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Carrier WEATHERMAKER 48/50AJ manuale d’uso - BKManuals

Carrier WEATHERMAKER 48/50AJ manuale d’uso

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Un buon manuale d’uso

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La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso Carrier WEATHERMAKER 48/50AJ 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.

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Innanzitutto, il manuale d’uso Carrier WEATHERMAKER 48/50AJ dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo Carrier WEATHERMAKER 48/50AJ
- nome del fabbricante e anno di fabbricazione Carrier WEATHERMAKER 48/50AJ
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature Carrier WEATHERMAKER 48/50AJ
- 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 Carrier WEATHERMAKER 48/50AJ 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 Carrier WEATHERMAKER 48/50AJ e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio Carrier 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 Carrier WEATHERMAKER 48/50AJ, come nel caso della versione cartacea.

Perché leggere il manuale d’uso?

Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo Carrier WEATHERMAKER 48/50AJ, 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 Carrier WEATHERMAKER 48/50AJ. 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

    Manufacturer reserves the right to disco ntinue, or change at any time, specifications or de signs without notice and without inc urring obligations. Catalog No . 04-53480077-0 1 Printed in U. S.A. F orm 48/50A-9T Pg 1 6-10 Replaces: 48/50A-7T Controls , Star t-Up , Oper ation, Ser vice and T roub leshooting CONTENT S Page SAFETY CONSIDERA TIONS . [...]

  • Pagina 2

    2 CONTENTS (cont) Page Indoor Air Quality Control . . . . . . . . . . . . . . . . . . . . . . . . . . 67 •O P E R A T I O N • SETTING UP THE SYSTEM • PRE-OCCUP A NCY PURGE Dehumidification and Reheat . . . . . . . . . . . . . . . . . . . . . . 69 • SETTING UP THE SYSTEM •O P E R A T I O N T emperature Comp ensated Start . . . . . . . . . [...]

  • Pagina 3

    3 GENERAL This book contains Start-Up, Controls Operation, T rouble- shooting and Service information for the 48/50A Series rooftop units. See T able 1. These units are equipped with Comfort Link™ controls. Use this guide in conjunction with the separate installation instructions packaged with the unit. Refer to the W iring Dia- grams literature [...]

  • Pagina 4

    4 System diagnostics are enhanced by the use of multiple external sensors for air temperatures, air pressures, refrigerant temperatures, and refrigerant pressures. Unit-mounted actua- tors provide digital feedback data to the unit control. The Comfort Link control system is fully communicating and cable-ready for connection to the Carrier Comfort N[...]

  • Pagina 5

    5 Items in the Configuration and Service T est modes are password protected. The display will flash P ASS and WORD when required. Use the and arrow keys to enter the four digits of the password. The default password is 11 1 1. Pressing the and keys simultaneously will scroll an expan ded text description across t he display indi- cating the full m [...]

  • Pagina 6

    6 Table 2 — Scrolling Marquee Menu Display Structure ( Comfort Link™ Displa y Modes) RUN ST A TUS SER VICE TEST TEMPERA TURES PRESSURES SETPOINTS INPUTS OUTPUTS CONFIGURA TION TIME CLOCK OPERA TING MODES ALARMS Auto V iew of Run Status (VIEW) Econ Run Status (ECON) Cooling Informa tion (COOL) Mode T r ip Helper (TRIP) CCN Linkage (LINK) Compres[...]

  • Pagina 7

    7 ST ART -UP Unit Preparation — Check that unit has been installed in accordance with the installation instructions and applicable codes. Unit Setup — Make sure that the economizer hoods have been installed and that the outdoor filters are properly installed. Internal Wiring — Ensure that all electrical connections in the control box are tigh[...]

  • Pagina 8

    8 Table 3 — Fan Performance — 48AJ,A K020,025 an d 48A2,A3020 Uni ts Table 4 — Fan Performance — 48 AJ,AK027,030 and 48A2,A302 5-030 Units LEGEND Bhp — Brake Horsepo wer edb — Entering Dry Bulb ewb — Entering Wet Bulb NO TES: 1. F an performance is based on w et coils, economiz er, roof curb, cabinet losses, an d clean 2-in. filters. [...]

  • Pagina 9

    9 Table 5 — Fan Performa nce — 48AJ,AK,A2,A3035 Units Table 6 — Fan Performance — 48AJ,AK036 Units LEGEND Bhp — Brake Horsepower edb — Entering Dry Bulb ewb — Entering Wet Bulb NOTES: 1. F an performance is based on wet coils , economizer , roof curb , cabinet losses, and clea n 2-in. filters. 2. Conv ersion — Bhp to watts: 3. V ari[...]

  • Pagina 10

    10 Table 7 — Fan Performa nce — 48AJ,AK,A2,A3040 Units Table 8 — Fan Performance — 48AJ,AK0 41 Units AIRFLO W (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0 . 20 . 40 . 60 . 81 . 01 . 21 . 41 . 61 . 82 . 0 R p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h p 8,000 502 2.90 550 3.30 59[...]

  • Pagina 11

    11 Table 9 — Fan Performa nce — 48AJ,AK,A2,A3050 Units Table 10 — Fan Performanc e — 48AJ,AK051 Units LEGEND Bhp — Brake Horsepower edb — Entering Dry Bulb ewb — Entering Wet Bulb NOTES: 1. F an performance is based on wet coi l s, economiz er, roof curb , cabinet losses, and clean 2-in. filters. 2. Con version — Bhp to watts: 3. V [...]

  • Pagina 12

    12 Table 11 — Fan Performan ce — 48AJ,AK,A2,A3060 Units Table 12 — Fan Perfo rmance — 50A J,AK020,0 25 and 50A2 ,A3020 U nits LEGEND Bhp — Brake Horsepo wer edb — Entering Dry Bulb ewb — Entering Wet Bulb NO TES: 1. F an performance is based on w et coils, economiz er, roof curb, cabinet losses, an d clean 2-in. filters. 2. Con versio[...]

