temperature display for a sensor that does not appear to be reading correctly Space Temperature Trim Units Delta Degrees F Delta Degrees C Range 9 9 to 9 9 Default Value 0 0 SUPPLY AIR TEMPERATURE TRIM The Supply Air Temperature Trim configuration is used to calibrate the temper ature display for a sensor that does not appear to be reading correctly Supply Air Temperature Trim Units Delta Degrees F Delta Degrees C Range 9 9 to 9 9 Default Value 0 0 PremierLink Configuration Screen The PremierLink Configuration screen allows the user to configure all functions See Table 15 OPERATING MODE The Operating Mode function determines the operating mode of the PremierLink controller There are two operating modes from which to choose TSTAT and CCN Sensor The TSTAT mode allows PremierLink controller to operate as a stand alone thermostat control by monitoring Y1 cooling stage 1 Y2 cooling stage 2 W1 heating stage 1 W2 heat ing stage 2 and G indoor fan inputs The CCN mode allows
33. OFF compressor cooling will NOT be allowed Please note that this functionality was NOT by design and was an unintended consequence of the update to 1 3 This will be changed in a future version of PremierLinkTM control Users that do NOT require the cooling lockout function have instinctively set DXCTLO to Off unfortunately this will dis able cooling if a valid OAT reading is present If a valid OAT sensor reading is present DXCTLO must be set to On or compressor cooling will NOT be allowed If the OAT sensor is not installed OAT point reads 40 F and Sensor Failure the cooling stages are NOT locked out regardless of the setting of DXCTLO If there is a valid OAT sensor reading and DXCTLO is ON cooling will be allowed when the OAT value is above the DXLOCK setpoint Cooling will NOT be allowed when the OAT value is below the DXLOCK setpoint and DXCTLO is ON To ensure that cooling will occur when there is no OAT sensor installed be sure to short the OAT sensor leads together DX Cooling Lockout Range On Off Default Value On DX COOLING LOCKOUT TEMPERATURE The DX Cooling Lockout Temperature specifies Low Ambient DX Cooling Lockout Temperature that is compared against OAT to determine if the unit can stage up or not DX Cooling Lockout Temp Units Degrees F Degrees C Range 40 0 to 60 0 Default Value 45 0 SAT CMP1 LOCKOUT TEMP The SAT CMP1 Lockout Temperature displays the low supply tem
34. PartNum Model Number Serial Number Reference Number ModelNum SerialNo eee ERN Version 131 RefNum Software part number CESR131269 03 is version 1 2 Holiday Configuration Screen The Holiday Con figuration screen is used by the PremierLink controller to store configuration fields for up to twelve holidays See Table 11 START MONTH The Start Month field is used to config ure the month that the holiday will start The numbers 1 through 12 are used to indicate which month is specified Start Month Range 1 to 12 Default Value 1 January START DAY The Start Day field is used to determine which day the holiday will start Start Day Range 1to31 Default Value 1 DURATION The Duration field indicates how long the holiday will last in days Duration Range 0 to 365 Default Value 0 As an example if a Holiday is configured for Month 2 Day 5 Duration 2 then the Holiday will start February 5 and end February 7 Table 11 Holiday Configuration Jl 2 DESCRIPTION Start Day Duration NAME po gt 001 DURATION Occupancy Configuration Screen The Occu pancy Configuration Screen is used to configure the occupancy schedule for the PremierLink controller See Table 12 MANUAL OVERRIDE HOURS The Manual Override Hours point is used to command a timed override by entering the number of hours the override will be in effect If the occu pancy schedule is occupied whe
35. PremierLink Retrofit Split System Controller Installation Start Up and Part Number 33CSPREMLK CONTENTS Page Page CONFIGURATION 28 42 SAFETY CONSIDERATIONS 1 Points Display Screen 28 alo land 1 2 Thermostat Control Input Screen 30 INSTALLATION 2 26 Alarm Service Configuration Screen 30 Inspection 2 Controller Identification Screen 31 PremierLink Controller Hardware 2 5 2015 5 27 77 31 Field Supplied Hardware 2 SE onfiguration Screen 2 jee gereest et Point ocreen KN Ce ee SPACE TEMPERATURE SPT SENSOR Service Configuration Selection Screen 33 SUPPLY AIR TEMPERATURE SAT SENSOR l A INDOOR AIR QUALITY CO SENSOR PremierLink Configuration Screen 37 Occupancy Maintenance Screen 39 77 7 EF Prpr v 7 Maintenance Screen 40 OUTDOOR AIR ENTHALPY SWITCH RETURN AIR ENTHALPY SENSOR SAFETY CONSIDERATIONS Mount PremierLink Control 2 LOCATION SAFETY NOTE MOUNTING Air handling equipment will provide safe and reliable service PremierLink Controller Inputs and Outputs 3 when operated within design specifications The equipment Control Wiring ERE res Re oe XI WE EIE ERE oe 3 should be operated and service
36. Routing Control indicates which CCN system software or devices will receive and process alarms sent by the PremierLink controller This decision consists of eight digits which can be set to zero or one A setting of one indicates alarms should be sent to this device A setting of zero disables alarm processing for that device Currently the corresponding digits are configured for the following devices first digit is for user interface software ComfortWORKS ComfortVIEW etc second digit is for Autodial Gateway or Telink fourth digit is for Alarm Print er Interface Module DataLINK module digits 3 and 5 through 8 are unused Alarm Routing Control 00000000 to 1111111 00000000 Range Default Value Table 8 Thermostat Control Input Display DESCRIPTION Y1 Call for Cool 1 On Y2 Call for Cool 2 W1 Call for Heat 1 VV2 Call for Heat 2 G Call for Fan ALARM RE ALARM TIME This decision is used to con figure the number of minutes that will elapse between re alarms A re alarm occurs when the condition that caused the initial alarm continues to persist for the number of minutes specified Re alarming continues to occur at the specified interval until the alarm condition no longer exists Re Alarm Time Display Units Minutes Display Range Oto 1440 Default Value O Disabled CONTROL TEMPERATURE HYSTERESIS This con figuration defines the range above the high set point and below the low set po
37. UNOCCUPIED TIME The Last Unoccupied Time point displays the time of day when the controller last changed from occupied to the Unoccupied mode This point is read in conjunction with the Last Unoccupied Day to know the last time and day when the controller became unoccupied If the controller is following a global schedule this point will remain at default Last Unoccupied Time Display Range 00 00 to 24 00 Default Value 00 00 Network Access None Table 16 Occupancy Maintenance NAME E MODE Current Occupied Period 5 S PERIOD Override in Progress Nol S OVERLAST Override Duration 0 min OVERDURA Occupied Start Time 00 00 1 OCCSTART Unoccupied Start Time 00 00 UNSTART SE Next Occupied Day NXTOCCD Next Occupied Time 00 001 NXTOCCT pa rg t Next Unoccupied Day NXTUNOD Next Unoccupied Time 00 00 NXTUNOT Oo S Last Unoccupied Day PRVUNOD Last Unoccupied Time 00 00 PRVUNOT Maintenance Screen The Maintenance Screen is used to service the PremierLink controller See Table 17 THERMOSTAT CONTROL Indicates the result of the configuration decision to control in the thermostat or sensor mode DESCRIPTION Thermostat Control Display Range No Yes Default Value Yes Network Access Read Only OCCUPIED The Occupied point indicates whether or not the controller is operating in the Occupied mode Occupied Display Range No Yes Default Value No Ne
38. al schedule master and its schedule will be broadcast to the CCN If set to No the controller will not broadcast a global Schedule and it will receive the configured schedule number Global Schedule Master Range No Yes Default Value No BROADCAST ACKNOWLEDGER The Broadcast Ac knowledger setting configures the controller to recognize broadcast messages that appear on its CCN bus NOTE For proper CCN bus operation there should be only one device per CCN bus that is configured as the Broadcast Acknowledger Acknovvledger Range No Yes Default Value No SCHEDULE NUMBER The Schedule Number deter mines which Global Occupancy Schedule that the controller will follow A value of 64 disables global occupancy from CCN and will decide Occupancy from its local schedule A value between 65 and 99 will allow the controller to follow the global occupancy schedule of the number broadcast over CCN Occupancy Schedule Number Range 64 to 99 Default Value 64 TIMED OVERRIDE HOURS The Timed Override Hours function is used to configure a timed override duration by entering the number of hours the override will be in effect Pressing the override button on a space temperature sensor will cause an override Timed Override Hours Range 0to4 Default Value 0 LINKAGE THERMOSTAT The Linkage Thermostat start time biases allow the installer to configure the time per degree the space should take to recover in the Heat and Co
39. alpy switch receiver to J4 pin 2 of the PremierLink control on the unit The switch can be powered through the PremierLink con trol board if desired Wire the 24 VAC terminal on the enthalpy switch receiver to J4 pin 1 on the PremierLink control Wire the GND terminal on the enthalpy switch receiver to 71 pin 2 on the PremierLink control The HI Enthalpy terminal is not used See Fig 20 19 33CSENTHSW 1 1 RETURN AIR 1 ENTH SENSOR UU H LOW GND 24 MAN VDC OUT ENTHALPY MAIN 1 UNIT GROUND Model HH57ZC003 Power 24 VAC Output 10 A Foon 1C Relay wi 24 VAC Sourced Power Part Number 33CSPREMLK CED Comfort System PremierLink Bus Element Used with Differential Enthalpy Control only Fig 20 Typical Wiring Schematic Carrier Rooftop Unit with PremierLink Controls Connect the 4 20 mA In terminal on the enthalpy switch receiver to the 4 20 mA Out terminal on the return air enthalpy sensor Connect the 24 36 VDC Out terminal on the enthalpy switch receiver to the 24 36 VDC In terminal on the return air enthalpy sensor See Fig 21 Enthalpy Switch Reciever Jumper Settings There are two jumpers One jumper determines the mode of the enthalpy switch receiver The other jumper is not used To access the jumpers remove the 4 screws holding the cover on the enthalpy switch receiver and then remove the cover The fac tory setting
40. alues indicate points that can be forced through communications SUPPLY FAN STATUS This point displays the Supply Fan status if controller is configured to receive input from the Supply Fan Otherwise this point will display the output state of the Supply Fan Relay This mode can only be used when the controller is in sensor control mode Supply Fan Status Display Units Discrete ASCII Default Value Off Display Range Netvvork Access Read Only ECONOMIZER DAMPER POSITION This point dis plays the current commanded damper position of the economizer 4 to 20 mA on the 1 9 connector The 4 to 20 mA signal is scaled linearly over the range of 0 to 10096 of the Sup ply Fan Relay Economizer Position Display Units 96 Open Default Value 0 Display Range to 100 Network Access Read Write CURRENT MINIMUM DAMPER POSITION This point displays the current minimum damper position if an Indoor Air Quality routine is not active If an Indoor Air Quality sensor is installed and the differential air quality set point has been exceeded this point will display the current calculated mini mum position deemed necessary to maintain the air quality in the space Current Minimum Damper Position Display Units Open Default Value 0 Display Range to 100 Network Access Read Only 29 FILTER STATUS The filter status point will be shown as CLEAN until the run time of the fan exceeds the configured Filt
