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York YPAL 061 manuale d’uso - BKManuals

York YPAL 061 manuale d’uso

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Un buon manuale d’uso

Le regole impongono al rivenditore l'obbligo di fornire all'acquirente, insieme alle merci, il manuale d’uso York YPAL 061. La mancanza del manuale d’uso o le informazioni errate fornite al consumatore sono la base di una denuncia in caso di inosservanza del dispositivo con il contratto. Secondo la legge, l’inclusione del manuale d’uso in una forma diversa da quella cartacea è permessa, che viene spesso utilizzato recentemente, includendo una forma grafica o elettronica York YPAL 061 o video didattici per gli utenti. La condizione è il suo carattere leggibile e comprensibile.

Che cosa è il manuale d’uso?

La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso York YPAL 061 descrive le fasi del procedimento. Lo scopo del manuale d’uso è istruire, facilitare lo avviamento, l'uso di attrezzature o l’esecuzione di determinate azioni. Il manuale è una raccolta di informazioni sull'oggetto/servizio, un suggerimento.

Purtroppo, pochi utenti prendono il tempo di leggere il manuale d’uso, e un buono manuale non solo permette di conoscere una serie di funzionalità aggiuntive del dispositivo acquistato, ma anche evitare la maggioranza dei guasti.

Quindi cosa dovrebbe contenere il manuale perfetto?

Innanzitutto, il manuale d’uso York YPAL 061 dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo York YPAL 061
- nome del fabbricante e anno di fabbricazione York YPAL 061
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature York YPAL 061
- segnaletica di sicurezza e certificati che confermano la conformità con le norme pertinenti

Perché non leggiamo i manuali d’uso?

Generalmente questo è dovuto alla mancanza di tempo e certezza per quanto riguarda la funzionalità specifica delle attrezzature acquistate. Purtroppo, la connessione e l’avvio York YPAL 061 non sono sufficienti. Questo manuale contiene una serie di linee guida per funzionalità specifiche, la sicurezza, metodi di manutenzione (anche i mezzi che dovrebbero essere usati), eventuali difetti York YPAL 061 e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio York in assenza dell'efficacia delle soluzioni proposte. Attualmente, i manuali d’uso sotto forma di animazioni interessanti e video didattici che sono migliori che la brochure suscitano un interesse considerevole. Questo tipo di manuale permette all'utente di visualizzare tutto il video didattico senza saltare le specifiche e complicate descrizioni tecniche York YPAL 061, come nel caso della versione cartacea.

Perché leggere il manuale d’uso?

Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo York YPAL 061, l'uso di vari accessori ed una serie di informazioni per sfruttare totalmente tutte le caratteristiche e servizi.

Dopo l'acquisto di successo di attrezzature/dispositivo, prendere un momento per familiarizzare con tutte le parti del manuale d'uso York YPAL 061. Attualmente, sono preparati con cura e tradotti per essere comprensibili non solo per gli utenti, ma per svolgere la loro funzione di base di informazioni e di aiuto.

Sommario del manuale d’uso

  • Pagina 1

    INST ALLA TION, OPERA TION & MAIN TE NANCE P ACKAGED ROOFT OP AIR CONDITIONING UNITS Form 100.50-NOM6 (1207) YP AL 050 YP AL 051 YP AL 060 YP AL 061 035-21979-002 New Release DESIGN LEVEL F SIMPLICITY ELITE CONTROL LD13271[...]

  • Pagina 2

    JOHNSON CONTROLS 2 FORM 100.50-NOM6 (1207) This equipment is a relatively complicated ap pa ra tus. Dur ing installation, operation, maintenance or service, in di vid u als may be exposed to certain com po nents or conditions in clud ing, but not limited to: re frig er ants, oils, materials un der pressure, rotating com po nents, and both high and [...]

  • Pagina 3

    3 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) CHANGEABILITY OF THIS DOCUMENT In complying with JOHNSON CONTROLS’ s policy for continuous prod uct improvement, the in for ma tion con tained in this doc u ment is subject to change without notice. While JOHNSON CONTROLS makes no com mit ment to update or provide current in for ma tion au to mat i cal l[...]

  • Pagina 4

    JOHNSON CONTROLS 4 FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS BASE MODEL NUMBER .............................................................................................................................. 3 CHANGEABILITY OF THIS DOCUMENT ..................................................................................................... 3 NOMENC[...]

  • Pagina 5

    5 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS FIELD WIRING .............................................................................................................................. .............. 33 Thermostat .................................................................................................................... ..[...]

  • Pagina 6

    JOHNSON CONTROLS 6 FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS INITIAL ST ART -UP ...................................................................................................................................... 50 Refrigerant Charge ........................................................................................................... ... [...]

  • Pagina 7

    7 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS Space Sensor – Hard Wired or Communicated ................................................................. 65 Cooling Operation – Occupied or Unoccupied ............................................................. 65 Heating Operation – Occupied or Unoccupied ....................[...]

  • Pagina 8

    JOHNSON CONTROLS 8 FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS COMFORT VENTILA TION .......................................................................................................................... 81 Sequence of Operation ........................................................................................................ 82 Conditions [...]

  • Pagina 9

    9 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS Modulating Damper with Fixed Speed Exhaust ................................................................. 93 Sequence of Operation .................................................................................................... 93 Modulating Exhaust with a VFD ....................[...]

  • Pagina 10

    JOHNSON CONTROLS 10 FORM 100.50-NOM6 (1207) T ABLE OF CONTENTS Return Fan Pressure T ransducer ...................................................................................... 154 Discharge Pressure T ransducer ........................................................................................154 Building Pressure T ransducer ...........[...]

  • Pagina 11

    11 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) LIST OF T ABLES T ABLE 2-1 – VOL T AGE LIMIT A TIONS ............................................................................................. 17 T ABLE 2-2 – UNIT WEIGHTS - 050-061 MODELS ........................................................................... 20 T ABLE 2-3 – UNIT CENTER OF [...]

  • Pagina 12

    JOHNSON CONTROLS 12 FORM 100.50-NOM6 (1207) LIST OF FIGURES FIG. 1-1 – P ACKAGED ROOFTOP AIR CONDITIONING UNIT ...................................................... 13 FIG. 2-1 – UNIT CLEARANCES .................................................................................................... .... 18 FIG. 2-2 – LIFTING LUG LOCA TIONS .....[...]

  • Pagina 13

    13 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 1 Condensing Section • Scroll Compr essors – Reliable, efficient, trouble-free operation is the true measure of a packaged rooftop’ s value. That’ s why YORK eco 2 Packaged Rooftop Air Conditioners use established scroll-compressor technology to deliver dependable, eco nom i cal performance in a w[...]

  • Pagina 14

    14 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Introduction • Compressor Sound Blankets – Optional factory in stalled sound blankets can be installed to further reduce com pres sor sound attenuation. • Replaceable core fi lter driers – The optional re place able core fi lter driers on the eco 2 provides a con ve nient means for maintaining a[...]

  • Pagina 15

    15 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 1 AIR MANAGEMENT • DWDI Airfoil fans – High effi ciency fans are used to im prove ap pli ca tion fl exibility , and ad- dress sound and ap pli ca tion con cerns. • Building pressur e control – Ex haust fans and barometric relief dampers are available to meet building pressure control requirement[...]

  • Pagina 16

    16 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Introduction • Factory Shrinkwrap – All eco 2 rooftop units can be ordered from the factory with an optional factory-fresh shrinkwrap pack ag ing. This elimi- nates the contractors worries about dirt and debris clogging up condenser coils or moisture leaking into the air han dler on the units way to t[...]