  • Pagina 13

    13 Table 13 — Fan Perfor mance — 50AJ,AK027,0 30 and 50A2,A3025-030 Units Table 14 — Fan Performanc e — 50AJ,AKA2,A3035 Units LEGEND Bhp — Brake Horsepo wer edb — Entering Dry Bulb ewb — Entering Wet Bulb NO TES: 1. F an performance is based on w et coils, economiz er, roof curb, cabinet losses, an d clean 2-in. filters. 2. Con versio[...]

  • Pagina 14

    14 Table 15 — Fan Performanc e — 50AJ,AK036 Units Table 16 — Fan Performan ce — 50AJ,AK,A2,A3040 Units LEGEND Bhp — Brake Horsepower edb — Entering Dry Bulb ewb — Entering Wet Bulb NOTES: 1. F an performance is based on wet coils, economiz er, roof cu rb, cabinet losses , and clean 2-in. filters. 2. Conv ersion — Bhp to watts: 3. V [...]

  • Pagina 15

    15 Table 17 — Fan Performanc e — 50AJ,AK041 Units Table 18 — Fan Performan ce — 50AJ,AK,A2,A3050 Units AIRFLO W (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 8,000 475 2.69 523 3 .08 569 3.47 612 3.86 653 4.26 9,000 521 3.53 565 3 .94 606 4.36 646 4.78 684 5.20 10,000 568 4[...]

  • Pagina 16

    16 Table 19 — Fan Performanc e — 50AJ,AK051 Units Table 20 — Fan Performan ce — 50AJ,AK,A2,A3060 Units AIRFLO W (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 10,000 397 2.69 461 3.31 516 3.96 564 4.63 608 5.33 12,000 450 4.03 509 4.71 560 5.41 605 6.12 647 6.86 13,000 477 4[...]

  • Pagina 17

    17 Table 21 — Fan Performanc e — 48AW,AY020,025 and 48A4,A5020 Units Table 22 — Fan Performance — 48AW,AY027,030 and 48A4,A5025-030 Units LEGEND Bhp — Brake Horsepo wer edb — Entering Dry Bulb ewb — Entering Wet Bulb NO TES: 1. F an performance is based on w et coils, economiz er, roof curb, cabinet losses, an d clean 2-in. filters. 2[...]

  • Pagina 18

    18 Table 23 — Fan Performanc e — 48AW,AY,A4,A5035 Units Table 24 — Fan Performance — 48AW,AY0 36 Units See legend on page 17. AIRFLO W (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0 . 20 . 40 . 60 . 81 . 01 . 21 . 41 . 61 . 82 . 0 R p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h pR p mB h p 7[...]

  • Pagina 19

    19 Table 25 — Fan Performanc e — 48AW,AY,A4,A5040 Units Table 26 — Fan Performance — 48AW,AY0 41 Units See legend on page 17. AIRFLO W (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0 . 20 . 40 . 60 . 81 . 01 . 21 . 41 . 61 . 82 . 0 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 8,000 526 3.10 573 3.5[...]

  • Pagina 20

    20 Table 27 — Fan Performanc e — 48AW,AY,A4,A5050 Units Table 28 — Fan Performance — 48AW,AY0 51 Units AIRFLO W (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0.2 0.4 0.6 0.8 1.0 1.2 1. 4 1.6 1.8 2.0 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 8,000 536 3.18 582 3.58 626 3.99 6 68 4.41 708 4.83 747[...]

  • Pagina 21

    21 Table 29 — Fan Performanc e — 48AW,AY,A4,A5060 Units Table 30 — Fan Performanc e — 50AW,AY020,025 and 50A4,A5020 Units LEGEND Bhp — Brake Horsepo wer edb — Entering Dry Bulb ewb — Entering Wet Bulb NO TES: 1. F an performance is based on w et coils, economiz er, roof curb, cabinet losses, an d clean 2-in. filters. 2. Con version ?[...]

  • Pagina 22

    22 Table 31 — Fan Performance — 50AW,AY027,030 and 50A4,A5025-030 Units Table 32 — Fan Performanc e — 50AW,AY,A4,A5035 Units LEGEND Bhp — Brake Horsepo wer edb — Entering Dry Bulb ewb — Entering Wet Bulb NO TES: 1. F an performance is based on w et coils, economiz er, roof curb, cabinet losses, an d clean 2-in. filters. 2. Con version[...]

  • Pagina 23

    23 Table 33 — Fan Performance — 50AW,AY0 36 Units Table 34 — Fan Performanc e — 50AW,AY,A4,A5040 Units LEGEND Bhp — Brake Horsepower edb — Entering Dry Bulb ewb — Entering Wet Bulb NOTES: 1. F an performance is based on wet coils , economizer , roof curb , cabinet losses, and clea n 2-in. filters. 2. Conv ersion — Bhp to watts: 3. V[...]

  • Pagina 24

    24 Table 35 — Fan Performance — 50AW,AY0 41 Units Table 36 — Fan Performanc e — 50AW,AY,A4,A5050 Units LEGEND Bhp — Brake Horsepower edb — Entering Dry Bulb ewb — Entering Wet Bulb NOTES: 1. F an performance is based on wet coi l s, economiz er, roof curb , cabinet losses, and clean 2-in. filters. 2. Con version — Bhp to watts: 3. V[...]

  • Pagina 25

    25 Table 37 — Fan Performance — 50AW,AY0 51 Units Table 38 — Fan Performanc e — 50AW,AY,A4,A5060 Units AIRFLOW (Cfm) A V AILABLE EXTERNAL ST A TIC PRESSURE (in. wg) 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 10,000 429 2.98 488 3.61 539 4.26 585 4.95 627 5.66 12,000 490 4.48 543 5.17 591 5.88 634 6.61 673 7.36 13,000 522 5.[...]

  • Pagina 26

    26 Table 39 — Motor Limitati ons LEGEND NO TES: 1. Extensiv e motor and electrical testin g on the Carrier units has ensur ed that the full horsepo wer range o f the motor can be utilized with confiden c e. Using the f an motors up to the horsepo wer ratings shown in the Motor L im- itations table will not resul t in nuisa nce tripping or prematu[...]