41. alve NOTES Configure AC to 1 for heat pump units Configure AUXOUT to 3 for reversing valve Configure PremierLink control for 2 stage heat and single stage cool When using controller for DCV if IAQ priority is set to HIGH the controller will use a stage of heat for temperature tempering If priority is set to LOW no tempering will occur If IAQ is high priority wire HS2 to W1 If not wire HS1 to W1 Fig 2H Typical PremierLink Control Wiring 38AQS008 and 38ARQ008 012 Units PONS 7 PremierLink Connections 40RMQ Connections LI S LL so e PWR qis Se To e 220 HS3 EXH RVS Qog ii ORN 40RM 40RMQ 40RMS 25 e HEAT ACCESSORY SES RED y 2 e E PNK 201 S42 rep 1 Wa Art HS1 r wHr CWFO C2 E Q e WHT WHT L O e N 25 oz T CMP2 E T od o BLU lo 2 Leo l es RED A a 1 E a 5 B 1 pa YE _ p _ _ _ owy _ RED E og c e EAN GRN 59 3 Onze LATTE s E BAN E eri l D 5 LEGEND IAQ Indoor Air Quality IFC Indoor Fan Contactor NOTES 1 Configure AC to 1 for heat pump or O for air conditioner 38AQS012 016 Terminal Board TB2 E qD 2 e 2 e When using controller for DCV if IAQ priority is set to HIGH the controller will use a
42. an be made using the ComfortWORKS soft ware ComfortVIEW software or Network Service Tool The Network Service Tool is a portable interface device that allows the user to change system set up and set points from a zone sensor or terminal control module During start up the Carrier software can also be used to verify communication with PremierLink controller NOTE All set up and set point configurations are factory set and field adjustable For specific operating instructions refer to the literature provided with user interface software Perform System Check Out 1 Check correctness and tightness of all power and communication connections 2 At the unit check fan and system controls for proper operation 3 At the unit check electrical system and connections of any optional electric heat NOTE If optional electric heat is installed Heat Type must be changed to 1 electric heat from default of 0 gas heat 4 Check to be sure the area around the unit is clear of construction dirt and debris 5 Check that final filters are installed in the unit Dust and debris can adversely affect system operation 6 Verify that the PremierLink controls are properly connected to the CCN bus 26 PREMIERLINK BOARD ECONOMI ER2 PLUG Initial Operation and Test Perform the following procedure 1 Apply 24 vac power to the control 2 Connect the Service Tool to the phone jack service port of the controll
43. ating submaster reference is compared to the actual supply air temperature and the output is then adjusted to satisfy conditions by using a Proportional Integral Derivative PID loop The Heating PID includes the following set points Propor tional Gain Integral Gain Derivative Gain and Starting Value Proportional Gain Range 100 0 to 100 0 Default Value 6 0 Integral Gain Range 5 0 to 5 0 Default Value 3 0 Derivative Gain Range 20 0 to 20 0 Default Value 5 0 Starting Value Units Degrees F Range 40 0 to 120 0 Default Value 75 0 STAGED HEATING The Staged Heating function is used for two position valves or for electric heat 1 or 2 stages The staging function uses the heating submaster reference value from the PID and compares it to the supply air temperature to calculate the required number of output stages to energize Number of Stages Range 1to3 Default Value 2 Stage 1 Time Guard Range Disable Enable Default Value Enable Stage 2 Time Guard Range Disable Enable Default Value Enable Stage 3 Time Guard Range Disable Enable Default Value Enable IAQ PID The proportional gain affects the response of PID calculations for staged control The gain is also used for two position control to establish the hysteresis between on and off A larger gain speeds response time or reduces the hysteresis while a smaller gain requires a larger error to generate the same response to changes
44. ay The CO sensor also includes a space tem perature sensor with override button 33ZCT56CO2 sensor is an indoor wall mounted sensor without display The CO sensor also includes a space tem perature sensor with override button and temperature offset OUTDOOR AIR QUALITY CO SENSOR The outdoor air CO sensor 33ZCTSENCO2 is designed to monitor car bon dioxide CO levels found in diesel exhaust and control ventilation systems It comes with an outdoor enclosure This sensor provides an outdoor baseline for differential DCV De mand Control Ventilation control OUTDOOR AIR TEMPERATURE SENSOR The outdoor air temperature sensor HH79NZ017 monitors the tempera ture outside of the outside air entering the equipment OUTDOOR AIR ENTHALPY SWITCH The outdoor air enthalpy switch 33CSENTHSW monitors outdoor air enthalpy and dry bulb temperature to determine when free cooling can be used RETURN AIR ENTHLAPY SENSOR The return air en thalpy sensor 33CSENTSEN when used in conjunction with the outdoor air enthalpy switch compares the outdoor air and return air to determine when free cooling can be used Mount PremierLink Control LOCATION The PremierLink controller should be located inside one of the available service access panels of the indoor unit Be sure the location selected prevents moisture and rain from coming into contact with the circuit board Select a location which will be safe from water damage
45. cc Cooling Deadband 10 F UCDB Low Temp Min Position 10176 LTMP Hi Temp Min Position 35 HTMP Power Exhaust Setpoint 5015 PES Service Configuration Selection Screen The Service Configuration Selection screen is used to configure the service set points of the PremierLinkTM controller See Table 14 COOLING PID The PremierLink controller reads the space temperature sensor and compares the temperature to he current high set point If it exceeds the set point and cooling is configured and available the controller then calculates the re quired supply air temperature to satisfy the given conditions The Cooling PID Proportional Integral Derivative in cludes the following set points Proportional Gain Integral Gain Derivative Gain and Starting Value Proportional Gain Range 0 0 to 40 0 Default Value 6 0 Integral Gain Range 0 0 to 10 0 Default Value 3 0 Derivative Gain Range 0 0 to 20 0 Default Value 5 0 Starting Value Units Degrees F Range 40 0 to 90 0 Default Value 70 0 Table 14 Service Configuration Selection DESCRIPTION NAME pe Proportional Gain 60 KP Integral Gain 301 KI Derivative Gain 50 KD Starting Value STARTVAL Staged Cooling Total Number of Stages 2 S STAGES Stage 1 Time Guard Enable TG1 Stage 2 Time Guard Enable TG2 Stage 3 Time Guard Disable TG3 Heating PID as Proportional Gain 601 KP Integral Gain 301 K
46. controller The Navigator has a modular telephone style RJ14 connector and should be connected to terminal block TB3 in the control box This device is intended for use on the LEN communications bus only Do NOT connect to the Navigator while in CCN mode Communication problems may occur OPERATION To use the Navigator plug the RJ14 connec tor into the RJ14 port On power up the Navigator displays PremierLink Navigator By Carrier 27 The Navigator will upload the appropriate display tables from PremierLink controller A Communication failure message will be displayed if any errors are encountered Check the wiring at the connector After successful upload of informa tion the Navigator begins its default display All items in the Run Status menu are displayed one at a time in this mode An example of the display in the default mode is SAT 54 2 F SUPPLY AIR TEMPERATURE The different levels of modes can be accessed with the Navigator See the base unit controls and troubleshooting guide for more information Pressing any key while in the default display mode will cause the Navigator to enter its manual mode In this mode all sub modes and items within the eleven top level configuration modes denoted on the display screen can be accessed The Navigator automatically returns to the default display mode af ter 60 minutes of no keypad activity Pressing the ENTER and ESCAPE keys simultaneously while the unit disp
47. criteria If an acces sory enthalpy sensor 33CSENTSEN is attached to the return air sensor input then differential enthalpy is calculated The relay is energized when the enthalpy detected by the return air enthalpy sensor is less than the enthalpy at the enthalpy switch receiver The relay is deenergized when the enthalpy detected by the return air enthalpy sensor is greater than the enthalpy at the enthalpy switch receiver differential enthalpy control See Fig 18 and 19 Outdoor Enthalpy Control Installation Fig 20 Outdoor enthalpy control requires only an enthalpy switch receiver 33CSENTHSW The enthalpy switch receiver is mounted in the outdoor air inlet and calculates outdoor air enthalpy The enthalpy switch receiver energizes the relay output when the outdoor enthalpy is above 28 BTU Ib OR dry bulb temperature is above 75 F and is deenergized when the outdoor enthalpy is below 27 BTU Ib AND dry bulb temperature is below 74 5 F The relay output is wired to the unit economizer which will open or close depending on the output of the switch NOTE The enthalpy calculation is done using an average alti tude of 1000 ft above sea level Mounting Mount the enthalpy switch receiver in a location where the outdoor air can be sampled such as the outdoor air intake The enthalpy switch receiver is not a NEMA 4 enclo sure and should be mounted in a location that is not exposed to outdoor elements such as rain or snow Us
48. d disable IAQ control whenever the value of OAQ exceeds this configured value Outdoor Air Quality Lockout Point Range O to 5000 Default Value 0 SERVICE PASSWORD The Service Password function defines the password needed to access the controller via the Navigator interface Service Password Range 0000 to 9999 Default Value 1111 PASSWORD ENABLE The Password Enable function is used to require a password to be entered when attempting to access the controller via the NavigatorTM display module interface Password Enable Range Enable Disable Default Value Disable METRIC DISPLAY The Metric Display function is used to toggle the display for the Navigator between US and Metric units Metric Display Range On Off Default Value Off Occupancy Maintenance Screen The Occupan cy Maintenance screen is used to check the occupied schedule Information concerning the current occupied period is dis played See Table 16 MODE The Mode point displays the current occupied mode for the controller If the controller is following its own local schedule this is the result of the local schedule status If the controller is configured to follow a global schedule this point displays the mode last received from a global schedule broadcast Mode Display Range Oto 1 Default Value 0 Network Access None CURRENT OCCUPIED PERIOD If the controller is con figured to determine occupancy locally the Current Occu