  • Pagina 17

    17 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) SECTION 2 – INST ALLA TION APPROV ALS Designed certifi ed by CSA, ETL, CETL as follows: 1. For use as a forced air furnace with cooling unit (gas heat models). 2. For outdoor installation only . 3. For installation on combustible ma te ri al and may be installed directly on combustible fl oor ing or[...]

  • Pagina 18

    18 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation • Also avoid locations beneath windows or be- tween structures. • Optional condenser coil protection should be used for seashore locations or other harsh environ- ments. • The unit should be installed on a roof that is structur- ally s trong enough to support the weight of the unit with[...]

  • Pagina 19

    19 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) FIG. 2-3 – UNIT RIGGING 00543vip RIGGING AND HANDLING Proper rig ging and handling of the equip ment is man da to ry during un load ing and setting it into position to re tain warranty status. All lifting lugs must be used to pre vent twisting and damage to the unit. Care must be taken to keep the uni[...]

  • Pagina 20

    20 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation T ABLE 2-2 – UNIT WEIGHTS - 050-061 MODELS MODEL SIZE 050 051 060 061 BASIC UNIT* 7433 7433 7800 7819 ECONOMIZERS NO OUTSIDE AIR 240 240 240 240 25% OUTSIDE AIR FIXED POSITION MAUAL DAMPER 446 446 446 446 25% OUTSIDE AIR 2 POSITION ACTUA TED DAMPER 476 476 476 476 FULL MODULA TION WITH MINI[...]

  • Pagina 21

    21 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) UNIT WEIGHTS (CONTINUED) T ABLE 2-4 – UNIT CORNER WEIGHTS - 050-061 MODELS MODEL 050 051 ABC DAB CD BASIC UNIT 1835 2201 1852 1545 1835 2201 1852 1545 BASIC UNIT W/ ECON. 2039 2417 1873 1580 2039 2417 1873 1580 BASIC UNIT W/ ECON. & HEA TING 21 18 2521 2041 1715 21 18 2521 2041 1715 BASIC UNIT W/ [...]

  • Pagina 22

    22 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation ROOF CURB INST ALLA TION YORK offers an optional roof curb designed specifi cally for the eco2 foot print. This curb comes as an open condenser model and is shipped disassembled and requires fi eld assembly during installation. Refer to the Installation Manual that is shipped with the r oof[...]

  • Pagina 23

    23 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) PHYSICAL DA T A T ABLE 2-5 – PHYSICAL DA T A – 050-061 MODELS UNIT SIZE 050 051 060 061 GENERAL DA T A LENGTH WITHOUT HOOD (INCHES) 339 339 339 339 WIDTH (INCHES) 92 92 92 92 HEIGHT (INCHES) 82 82 82 82 UNIT EER/ IPL V 10.3 / 10.9 10.2 / 10.6 10.1 / 10.4 10.1 / 10.3 UNIT EER/ IPV GAS HEA T COMPRESSO[...]

  • Pagina 24

    24 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation PHYSICAL DA T A (CONTINUED) T ABLE 2-6 – PHYSICAL DA T A - COMPRESSORS COMPRESSORS UTILIZED COMPRESSOR NOMINAL T ONS CAP ACITY % SYSTEM 1 SYSTEM 2 SYSTEM 1 SYSTEM 2 “COMPR # 1” “COMPR # 2” “COMPR # 3” “COMPR # 4” “COMPR # 1” “COMPR # 2” “COMPR # 3” “COMPR # 4?[...]

  • Pagina 25

    25 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) GENERAL ARRANGEMENT DRA WING – 050-061 MODELS LD08295 BOTTOM SUPPL Y / BOTTOM RETURN FIG. 2-4 – GENERAL ARRANGEMENT DRA WING 46.00 60.00 1-1/4" FPT DRAINS BOTH SIDES 39.00 82.00 30.00 DOOR SWING CLEARANCE BOTH SIDES 78.00 CLEAR FOR COIL PULL 92.00 100.50 AIRFLOW 1.50 339.00 91.00 CLEAR FOR COIL[...]

  • Pagina 26

    26 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation GENERAL ARRANGEMENT DRA WINGS (CONTINUED) FIG. 2-4 – GENERAL ARRANGEMENT DRA WING (CONT .) BOTTOM SUPPL Y / SIDE RETURN SECTION DESCRIPTIONS: EE = Economizer FE = Fan Exhaust _F = Filter Segments CC = Cooling Coils FS = Supply Fan DP = Discharge Plenum CO = Condenser Section LD08370 6.28 38[...]

  • Pagina 27

    27 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) GENERAL ARRANGEMENT DRA WINGS (CONTINUED) FIG. 2-4 – GENERAL ARRANGEMENT DRA WING (CONT .) BOTTOM SUPPL Y / REAR RETURN LD08296 76.48 7.76 6.36 36.28 66.00 227.25 195.00 1 1.00 46.00 60.00 1-1/4" FPT DRAINS BOTH SIDES 39.00 82.00 30.00 DOOR SWING CLEARANCE BOTH SIDES 78.00 CLEAR FOR COIL PULL 92.[...]

  • Pagina 28

    28 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation CURB LA YOUT DRA WING / 050-061 MODELS FIG. 2-5 – GENERAL ARRANGEMENT DRA WING NOTES: 1. Unit must be installed square and level. 2. Curb confi guration for “bottom” return and “bottom” supply . 3, These drawings are not intended as construction documents for the fi eld fabricated[...]

  • Pagina 29

    29 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) ELECTRICAL DA T A ELECTRICAL SER VICE SIZING In order to use the electrical service required for the cooling only eco2 rooftop, use the appropriate calculations listed below from U.L. 1995. Based on the confi guration of the rooftop, the calculations will yield different MCA (minimum circuit ampacity),[...]

  • Pagina 30

    30 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation T ABLE 2-1 1 – CONDENSER F AN MOTOR RLA - ST ANDARD F AN RLA EACH MOTOR 208V/3PH/60HZ 230V/3PH/60HZ 460V/3PH/60HZ 575V/3PH/60HZ 7.3 6.2 3.1 2.5 MODEL QUANTITY OF FA N S 208V/3PH/60HZ 230V/3PH/60HZ 460V/3PH/60HZ 575V/3PH/60HZ 50-61 TONS 4 29.2 24.8 12.4 10.0 T ABLE 2-12 – CONDENSER F AN MO[...]

  • Pagina 31

    31 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) T ABLE 2-14 – ELECTRIC HEA T T ABLE 2-15 – AIRFLOW AND ENTERING AIR/AMBIENT LIMIT A TIONS * Cooling Only Units KW NOMINAL VOL T AGE 208/3/60 AMPS 230/3/60 AMPS 460/3/60 AMPS 575/3/60 AMPS 40 96 96 48 40 80 193 193 96 80 108 260 260 130 109 150 — — 181 151 Limitations Model Size 50 51 60 61 Minim[...]

  • Pagina 32

    32 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation FIL TERS T wo-inch “throwaway” filters are standard and factory installed in a filter rack located prior to the evaporator coil. Any optional pre-filters ordered with the unit will be shipped inside the unit, but must be field installed. The unit can also be ordered with an extended c[...]

  • Pagina 33

    33 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) AIR HOODS FOR ECONOMIZER There are two (2) economizer outside air intake hoods pro vid ed with the unit. The front and rear hoods are made operational per the following instructions: • Remove the screws holding the economizer hood ship ping covers in place. Discard covers. • Apply a bead of R TV sea[...]