  • Pagina 27

    27 Table 40B — Air Quantity Limits (50AJ,AK,AW,AY,A2,A3,A4,A5) *Operation at th ese lev els may be limited b y entering ev aporator air wet b ulb temperatures. CONTROLS Q UICK ST ART The following section will provide a quick user guide to set- ting up and configuring the A Series units with Comfort Link™ controls. See Basic Control Usage secti[...]

  • Pagina 28

    28 V ariable Air V olume Units Using Return Air Sensor or Space T emperature Sensor — T o con- figure the unit, perform the following: 1. The type of control is configured under Configuration  UNIT  C.TYP . Set C.TYP to 1 (V A V -RA T) for return air sensor . Set C.TYP to 2 (V A V -SPT) for space tempera- ture sensor . NOTE: For V A V with [...]

  • Pagina 29

    29 Indoor Air Quality (IA Q) Options DEMAND CONTROLLED VENTILA TIO N — Un der Configuration  IAQ  DCV .C , the following configuration parameters should be set to establish the minimum and maxi- mum points for outdoor air damper position during demand controlled ventilation (DCV): EC.MN Economizer Min.Position IAQ.M IAQ Demand V ent Min.Pos[...]

  • Pagina 30

    30 However , it is important to note that the user can leave a Service T est mode to view any of the local display modes and the control will remain in the Service T est mode. Independent Outputs — Th e INDP sub-mode items can be turned on and off regardless of the other category states. For example, the alarm relay can be forced on in the INDP s[...]

  • Pagina 31

    31 THIRD P ARTY CONTROL Thermostat — The method of control would be through the thermostat inputs: Y1 = first stage cooling Y1 and Y2 = first and second stage cooling W1 = first stage heating W1 and W2 = first and second stage heating G = supply fan Alarm Output — The alarm output TB4-7 and 8, will pro- vide relay closure whenever the unit is u[...]

  • Pagina 32

    32 IQ.I.C = 2 (IAQ Discrete Override) — If the user sets IQ.I.C to 2 (IAQ Discrete Override), and Configuration  SW .LG  IAQ.L is set to OPEN, then an open switch reads low and a closed switch reads high. If the switch reads low , no action will be taken. If the switch reads high, the economizer will immediately be commanded to the IAQ Econ[...]

  • Pagina 33

    33 Table 42 — Operat ing Modes Displa y Table Supply Air Reset ( SA.R ) — This variable displays if the sup- ply air reset is currently active. This applies to cooling only . Demand Limit in Effect ( DMD.L ) — This variable displays if the mechanical cooling capacity is currently being limited or reduced by an outside third party . T emperatu[...]

  • Pagina 34

    34 S y s tem Mode = OFF? Inp u t s -> FIRE - > F S D in a l a rm? HV AC Mode = OFF (Fire S h u tdown) HVAC Mode = OFF (Di sab led) Unit not in f a ctory te s t AN D fire- s moke control mode i s a l a rming? Inp u t s -> FIRE - > PRE S in a l a rm? HV AC Mode = OF F (Pre ssu riz a tion) Inp u t s -> FIRE - > EVAC in a l a rm? HV A[...]

  • Pagina 35

    35 HV AC Mode — TEMPERING HICOOL (12) — The econ- omizer is at minimum vent position but the combination of the outside-air temperature and the economizer position has dropped the supply-air temperature below the tempering cool set point. Staged gas heat is used to temper the ventilation air . HV AC Mode — VEN T (13) — This is a normal oper[...]

  • Pagina 36

    36 Compensated Start section for more information. A setting of 0 minutes indicates T emperature Compensated S tart in Cooling is not permitted. T e mperature Compensate d Start Heating Factor ( TCS.H ) — This factor is used in the equation of the T emperature Compen- sated Start T ime Bias for hea ting. Refer to the T emperature Compensated Star[...]

  • Pagina 37

    37 Reset MA T T able Entries? ( MA T .R ) — This configuration allows the user to reset the in ternally stored MA T learned con- figuration data back to the default values. The defaults are set to a linear relationship betwee n the economizer damper posi- tion and OA T and RA T in the calculation of MA T . MA T Ou tside Air Position Defaul t ( MA[...]

  • Pagina 38

    38 out a LOW COOL or a HIGH COOL mode and m aintain a low or high cool supply air set point. • C.TYP = 6 (SPT -2 STG) This configuration will force the control to monitor the space temperature sensor to make a determinatio n of mode and allow two stages of cooling. MACHINE DEPENDENT CONFIGURA TIONS — S om e configurations are linked to the phys[...]

  • Pagina 39

    39 Table 47 — Cooling Configuration Capacity Threshol d Adjust ( Z.GN ) — This configuration is used for units using the “SumZ” algorithm for cooling capacity control ( Configuration  UNIT  C.TYP = 1, 2, 3 or 5). The configuration affects the cycling rate of the cooling stages by raising or lowering the threshold that demand must rise[...]

  • Pagina 40

    40 temperature (OA T) rises above 75 F or the highest active cir- cuit saturated condensing temper ature (SCT) rises above the HPSP and remains on until the c ondition is repaired regardless of the OA T and SCT values. Any time the alert occurs, a strike is called out on the affect- ed compressor . If three success ive strikes occur the compressor [...]

  • Pagina 41

    41 The advantage of this offset technique is that the control can safely enforce a vent mode without worrying about crossing set points. Even more importantly , under CCN linkage, the occupied heating set point may drift up and down and thi s method ensures a guaranteed sepa ration in degrees Fahrenheit between the calling out of a hea ting or cool[...]

  • Pagina 42

    42 Table 48 — Cool/Heat Set Point O ffsets Configurat ion T imeguar ds — In addition to the set points and offsets which determine the trip points for bringing on and bringing off cool modes there is a timeguard of 8 minutes which enforces a time delay between the transitioning from a low cool to a high cool mode. There is a timeguard of 5 minu[...]

  • Pagina 43

    43 then Lo Cool Mode mechanical stages = 2 and Hi Cool Mode mechanical st ages = 2. 5. If the economizer position is greater than Configuration  ECON  EC.MX – 5% for more than 8 minutes but less than 1 1.5 minutes and m echanical cooling has started then: Lo Cool Mode mechanical stages = 2 Hi Cool Mode mechanical stages = 3 6. If the econom[...]