49. d only by authorized person Install SensorS 9 nel who have a thorough knowledge of system operation SPT SENSOR safety devices and emergency procedures Good judgement should be used in applying any manufac 8 7777 SAT SENSOR turer s instructions to avoid injury to personnel or damage to INDOOR AIR QUALITY CO SENSOR equiptnent and property INSTALLATION OUTDOOR AIR QUALITY CO SENSOR A WARNING INSTALLATION e OUTDOOR AIR TEMPERATURE SENSOR Disconnect all power to the unit before performing mainte Connect to CCN Communication Bus 18 nance or service Unit may automatically start if power is COMMUNICATIONS BUS WIRE SPECIFICATIONS not disconnected Electrical shock and personal injury Enthalpy and Differential Enthalpy Control 18 could result ENTHALPY SWITCH RECEIVER OUTDOOR AND RETURN AIR ENTHALPY SENSOR A CAUTION Economizer iii a 21 Damage to equipment may result An individual field Q769B supplied 24 vac power transformer is required for each Q769C PremierLink controller The transformer must be less than a drei with Johnson 4 to 20 mA 34 100 va to meet UL Underwriters Laboratories Class 2 2577 5 2005000770 SWITCH SELECTION GENERAL 77 The PremierLink C ller is a field fit spli e Premier ontroller is a field retrofit split system E Check Out un i 7 control compatible vvith the Carrier Comfort Netvvork CCN Initial Operation and Test
50. d the CO level exceeds the high or low limit set Indoor Air Quality ppm Display Units None shown parts per million implied Default Value 0 Display Range to 5000 Network Access Read Write INDOOR AIR QUALITY SET POINT This point dis plays the current Indoor Air Quality set point The set point is determined by the configured Indoor Air Quality differential and the current outdoor air quality value If an outdoor air quality value is not received the controller will assume a default outdoor level of 400 ppm and calculate the set point using that value Indoor Air Quality Set Point Display Units None shown parts per million implied Default Value 0 Display Range 0 to 5000 Netvvork Access Read Only OUTDOOR AIR QUALITY This point displays the read ing from an outdoor air quality sensor This point supports global broadcast of outdoor air quality on a netvvork Outdoor Air Quality Set Point Display Units None shown parts per million implied Default Value O Display Range 0 to 5000 Network Access Read Write 30 FIRE SHUTDOWN While in sensor control mode this point can be used to receive a signal from a smoke detector or fire panel to shut down the Supply Fan all heating and cooling stages and to close the economizer Fire Shutdown Display Units Discrete ASCII Default Value Normal Display Range Normal Alarm Network Access Read Write SPT OFFSET This point displays
51. d with the PremierLink Controller See Fig 31 The Navigator keypad contains eleven menu LEDs and one Alarm Status LED all of which are red The Navigator is capa ble of displaying four 24 character lines of information on a backlit liquid crystal display The Navigator has four functional Fig 31 Navigator Module in Display Mode keys which are the up arrow LA down arrow w ENTER and ESCAPE keys INSTALLATION The Navigator display module is intend ed to be a mobile device so there are no holes in the device for permanent mounting The module has a magnetic mount that is strong enough to hold the device in place on any clean dry metal surface To enter LEN local equipment network mode 1 Remove power by removing connection to J1 2 Remove connection to J2 to avoid communication prob lems with equipment 3 Position DIP switch to 0 ON position 4 Restore power by reconnecting J1 5 Plug in Navigator Controller is now in LEN mode and will support the Navigator device To return CCN mode Remove power to controller by removing connection to J1 2 Remove connection to J2 to avoid communication problems with equipment 3 Position DIP switch to 1 OFF position 4 Reconnect J2 5 Restore power by reconnecting J1 Controller is now in CCN mode at the previously config ured address and baud rate The Navigator module is powered through the PremierLink
52. e Averaging 12 s1osues siy 100pul ZODIGLIZEE ZODSGG LIZEE pue 100p1nO ZOON3SOZEE HOSU oeunjeJeduue iy jddng 1 vSN3S22Z sJosues eJnjejeduue eoeds 1dS8GLIZEE LdS9612Z LdSGGLIZEE BULA 10sues pue 19 01JUOD 1 Josuas eoedS 149 Josuas siy Addne Iws Josuas 1y J00pjnO IVO aN3931 MT EN i i H i 7 i i i i ups i e HOod no 1 i i m 09 i _OVAbZ mi L 4 HOOCNI iE 209 L CEN NST vonisod SSC E d zin 1vO wogeubise wun I N P TD as r OW 199 wem 2 6 M 2140104944 HIWIHAdSDEE JequnN Med 2439518 40 1400 cm k F 148 INAWLSNray INIOdLAS 981 HOS 3UIM SIHL dav o 13 TOIIGLIZEE O29S L Z Josuas 202 pue aJnjeJeduie uonpulqulo2 Bulli 49 101JU0D n MULTAS 1D 1d 8 61 Josues OQUIOI 0 amod IAA vz pepi oJd g f uo uid eut sodind siy 10 p sn aq eui p f 1019auuo9 Wol SAJIM pau ay jo euo peoid euru pesnun ue UJOJJ 9JIM e ISNUW NOA p Uld G f 10jpauuo9 O pajpauuos SI SIM ON 3 LON HOSNHS 2O0 SYNLWHAdWAL aby I esa Nus 0 N31 NO2 02 QNO OlA Nyg H i H Gasn LON H pod JjojeBinen owes ity 1 5 1 10 1 RH p r Ww i j H
53. e Fig 2A 2I Board will require 10 va at 24 vac 6 Replace plastic cover to protect circuit board 7 Restore power to unit STANDOFF AND SCREW 283858 mom 828 STANDOFF AND SCREW STANDOFF WITH OPTIONAL 5th SCREW STANDOFF AND SCREW Part Number 33CSPREMLK CED Comfort System Bus Element GUI LEN GCN Load Factory Defaults on Powomp Sapos STAND OFF AND SCREW To restore factory default settings the unit must be in the unpowered state Move Switch 4 to Position 1 and then restore unit power Fig 1 PremierLink Control Module PremierLink Controller Inputs and Outputs The PremierLink controller inputs and outputs are shown in Table 1 A WARNING Disconnect electrical power before wiring the Premier Link controller Electrical shock personal injury or damage to the PremierLink controller can result Control Wiring The PremierLink controller can be connected to either a Carrier approved thermostat or CCN compatible temperature sensor Turn off power to the control box 2 Strip the ends of the red white and black conductors of the communication bus cable NOTE When connecting the communication bus cable a color code system for the entire network is recommended to simplify installation and checkout See Table 2 for the recommended color code 3 Use 4 connector Molex with red white and black wires to connect the communication wires Verify the col
54. e two field supplied no 8 x 3 4 in TEK screws Insert the screws through the holes in the sides of the enthalpy switch receiver Wiring Carrier recommends the use of 18 to 22 AWG twisted pair or shielded cable for all wiring All connections must be made with 4 in female spade connectors A 24 vac transformer is required to power the enthalpy switch receiver as shown in Fig 20 the PremierLink board provides 24 vac Connect the GND and 24 VAC terminals on the enthalpy switch receiver to the terminals on the transform er On some applications the power from the economizer har ness can be used to power the enthalpy switch receiver To power the enthalpy switch receiver from the economizer har ness connect power of the enthaply switch receiver to the red and brown wires 1 and 4 on the economizer harness For connection to split systems units with PremierLink con trol connect the LOW Enthalpy terminal on the enthalpy switch receiver to J4 pin 2 of the PremierLink control on the unit The switch can be powered through the PremierLink con trol board if desired Wire the 24 VAC terminal on the enthalpy switch receiver to 14 pin 1 on the PremierLink control Wire the GND terminal on the enthalpy switch receiver to Jl pin 2 on the PremierLink control The HI Enthalpy terminal is not used See Fig 20 Differential Enthalpy Control Installation Fig 21 Dif ferential enthalpy control requires both an enthalpy sw
55. ees C Range 45 0 to 99 9 Default Value 90 0 HIGH OAT LIMIT FOR IAQ PRE OCCUPANCY PURGE The High OAT unit for IAQ Pre Occupancy Purge function determines the Economizer Damper position used for IAQ Pre Occupancy Purge High OAT Limit Units Degrees F Degrees C Range 55 0 to 75 0 Default Value 65 0 UNOCCUPIED OAT LOCKOUT TEMPERATURE The Unoccupied OAT Lockout Temperature describes the low est Outdoor Air Temperature allowed for Unoccupied Free Cooling operation This function is also used by IAQ Pre Occupancy Purge control to determine the minimum damper position for IAQ Purge Unoccupied OAT Lockout Units Degrees F Degrees C Range 40 0 to 70 0 Default Value 50 0 UNOCCUPIED HEATING DEADBAND The Unoccu pied Heating Deadband describes the space temperature value which has to be achieved while unoccupied Heating before the unoccupied Heating mode will turn off Unoccupied Heating Deadband Units Degrees F Degrees C Range 0 0 to 10 0 Default Value 1 0 UNOCCUPIED COOLING DEADBAND The Unoccu pied Cooling Deadband describes the space temperature value which has to be achieved while unoccupied Cooling before the unoccupied Cooling mode will turn off Unoccupied Cooling Deadband Units Delta Degrees F Delta Degrees C Range 0 0 to 10 0 Default Value 1 0 LOW TEMPERATURE MINIMUM POSITION The Low Temperature Minimum Position describes the low temperature limit for Low Outdoor
56. elated Occupied from and Occupied to times for that period will take effect on that day of the week If a 1 is placed in the holiday field the related times will take effect on a day configured as a holiday A zero means the schedule period will not apply to that day Day of week Oor 1 11111111 for period 1 00000000 for the rest of the periods Range Default Values 32 OCCUPIED FROM This field is used to configure the hour and minute in military time that the mode for the PremierLink controller will switch to occupied Occupied From Units Hours Minutes Range 00 00 to 24 00 Minutes 00 to 59 Default Value 00 00 OCCUPIED TO This field is used to configure the hour and minute in military time that the mode for the PremierLink controller switches from occupied to unoccupied Occupied To Units Hours Minutes Range 00 00 to 24 00 Minutes 00 to 59 Default Value 24 00 Table 12 Occupancy Configuration DESCRIPTION NAME Manual Override Hours J hows OVRD Period 1 Day of Week 11111111 DOWI1 Period 1 Occupied from 00 00 occi Period 1 Occupied to 24001 UNOCC1 Period 2 Day of Week 00000000 T DOW2 Period 2 Occupied from 00001 OCC2 Period 2 Occupied to 24001 UNOCC2 Period 3 Day of Week 00000000 DOVV3 Period 3 Occupied from 00 00 OCC3 Period 3 Occupied to 24001 UNOCC3 Period 4 Day of Week 00000000 DOVV4 Period 4 Occupied fr
57. er 3 Using the Service Tool upload the controller from address 0 31 at 9600 baud rate The address may be set at this time Make sure that Service Tool is connected to only one unit when changing the address MEMORY RESET DIP switch 4 causes a non volatile E squared memory reset to factory defaults after the switch has been moved from position O to position 1 and the power has been restored To enable the feature again the switch must be put back to the 0 position and power must be restored this prevents subsequent resets to factory defaults if the switch is left at position 1 To cause a reset of the non volatile memory to factory defaults turn the controller power off if it is on move the switch from position 1 to position O and then apply power to the controller for a minimum of 5 seconds At this point no action occurs but the controller is now ready for the memory to reset Remove power to the controller again and move the switch from position 0 to position 1 This time when power is applied the memory will reset to factory defaults The control ler address will return to bus O element 31 indicating that memory reset occurred Install Navigator Display Module The Navi gator is a portable display module that conforms to NEMA 4 specifications for outdoor use in temperatures ranging from 22 F 30 C to 158 F 70 C The Navigator can be used to configure and perform service diagnostics on machines equippe