  • Pagina 34

    34 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation CO2 Sensor The addition of a fi eld installed CO2 sensor is required for Demand V entilation operation. The default input span for the control is 0 to 2,000 ppm with an output voltage range of 0 to 10 VDC. The fi eld will need to supply an external power supply for the sensor . This is in a[...]

  • Pagina 35

    35 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) V A V Heat Relay Output This is a 24 VDC output that is turned on when the unit is in the heating mode. The fi eld can use this as a signal to trigger the opening of the V A V boxes for heating operation. This feature uses two ¼ inch male tabs identifi ed as (V A V OPEN +) and (V A V OPEN -) on the S[...]

  • Pagina 36

    36 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation FIG. 2-8 – FIELD CONTROL WIRING CONNECTIONS LD13002 Wiring Notes: 1. Wiring shown indicates typical wiring . Refer to the IOM manual for more detailed wiring methods and options . 2. All wiring is Class 2, low v oltage. 3. Maximum power a vailable from the 24 V A VC terminal is 40 V A. 4. U[...]

  • Pagina 37

    37 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) POWER WIRING Field wiring to the unit must conform to provisions of National Electrical Code (NEC) ANSI / NFP A 70- Lat est Edition and / or local ordinances. The unit must be electrically grounded in accordance with the NEC and / or local codes. V oltage tolerances, which must be main tained during sta[...]

  • Pagina 38

    38 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation SINGLE-POINT POWER SUPPL Y WIRING FIG. 2-9 – SINGLE-POINT POWER SUPPL Y WIRING NOTES: 1. All fi eld wiring must be provided through a fi eld-supplied fused dis con nect switch to the unit terminals (or optional mold ed disconnect switch). 2. All electrical wiring must be made in accordanc[...]

  • Pagina 39

    39 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) SINGLE-POINT POWER SUPPL Y WIRING WITH NON-FUSED DISCONNECT SWITCH FIG. 2-10 – SINGLE-POINT POWER SUPPL Y WIRING WITH NON-FUSED DISCONNECT NOTES: 1. All fi eld wiring must be provided through a fi eld-supplied fused disconnect switch to the unit terminals (or optional molded disconnect switch). 2. A[...]

  • Pagina 40

    40 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation DUAL-POINT POWER SUPPL Y WIRING FIG. 2-1 1 – DUAL-POINT POWER SUPPL Y WIRING NOTES: 1. All fi eld wiring must be provided through a fi eld-supplied fused disconnect switch to the unit terminals (or optional molded disconnect switch). 2. All electrical wiring must be made in accordance wit[...]

  • Pagina 41

    41 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) T ABLE 2-16 – THREE PHASE POWER SUPPL Y CONDUCTOR SIZE RANGE 050-061 Models Supply V oltage Single Point TB Single Point Disconnect Dual Point TB TB 1 TB 2 208V (2*) 250 kcmil-500 kcmil (2*) 2 AWG-500 kcmil 6 AWG-400 kcmil 6 AWG-350 kcmil 230V (2*) 250 kcmil-500 kcmil (2*) 2 AWG-500 kcmil 6 AWG-400 kc[...]

  • Pagina 42

    42 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation TRANSDUCER PNEUMA TIC TUBING Static Pressur e Control Plastic T ubing (Pneumatic T ubing) Duct static transducers (all V A V units) and any unit with an op tion al building pressure control trans duc er , require pneumatic tubing to be fi eld supplied and in stalled. Both the duct static tra[...]

  • Pagina 43

    43 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) FIG. 2-12 – A TMOSPHERIC SENSOR PROBE LD13127 Economizer Compar tment Economizer Compartment Filter Compar tment Filter Compartment The atmospheric probe should be mounted on the support post on the control side of the unit between the Economizer and the Filter compartment.[...]

  • Pagina 44

    44 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation DUCT SYSTEM Duct Connection Guidelines All intake and discharge air duct connection to the unit may be made directly to the unit. These air duct con nec tions should be on fl exible material and should be installed so they are suffi ciently loose. Duct runs and transitions must be made care[...]

  • Pagina 45

    45 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) GAS PIPING Proper sizing of the gas piping depends on the cubic feet per hour of gas fl ow required, specifi c gravity of the gas and the length of run. National Fuel Gas Code Z223.1 – latest Edition should be followed in all cases unless superseded by local codes or gas company requirements. Refer [...]

  • Pagina 46

    46 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Installation 6. The furnace and its individual manual shut-off valve must be disconnected from the gas supply piping system during any pressure testing of that system at test pressures in excess of 0.5 PSIG. Disconnect gas piping from unit when leak testing at pressures greater than 0.5 PSIG. Pressures gr[...]

  • Pagina 47

    47 3 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) SECTION 3 – ST ART -UP T o protect warranty , this equip ment must be in stalled and ser viced by an authorized JOHNSON CONTROLS ser vice me chan ic or a qualifi ed service per son ex pe ri enced in air han dling and con dens er unit in stal la tion. Installation must com ply with all ap- pli ca ble [...]

  • Pagina 48

    48 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Startup The supply, exhaust and return fans have tie dow n bolts are installed at the fac tory to prev ent mov em en t in the fan assemblies during shipment. THESE H OL D D OW N B O LT S M U ST B E RE MOV ED PR IOR T O O PE RA TIO N OF THE ABOVE F AN S. There are eight bolts per assembly two at each comer[...]

  • Pagina 49

    49 3 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 17. V erify V ariable Frequency Drive setpoints for V A V unit Supply Fan and optional V ariable Frequency Drive Exhaust and/or Return Fan drives. The Sup- ply Fan VFD is located to the right of the electrical control box in the supply fan blower compartment. Refer to separate manual for VFD operation s[...]

  • Pagina 50

    50 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Startup INITIAL ST ART -UP After all of the preceding checks have been com plet ed and the control pan el has been programmed as re quired, the unit may be placed into op er a tion. 1. Place the Unit Switch in the control panel to the ON position. 2. With a demand, the supply fan will cycle on, and per mi[...]

  • Pagina 51

    51 3 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Example: The suction pressure is 130 PSIG and the suction line temperature is 57 °F Suction Line T emperature = 57°F Saturation T emperature for 130 PSIG = 45°F Evaporator Superheat = 12°F When adjusting the expansion valve, the adjusting screw should be turned not more than one turn at a time, al l[...]

  • Pagina 52

    52 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Startup T ABLE 3-1 –R410-A PRESSURE / TEMPERA TURE CHART PSIG TEMP ˚ F PSIG TEMP ˚ F 0 -60 78 20 2- 5 8 8 0 2 1 4 -54 85 24 6 -50 90 26 8 -46 95 29 10 -42 100 32 12 -39 105 34 14 -36 1 10 36 16 -33 1 15 39 18 -30 120 41 20 -28 125 43 22 -26 130 45 24 -24 135 47 26 -20 140 49 28 -18 145 51 30 -16 150 5[...]

  • Pagina 53

    53 3 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) GAS HEA T MODELS Pre-Start Checks: • When starting up these units, it is imperative that ALL gas fi ttings within the unit (in addition to the fi eld installed gas connections) are leak checked with a soap solution as part of the unit commissioning process. The heat section must be fi red when chec[...]

  • Pagina 54

    54 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Startup • Check the supply pressure. It must be within the limitations shown in T able 3-2. Supply pressure should be checked with all gas appliances in the building at full fi re. At no time should the standby gas pressure exceed 13.5" WC, nor the operating pressure drop below 4.5" WC for na[...]