  • Pagina 44

    44 Table 52 — Staging Sequence wi th Hot Gas Bypass — 48/50AK,AY020-027 and Multi-Stage 48 /50AJ,AW020-027 *With Minimum Load V alv e ON. Table 53 — Staging Sequence without Hot Gas Bypass — 48/50AK,AY030-060 and Multi-Stage 48 /50AJ,AW030-060 Table 54 — Staging Sequence with Ho t Gas Bypass — 48/50AK,AY030-060 *With minimum load valv e[...]

  • Pagina 45

    45 Table 57 — Staging Seque nce without Hot Gas Bypass — 48/50A3,A5 020-027 and Multi -Stage 48/50A2,A4020-0 27 Table 58 — Staging Sequenc e with Hot Gas Bypass — 48/50A3,A5 020-027 and Multi -Stage 48/50A2,A4020-0 27 *With Minimum Load V alv e ON. Table 59 — Staging Seque nce without Hot Gas Bypass — 48/50A3,A5 030-060 and Multi -Stage[...]

  • Pagina 46

    46 COOLING MODE DIAGNOSTIC HELP — T o qui ckl y de- termine the current trip points for the cooling modes, the Run Status sub-menu at the local display allows the user to view the calculated start and stop points for both the cooling and heating trip points. The following sub-menu can be found at the local display under Run S tatus  TRIP . See[...]

  • Pagina 47

    47 Table 62 — Run Stat us Cool Display Slow Change Ca p Override ( SLOW ) — W ith a rooftop unit, the design rise at 100% total un it capacity is generally around 30  F . For a unit with 4 stages, each stage represents about 7.5  F of change to EDT . If stages could reliably be cycled at very fast rates, the set point c ould be main[...]

  • Pagina 48

    48 MA T Calc Config ( MA T .S ) — This con figuration gives the user two options in the processing of the mixed-air temperature (MA T) calculation: • MA T .S = 0 There will be no MA T calculation. • MA T .S = 1 The control will attempt to learn MA T over time. Any time the system is in a vent mode and the economizer stays at a particular posi[...]

  • Pagina 49

    49 Table 63 — Deman d Limit Configuration The relevant configurations for this type of demand limiting are: Loadshed Group Number ( SH.NM ) — CCN Loadshed Group number Loadshed Demand Delta ( SH.DL ) — CCN Loa dsh ed Demand Delta Maximum Loadshed T ime ( SH.TM ) — CCN Maxi mum Loadshed time The Loadshed Group Number ( SH.NM ) corresponds to[...]

  • Pagina 50

    50 Table 64 — Condenser Fan Staging * F or size 60 ton units with MCHX condensers, MBB – Rela y 6 drives OFC4 and compressor contactor B1 or B2 auxiliar y contacts dr ive OFC1. For 060 size units with MCHX condensers, there are four outdoor fans, two for each independent refrigerant circuit. The control cycles two stages of out door fans for ea[...]

  • Pagina 51

    51 Table 65 — Heating Configur ation *Some defaults are model number dependent. Occupied Heating Enable ( OC.EN ) — This configuration only applies when the unit’ s control type ( Configuration  UNIT  C.TYP ) is configured for 1 (V A V -RA T) or 2 (V A V - SPT). If the user wants to have the capability of performing heating throughout t[...]

  • Pagina 52

    52 TEMPERA TURE DRIVEN HEA T MODE EV ALUA TION — This section discusses the cont rol method for selecting a heat- ing mode based on temperature. Regardless of whether the unit is configured for return air or space temperature, the logic is ex- actly the same. For the rest of this discussion, the temperature in question will be referred to as the [...]

  • Pagina 53

    53 Table 67 — Mode Trip Helper Table If the HV AC mode is HIGH HEA T : • If Electric Heat is config ured, then the control will request the supply fan ON • If Gas Heat is configured , then the IG C indoor fan input controls the supply fan request • The control will turn on Heat Relay 1 ( HS1 ) • The control will turn on Heat Relay 2 ( HS2[...]

  • Pagina 54

    54 Table 68 — Stag ed Gas Configur ation *Some configurations are model number dependent. Staged Gas Heat S taging — Differen t unit sizes will control heat stages differently based on the amount of heating capacity included. These staging patterns are selected based on the mod- el number . The selection of a se t of staging patterns is con- tr[...]

  • Pagina 55

    55 Table 69B — Staged Gas Heat — 48A2,A3,A4,A5 Units Table 70 — Staged Gas He at Control Steps ( Configuration  HEA T  SG.CF  HT .ST = 1) Table 71 — Staged Ga s Heat Control Steps ( Configur ation  HEA T  SG.CT  HT .ST = 2) Table 72 — Staged Ga s Heat Control Steps ( Configur ation  HEA T  SG.CT  HT .ST = 3) UNI[...]

  • Pagina 56

    56 Table 73 — Staged Ga s Heat Control Steps ( Configur ation  HEA T  SG.CT  HT .ST = 4) RELOCA TE SA T (Supply Air T emperature) SENSOR FOR HEA TING IN LINKA GE APPLICA TIONS — On C CN in - stallations employing ComfortID™ terminals, the factory SA T location must be changed to a new location downstream of the unit’ s heating syst[...]

  • Pagina 57

    57 HV AC mode = “T empering LoCool” HV AC mode = “T empering HiCool” The decision making/selection process for the tempering trip set point is as follows: • If an HV AC cool mode is in effect, then the vent trip point is T. C L . • If in a pre-occupied purge mode ( Operating Modes  MODE  IAQ.P= ON ), then the trip point is T. P R [...]

  • Pagina 58

    58 Static Pressure Set Point ( SP .SP ) — This is the static pres- sure control point. It is the point against which the Comfort Link controls compare the actual measured supply duct pressure for determination of the error that is used for PID control. Generally one would set SP .SP to the minim um value necessary for proper operation of air term[...]