58. er Timer Hours When the user configured Filter Timer Hours has been exceeded the Filter Status will display DIRTY and a CCN alarm will be generated Forcing the point to CLEAN will clear the alarm condition and will reset the timer Setting the configured filter timer value to zero will provide the same function The value of the timer is stored in EEPROM to protect it in the event of a power failure This is done periodically every 24 hours The filter timer function only operates if the configured filter timer value FLTTMR is a non zero number Filter Status Display Units Discrete ASCII Default Value Clean Display Range Clean Dirty Network Access Read Write REMOTE OCCUPIED MODE This point displays the status of the remote time clock input This input is only avail able when the controller is being used in sensor control mode When the Remote Start point is on and the zone controller is not controlled by a Linkage Thermostat the controller will function in an occupied mode When the Remote Start point is off the controller will revert to its own occupancy schedule Remote Occupied Mode Display Units Discrete ASCII Default Value Off Display Range Network Access Read Write HEAT STAGE 1 The Heat Stage 1 point provides the state of the Heating 1 output Heating Stage 1 Display Units Discrete ASCII Default Value Off Display Range Network Access Read Only HEAT STAG
59. free cooling When the outdoor conditions match the desired indoor conditions the economizer will be enabled for outdoor air assisted cooling Economizer Active Display Units Discrete ASCII Default Value No Display Range No Yes Network Access Read Only SUPPLY FAN RELAY This point displays the command ed state of the Supply Fan Relay Supply Fan Relay Display Units Discrete ASCII Default Value Off Display Range Netvvork Access Read VVrite Table 7 Points Display DESCRIPTION NAME Space Temperature 2722 1 0 ST Supply Air Temperature 146 A Outdoor Air Temperature d488 d 30 2 OM Control Setpoint 0014121855 oas Cooling Total Capacity 0f Heating Total Capacity AP Economizer Active vs 9 Supply Fan Relay pom SE Supply Fan Status Ot SS Economizer Position 262 1 ECONPOS Current Min Damper Pos POH LL oP Filter Status P Cean US Remote Occupied Mode IT OE RMTOCC Heat Stage 1 PRS Heat Stage 2 LO gt HS Heat 3 Exhaust Rev Valve O ESA Enthalpy S ENT Indoor Air Quality 3679 0 HAQ Indoor Air Quality Setpt 105000 wes Outdoor Air Quality oof Sensorfailure Fire Shutdown Normal o D SPT Offset 1 ST Compressor 1 LI 9OMPf Compressor 2 Of 1 EA Compressor Safety Oli CMPSAFE NOTE Bold v
60. ge in output per degree of error Submaster Gain Limit Reference 20 0 to 20 0 5 5 Range Default Value 35 SUBMASTER CENTER VALUE The Submaster Center Value is used to define the submaster loop center value which defines the starting point of the loop This value typically repre sents the midpoint of the range of the device being controlled Submaster Center Value Reference Units Percent Range 0 to 100 Default Value 60 DAMPER MOVEMENT BAND The Damper Movement Band is used to define what the minimum desired range of change in economizer damper position that is required before the controller will attempt to open close the economizer Damper Movement Reference Units Percent Range Oto 5 Default Value 0 OAT TEMP BAND The OAT Temp Band is used to slow the response of the economizer damper based on the value of OAT In other words the colder OAT gets the slower the rate of change in the economizer OAT Temp Reference Range 0 to 40 Delta Degrees F Delta Degrees C Default Value 25 0 MINIMUM DAMPER POSITION The minimum damper position MDP specifies user configured occupied minimum economizer damper position The control selects the greatest value between MDP and IAQ calculated Minimum Position The resulting value is the Final Minimum Damper Position IQMP for Occupied mode Economizer Damper is limited to IOMP in Occupied mode or whenever Supply Fan is ON in units with Thermostat contr
61. h are used to configure the PremierLink con troller The screens shown may be displayed differently when using different Carrier software Points Display Screen The Points Display screen is used to monitor and change the PremierLink controller set points See Table 7 SPACE TEMPERATURE This point displays the space temperature from the 10K thermistor Type III located in the space Space Temperature Display Units Degrees F Degrees C Default Value 40 0 Display Range 40 0 to 245 0 Network Access Read Write SUPPLY AIR TEMPERATURE The Supply Air Temper ature point displays the temperature of the air leaving the unit downstream of any cool or heat sources Temperature is mea sured by a 10K thermistor Type III This sensor is required for proper function of the heating cooling and the economizer Supply Air Temperature Display Units Degrees F Degrees C Default Value 0 0 Display Range 40 0 to 245 0 Network Access Read Write 28 OUTDOOR AIR TEMPERATURE Temperature of the air leaving the unit downstream of any cool or heat sources measured by a 10K thermistor Type III This sensor is required for proper function of the heating cooling and the economizer Outdoor Air Temperature Display Units Degrees F Degrees C Default Value 0 0 Display Range 40 0 to 245 0 Network Access Read Write CONTROL SET POINT This point displays the current controlling
62. halpy control to the PremierLink con troller and power transformer 2 At the differential enthalpy control remove the factory installed resistor from the SR and terminals 3 Connect the RED wire from the 2 conductor cable which originates from the return air enthalpy sensor to the SR terminal Connect the BLK wire to the SR terminal 4 Connect the following 4 wires from the 4 wire conduc tive cable to the differential enthalpy controller a Connect the RED wire to the 24 vac terminal TR1 on enthalpy control and to pin 1 on 12 pin harness b Connect the BRN wire to the 24 vac GND terminal TR on enthalpy sensor and to pin 4 on 12 pin harness c Connect the ORN wire to J4 2 on PremierLink controller and to terminal 3 on enthalpy sensor d Connect the RED wire to J4 1 on PremierLink controller and to terminal 2 on enthalpy sensor 21 4 20 24 36 mA VDC IN OUT 24 36 4 20 N 33CSENTSEN Y JUMPER SETTINGS FOR 33CSENTSEN zzz 5 on H OQ J 000 OO OOO 5 At the return air enthalpy sensor strip 3 in of jacket from the cable and remove in of insulation from each conductor 6 Connect the RED wire to spade connector on the sensor Connect the BLK wire to S spade connector on the sensor Use wire nuts or closed end crimp type con nectors to fasten the connections securely See Fig 22 e m T Sie OOO Economizer The PremierLinkTM controller will inter face w
63. he Time Guard Whenever this option is changed from OFF to ON the control will evaluate the amount of time left in Compressor Time Guards If the time in a Time Guard is more than 30 seconds it will be replaced with 30 seconds NOTE Changing this decision from OFF to ON will only result in one time Time Guards override To perform the override again the override must be changed from OFF to ON again Time Guard Override Range On Off Default Value Off CONTINUOUS POWER EXHAUST The Continuous Power Exhaust function defines the operation of the Power Exhaust Fan If disabled the Power Exhaust Fan will operate during economizer purge cycles when the economizer damper posi tion is above the configured minimum value If enabled the Power Exhaust Fan will follow the supply fan s operation Continuous Power Exhaust Range Disable Enable Default Value Disable SUPPLY FAN STATUS ENABLE The Supply Fan Status Enable function is enabled when an actual sensor input is used to determine that the supply fan is on This will prevent certain algorithms to run if the controller does not see that the supply fan is functioning properly If this decision is disabled the Supply Fan Status will fol low the state of the Supply Fan Relay in order to allow the algorithms to run that depend on the Supply Fan Status to be ON before executing Supply Fan Status Enable Range Disable Enable Default Value Disable MAXIMUM OFFSET AD
64. in Indoor Air Quality Enter the desired proportional gain for the Indoor Air Quality control algorithm The integral gain affects the PID calculation an increase will make the IAQ submaster reference change greater as the error in indoor air quality increases The integral gain should be selected to eliminate proportional droop without overshoot Enter the desired integral gain for the Indoor Air Quality con trol algorithm The Derivative Gain is typically not required for Indoor Air Quality operation and should be left at the default value The Starting Value is used to establish the starting value for the IAQ PID calculation The IAQ PID includes the following set points Proportion al Gain Integral Gain Derivative Gain and Starting Value Proportional Gain Range 100 0 to 40 0 Default Value 1 0 Integral Gain Range 5 0 to 5 0 Default Value 0 5 Derivative Gain Range 20 0 to 20 0 Default Value 0 0 Starting Value Units Percent Range 0 0 to 100 0 Default Value 0 0 ECONOMIZER PID The proportional gain determines the response of the PID temperature control loop a larger gain increases the amount of damper movement while a smaller gain requires a larger error to achieve the same results The integral gain affects the response of a PID calculation an increase in gain will compensate more quickly for propor tional control droop Too large of an integral gain will cause excessive damper positioning and i
65. install the sensor through the hole Secure the electrical box to the duct using 2 field supplied No 10 sheet metal screws See Fig 17 If the sensor is installed outdoors a field supplied 1 2 in LB type conduit body gasket cover and 5 in EMT compression connector are required Install the OAT sensor into the opening at the end of the LB conduit body Install the 5 in EMT connector into the rear opening Tighten each securely to prevent water leakage into the assembly Mount the assembly onto the l 5 in EMT conduit and secure by tightening the compression connector nut After the sensor wiring is complet ed secure the gasket and cover in place using the screws provided with the cover See Fig 16 RED RED BLK BLK 1 J6 6 BEP 4 RED RED BLK BLK BLK 7 j lt r 1 e SENSOR 1 SENSOR 2 SENSOR 3 SENSOR 4 SPACE TEMPERATURE AVERAGING 4 SENSOR APPLICATION RED ln arrr u 0 T c 1 0 7 Z i BLK BLK BLK Ps n s NT Ei yx all uz s E 7 r 1 2 1 tu SENSOR 1 SENSOR 2 SENSOR 3 18 m RED e 3 RED i BLK E BLK I SENSOR 4 SENSOR 5 SENSOR 6 S 18 a LEGEND 0 RE RE Factory Wiring MS y BLK j BLK 1 1777 kad Lu Do SENSOR 7 SENSOR 8 SENSOR 9 SPACE TEMPERATURE AVERAGING 9 SENSOR APPLICATION Fig 6 Space Temperatur