  • Pagina 55

    55 4 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) SECTION 4 – MAINTENANCE Make sure power is removed from the unit before performing the main- tenance items contained in this sec- tion. GENERAL A planned program of regularly sched uled main te nance will return div i dends by avert ing possible costly and un ex pect ed pe ri ods of down time. It is t[...]

  • Pagina 56

    56 Maintenance JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Condenser Coils Dirt should not be al lowed to accumulate on the con dens er coil surfaces. Cleaning should be as often as nec es sary to keep coil clean. PERIODIC MAINTENANCE – THREE TO SIX MONTHS Disconnect and lock-out power from the unit anytime service is being per- formed on the fan se[...]

  • Pagina 57

    57 4 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Belt T ensioning: Belt tension information is included on the fan skid data plate as shown in Figure. 4-2. Sample data plate shows 4.3 lbs pressure at .30 inches defl ection. A Browning Belt tension gauge is used in Figure. 4-3 to prop er ly tension belts. 00494vip FIG. 4-2 – F AN DA T A PLA TE - BEL[...]

  • Pagina 58

    58 Maintenance JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Filter Drier Replacement The fi lter/drier should be replaced any time work is per formed on the refrigerant circuit. The rooftop unit comes with sealed type (non-replaceable) cores as stan dard. If the unit is not equipped with the op tion al valve package (suction, discharge, & liquid l[...]

  • Pagina 59

    59 4 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Disconnect and lock-out power from the unit anytime service is being per- formed on the fan sec tion. Failure to do so could result in serious in ju ry or death due to the fan turning on while work is in progress. Fan Motor 1. Shut off unit power and lock out. 2. Disconnect and tag power wires at motor [...]

  • Pagina 60

    60 Maintenance JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Prior to installing the bearing on the shaft, it should be worked around in the housing to make sure that self-alignment will be obtained where the bear ing is in stalled. After the shaft journal has been in spect ed for clean li ness, metal chips or burrs, the bearing is slipped, not forced, [...]

  • Pagina 61

    61 4 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) LD06358 FIG. 4-7 – ECCENTRIC CAM LOCKING COL LAR BEARING INST ALLA TION BEARING INST ALLA TION Do not app ly ex cessiv e forc e to the bear ing hous ing (pillow block or b e a r i n g h o u s i n g ( p i l l o w b l o c k o r fl ange) when installing the bearing fl ange ) whe n ins talli ng th e bea[...]

  • Pagina 62

    62 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) THIS P AGE INTENTIONALL Y LEFT BLANK[...]

  • Pagina 63

    63 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 UNIT TYPE The Simplicity Control is capable of being confi gured for either Constant V olume (CV) or V ariable Air V olume (V A V) operation. T o confi gure the unit for V A V operation a 10,000 to 20,000 ohm resister must be installed on the P7 (CV/V A V) connector on the control board. If no resiste[...]

  • Pagina 64

    64 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation “COOLING MODE OPERA TION ENABLED” – must be enabled using Parameter 53 under the PROGRAM key on the Simplicity control board or under the COOLING SETUP tab in the Simplicity PC software package. “HEA TING MODE ENABLED FOR OPERATION” – must be enabled using Parameter 54 un[...]

  • Pagina 65

    65 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 Occupied Heating There are three stages of heating available: • W1 – First Stage of Heating • W2 – Second Stage of Heating • W3 – Third Stage of Heating See the Heating section of this manual for a description of the heating staging. Unoccupied Heating Unoccupied heating operation is the sam[...]

  • Pagina 66

    66 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation The Simplicity Control will stage off the cooling as follows: • If the space temperature is within 0.5° F of the “CV OCCUPIED COOLING SETPOINT” or “CV UNOCCUPIED COOLING SETPOINT” the control turns off the System 2 compressors, if on, with a 30 second delay between the com[...]

  • Pagina 67

    67 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 • “CV UNOCCUPIED HEA TING SETPOINT” – using Parameter 13 under the PROGRAM key on the Simplicity control board or under the HEA TING SETUP tab in the Simplicity PC software package. • “SP ACE SENSOR F AULT OVERIDE EN - ABLED” must be turned on – using Parameter 8 under the PROGRAM key on[...]

  • Pagina 68

    68 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation The Simplicity Control will stage off the heat as follows: • When the return air temperature is 2.4° F below the “CV OCCUPIED HEA TING” or “CV UN- OCCUPIED HEA TING SETPOINT” the third stage of heating will turn off. • When the return air temperature is 1.9° F below the[...]

  • Pagina 69

    69 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 – The Simplicity Control uses the temperature difference calculated when the first com- pressor was turned on to verify the supply air temperature will not drop 5.0° F or more below the cooling “V A V COOLING SUPPLY TEMP UPPER SA T SETPOINT” or “V A V COOLING SUPPLY AIR TEMP LOWER SETPOINT”. [...]

  • Pagina 70

    70 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation • When the supply air temperature is 5.0° F or more above the cooling “V A V UPPER COOLING SA T SETPOINT” or “V A V LOWER COOLING SA T SETPOINT” the Simplicity Control will energize the fi rst compressor . • The control records the supply air temperature right before th[...]

  • Pagina 71

    71 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 Occupied Cooling – Stand Alone The following System Parameters must be programmed through the Simplicity Control for V A V Stand Alone operation: • “V A V COOLING SUPPL Y AIR TEMP UP- PER SETPOINT” – using Parameter 23 under the PROGRAM key on the Simplicity control board or under the COOLING [...]

  • Pagina 72

    72 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation Cooling – Unoccupied Stand Alone The Simplicity Control cannot operate unoccupied cooling with this method of control. Heating – Occupied Stand Alone The following parameters must be programmed into the Simplicity Control: • “V A V OCCUPIED HEA TING ENABLED” – This must b[...]

  • Pagina 73

    73 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 • If the outdoor air temperature is less then the economizer supply air temperature set point, compressors will not operate regardless of the “OUTDOOR AIR TEMP COOLING LOCK- OUT” set point. LOW AMBIENT OPERA TION A condenser fan VFD can be installed on condenser fan # l. When this is installed com[...]

  • Pagina 74

    74 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation – If “ CONTINUOUS F AN OPERATION WITH SENSOR” is turned on using Parameter 55 under the PROGRAM key on the Simplicity control board, or under the F ANS tab in the Simplicity PC software package the supply fan will operate continuously whenever the unit is in the occupied mode. [...]

  • Pagina 75

    75 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 The Simplicity Control monitors the operation of the supply fan by checking the status of a digital input from an air proving switch. After 90 seconds of operation, the Simplicity Control looks for a high state (24-volt input) from the air proving switch circuit at the “APS” connections at the P1 1 [...]

  • Pagina 76

    76 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation V A V Supply Fan Speed Contr ol The following values need to be programmed: “DUCT PRESSURE SETPOINT” – Using parameter 30 under the PROGRAM key on the Simplicity control board or under the F AN tab in the Simplicity PC software package. “DUCT PRESSURE SHUTDOWN SETPOINT” –[...]

  • Pagina 77

    77 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 Single Enthalpy The following parameters must be programmed to allow economizer operation: “ECONOMIZER OUTSIDE AIR ENTHALPY SETPOINT” – must be programmed using Parameter 37 under the PROGRAM key on the Simplicity control board or under the ECONOMIZER/EXHAUST tab in the Simplicity PC software pack[...]