  • Pagina 59

    59 Therefore, the amount to add to the economizer ’ s ECONOMIN configuration is: (0.5/0.75) x (50-20) = 20%. In effect, for the positioning of the economizer , ECONOMIN would now be replaced by ECONOMIN + 10%. Static Pressure PID Config ( S.PID ) — S tatic pressure PID configuration can be accessed under this heading in the Con- figuration  [...]

  • Pagina 60

    60 Table 76 — Static Pressure Res et Related Points Table 77 — Fan Status Monitoring Configu ration Fan Stat Monitoring T ype ( SFS.M ) — This configuration se- lects the type of fan status monitoring to be perform ed. 0 - NONE — No switch or monitoring 1 - SWITCH — Use of the fan status switch 2 - SP RISE — Monitoring of the supply duc[...]

  • Pagina 61

    61 modulate to the same control point (Sum Z) that is used to control capacity staging. The advantage is lower compressor cycling coupled with tighter temperature control. Setting this option to No will cause the economizer , if it is able to provide free cooling, to open to the Economizer Max. Position ( EC .MX ) during mechanical cooling. ECONOMI[...]

  • Pagina 62

    62 Table 79 — Economizer Configur ation Table Custom Psyc hrometric Curv es — Refer to the psychrometric chart and the standard Honeywell A-D curves in Fig. 10. The curves start from the bottom and rise vertically , angle to the left and then fold over . This corresponds to the limits imposed by dry bulb changeover , outdoor enthalpy changeover[...]

  • Pagina 63

    63 Unoccupied Economizer Fr ee Cooling Outside Lockout T emperature ( FC.LO ) — This configuration option allows the user to select an outside-a ir temperature below which unoc- cupied free cooling is not allowe d. This is further explained in the logic section. Unoccupied Economizer Free Cooling Logic — The follow- ing qualifications that must[...]

  • Pagina 64

    64 Table 80 — Economizer Run Status Table Building Pressure Config ( BP .CF ) — This configuration se- lects the type of building pressure control. • BP .CF = 0, No build ing pressure control • BP .CF = 1 , constant volume two-stage power exh aust based on economizer position • BP .CF = 2, multiple stag e building pressure con trol based [...]

  • Pagina 65

    65 CONST A NT VOLUME 2-ST AGE CONTROL ( BP .CF = 1 ) OPE RA TI ON — T wo exhaust fan relays will be turned on and off based on economizer position. The two trip set points are BP .P1 and BP .P2 . If the economizer is greater than or equal to BP . P1 , then power exhaust stage 1 is requested and a 60-second timer is initialized. If the economizer [...]

  • Pagina 66

    66 Table 83 — Power Exhaust Sta g ing ( BP.CF = 2) • If building pressure ( Pr essures  AIR.P  BP ) is less than the building pr essure set point ( Configuration  BP  BPSP ) minus the building pressure lo w threshold level ( Configuration  BP  B.CFG  BP .LP ) subtract a stage of power exhaust. VFD POWER EXHAUST BUILDING PRE[...]

  • Pagina 67

    67 RELEV ANT ITEMS The economizer ’ s commanded output can be found in Outputs  ECON  ECN.C . The configurable fire speed override for supply fan VFD is in Configuration  SP  SP .FS . The supply fan relay’ s commanded output can be found in Outputs  FA N S  S.F AN . The supply fan VFD’ s commanded speed can be found in Outpu[...]

  • Pagina 68

    68 • IQ.A.C = 4 (10K potentiometer minimum p osition) — W ith a 10K linear potentiometer connected to T B 5- 6 a n d 7 , the economizer minimum position will be scaled linearly from 0% (0 kilo-ohms) to EC. MX (10 kilo-ohm s). IAQ Analog Fan Config ( Configuration  IAQ  AQ.CF  IQ.A.F ) — This configuration is us ed to configure the co[...]

  • Pagina 69

    69 IAQ Econo Override Pos ( Configuration  IAQ  AQ.SP  IQ.O.P ) — This configuration is the position that the econo- mizer goes to when override is in effect. Diff. Air Quality Lo Limit ( Configuration  IAQ  AQ.SP  DAQ.L ) — This is the dif ferential CO 2 level at which IAQ control of the dampers will be initiated. Diff. Ai[...]

  • Pagina 70

    70 Table 84 — Indoor Air Quality Configuration Table 85 — De humidification Configuration V ent Reheat Set Point Select ( D.V .CF ) — This configuration determines how the vent reheat set point is selected. • D.V .CF = 0 — Reheat follows an offset subtracted from return air temperature ( D.V .RA ). • D.V .CF = 1 — Reheat follows a deh[...]

  • Pagina 71

    71 maintain diagnostics, althoug h the end user will see a Dehumidification mode at the display . In additio n, for multi-stage cooling units the cooling cont rol point wil l be set to Configuration  DEHU  D.C.SP (no SASP reset is applied). • Reheat When Cooling Dema nd is Present — For reheat control during dehumid ification: If reheat f[...]

  • Pagina 72

    72 Table 86 — CCN Configuration * F or units equipped with optional UPC, the CCN Baud Rate must be set to 3. Accept Global Holidays? ( HOL.T ) — If a device is broad- casting the time on the bus, it is possible to accept the time yet not accept the global holiday from the broadcast message. Override T ime Lim it ( O.T .L ) — This configuratio[...]

  • Pagina 73

    73 then Alert 309 will occur . The unit will continue to run and the alert will automatically reset. Supply Duct Pressure Low Alert Limit ( SP .L ) — If the unit is a V A V unit with a supply duct pressure sensor and the mea- sured supply duct static pressure is below the configurable SP Low Alert Limit ( DP .L ), then Alert 310 will occur . The [...]

  • Pagina 74

    74 Discharge Pressure Circuit A T rim ( DP .A.T ) — This vari- able is used to adjust the disc harge pressure sensor reading for circuit A. The sensor reading can be adjusted ± 50 psi g to match the actual measured pressure. Used on 48/ 50A2,A3,A4,A5 units only . Discharge Pressure Circuit B T rim ( DP .B.T ) — This vari- able is used to adjus[...]