66. int the space temperature must exceed for an alarm condition to exist during occupied hours For example if the current setpoint is 75 F and the hystere sis value is 5 F an alarm will be generated if space tempera ture exceeds the low limit of 70 F or the high limit of 80 F Control Temperature Hysteresis Display Units Delta Degrees F Delta Degrees C Range 1 0 to 100 0 Default Value 5 0 SUPPLY AIR TEMPERATURE HIGH LIMIT The Supply Air Temperature High Limit alarm is used to monitor the value of the supply air temperature within a specified range If the supply air temperature becomes too high an alarm condi tion will exist Supply Air Temperature High Limit Display Units Degrees F Degrees C Display Range 40 0 to 245 0 Default Value 150 0 SUPPLY AIR TEMPERATURE LOW LIMIT The Supply Air Temperature Low Limit alarm is used to monitor the value of the supply air temperature within a specified range If the supply air temperature becomes too low an alarm condi tion will exist Supply Air Temperature Low Limit Display Units Degrees F Degrees C Display Range 40 0 to 245 0 Default Value 45 0 INDOOR AIR QUALITY ALERT LIMIT The Indoor Air Quality Alert Limit alarm defines the allowable CO levels during occupied periods If the CO levels become too low or too high during occupied periods an alarm condition will exist Indoor Air Quality Low Limit Display Units PPM im
67. ion Table 6 Mode Selection Information MODE SWITCHES FACTORY SWITCH FUNCTIONS SETTINGS 5 VDC or mA VDC O to 10 VDC 0 to 20 mA or 2 to 10 VDC 4 to 20 mA pote 3 Direct Acting DA or DA Reverse Acting RA 2 FIXED or AUTO FIXED 1 or6to9 VDC NOTE The 6 to 9 VDC setting of Switch 1 overrides switch 4 WIRING See Fig 29 30B The wires for power and signal transmission from PremierLink to economizer are field supplied To connect the Economizer Johnson Actuator to PremierLink controller connect the pink wire on actuator to purple wire on PremierLink J9 1 See Fig 30A For the Belimo Actuator connect the white wire on the ac tuator to J9 1 on the PremierLink controller See Fig 30B NOTE To retrofit PremierLink Controller to older 4 to 20 mA actuator connect the red wire on the actuator wire harness to the purple wire on the PremierLink J9 1 Connect the yellow and white wires from the actuator wire harness to the 24 volt AC transformer on equipment See Fig 29 IMPORTANT Make sure the common side is grounded for both the PremierLink power and the actuator power This is especially important if separate transformers are used MOVE TO LEFT FOR 4 20mA CONTROL HN WITH PREMIERLINK 2 CONTROLLER VDC o mA 0 10 2 10 DA w RA FIXED m AUTO 6 9 Fig 28 Position of Actuator Mode Switches Factory Default WIRE HARNESS FROM ACTUATOR Gray Outp
68. itch receiver 33CSENTHSW and an enthalpy sensor 33CSENTSEN The enthalpy switch receiver is mounted in the outdoor air inlet and calculates outdoor air enthalpy The enthalpy sensor is mounted in the return airstream and calcu lates the enthalpy of the indoor air The enthalpy switch receiver energizes the HI Enthalpy re lay output when the outdoor enthalpy is greater than the indoor enthalpy The LOW Enthalpy terminal is energized when the outdoor enthalpy is lower than the indoor enthalpy The relay output is wired to the unit economizer which will open or close depending on the output of the switch NOTE The enthalpy calculation is done using an average alti tude of 1000 ft above sea level Mounting Mount the enthalpy switch receiver in a location where the outdoor air can be sampled such as the outdoor air intake The enthalpy switch receiver is not a NEMA 4 enclo sure and should be mounted in a location that is not exposed to outdoor elements such as rain snow or direct sunlight Use two field supplied no 8 x 3 4 in TEK screws Insert the screws through the holes in the sides of the enthalpy switch receiver Mount the enthalpy sensor in a location where the indoor air can be sampled such as the return air duct The enthalpy sensor is not a NEMA 4 enclosure and should be mounted in a location that is not exposed to outdoor elements such as rain or snow Use two field supplied no 8 x 3 4 in TEK screws Insert the sc
69. ith the 40RM economizer Economizers will contain a Honeywell actuator Honeywell part number M7415 An adapter Honeywell part number Q769B or Q769C is preferred must be used to enable the 4 to 20 mA signal from the PremierLink controller to control the position of the econo mizer Refer to Honeyvvell Q769B and Q769C accessory in stallation instructions for vviring details A CAUTION Disconnect power supply before making wiring connec tions to prevent electrical shock and equipment damage A CAUTION To avoid permanent damage to the PremierLink 4 to 20 mA connection a signal loop isolator must be installed when using the Q769B adapter HH57AC077 ENTHALPY CONTROL HH57AC078 ENTHALPY SENSOR USED WITH ENTHALPY CONTROL FOR DIFFERENTIAL 2740041004 ENTHALPY OPERATION TE s MOUNTING PLATE Fig 22 Differential Enthalpy Control Sensor and Mounting Plate 33AMKITENT006 ENTHALPY SENSOR LOCATION TYPICAL OUTDOOR AIR DUCT RETURN DUCT OPTIONAL DIFFERENTIAL ENTHALPY SENSOR LOCATION TYPICAL Fig 23 Location of Differential Enthalpy Controller and Return Air Enthalpy Sensor 40RM Unit Shown L S RETURN AIR CT ENTHALPY SENSOR WIRE HARNESS IN UNIT Remove factory installed jumper across SR and before con necting wires from return air sensor 2 Switches shown in high outdoor air enthalpy state Terminals 2 and 3 close on low
70. lays Select a menu item will also log the device out and return it to its de fault display mode NAVIGATING THROUGH MENU STRUCTURES The arrow keys are used to scroll up and down to select sub modes within a mode or items within a sub mode See the base unit troubleshooting guide for menu structure The ENTER key is used to select a menu item or to accept data entry The ESCAPE key is used to exit to the next highest mode or to cancel data entry The sub mode and item displays will wrap around with the last and first items separated by a line of dashes on the display The gt symbol is the pointer and is located at the left side of the display Press the ESCAPE key to display Select a menu item on the screen This is the top level and the arrow keys are used to move the red LED to the one of the 11 desired modes Pressing ENTER will display the sub modes within a top level mode Once in a sub mode use the arrow keys to move the pointer gt to the desired sub mode Up to four sub modes will be displayed on the Navigator at one time Continue pressing the arrow keys as needed to find the desired sub mode As an example Press the ESCAPE key to display Select a menu item on the screen Press the down arrow until the red LED is lit for the Setpoints menu Press the ENTER key to display the first four sub modes in the Setpoints menu gt SETP OATL NTLO UHDB
71. n this number is downloaded the current occupancy period will be extended by the number of hours downloaded If the current occupancy period is unoccupied when the occupancy override is initiated the mode will change to occu pied for the duration of the number of hours downloaded If the occupancy override is due to end after the start of the next occupancy period the mode will transition from occupancy override to occupied without becoming unoccupied and the occupancy override timer will be reset An active occupancy override or a pending occupancy override may be canceled by downloading a zero to this configuration Once a number other than zero has been down loaded to this configuration any subsequent downloads of any value other than zero will be ignored by the controller Manual Override Hours Units Hours Range 0to4 Default Value 0 OCCUPANCY SCHEDULE For flexibility of scheduling the occupancy programming is broken into eight separate peri ods For each period the schedule contains the following fields Day of Week Occupied From and Occupied To DAY OF WEEK The Day of Week configuration consists of eight fields corresponding to the seven days of the week and a holiday field in the following order Monday Tuesday Wednesday Thursday Friday Saturday Sunday Holiday Itis displayed as M T V Th Fr Sa Su Hol 0 000000 0 If a 1 is configured in the corresponding place for a certain day of the week the r
72. nsors use infrared technology to measure the levels of CO present in the air The wall sensor is available with or without an LCD readout to display the CO level in ppm The CO sensors are all factory set for a range of 0 to 2000 ppm and a linear mA output of 4 to 20 Refer to the instructions supplied with the CO sensor for electrical require ments and terminal locations To accurately monitor the quality of the air in the condi tioned air space locate the sensor near a return air grille if present so it senses the concentration of CO leaving the space The sensor should be mounted in a location to avoid direct breath contact Do not mount the IAQ sensor in drafty areas such as near supply ducts open windows fans or over heat sources Allow at least 3 ft between the sensor and any corner Avoid mounting the sensor where it is influenced by the supply air the sensor gives inaccurate readings if the supply air is blown directly onto the sensor or if the supply air does not have a chance to mix with the room air before it is drawn into the return airstream Wiring the Indoor Air Quality Sensor To wire the sensors after they are mounted in the conditioned air space or outdoor location see Fig 7 and 8 and the instructions shipped with the sensors For each sensor use two 2 conductor 18 AWG 11 American Wire Gage twisted pair cables unshielded to con nect the separate isolated 24 vac power source to the sensor and
73. nstability Enter the desired integral gain for the damper control algorithm The economizer derivative gain has been tested for ideal operation in sensor mode and should be left at the default value NOTE In thermostat mode the modulation may appear to regularly change However it will precisely control leaving air temperature The economizer Starting Value is used to establish the start ing value for the damper PID calculation The value entered is determined by the mass of the zone Typically a value of 10 the default will be adequate for most applications For higher mass areas such as a stone lobby the value may be increased to 20 to 25 The Economizer PID includes the following set points Proportional Gain Integral Gain Derivative Gain and Starting Value Proportional Gain Range 100 0 to 100 0 Default Value A0 Integral Gain Range 5 0 to 5 0 Default Value 2 0 Derivative Gain Range 20 0 to 20 0 Default Value 3 0 Starting Value Units Degrees F Degrees C Range 48 0 to 120 0 Default Value 70 0 SUBMASTER GAIN LIMIT The Submaster Gain Limit is used to define the submaster gain limit that is multiplied by the Submaster Error and added to the Submaster Center Value to produce the output value that will be sent to the device The sign of the submaster gain limit determines the direction in which the output will be driven in response to a given error The gain is expressed in percent chan
74. o 20 mA actuator DRIVE DIRECTION The actuator drive direction is dependent upon the position of Switch 3 and the spring return direction See Table 5 The actuator is factory set for Direct Acting DA operation with Switch 3 in the DA position An increasing control signal drives the actuator away from the spring return position in DA mode The actuator should be installed in the DA mode so damper will close automatically on power shut down If Reverse Acting RA operation is desired move Switch 3 to the RA position An increasing control signal drives the actuator toward the spring return position in RA mode SWITCH SELECTION The type of input control signal is determined by the position of Switch 5 With Switch 5 in the VDC position factory setting the signal is DC voltage With Switch 5 min the mA position the input signal changes to current input See Fig 28 and Table 6 The switch should be set to mA for use with PremierLink controller NOTE To change the factory setting use a g in 3 mm flat blade screwdriver to position the mode switch to the alter nate setting Table 5 Actuator Drive Direction Settings POSITION OF SWITCH 3 AND THE DRIVE DIRECTION DRIVE DIRECTION DIRECTION OF WITH A MINIMUM WITH A MAXIMUM SPRING RETURN INPUT SIGNAL INPUT SIGNAL DRIVE DA CCW Cw RA CCW CCW DA CW CCW RA CW CW LEGEND CCW Counterclockwise Cw Clockwise DA Direct Action RA Reverse Act