  • Pagina 78

    78 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation “OUTSIDE AIR HUMIDITY SENSOR INST ALLED” - must be disabled using Parameter 36 under the PROGRAM key on the Simplicity Control board or under the EQUIPMENT INST ALLA TION tab in the Simplicity PC software package. “RETURN AIR HUMIDITY SENSOR INST ALLED” - must be disabled usi[...]

  • Pagina 79

    79 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 • When the space temperature is equal to or greater than 2.0° F above the “V A V SUPPLY AIR TEMP RESET SETPOINT” the Simplicity Control will use the “V A V COOLING SUPPLY AIR TEMP LOWER SETPOINT” . Economizer / Compr essor Operation The Simplicity Control will use outdoor air without compress[...]

  • Pagina 80

    80 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation Constant V olume The following conditions must be met in order for Economizer Loading to function: • The outdoor air temperature must be greater than the return air temperature. • Economizer must be installed but not active. • A call for fi rst stage compressor operation only [...]

  • Pagina 81

    81 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 COMFORT VENTILA TION Comfort V entilation is a Constant V olume control mode that uses the economizer to control the supply air temperature. When outdoor air conditions allow , the economizer will modulate the outside / return air mix to keep supply air temperatures within the upper and lower Comfort V [...]

  • Pagina 82

    82 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation Sequence of Operation T ables 5-4 thru 5-6 use the following defi nitions: • SA T COMFOR T ZONE – the temperature be- tween the “COMFORT VENTILA TION LOWER SETPOINT” minus 1.0° F and the “COMFORT VENTILA TION UPPER SETPOINT” plus 1.0° F. • OA T COMFOR T ZONE - the te[...]

  • Pagina 83

    83 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 • The Simplicity Control will monitor the supply air temperature and compare it to the “SUPPL Y AIR TEMP LIMIT COOLING SETPOINT” . If the supply air temperature is 0.1° F or more below this value and the compressor minimum run time requirement has been met the Simplicity Control will turn off the[...]

  • Pagina 84

    84 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation • The Simplicity Control then starts a 3 minute timer . • If after 3 minutes the supply air temperature is equal to or less than the “SUPPLY AIR TEMP LIMIT HEA TING SETPOINT” minus 10.1° F the Simplicity Control will turn the heat stage back on provided there is still a dema[...]

  • Pagina 85

    85 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 SP ACE SENSOR F AUL T OVERRIDE ENABLE The Unit Controller will self confi gure when it identifi es a space sensor has been installed. Once it identifi es that a space sensor is connected, if the input is then removed the control will generate a Space T emperature Sensor Alarm (19). When this occurs t[...]

  • Pagina 86

    86 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation The Simplicity Elite control will keep the compressors off line for 5 minutes. After 5 minutes, the Simplicity Elite control will turn the compressor back on with a 30 second delay between compressors and resume normal operation. After 5 minutes Simplicity Elite control will reset th[...]

  • Pagina 87

    87 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 • Intelli-Start will only work on a Constant V olume system using a space sensor . • Intelli-Start will only work when the internal scheduling feature is used. It will not work using a hard wired or communicated Occupied com- mand. • Intelli-Start will only function during the fi rst occupied per[...]

  • Pagina 88

    88 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation • If heating mode is selected the Simplicity Elite control will also compare the current outdoor temperature to the outdoor temperature recorded during the previous start up period. – If the current outdoor air temperature is 10.0° F or more below the previous day the Simplic- i[...]

  • Pagina 89

    89 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 HYDRONIC HEA T The following parameters must be programmed to use Hydronic Heat: “HEA TING MODE ENABLED FOR OPERATION” must be enabled using Parameter 54 under the PROGRAM key of the Simplicity Elite control board or under the HEA TING SETUP tab in the Simplicity PC software package. “HYDRONIC HEA[...]

  • Pagina 90

    90 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation Manual This option uses a manually adjustable outdoor air damper that can set in a fi xed position to control the amount of outdoor air that is brought into the building for ventilation. As long as the supply fan is operative, ventilation air will be brought into the building. T o a[...]

  • Pagina 91

    91 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 Defi nitions “IAQ SENSOR RANGE” –This establishes the span the Simplicity Elite control uses in PPM. 0 PPM would be equal to a 0 volts input to the Simplicity Elite control, “IAQ SENSOR RANGE” would be equal to 10 volts input to the Simplicity Elite control. The “IAQ SENSOR RANGE” must ma[...]

  • Pagina 92

    92 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation When the outdoor temperature is equal to or less than the “LOW AMBIENT ECONOMIZER SETPOINT” the Simplicity Elite control will set the minimum position of the outdoor damper to the programmed “LOW AMBIENT ECONOMIZER MINIMUM POSITION” setting. When the outdoor temperature is 1.[...]

  • Pagina 93

    93 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 Sequence of Operation When the building static pressure is 0.015” WC or more above the “BUILDING PRESSURE SETPOINT” the Simplicity Elite control closes the output to the exhaust fan motor . The output is at the “EXH” terminal of the P13 connector . When the building static pressure is 0.015”[...]

  • Pagina 94

    94 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation “BUILDING ST ATIC PRESSURE SENSOR INST ALLED” – must be turned on using Parameter 85 under the PROGRAM key on the Simplicity Elite control board or under the EQUIPMENT INST ALLA TION tab in the Simplicity PC software package. “BUILDING PRESSURE SETPOINT” must be programmed [...]

  • Pagina 95

    95 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 ENERGY RECOVER Y VENTILA TOR If the unit has an Energy Recovery V entilator installed the exhaust fan needs to operate any time the supply fan is energized. This feature can be programmed to only occur in the occupied mode or in both the occupied and unoccupied mode. The following parameters must be pro[...]

  • Pagina 96

    96 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation The following parameters must be programmed: “SP ACE TEMP TRENDING ALARM TEMP” - must be programmed under SYSTEM OPTIONS tab of the Simplicity PC software package. “SP ACE TEMP TRENDING ALARM TIME” - must be programmed under SYSTEM OPTIONS tab of the Simplicity PC software pa[...]

  • Pagina 97

    97 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 5 “Economizer Minimum Position” Alarm • The supply air temperature must be below the “SUPPLY AIR TEMP ALARM SETPOINT FOR HEA TING” set point and the following sequence of events have occurred: – All the stages of heating must have been on for 10 or more minutes. – The outdoor air is 20.0° F[...]

  • Pagina 98

    98 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Sequence of Operation “Economizer Minimum Position” Alarm • The supply air temperature must be above the “SUPPLY AIR TEMP ALARM SETPOINT FOR COOLING” set point and the following sequence of events have occurred: – All the stages of cooling must have been on for 10 or more minutes. – The outd[...]

  • Pagina 99

    99 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 SECTION 6 – USER INTERF ACE There are three different methods that can be used to interface with the Simplicity Elite control: • Program buttons and display on the Unit Control- ler • Communication between the Unit Controller and a PC or Personal Computer using “Simplicity PC”. • Communicati[...]

  • Pagina 100

    100 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center If the program button is pushed while in the program mode, the control will exit the program mode and store any changed data even if the operator failed to press the Alarm/Change button to accept any changes. TEST/UP BUTT ON When not in the program mode, if the T est/Up butt[...]