  • Pagina 75

    75 Table 89 — Switch Logic Configuration Table 90 — Di splay Configuration Table 91 — Remote Switch Configuration Remote Switch Logic Configuration ( Configuration  SW .LG  RMI.L ) — The control allows for the configuration of a normally open/closed status of the remote input switch via RMI.L . If this variable is configured OPEN, the[...]

  • Pagina 76

    76 Table 92 — Re mote Switch Logic Configuration Monday In Period ( PER.X  DA YS  MON ) — This vari- able is used to include or remove Monday from the schedule. Each period is assigned an occupied on and off time. If this variable is set to YES, then Monday will be included in that peri- od’ s occupied time schedul e. If this variable i[...]

  • Pagina 77

    77 Table 93 — Time Clock Configuration TROUBLESHOO TING The scrolling marquee display shows the actual operating conditions of the unit while it is running. If there are alarms or there have been alarms, they will be displayed in either the cur- rent alarm list or the history alarm list. The Service T est mode allows proper operation of the compr[...]

  • Pagina 78

    78 T ransducer T roub leshooting — On 48/50AJ,AK, A W ,A Y units, the electronic control uses 2 suction pressure transducers to measure the suction pressure of circuits A an d B. The pressure/voltage ch aracteristics of thes e transducers are in shown in T ables 101 and 102. On 48/50A2,A3,A4,A5 units, the electronic control uses 4 pr essure trans[...]

  • Pagina 79

    79 Table 94 — Cooling Se rvice Analysis (cont) LEGEND PROBLEM SOLUTION COMPRESSOR RUNNING B UT COOLING INSUFFICIENT Suction Pressure Low 1. Refrigerant charge low . 1. Add refrige rant. 2. Head pressure low . 2. Check refrigerant ch arge. 3. Air filters dirty . 3. Clean or replace filters. 4. Expansion valve power head defective. 4. Replace power[...]

  • Pagina 80

    80 Table 95 — Gas Heating Service Analysis Table 96 — Electric H eat Service Analysis PROBLEM CA USE REMED Y Burners Will Not Ignite. Active alarm. Chec k active alarms using Comfort Link™ scrolling marquee. No power to unit. Chec k power supply , fuses, wiring, and circuit breakers. No power to IGC (Integrated Gas Control). Check fuses and p[...]

  • Pagina 81

    81 Fig. 14 — IGC Service Analysis Logic LEGEND NO TE: Ther mostat Fan Switch in the “A UTO” position. IDM — Induced-Draft Motor IGC — Integrated Gas Unit Controller A48-5656[...]

  • Pagina 82

    82 Table 97 — 5K Thermistor Temperatu re vs. Resistance (SCT Sensors) (English) TEMP (F) V O LTA G E DROP (V) RESIST ANCE (Ohms) –25 3.699 98,010 –24 3.689 94,707 –23 3.679 91,522 –22 3.668 88,449 –21 3.658 85,486 –20 3.647 82,627 –19 3.636 79,871 –18 3.624 77,212 –17 3.613 74,648 –16 3.601 72,175 –15 3.588 69,790 –14 3.57[...]

  • Pagina 83

    83 Table 98 — 5K Thermistor Tempera ture vs. Resistance (SCT Sensors) (SI) TEMP (C) V O LTA G E DROP (V) RESIST ANCE (Ohms) –32 3.705 100 ,260 –31 3.687 94,1 65 –30 3.668 88,4 80 –29 3.649 83,1 70 –28 3.629 78,1 25 –27 3.608 73,5 80 –26 3.586 69,2 50 –25 3.563 65,2 05 –24 3.539 61,4 20 –23 3.514 57,8 75 –22 3.489 54,5 55 –[...]

  • Pagina 84

    84 Table 99 — 10K Thermi stor vs. Resistan ce (T55, T56, OAT, RAT, EDT, LAT Sensors) (Englis h) TEMP (F) V O LTA G E DROP (V) RESIST ANCE (Ohms) –25 4.758 196,4 53 –24 4.750 189,6 92 –23 4.741 183,3 00 –22 4.733 177,0 00 –21 4.724 171,0 79 –20 4.715 165,2 38 –19 4.705 159,7 17 –18 4.696 154,3 44 –17 4.686 149,1 94 –16 4.676 14[...]

  • Pagina 85

    85 Table 100 — 10K Thermistor vs. Resistance (T55, T56, OAT, RAT, EDT, LAT Sensors) (SI) Table 101 — Suc tion Pressure Tran sducer Press ure (PSIG) vs. Voltage (SP-A, SP-B, SP.XR=0, 48/50AJ,AK, AW,AY Units Only) PRESSURE (PSIG) V O LTA G E DRO P (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) VO LT [...]

  • Pagina 86

    86 Table 102 — Suctio n Pressure Trans ducer Pressure (PSIG) v s. Voltage (SP-A, SP-B, SP.X R = 1, 48/50AJ,AK,A W,AY Units Only ) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) VO LT AG E DROP (V) PRE SSURE (PSIG) V O LTA G E DRO P (V) 0 0.500 51 1.520 101 2.520 151 3.520 1 0.520 52 1.540 102 2.540 152 3[...]

  • Pagina 87

    87 Table 103 — Suctio n Pressure Transducer (PSIG) vs. Volt age (SP-A, SP-B, 48/50A2,A3,A4, A5 Units Only) PRESSURE (PSIG) VO L T AG E DROP (V) PRESSURE (PSIG) VO L TA G E DROP (V) PRESSURE (PSIG) VO LT A G E DROP (V) PRESSURE (PSIG) VO L TA G E DROP (V) 0 0.466 106 1.509 211 2.543 316 3.57 6 1 0.476 107 1.519 212 2.553 317 3.58 6 2 0.486 108 1.5[...]

  • Pagina 88

    88 Table 104 — Discharge Pres sure Transduc er (PSIG) vs. Voltage (DP -A, DP-B, 48/50A2,A3,A 4,A5 Units Onl y) PRESSURE (PSIG) V O LTA G E DRO P (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) VO LT AG E DROP (V) 14.5 0.500 95 0.9 93 176 1.490 257 1. 987 16 0.509 96 1.000 177 1.496 258 1.993 17 0.515 [...]