75. ol Minimum Damper Position Units Percent Range 0 to 100 Default Value 20 0 LOW TEMP MINIMUM DAMPER POSITION OVER RIDE The Low Temperature Minimum Damper Position MDP specifies the value for purge minimum damper position for low outdoor air temperature conditions The IAQ Pre Occupancy Purge Algorithm shall use this value for the minimum damper position whenever Outdoor Air Temperature is below Unoccupied OAT Lockout Temperature The Low Temperature MDP must be lower than the config ured Minimum Damper Position Low Temperature MDP Override Units Percent Range O to 100 Default Value 100 DX COOLING LOCKOUT The DX Direct Expansion Cooling Lockout function Enables Disables Low Ambient DX Cooling Lockout option For Version 1 2 When DX Cooling Lockout is enabled Cooling control will compare OAT against the DX Cooling Lockout Temperature Whenever OAT the DX Cooling Lockout Temperature and current DX stages are 0 the control will set Cooling Submaster Reference CCSR to 150 F That will prevent the unit from staging up If the OAT sensor is not installed OAT point reads 40 F and Sensor Failure the cooling stages ARE locked out if DXCTLO is On The DXCTLO should be turned OFF to ignore the DXLOCK setpoint in applications where there is either no OAT sensor local or broadcast or the OAT sensor has failed For Version 1 3 If there is a valid OAT sensor reading and DXCTLO is set to
76. ol modes for optimum start with a Linkage Thermostat These numbers will be used to calculate the Start Bias time Cool Start Bias Units Minutes Degree Range 0 to 60 Default Value 10 Heat Start Bias Units Minutes Degree Range 0 to 60 Default Value 10 FILTER TIMER HOURS The Filter Timer Hours config uration determines when the filter status will display a Dirty alarm When the Filter Timer Hours is configured to a value other than zero and fan run time exceeds the value configured the filter status will display Dirty and a CCN alarm will be generated Setting the configured Filter Timer Hours value to zero will disable the alarm condition The value of the timer is stored in EEPROM to protect it in the event of a power failure The value is stored every 24 hours Filter Timer Hours Range 0 to 99 Default Value 15 where 15 100 1500 INDOOR AIR QUALITY PRIORITY LEVEL The Indoor Air Quality Priority Level when set to Low ensures that com fort is not being compromised by bringing in too much outdoor air to maintain IAQ set point When an override condition takes place IAQ control is disabled and Economizer Mini mum Position is set to the user configured value MDP When set to High IAQ control is always active regardless of indoor 38 comfort conditions The controller will temper cold air OAT 55 F to prevent cold blow Indoor Air Quality Priority Level Range High Low Default Value Low
77. om 00 00 OCC4 Period 4 Occupied to 24001 UNOCCA Period 5 Day of Week 00000000 bows Period 5 Occupied from 00 00 OCC5 Period 5 Occupied to 2400 UNOCC5 Period 6 Day of Week 00000000 T DOW6 Period 6 Occupied from 00001 OCC6 Period 6 Occupied to 24001 UNOCC6 Period 7 Day of Week 00000000 DOV7 Period 7 Occupied from 00001 OCC7 Period 7 Occupied to 24001 UNOCC7 Period 8 Day of Week 00000000 T DOW8 Period 8 Occupied from 00 00 OCC8 Period 8 Occupied to 24 00 UNOCC8 Set Point Screen The Set Point screen is used to con figure the occupied and unoccupied set points See Table 13 OCCUPIED LOW The Occupied Low set point describes the low temperature limit of the space during Occupied mode Occupied Low Units Degrees F Degrees C Range 40 0 to 90 0 Default Value 70 0 OCCUPIED HIGH The Occupied High set point describes the high temperature limit of the space during Occupied mode Occupied High Units Degrees F Degrees C Range 45 0 to 99 9 Default Value 74 0 UNOCCUPIED LOW The Unoccupied Low set point describes the low temperature limit of the space during Unoccupied mode Unoccupied Low Units Degrees F Degrees C Range 40 0 to 90 0 Default Value 75 0 UNOCCUPIED HIGH The Unoccupied High set point de scribes the high temperature limit of the space during Unoccu pied mode Unoccupied High Units Degrees F Degr
78. on the sensor Connect the 4 to 20 mA terminal OAQ BLU terminal J5 2 Connect the SIG COM ter minal to terminal GND BRN terminal J5 3 See Fig 12 OUTDOOR AIR TEMPERATURE SENSOR Fig 14 17 The OAT sensor must be located properly The sensor must be installed immediately upstream from outdoor air damper where it will accurately sense the temperature of the outdoor air entering the mixing box See Fig 14 and 15 For applica tions without economizer the sensor may be located in the out door air duct near the outdoor air intake Fig 15 or on the exterior of the building The thermistor has a range of 40 to 245 F and a resistance of 10 000 ohms at 77 F Do not mount the sensor in direct sunlight Inaccurate read ings may result Do not mount the sensor near the exhaust from air handling units or compressors near leakage drafts of indoor air or near shrubbery or trees or under direct water runoff If the sensor is to be mounted in the outdoor air duct a field supplied 2 x 4 in by 1 y in deep electrical box is required Remove the cover and enter the knockout from the rear of the box Install the sensor through the opening so that the sensor leads are inside the electrical box Secure the sensor to the elec trical box using a field supplied l in conduit nut Drill a 13 6 in hole in the outdoor air duct about a foot upstream of the outdoor air damper Apply a l 4 in bead of silicone type sealer around the opening and
79. or codes in Table 2 to ensure the Red wire connects to Terminal 1 Connect the White ground wire to Terminal 2 Connect the Black wire to Terminal 3 Secure all connections in Step 3 with wire nuts Insert the plug into the existing 4 pin mating connector on the base module in the main control box Terminal J 2 Restore power PremierLink Connections 40RM Connections 38AK AKS ARZ ARS Terminal Board TB e Ewa RED TB Hsa EXH RVS SEN 40RM 40RMQ 40RMS e HEAT ACCESSORY RED lt gs a 2 HS2 N wi 7 R uir Leo 14 DEZ RED 1 w2 i 352 si gt gt Hotwire c OF e WHT Poe EVVHT 2 Y J ozu x ad CMP2 wi SE a o BLU ECA m o 1 ECE D CMP1 ms m _ _ d m Lo r LLSV owy RED i peat FAN m 5 Lc rags x e GRN Ze tr BRN gt 5 005 p R LEGEND ou CCR Capacity Control Relay If Equipped CCSV Capacity Control Valve Indoor Coil If Equipped IFC Indoor Fan Contactor LLSV Liquid Line Solenoid Valve NOTE Configure AC to 0 Fig 2A Typical PremierLink Control Wiring 38AK AKS ARZ ARS007 012 Units
80. outdoor air enthalpy relative to indoor air enthalpy 3 Remove sensor mounted on back of control and locate in out side airstream Fig 24 Outside and Return Air Sensor Wiring Connections for Differential Enthalpy Control 22 Q769B Because the Honeywell adapter is designed for a negative 4 to 20 mA input instead of a positive signal the Q769B adapter requires a separate transformer and a current loop isolator to perform properly Connecting the adapter directly to the PremierLink controller could cause the 4 to 20 mA output on the controller to be permanently dam aged This condition is followed by a constant 36 vdc output from the PremierLinkTM economizer output J 9 The Q769B adapter is supplied with female quick connect terminal that fits over the male quick connect P1 and P on the actuator To connect the Q769B adapter to the actuator follow these steps and refer to Fig 26 Remove power from unit 2 Remove the logic module from the actuator and discard 3 Mount the adapter on the actuator by gently pushing the adapter onto the P1 and P terminals on actuator NOTE Be sure the plus terminal on the adapter con nects to P1 on the actuator and the minus terminal on the adapter connects to P terminal on the actuator See Fig 26 4 Using field supplied wire connect the plus terminal on the adapter to the plus terminal on the loop isolator Connect the minus terminal on the adapter
81. perature set point for compressor no supply air during cooling If compressor no 1 is on during Cooling mode the economizer will assist the cool ing and work to maintain a discharge air temperature slightly above lockout temperature set point If the economizer is at minimum and the supply air temperature goes below Lockout Temperature set point the compressor will cycle to maintain the supply air set point The minimum on and off times will still be in effect SAT CMPI Lockout Temp Units Degrees F Degrees C Range 50 0 to 65 0 Default Value 55 0 SAT CMP2 LOCKOUT TEMP The SAT CMP2 Lockout Temperature displays the low supply temperature set point for compressor no 2 supply air during cooling If compressor no 2 is on during Cooling mode the economizer will assist the cool ing and work to maintain a discharge air temperature slightly above lockout temperature set point If the economizer is at minimum and the supply air temperature goes below Lockout Temperature set point the compressor will cycle to maintain the supply air set point The minimum on and off times and stage up and down timers will still be in effect NOTE If the staged cooling number of stages value is con figured to 1 then the SAT CMP2 is used for the low supply air set point SAT CMP2 Lockout Temp Units Degrees F Degrees C Range 45 0 to 55 0 Default Value 50 0 36 TIME GUARD OVERRIDE The Time Guard Override function will reset t
82. pied Period point is used to display the current period determining occupancy Current Occupied Period Display Range 11o 8 Default Value 0 Netvvork Access None OVERRIDE IN PROGRESS The Override in Progress point is used to display if an occupancy override is in progress The point will display Yes if an override is in progress or No if there is no override Override In Progress Display Range Yes No Default Value No Network Access None 39 OVERRIDE DURATION The Override Duration point displays the number of minutes remaining for an occupancy override which is in effect If the override duration value down loaded is in hours the value will be converted to minutes If the occupancy schedule is occupied when override is initiated the current occupancy period will be extended by the number of hours minutes requested If the current occupancy period is unoccupied when the oc cupancy override is initiated the mode will change to occupied for the duration of the number of hours minutes downloaded If the occupancy override is due to end after the start of the next occupancy period the mode will transition from occupancy override to occupied without becoming unoccupied and the occupancy override timer will be reset Override Duration Display Units Minutes Display Range to 240 Default Value 0 Network Access None OCCUPIED START TIME The Occupied Start Time point shows the time that the cur