  • Pagina 101

    101 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 T ABLE 6-1 - P ARAMETER POINTS LIST ADDRESS NUMBER DESCRIPTION UNITS OF ADJUSTMENT RANGE OF ADJUSTMENT CURRENT SETTING 1 RUN TEST P ARAMETER BIT 0 = OFF , 1 = ON OFF 2 HEA T F AN ON DELA Y SECONDS 0-30 30 3 HEA T F AN OFF DELA Y SECONDS 0-255 60 4 COOL F AN ON DELA Y SECONDS 0-30 0 5 COOL F AN OFF DELA[...]

  • Pagina 102

    102 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center ADDRESS NUMBER DESCRIPTION UNITS OF ADJUSTMENT RANGE OF ADJUSTMENT CURRENT SETTING 36 OUTSIDE AIR HUMIDITY SENSOR INST ALLED P ARAMETER BIT 0 = OFF , 1 = ON OFF 37 ECONOMIZER OUTSIDE AIR ENTHALPY SETPOINT BTUS PER POUND 10 - 50 27 38 RETURN AIR HUMIDITY SENSOR INST ALLED P A[...]

  • Pagina 103

    103 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 ADDRESS NUMBER DESCRIPTION UNITS OF ADJUSTMENT RANGE OF ADJUSTMENT CURRENT SETTING 72/73/74/ 75/76 ALARM ARRA Y DA T A - 5 CHARACTERS 0 - 255 0 77 V A V / CV SELECTION READ ONL Y FLAG CV = 0 VAV = 1 0 78 HOT GAS REHEA T P ARAMETER BIT 0 = OFF , 1 = ON OFF 79 HOT GAS PRESENT ON COMPRESSOR # 1 P ARAMETER[...]

  • Pagina 104

    104 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center COMMUNICA TION USING SIMPLICITY PC The recommended method to use for set up and trou bles hoot ing is to conn ect th e Simplic ity Contr ol to a PC or Pers onal Comp uter with “Si mpli ci ty PC” soft wa re installed. “Simplicity PC” software is available through the [...]

  • Pagina 105

    105 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 Left click on Software 3. Left click on software LD13037[...]

  • Pagina 106

    106 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center 4. Left click on Simplicity Software and follow the directions for downloading the program into your computer . USB Adapter Drive - Simplicity Pocket PC 5. T wo additional programs are available for down- loading. If you are running the “Simplicity PC” software on a Pock[...]

  • Pagina 107

    107 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 7. The FREEnet USB Adapter comes with a standard USB cable. The “A” end plugs into the computer and the “B” end into the FREEnet USB Adapter . 8. The FREEnet Serial Adapter comes with a standard 9-pin Serial Extension Cable. It has a computer standard 9-pin male connector to plug into the adapt[...]

  • Pagina 108

    108 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center 2. Click on the “Add” button and a dialog box will appear as shown below . Left click on Add button 3. In the “Connection T ype” dialog box, select “Se- rial/USB Direct Connection”. Click on the “Port Number” pull down box and select the computer port on the [...]

  • Pagina 109

    109 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 4. In the dialog box, click the “Add” button. The “Add Connection” dialog box will close and the main Simplicity window will appear . In the left pane of the main screen is a tree. Under “My Connections”, the name of the device installed in the computer port connecting the computer to the s[...]

  • Pagina 110

    1 10 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center 8. The right hand side of the screen fi lls with a series of tabs. The tabs allow you to access, read, and change settings for that device. Click on the tab that corresponds to the information you wish to access. LD13043[...]

  • Pagina 111

    111 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 SIMPLICITY PC DA T A SCREENS The following pages identify the data contained in each of the tabs. Move the cursor to the tab and left click to open. DEVICE NAMES EQUIPMENT INST ALLA TION LD13015 LD13016[...]

  • Pagina 112

    11 2 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center SENSOR READINGS LD13017[...]

  • Pagina 113

    11 3 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 ECONOMIZER/EXHAUST LD13018[...]

  • Pagina 114

    11 4 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center FA N S LD13019[...]

  • Pagina 115

    11 5 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 COOLING SETUP LD13020[...]

  • Pagina 116

    11 6 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center COOLING ST A TUS LD13021[...]

  • Pagina 117

    11 7 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 HEA TING SETUP LD13022[...]

  • Pagina 118

    11 8 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center HEA TING ST A TUS LD13023[...]

  • Pagina 119

    11 9 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 SYSTEM OPTIONS LD13024[...]

  • Pagina 120

    120 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center OUTPUTS/ST A TUS LD13025[...]

  • Pagina 121

    121 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 INPUTS COMFORT/DEMAND VENTILA TION LD13014 LD13026[...]

  • Pagina 122

    122 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center GRAPHIC CLOCK LD13027 LD13028[...]

  • Pagina 123

    123 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 WEEKL Y SCHEDULE SETTINGS Weekly Schedule The weekly schedule can only be programmed using the Simplicity PC software under the WEEKL Y SCHEDULE SETTINGS tab. The weekly schedule has two Occupied/Unoccupied times for each of the seven days. When both the Occupied and Unoccupied times are programmed to [...]

  • Pagina 124

    124 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center HOLIDA Y SCHEDULE Holiday Schedule The holiday schedule can only be programmed using the Simplicity PC software under the HOLIDA Y SCHEDULE tab. There are 20 holiday schedules. T o program a holiday schedule left click on the box next to the holiday event you want to program[...]

  • Pagina 125

    125 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 ALARMS LD13031[...]

  • Pagina 126

    126 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center REVISING SETTINGS T o change a set point move the curser to the value you want to change and left click and highlight the item. Left click to highlight Double click to open change screen LD13032[...]

  • Pagina 127

    127 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 T o open the change screen double left click. The screen will show the current value and the acceptable range. Us the numeric key pad to enter the revised setting. Left click on “Update” and the value will be change at the Unit Controller . LD13033[...]

  • Pagina 128

    128 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center T o change a value move the curser to the value you want to change and left click and highlight the item. Left click to highlight Double click to open change screen LD13034[...]

  • Pagina 129

    129 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 The screen will show the current value and option. Move the curser and left click on the option you want to turn on. Left click on “Update” and the value will be change at the Unit Controller . LD13035[...]

  • Pagina 130

    130 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 00 H 0 H NA 20 NA NA DEVICE ID = 20 FOR ELITE 00 L 0 L NA - 0 255 DEVICE SOFTWARE REVISION 01 H 1 H NA 54 - - OPTION BYTE #1 0 BITS 1 AND 0 = 0,0 RESPECTIVEL Y THERE ARE 0 S[...]

  • Pagina 131

    131 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 5 1 = W2 ON (HEA TING 2ND ST AGE) 6 1 = W3 ON (HEA TING 3RD ST AGE) 7 1 = G ON (INDOOR F AN) 15 L 21 L NA - - - INPUT ST A TUS BYTE #2 0 1 = HPS1 CLOSED (NOT TRIPPED) 1 1 = HPS2 CLOSED 2 1 = HPS3 CLOSE[...]

  • Pagina 132

    132 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) Continued on next page ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 3 1 = ADDRESS / DOWN BUTTON PRESSED 4N A 5N A 6N A 7N A 18 H 24 H NA - - - OUTPUT ST A TUS BYTE #1[...]

  • Pagina 133

    133 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 Continued on next page T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 0 BITS 1 AND 0 = 0,0 RESPECTIVEL Y THERE ARE 2 ST AGES OF COMPRESSION; 0,1 = 3 ST AGES; 1,0 = 4 ST AGES; 1,1 = 4 ST AGES 1 2 1[...]

  • Pagina 134

    134 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) Continued on next page ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 1F H 31 H NA 0 0 255 COMPRESSOR #1 ACCUMULA TED RUN TIME (HOURS, HIGH BYTE) 1F L 31 L NA 0 0 255 C[...]