  • Pagina 89

    89 Table 104 — Discharge Pressu re Transduc er (PSIG) vs. Voltage (DP-A, DP-B, 48/50A2,A3, A4,A5 Units Only) (cont) PRESSURE (PSIG) V O LTA G E DRO P (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) V O LTA G E DROP (V) PRESSURE (PSIG) VO LT AG E DROP (V) 338 2.483 421 2.992 504 3.501 587 4.010 339 2.489 422 2.998 505 3.507 588 4.016 340 [...]

  • Pagina 90

    90 For cing Inputs and Outputs — Many v ariables may be forced both from the CCN and directly at the local display . This can be useful during dia gnostic testing and also during operation, typically as part of an advanced third party control scheme. See Appendices A and B. NOTE: In the case of a power reset, any force in effect at the time of th[...]

  • Pagina 91

    91 Cap Threshold Subtracting ( Z.MIN ) — This parameter is used in the calculation of SMZ and is calculat ed as follows: Z.MIN = Configuration  COOL  Z.GN * (–10 + (4* ( – SUB.R ))) * 0.6 Cap Threshold Adding ( Z.PLU ) — This parameter is used in the calculation of SMZ and is calculated as follows: Z.PLU = Configuration  COOL  Z[...]

  • Pagina 92

    92 Table 107 — Cooling Info rmation Display Table Table 108 — Mode Trip Helper Display Table Table 109 — CCN/Linkage Dis play Table Table 110 — Compress or Run Hours Display Table Table 111 — Compres sor Starts Display Table ITEM EXP ANSION RANGE UNITS POINT WRITE ST A TUS COOL COOLING INFORMA TION C.CAP Current Running Capacity % CAPT OT[...]

  • Pagina 93

    93 Table 112 — Time Guard Displa y Table Table 113 — Softwa re Version Numbers Display Table Alarms and Aler ts — There are a variety of different alerts and alarms in the system. • P — Pre-Alert: Part of the unit is temporarily down. The alarm is not broadcast on the CCN network. The alarm relay is not energized. After an allo wable numb[...]

  • Pagina 94

    94 Table 114 — Aler t and Alarm Codes ALARM OR ALERT NUMBER DESCRIPTION ACTION T AKEN BY CONTROL RESET METHOD PROB ABLE CAUSE A051 Circuit A, Compressor 1 Stuc k On F ailure T urn off all compressors Manual Welded contact P051 Circuit A, Compressor 1 F ailure Add strike to compressor Automatic (max 3) High pressure s witch, compressor current, wi[...]

  • Pagina 95

    95 Table 114 — Alert and Alarm Codes (cont ) LEG END For 48/50A2,A3,A4,A5 units: • Compressor internal overload protector is open. Internal overload protectors are used in the Copeland compressors in all units except size 60 ton units with voltages of 208/230-v , 380-v , and 575-v . • Compressor external overload protector (Kriwan module) has[...]

  • Pagina 96

    96 A051 (Circuit A, Compressor 1 S tuck On Failure) A052 (Circuit A, Compressor 2 S tuck On Failure) A055 (Circuit B, Compressor 1 S tuck On Failure) A056 (Circuit B, Compressor 2 S tuck On Failure) — Alarm codes 051, 052, 055, and 056 are for compressors A1, A2, B1, B2 respectively . These alarms occur when the current sensor (CS) detects curren[...]

  • Pagina 97

    97 any elements of the control which requires its use including economizer differential enthal py control. The RA.RH sensor is located in the return air section near the auxiliary control box. The sensor is a loop powered 4 to 20 mA sensor . This alert resets automatically . The cause of the alert is usually a faulty sensor , a shorted or open sens[...]

  • Pagina 98

    98 compressor is brought on and 5 s econds afterwards. The rate of suction pressure change from 5 seconds before the compressor is brought on to when the compressor is brought on is calculat- ed. Then the rate of suction pressure change from when the compressor is brought on to 5 se conds afterwards is calculated. W ith the above information, th e [...]

  • Pagina 99

    99 T301 (Space T emperature Above Limit) — If the space tem- perature is above the c onfigurable SPT High Alert Limits (occupied [ Configuration  ALLM  SP .H.O ] for 5 minutes or unoccupied [ Configuration  ALLM  SP .H.U ] for 10 minutes), then an alert will be broadcast. The alert will automatically reset. T302 (Supply T emperature B[...]

  • Pagina 100

    100 Because the Dirty Air Filter switch can be configured nor- mally opened or closed, the switch might be open or closed. The configuration for this switch input can be found at variable Configuration  SW .LG  SFS.L . V e rify that the configura- tion is set correctly . V erify the wiring and filter status switch. The hose should be connecte[...]

  • Pagina 101

    101 T705 (Limit Switch Thermistor Failure) — A failure (the sen- sor is outside the range of –40 F to 240 F) of this thermistor ( Te m p e r a t u r e s  AIR.T  S.G .LM ) will cause an alert to occur and a disabling of the limit switch monitoring function for the staged gas control board (SCB). Recovery is automatic. Reason for failure ma[...]

  • Pagina 102

    102 RED JUMPER WIRE MUST BE ADDED BETWEEN R AND W1 FOR UNITS EQUIPPED WITH HEA T IN NON-THERMOST AT APPLICA TIONS ~ ~ ~ ~ ~ ~ ~~ TO NEXT PA G E Fig. 15 — T ypical Main Control Bo x Wiring Schematic (48/50AJ,AK,A W ,A Y Units) a48-8355[...]

  • Pagina 103

    103 ~ ~ ~~~ ~ ~ ~ Fig. 15 — T ypical Main Contr ol Box Wiring Sc hematic (48/50AJ,AK,A W ,A Y Units) (cont) a48-8355[...]

  • Pagina 104

    104 Fig. 16 — T y pical Main Contr ol Box Wiring Schemati c (48/50A2,A3 , A4,A5 Units) a48-8355[...]

  • Pagina 105

    105 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ TO NEX T PA G E Fig. 17 — T ypical Auxiliary Contr ol Box Wiring Schematic A48-7294[...]