83. plied Display Range 0 0 to 5000 0 Default Value 0 0 Indoor Air Quality High Limit Display Units PPM implied Display Range 0 0 to 5000 0 Default Value 1200 0 31 VALUE UNITS STATUS FORCE Table 9 Alarm Service Configuration DESCRIPTION VALUE UNITS NAME Alarm Control 000000001 ALRMCNT Alarm Routing Control Realarm Time min REALARM Control Temp Hysteresis B SPTHYS Supply Air Temperature 41 Low Limit 45 0 dF LOWLIM High Limit HIGHLIM IAQ High Alert Limit ic is Low Limit oo LOWLIM High Limit 12000 Tv HIGHLIM Controller Identification Screen The controller identification screen contains reference information used to identify the PremierLink controller See Table 10 DESCRIPTION The Description point displays the type of device LOCATION The Location point shows the location of the device SOFTWARE PART NUMBER The Software Part Num ber indicates the part number of the software being used MODEL NUMBER The Model Number indicates the model number of the device being used SERIAL NUMBER The Serial Number indicates the serial number of the device being used REFERENCE NUMBER The Reference Number indi cates the version of the software being used Table 10 Controller Identification DESCRIPTION VALUE UNITS NAME Rooftop Control 1 DevDesc Location Location Software Part Number CESR131269 04 5
84. pression Also a DX Lockout will prevent operation of the DX cooling if the outdoor air temperature is below this value The cooling algorithm controls the valve or stages of DX cooling to prevent the space temperature from exceeding the current cooling set point which includes any calculated offset value from a T56 sensor slide bar during occupied periods 34 Also the cooling is controlled so that the supply air tempera ture does not fall below 50 F when cooling is active If number of stages is set to 1 then the SAT CMP2 LOCK OUT TEMP will be used as the low supply air set point Number ofStages Range 1 to3 Default Value 2 The Time Guards must be set to Enable for output to a compressor and set to Disable for output to a valve or compressor unloader Stage 1 Time Guard Range Disable Enable Default Value Enable Stage 2 Time Guard Range Disable Enable Default Value Enable Stage 3 Time Guard Range Disable Enable Default Value Disable HEATING PID The PremierLink controller determines if a heating demand exists in the space The controller reads the space temperature sensor and compares the temperature to the current low set point including any calculated offset value from a T56 or T57 sensor during occupied periods If it is below the set point and heating is configured and available it then calculates the required supply air temperature to satisfy the given conditions The calculated value he
85. re three sensors available for this application e 33ZCTS55SPT Space Temperature Sensor with Override Button e 33ZCT56SPT Space Temperature Sensor with Override Button and Set Point Adjustment e 33ZCT58SPT T58 Communicating Room Sensor with Override Button Set Point Adjustment and Manual Fan control If controlling an economizer in the thermostat mode a duct sensor must be mounted in the return air duct and wired to SPT input SUPPLY AIR TEMPERATURE SAT SENSOR The PremierLink controller must be connected to a field supplied supply air temperature SAT sensor part number 33ZCSENSAT to monitor the temperature of the air delivered The SAT consists of a thermistor encased within a stainless steel probe The probe is 6 in nominal length The SAT sensor has 114 in of unshielded plenum rated cable 2 conductors 22 AWG American Wire Gage The sensor range is 40 to 185 F with a nominal resistance of 10 000 ohms at 77 F The sensor measures temperature with an accuracy of 0 36 F Ideally the SAT sensor should be located in the supply air duct downstream from unit heat source to control INDOOR AIR QUALITY CO SENSOR An indoor air quality sensor is required for CO level monitoring Three different CO sensors are available for this application 33ZCSENCO2 sensor is an indoor wall mounted sensor with an LED light emitting diode display 33ZCT55CO2 sensor is an indoor wall mounted sensor without displ
86. rent occupied mode began If the current mode is unoccupied or the controller is following a global schedule the value displayed by this point will remain at default Occupied Start Time Display Range 00 00 to 24 00 Default Value 00 00 Netvvork Access None UNOCCUPIED START TIME The Unoccupied Start Time point shows the time that the current occupied mode will end This will also be the beginning of the next unoccupied mode If the current mode is unoccupied or the controller is following a global schedule the value displayed by this point will remain at default Unoccupied Start Time Display Range 00 00 to 24 00 Default Value 00 00 Netvvork Access None NEXT OCCUPIED DAY The Next Occupied Day point displays the day of week when the next occupied period will begin This point is used vvith the Next Occupied Time so the user vvill knovv vvhen the next occupied period vvill occur If the controller is following a global schedule this point will remain at default Next Occupied Day Display Range MON TUE WED THU FRI SAT SUN Default Value display Blank Network Access None NEXT OCCUPIED TIME The Next Occupied Time point displays the time day when the next occupied period will begin This point is used with the Next Occupied Day so the user will know when the next occupied period will occur If the PremierLink M controller is following a global schedule this point will remain at default Next Occ
87. rews through the holes in the sides of the enthalpy sensor Wiring Carrier recommends the use of 18 to 22 AWG twisted pair or shielded cable for all wiring All connections must be made with in female spade connectors The PremierLink board provides 24 vac to power the enthalpy switch receiver Connect the GND and 24 VAC terminals on the enthalpy switch receiver to the terminals on the transformer On some applications the power from the economizer harness can be used to power the enthalpy switch receiver To power the enthalpy switch receiver from the econ omizer harness connect power of the enthaply switch receiver to the red and brown wires 1 and 4 on the economizer harness 4 253 108 03mm 33CSENTHSW in HI low GND e RETURN AIR ENTH SENSOR 1001 430 2436 m n voCout Model HH57ZC003 Power 24 VAC uuu zs zv Output 10 A Fom 1C Relay w E 24 VAC Sourced Power e 3 75 85 25mm Thermistor Humidity Sensor Fig 18 Enthalpy Switch Receiver Dimensions 33CSENTHSVV 4 253 108 03mm 33CSENTSEN wus zp Model HH57ZC001 Power 24 to 36 VDC Span 0 to 50 BTUs b e Output 4 to 20 mA e 4 3 75 95 25mm 25 01 1 6 35mm 24 36 420 vocn mA Out en D O EN Thermistor Humidity Sensor SZE FE 5221 Fig 19 Enthalpy Sensor Dimensions 33CSENTSEN Connect the LOW Enthalpy terminal on the enth
88. robe through the hole 2 Drill or punch a 1 z in hole in the supply air duct 3 Use two field supplied self drilling screws to secure the sensor probe to the duct 4 Connect the sensor leads to the PremierLink controller s wiring harness J6 3 4 board at the terminals labeled SAT ORN and GND BRN FIELD WIRING T58 SENSOR J4 3 24 VAC 24 VAC J6 6 SDT COM BLACK mt CCN A WHITE GND GEN N e x RED 4 N x BLACK N H 257 ae J2 WHITE GND COM RED 4 Fig 5 T58 Communicating Sensor Typical Wiring 332CT58SPT Perform the following steps if state or local code requires the use of conduit or if your installation requires a cable length of more than 8 ft 1 Secure the probe to the duct with two field supplied self drilling screws 2 If you are extending cable length beyond 8 ft use plenum rated 20 AWG twisted pair wire 3 Connect the sensor leads to the PremierLink control ler s wiring harness terminal board at the terminals la beled SAT ORN and GND BRN 4 Neatly bundle and secure excess wire INDOOR AIR QUALITY CO SENSOR INSTALLATION IAQ The indoor air quality sensor accessory monitors carbon dioxide CO2 levels This information is used to moni tor IAQ levels Three types of sensors are provided The wall sensor can be used to monitor the conditioned air space Se
89. s for the jumpers are M1 and OFF The mode jumper should be set to M2 for differential en thalpy control The factory test jumper should remain on OFF or the enthalpy switch receiver will not calculate enthalpy Enthalpy Sensor Jumper Settings There are two jumpers One jumper determines the mode of the enthalpy sensor The other jumper is not used To access the jumpers remove the 4 screws holding the cover on the enthalpy sensor and then remove the cover The factory settings for the jumpers are M3 and OFF The mode jumper should be set to M3 for 4 to 20 mA output The factory test jumper should remain on OFF or the enthalpy sensor will not calculate enthalpy 20 OUTDOOR AND RETURN AIR ENTHALPY SEN SORS The differential enthalpy control is supplied as a field installed accessory to be used with the Economizer damp er control option The differential enthalpy control provides two enthalpy sensors for sensing the outdoor air and return air conditions and a differential enthalpy controller NOTE The differential enthalpy control must be set to the D setting for differential enthalpy control to work properly The differential enthalpy control senses the outdoor and return air sensors and provides a dry contact switch input to the PremierLink Controller Locate the controller in place of an existing economizer controller or near the actuator The mount ing plate may not be needed if existing bracket is used A
90. set point when a heat or cool mode is active If there is not an active heat or cool set point the set point of the last mode is displayed Upon reset or start up the proper cooling set point is displayed depending on occupancy In the thermo stat mode this point is not used for equipment control Control Set Point Display Units Degrees F Degrees C Default Value Unoccupied Cool Setpoint Display Range 35 to 110 Network Access Read Only COOLING PERCENT TOTAL CAPACITY The Cooling Percent Total Capacity point is used to display the current Cooling Capacity When cooling is enabled the percent of cooling being delivered is determined by the following formula for the number of compressor stages confirmed Output Capacity of active stages Total stages 100 Cooling Percent Total Capacity Display Units output capacity Default Value Display Range to 100 Network Access Read Only HEATING PERCENT TOTAL CAPACITY The Heating Percent Total Capacity point is used to display the current Heating Capacity When heat is enabled the percent of heat being delivered is determined by the following formula for electric heat Output Capacity of active stages Total stages 100 Heating Percent Total Capacity Display Units output capacity Default Value Display Range 0 to 100 Network Access Read Only ECONOMIZER ACTIVE The Economizer Active point displays the status of the economizer for