  • Pagina 135

    135 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 Continued on next page T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 43 L 67 L - 0 255 READING THIS ADDRESS RETURNS EEPROM CHECKSUM LOW BYTE 44 H 68 H 4 0 99 REAL TIME CLOCK YEAR V ALUE 44 L 68 L[...]

  • Pagina 136

    136 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) Continued on next page ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION 71 H - 73 L 11 3 H - 1 15 L NA NA NA HOLIDA Y #5 (SAME FORMA T AS HOLIDA Y #1) 74 H - 76L 11 6 H -[...]

  • Pagina 137

    137 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 Continued on next page T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION A4 H 164 H - 0 255 SP ACE SENSOR TEMPERA TURE (ROOM AIR) (1/10 DEGREES, HIGH BYTE, 16 BIT V ALUE, 0 = -40 DEGREES F) A4 L 164 [...]

  • Pagina 138

    138 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) Continued on next page ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION B4 H 180 H 70 50 85 MORNING WARM-UP AND V A V HEA TING: RETURN AIR TEMPERA TURE SETPOINT (DEGREES [...]

  • Pagina 139

    139 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 6 Continued on next page T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION C6 H 198 H - - - ASCD TIMER FOR COMPRESSOR #4 HIGH BYTE C6 L 198 L - - - ASCD TIMER FOR COMPRESSOR #4 LOW BYTE (SECONDS, COUNT[...]

  • Pagina 140

    140 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) User Interface Control Center T ABLE - 6-2 - SIMPLICITY ELITE DA T A MAP (CONT .) ADDRESS (HEX) ADDRESS (DEC) BIT INITIAL/ DEF AUL T V ALUE (HEX) MIN VA L U E MAX VA L U E DESCRIPTION D7L 215 L NA 0 - - OPTION BYTE #7 0 1 = ERV ENABLED 1 1 = ERV UNOCCUPIED F AN ENABLED 2-7 NA D8 H 216 H S 0 100 HOT GAS R[...]

  • Pagina 141

    141 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 7 T ABLE 7-1 – DEFINITIONS Continued on next page SECTION 7 – P ARAMETER DESCRIPTIONS AND OPTIONS MENU ITEM DEFINITION ACCUMULA TED UNOCCUPIED OVERRIDE TIME THIS P ARAMETER GIVES THE ACCUMULA TED TIME THE UNIT HAS PLACED IN UNOCCUPIED OVERRIDE MODE. ACTIVE ALARM THIS IDENTIFIES THE NUMBER OF ACTIVE A[...]

  • Pagina 142

    142 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Parameter Description and Options T ABLE 7-1 – DEFINITIONS (CONTINUED) Continued on next page MENU ITEM DEFINITION COMP 2 OUTPUT THIS GIVES THE ST A TUS OF THE BINARY OUTPUT FROM THE UNIT CONTROLLER TO COMPRESSOR CIRCUIT 2 COMP 2 OVERLOAD SWITCH THIS IS THE ST A TUS OF THE BINARY INPUT FROM THE COMPRES[...]

  • Pagina 143

    143 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 7 Continued on next page T ABLE 7-1 – DEFINITIONS (CONTINUED) MENU ITEM DEFINITION COOL F AN OFF DELA Y IN THE INTERMITTENT F AN MODE THIS IS THE TIME DELA Y BETWEEN THE TIME THE COOLING CALL IS TERMINA TED AND THE SHUT DOWN OF THE SUPPL Y F AN COOL F AN ON DELA Y IN THE INTERMITTENT F AN MODE THIS IS [...]

  • Pagina 144

    144 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Parameter Description and Options T ABLE 7-1 – DEFINITIONS (CONTINUED) Continued on next page MENU ITEM DEFINITION DIRTY FIL TER SWITCH INST ALLED THIS P ARAMETER MUST BE SET TO ON TO ENABLE THE DIRTY FIL TER FEA TURE ON THE UNIT . A DIRTY FIL TER SWITCH MUST ALSO BE INST ALLED FOR THIS FEA TURE TO FUN[...]

  • Pagina 145

    145 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 7 T ABLE 7-1 – DEFINITIONS (CONTINUED) Continued on next page MENU ITEM DEFINITION ERV UNOCCUPIED F AN ENABLE THIS P ARAMETER ALLOWS THE EXHAUST F AN T O OPERA TE ANYTIME THE SUPPL Y F AN IS ON. THIS FEA TURE IS REQUIRED WHEN AN ENERGY RECOVERY VENTILA TOR IS INST ALLED. THIS FEA TURE IS CURRENTL Y NOT[...]

  • Pagina 146

    146 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Parameter Description and Options T ABLE 7-1 – DEFINITIONS (CONTINUED) Continued on next page MENU ITEM DEFINITION HEA T 1 MIN RUN TIMER THIS GIVES THE ACTUAL TIME OF THE MINIMUM RUN TIME TIMER FOR HEA T SECTION 1 IN SECONDS HEA T 2 (W2) THIS IS THE ST A TUS OF THE BINARY INPUT TO TERMINAL W2 - SECOND [...]

  • Pagina 147

    147 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 7 T ABLE 7-1 – DEFINITIONS (CONTINUED) Continued on next page MENU ITEM DEFINITION HSP1 THIS IS THE ST A TUS OF THE BINARY INPUT FROM THE HIGH PRESSURE SWITCH FOR COMPRESSOR SYSTEM 1 T O THE UNIT CONTROLLER. ON - OKA Y , OFF - F AUL TED. HSP2 THIS IS THE ST A TUS OF THE BINARY INPUT FROM THE HIGH PRESS[...]

  • Pagina 148

    148 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Parameter Description and Options T ABLE 7-1 – DEFINITIONS (CONTINUED) Continued on next page MENU ITEM DEFINITION INTELLI-ST ART OPERA TION ENABLE THIS FEA TURE IS ONL Y A V AILABLE ON CONST ANT VOLUME UNITS WITH A SP ACE SENSOR USING THE INTERNAL SCHEDULE. THIS OPTION BRINGS THE UNIT UP TO THE CV OCC[...]

  • Pagina 149

    149 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 7 MENU ITEM DEFINITION LPS3 THIS IS THE ST A TUS OF THE BINARY INPUT FROM THE LOW PRESSURE SWITCH FOR COMPRESSOR SYSTEM 3 T O THE UNIT CONTROLLER. ON - OKA Y , OFF - F AUL TED. LPS4 THIS IS THE ST A TUS OF THE BINARY INPUT FROM THE LOW PRESSURE SWITCH FOR COMPRESSOR SYSTEM 4 T O THE UNIT CONTROLLER. ON -[...]

  • Pagina 150

    150 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Parameter Description and Options MENU ITEM DEFINITION OUTSIDE AIR HUMIDITY THIS P ARAMETER GIVES THE CURRENT V ALUE OF THE OUTSIDE AIR HUMIDITY INPUT OUTSIDE AIR HUMIDITY SENSOR INST ALLED THIS P ARAMETERS IDENTIFIES TO THE UNIT CONTROLLER THA T AN OUTDOOR AIR HUMIDITY SENSOR IS INST ALLED OUTSIDE AIR T[...]