91. sfer Linkage Thermostat or Comfort Controller can read data from or write data to the PremierLink retrofit controller INSTALLATION Inspection Inspect package contents for visual defects that may have occurred during shipping If there is any dam age contact your local representative before proceeding PremierLink Controller Hardware The Premier Link package consists of the following hardware control module with plastic cover and label 7 wire harnesses 10 spade connectors wire nuts 4 no 6x1 in self drilling Phillips pan head mounting screws Field Supplied Hardware PremierLink controller is configurable with the following field supplied sensors space temperature sensor 33ZCT55SPT 33ZCT56SPT or 33ZCT58SPT in sensor mode or thermostat mode for economizer control supply air temperature sensor 33ZCSENSAT required for all applications indoor air quality sensor 33ZCSENCO2 33ZCT55CO2 33ZCT56C02 required only for demand control ventilation outdoor air quality sensor 33ZCTSENCO2 required only for demand control ventilation outdoor air temperature sensor HH79NZ017 outdoor air enthalpy switch 33CSENTHSW return air enthalpy sensor 33CSENTSEN For specific details about sensors refer to the literature supplied with the sensor SPACE TEMPERATURE SPT SENSOR A field supplied Carrier space temperature sensor is required to maintain space temperature in sensor mode There a
92. t Value 0 0 Netvvork Access None The Average Unoccupied Heat Set Point displays the Unoc cupied heat set point from the Linkage Thermostat Average Unoccupied Heat Set Point Display Units Degrees F Degrees C Display Range 0 0 to 99 9 Default Value 0 0 Netvvork Access None The Average Unoccupied Cool Set Point displays the Unoc The Average Zone Temperature displays the space tempera ture from the Linkage Thermostat Average Zone Temperature Display Units Degrees F Degrees C Display Range 0 0 to 99 9 Default Value 0 0 Netvvork Access None The Average Occupied Zone Temperature displays the space temperature from the Linkage Thermostat during occu pied periods Average Occupied Zone Temperature Display Units Degrees F Degrees C Display Range 0 0 to 99 9 Default Value 0 0 Netvvork Access None The Occupancy Status point displays a 1 if occupancy is re ported by the Linkage Thermostat The Occupancy Status point displays a O if occupancy is not reported by the Linkage Thermostat Occupancy Status Display Range 0 1 Default Value 0 cupied cool set point from the Linkage Thermostat Network Access None Average Unoccupied Cool Set Point Display Units Degrees F Degrees C Display Range 0 0 to 99 9 Default Value 0 0 Network Access None Table 17 Maintenance DESCRIPTION NAME Thermostat Control Ee Occupied v M J gt Ee Timed Override in Effect WJ T
93. the control box install a no 10 ring type crimp lug on the shield drain wire Install this lug under the mounting screw of the PremierLink controller e On 33ZCT56SPT thermostats install a jumper between the two center terminals right SEN and left SET See Fig 4 f Refer to Fig 5 for 33ZCT58SPT thermostat wir ing Once the T58 sensor is powered up all of the graphic icons on the LCD liquid crystal display display will be energized for a few seconds The graphical icons will then turn off and the T58 sen sor will energize the three digit numeric display The value 58 will be displayed for two seconds After 2 seconds the LCD will display the default space temperature value NOTE See Fig 6 for space temperature sensor averaging Table 3 Thermistor Resistance vs Temperature Values for Space Temperature Sensor Supply Air Temperature Sensor and Outdoor Air Temperature Sensor TEMP RESISTANCE C Ohms 40 335 651 35 242 195 30 176 683 25 130 243 20 96 974 15 72 895 10 55 298 5 42 315 0 32 651 5 25 395 10 19 903 15 15 714 20 12 494 25 10 000 30 8 056 35 6 530 40 5 325 45 4 367 50 3 601 55 2 985 60 2 487 65 2 082 70 1 752 CCN COM SENSOR WIRING Fig 3 Space Temperature Sensor Typical Wiring 33ZCT55SPT 10
94. the controller to integrate into a Carrier Comfort Network Operating Mode Range O for TSTAT 1 for CCN Default Value 1 CCN Sensor Default value for Version 1 1 and 1 2 is O TSTAT HEAT TYPE The Heat Type mode determines the type of heat equipment the controller uses There are two choices gas or electric Heat Type Range 0 for Gas not used 1 for Electric Heat Default Value 0 Gas IMPORTANT When used with split system units Heat Type must be set to 1 electric heat UNIT TYPE The Unit Type mode determines the type of heating cooling equipment the controller is attached to There are two choices AC or Heat Pump The AC mode is primarily used for units using the compres sors for cooling only The Heat Pump mode is primarily used for units using a heat pump for example compressors for heating and cooling Unit Type Range 0 for AC 1 for Heat Pump Default Value 0 AC AUXILIARY OUTPUT The Auxiliary Output function is used to define the specific use of the Auxiliary Output on the controller board The output will be energized or deenergized by the appro priate algorithm that uses that specific output Auxiliary Output is displayed as one of the following 0 2 None 2 Heat Stage 1 Exhaust Fan 3 Reversing Valve Auxiliary Output Range 0 to 3 Default Value 0 UNOCCUPIED FREE COOL The Unoccupied Free Cool function is used during unoccupied periods to pre cool the space using ou
95. tside air when outside conditions are suitable Unoccupied Free Cool Range Disable Enable Default Value Disable DEMAND LIMITING The Demand Limiting function is used to limit operating capacity of the unit to prevent system overloads Both Heating and Cooling capacity is limited When Demand Limit option is enabled the control will re spond to the Loadshed Controller commands such as Redline Alert Shed Unshed and Redline Cancel Demand Limiting Disable Enable Disable Range Default Value 37 Table 15 PremierLink Control Configuration NAME p BE Bi ti Eas DESCRIPTION Operating Mode 0 TSTAT 1 CCN Sensor Heat Type 0 Gas 1 Electric Heat Unit Type 0 AC Unit 1 Heat Pump Auxiliary Output 01 AUXOUT 0 None i 1 Exhaust Fan 2 Heat Stage 3 Reversing Valve Unoccupied Free Cool Disable NTEN Demand Limiting Disable DLEN Loadshed Group Number 1 LSGP CCN Broadcast OAT ENTH OAQ OATBC Global Schedule Broadcast Nol GSBC Broadcast Acknowledge Nl BCACK Schedule Number 64 S SCHEDNUM Timed Override Hours O hours TIMOVRID Linkage Thermostat lx Cool Strt Bias min deg KCOOL Heat Strt Bias min deg KHEAT Filter Timer hrs 100 15 FIL TIMR IAQ Priority Level Low S IAQP IAQ Pre Occupancy Purge Disable IAQPURGE IAQ Purge Duration 5 min Topp IAQ Delta Setpoint 650 iAQD 50176 IAQMAXP 001 MAQREFL 200
96. twork Access Read Write TIMED OVERRIDE IN EFFECT The Timed Override In Effect point shows if a timed override is currently in effect Timed Override in Effect Display Range No Yes Default Value No Network Access Read Only START BIAS TIME The Start Bias Time in minutes is calculated during the unoccupied period by the controller as needed to bring the temperature up or down to the set point un der the optimum start routine The start time bias for heat and cool are configurable This value will be reported to the Link age Thermostat if it is used It cannot be used with Global Scheduling Start Bias Time Display Units minutes Display Range O to 180 Default Value 0 Network Access Read only HEAT The Heat point shows if there is a demand for heat in the space The space temperature must be below the Occupied Low or Unoccupied Low set point NOTE When a control mode ends NO mode must be com pleted before opposite mode can begin Heat Display Range No Yes Default Value No Network Access None COOL The Cool point shows if there is a demand for cool ing in the space The space temperature must be above the Oc cupied High or Unoccupied High set point NOTE When a control mode ends NO mode must be com pleted before opposite mode can begin Cool Display Range No Yes Default Value No Network Access None IAQ CONTROL Indicates weather or not IAQ control is active in the controller
97. um Damp er Position will be clamped to 50 NOTE When IAQ priority is set to HIGH this value must reflect the maximum outdoor air percent that the equipment can heat or cool at worst conditions Indoor Air Quality Maximum Damper Position Display Units Open Display Range to 100 Default Value 50 INDOOR AIR QUALITY SENSOR The Indoor Air Qual ity sensor defines the value in parts per million ppm which correlate to the lovv and high voltage readings from the sensor Lovv Reference specifies Lovv Point of the Indoor TAQ Sensor Range in ppm Units PPM parts per million Range O to 5000 Default Value 0 High Reference specifies High Point of the Indoor IAQ Sensor Range in ppm Low Reference High Reference Units PPM parts per million Range 0 to 5000 Default Value 2000 OUTDOOR AIR QUALITY SENSOR The Outdoor Air Quality sensor defines the value in parts per million ppm which correlate to the low and high voltage readings from the sensor Low Reference specifies Low Point of the Outdoor IAQ Sensor Range in ppm Units PPM parts per million Range O to 5000 Default Value 0 High Reference specifies High Point of the Outdoor LAQ Sensor Range in ppm Lovv Reference High Reference Units PPM parts per million Range 0 to 5000 Default Value 2000 OUTDOOR AIR QUALITY LOCKOUT POINT When set to non zero value the IAQ algorithm will compare Outdoor IAQ reading against this decision an
98. upied Time Display Range 00 00 to 24 00 Default Value 00 00 Network Access None NEXT UNOCCUPIED DAY The Next Unoccupied Day point displays the day of week when the next unoccupied peri od will begin This point is used with the Next Unoccupied Time so the user will know when the next unoccupied period will occur If the controller is following a global schedule this point will remain at default Next Unoccupied Day Display Range MON TUE WED THU FRI SAT SUN Default Value display Blank Network Access None NEXT UNOCCUPIED TIME The Next Unoccupied Time point displays the time day when the next unoccupied period will begin This point is used with the Next Unoccupied Day so the user will know when the next unoccupied period will occur If the controller is following a global schedule this point will remain at default Next Unoccupied Time Display Range 00 00 to 24 00 Default Value 00 00 Network Access None LAST UNOCCUPIED DAY The Last Unoccupied Day point displays the day of week when the controller last changed from occupied to the Unoccupied mode This point is used in conjunction with the Last Unoccupied Time to know the last time and day when the controller became unoccupied If the controller is following a global schedule this point will remain at default Last Unoccupied Day Display Range MON TUE WED THU FRI SAT SUN Default Value display Blank Network Access None LAST
99. ut 20 VDC at 25 mA 5 White Red Feedback 0 2 10 or 6 9 VDC 4 Red Input O 2 10 or 6 9 VDC 4 20 mA 3 9 1 Yellow 24 VAC VDC 2 TO 24V White COM 1 TRANSFORMER Fig 29 PremierLink Controller Wiring to Johnson Actuator With Wire Harness M9206 GGC 2 ECONOMIZER 12 PIN HARNESS ACTUATOR 50TJ400812 24 VAC M9206 GGC 2 TRANSFORMER GROUND 4 20mA TO J9 1 ON PREMIERLINK CONTROLLER 12 PIN FEMALE CONNECTOR CABLE MOLEX CONNECTOR Fig 30A PremierLink Control Wiring to Johnson Actuator Economizer Harness 25 TRANSFORMER 500 OHM 2 RESISTOR 2 50HJ540573 ACTUATOR ASSEMBLY DIRECT DRIVE ACTUATOR NOTES GROUND VIOLET C PINK 24 VAC WIRES FOR OAT SENSOR e z L 4 20 mA SIGNAL 4 20 mA TO J9 ON 1 Switch on actuator must be in run position for economizer to operate 2 50HJ540573 actuator consists of the 50HJ540567 actuator and a harness with 500 ohm resistor Fig 30B PremierLink Control Wiring to Belimo Style Actuator EconoMi er2 Harness START UP A WARNING The unit must be electrically grounded in accordance with local codes and NEC ANSI NFPA 70 American National Standards Institute National Fire Protection Association Use the Carrier network communication software to start up and configure the PremierLink controller Changes c
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