  • Pagina 151

    151 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 7 MENU ITEM DEFINITION SP ACE SENSOR DETECTED IDENTIFIES IF THE UNIT CONTROLLER HAS DETECTED THE PRESENCE OF A SP ACE SENSOR. IF THE UNIT CONTROLLER DETECTS A SP ACE SENSOR IT WILL SELF CONFIGURE TO USE IT FOR CONTROL OF THE UNIT . SP ACE SENSOR F AUL T OVERRIDE ENABLE WHEN THIS OPTION IS TURNED ON THE C[...]

  • Pagina 152

    152 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Parameter Description and Options MENU ITEM DEFINITION SUPPL Y AIR TEMP LIMIT FOR COOLING ENABLE THIS P ARAMETER MUST BE TURNED ON TO ENABLE SUPPL Y AIR TEMP LIMIT OPERA TION IN THE COOLING MODE ON A CONST ANT VOLUME UNIT SUPPL Y AIR TEMP LIMIT FOR HEA TING ENABLED THIS P ARAMETER MUST BE TURNED ON TO EN[...]

  • Pagina 153

    153 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 ANALOG INPUT OPERA TION This section describes the control operation of the (29) twenty-nine analog inputs. These inputs are used by the control to monitor and respond to unit temperatures, pressures, enthalpy , etc. The location of each of these connections on the Unit Controller is contained in T abl[...]

  • Pagina 154

    154 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service DIFFERENTIAL INPUT PRESSURE - IWC OUPTUT VOL T AGE - VDC -0.50 0.00 -0.40 0.50 -0.30 1.00 -0.20 1.50 -0.10 2.00 0.00 2.50 0.10 3.00 0.20 3.50 0.30 4.00 0.40 4.50 0.50 5.00 T ABLE 8-3 – BUILDING PRESSURE TRANSDUCER OUTPUT T ABLE 8-2 – DUCT PRESSURE TRANSDUCER 1.25" WC SP AN DIFFERENTIAL I[...]

  • Pagina 155

    155 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 The Discharge Transducer has a range of 0 to 650 PSIG, with a linear output of 0 to 5 DC volts. T able 8-5 illustrates the DC volt output from the transducer for a given discharge pressure. Suction Pressur e T ransducer The optional suction pressure transducer is located in the common suction line of t[...]

  • Pagina 156

    156 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service Furnace Status Input The Unit Controller monitors the operation of the Staged and Modulating Gas Heat sections and displays the status through the ST A TUS screen of the User Interface. The operation of each of the gas heat sections is monitored by a multiplexer installed in the gas heat section.[...]

  • Pagina 157

    157 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 FIG. 8-1 – CONNECTOR LOCA TIONS CONNECTOR # TYPE IDENTIFICA TION WIRE # DESCRIPTION P9 AI BP- 340 BUILDING PRESSURE INPUT - P9 AI BP+ 339 BUILDING PRESSURE INPUT + P7 AI CV/V A V - CV V A V CONFIGURA TION RESISTOR P21 AI DP- 338 DUCT ST A TIC PRESSURE INPUT - P21 AI DP+ 337 DUCT ST A TIC PRESSURE INP[...]

  • Pagina 158

    158 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service CONNECTOR # TYPE IDENTIFICA TION WIRE # DESCRIPTION P14 AO EXD+ 407 EXHAUST F AN VFD / DAMPER OUTPUT+ P14 AO HGR- - NOT USED P14 AO HGR+ - NOT USED P14 AO HWV - 410 HOT W A TER V AL VE OUTPUT - P14 AO HWV+ 409 HOT W A TER V AL VE OUTPUT + P14 AO VFD- 402 SUPPL Y F AN VFD OUTPUT - P14 AO VFD+ 401 [...]

  • Pagina 159

    159 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 CONNECTOR # TYPE IDENTIFICA TION WIRE # DESCRIPTION P15 DI LPS2 396 JUMPERED TO LSP1 P16 DI LPS3 433 24 V AC TO COMMON P16 DI LSP3 434 COMPRESSOR SYSTEM 2 LOW PRESSURE INPUT P16 DI LPS4 - NOT USED P16 DI LPS4 434 JUMPERED TO LSP3 TERMINAL DI R SD JUMPER 24 V AC INPUT TO UNIT CONTROLLER TERMINAL DI SDI [...]

  • Pagina 160

    160 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service LIGHT EMITTING DIODE The light emitting diode (LED) installed on the Unit Controller is used to indicate the functionality of the Unit Controller and the unit. Normal operation is indicated by the LED fl ashing ON and OFF at a rate of one-second. A one-second ON followed by a one- second OFF fl[...]

  • Pagina 161

    161 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 ALARM CODE DESCRIPTION 01 COMPRESSOR SYSTEM 1 (COMPRESSORS 1A, 1B) LOCKED OUT ON HIGH PRESSURE CONTROL. THE CIRCUIT OPENED THREE TIMES WITHIN A 2-HOUR WINDOW . 02 COMPRESSOR SYSTEM 1 (COMPRESSORS 1A, 1B) LOCKED OUT ON HIGH PRESSURE CONTROL. THE CIRCUIT OPENED THREE TIMES WITHIN A 2-HOUR WINDOW . 03 COM[...]

  • Pagina 162

    162 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service ALARM CODE DESCRIPTION 24 THE SUPPL Y F AN BINARY OUTPUT HAS BEEN TURNED ON FOR 90 SECONDS AND THE AIR PROVING SWITCH CIRCUIT HAS NOT CLOSED. 25 THE SUPPL Y F AN BINARY OUTPUT HAS BEEN TURNED OFF FOR 90 SECONDS AND THE AIR PROVING SWITCH CIRCUIT HAS NOT OPENED. 26 A MICROELECTRONICS F AILURE HAS [...]

  • Pagina 163

    163 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 ALARM TROUBLE SHOOTING Refrigerant System Alarm Codes (01, 02, 03, 04, 09, 10, 1 1, 12) The first 12 alarms involve controls intended to protect the compressors. Each compressor system is equipped with external circuitry monitoring hardware intended to protect the compressor in case the operating chara[...]

  • Pagina 164

    164 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service 24 V AC power is supplied to the compressor protection module for compressor 2A from wire 443 at terminal C30 of the P12 connector . The binary input back to the Unit Controller from the compressor protection module is wire 442 at terminal C30 of the P12 connector . 24 V AC power is supplied to t[...]

  • Pagina 165

    165 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 Supply Air T emperature Sensor Alarm (20) This alarm indicates the supply air temperature input is either open or shorted. The display will show a value of –40.0° F . The supply air temperature input is at SA T+ and SA T - of the P11 connector . T o trouble shoot compare the resistance of the input [...]

  • Pagina 166

    166 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) Service Outdoor Humidity Sensor Alarm (29) This alarm indicates the outdoor humidity sensor is out of range. When this occurs the Unit Controller will switch economizer operation to Dry Bulb. The Outdoor Humidity analog input is at OH+ wire 333 of the P6 connector and OH- wire 334 of the P6 connector . T[...]

  • Pagina 167

    167 JOHNSON CONTROLS FORM 100.50-NOM6 (1207) 8 Supply Air T emperature Cooling Alarm (38) The Unit Controller compares the supply air temperature to the “ SUPPLY AIR TEMP ALARM FOR COOLING ” and initiates the alarm based on the following criteria: • All the stages of cooling have been on for 10 or more minutes. • The supply air temperature [...]

  • Pagina 168

    T ele. 800-861-1001 www .york.com P .O. Box 1592, Y ork, Pennsylvania USA 17405-1592 Subject to change without notice. Printed in USA Copyright © by Johnson Controls 2007 ALL RIGHTS RESER VED Form 100.50-NOM6 (1207) New Release[...]