  • Pagina 106

    106 ~ ~~ ~ ~ ~ ~~ ~ ~ ~ ~ ~ ~ Fig. 17 — T ypical A uxiliary Control Bo x Wiring Schematic (cont) a48-8356[...]

  • Pagina 107

    107 Fig. 18 — T ypi cal 2 Stage Gas Heat Wiring Sche matic (Size 051 and 060 Units Sho wn) a48--8357[...]

  • Pagina 108

    108 ~ ~ TO NEXT PA G E Fig. 19 — T ypica l Staged Gas Heat Wiring Schematic (Si z e 051 and 060 Units Sho w n) A48-7296[...]

  • Pagina 109

    109 ~ ~ Fig. 19 — T ypical Stag ed Gas H eat Wiring Schematic (Size 051 and 060 Units Shown) (cont) A48-8358[...]

  • Pagina 110

    110 Fig. 20 — Typical Electric Heat Control Schema tic — (50 Series Size 051 and 060 Units Sho wn) a50-8228[...]

  • Pagina 111

    111 TO NEXT PA G E Fig. 21 — T ypi cal Po wer Schematic (48/50 AJ,AK,A W ,A Y051 and 060 Units Sho w n) A48-7298[...]

  • Pagina 112

    112 FROM PREVIOUS PA G E Fig. 21 — T ypi cal Po wer Schematic (48/50 AJ,AK,A W ,A Y051 and 060 Units Show n) (cont) a48-8360[...]

  • Pagina 113

    113 Fig. 22 — T ypica l P ower Schema tic (48/50A2, A 3,A4,A5060 Unit Sho wn)[...]

  • Pagina 114

    114 SW1 SW2 OR DEHUMIDIFY SWITCH Fig. 23 — T ypical Contr ols Option Wiring Schematic a48-8361[...]

  • Pagina 115

    115 Fig. 24 — T ypical Small Chassis Component Loc ation (Size 020-035 Units) a48-8362[...]

  • Pagina 116

    116 Fig. 25 — T ypical Lar ge Chassis Component Locations (Size 036-060 Units) A48-7302[...]

  • Pagina 117

    117 LEGEND AND NO TES FOR FIG. 15-25 LEGEND NO TES: 1. F actor y wiring is in accordance with the National Electr ical Codes. Any field modifications or additions must be in compli- ance with all applicable codes. 2. Use 75° C min wire for field po wer supply , use copper wires f or all units. 3. All circuit breakers “M ust T r ip Amps” are eq[...]

  • Pagina 118

    118 Table 115 — Main Control Board (MBB) Inputs and Out puts Y AC — Gas Heat Unit POINT NAME POINT DESCRIPTION I/O POINT NAME PLUG AND PIN REFERENCE SIGNAL PIN(S) PORT ST A TE INPUTS GASF AN Y AC Indoor F an relay (f an request fro m Y A C) DI1 J6, 3-4 4 0 = 24vac, 1 = 0vac FSD Fire Shutdown switch input DI2 J6, 5-6 6 0 = 24vac , 1= 0vac G Ther[...]

  • Pagina 119

    119 Table 116 — Economizer Cont rol Board (ECB1) Inputs and Outputs POINT NAME POINT DESCRIPTION I/O POINT NAME PLUG AND PIN REFERENCE SIGNAL PIN(S) PORT ST A TE INPUTS RMTIN Remote occupancy DI1 J4, 1-2 2 24V AC = 1, 0V AC = 0 ECONENBL, ECOORIDE Economizer enab le DI2 J4, 3-4 4 24V A C = 1, 0V AC = 0 RARH Retur n air relative humidity AN1 J5, 1-[...]

  • Pagina 120

    120 Table 117 — VAV Control Board (ECB2) Inputs an d Outputs POINT NAME POINT DESCRIPTION I/O POINT NAME PLUG AND PIN REFERENCE SIGNAL PIN(S) PORT ST A TE INPUTS DI1 J4, 1-2 2 24V A C = 1, 0V AC = 0 DI2 J4, 3-4 4 24V A C = 1, 0V AC = 0 BP Building static pressure AN1 J5, 1-3 1 =24VDC, 2=0-20mA in, 3=GND 0-20mA SP Supply Duct static pressure AN2 J[...]

  • Pagina 121

    121 Table 118 — Staged Gas Cont rol Board (SCB ) Inputs and Ou tputs POINT NAME POINT DESCRIPTION I/O POINT NAME PLUG AND PIN REFERENCE SIGNAL PIN(S) PORT ST A TE INPUTS AN1 J5, 1-3 1=5v , 2=Vin, 3=GND (ther mistor 1-2) (0-5VDC, thermistor, ohms) AN2 J5, 4-6 4=5v , 5=Vin, 6=GND (ther mistor 4-5) (0-5VDC, thermistor, ohms) LA T 1SGAS Leaving air t[...]

  • Pagina 122

    122 Table 119 — Controls Expansion Board (CEM) Inputs Table 120 — IGC Board Inputs and Outputs SC R O L LI N G M A R Q UE E — This device is the keypad in- terface used to access the control information, read sensor values, and test the unit. The scrolling marquee display is a 4-key , 4-character , 16-segment LED display as well as an Alarm S[...]

  • Pagina 123

    123 Table 121 — VFD Terminal Designations POWER EXHAUST — Th e un it s ca n be eq uip pe d wi th an optional power exhaust system. The power exhaust fans are forward-curved fans with direct-drive motors. The motors are controlled directly by the Comfort Link™ controls through the ECB1 board. On the 48/50A020-050 units there are 4 fans. On the[...]

  • Pagina 124

    124 BOARD ADDRESSES — Eac h b oar d i n t he sy st em h as a n address. The MBB has a defau lt address of 1 but it does have an instance jumper that should be set to 1 as shown in Fig. 26. For the other boards in the system there is a 4-dip switch head- er on each board that should be set as shown below . 0 = On; 1 = Off FIELD CONNECTION TERMINAL[...]

  • Pagina 125

    125 Table 122 — Field Conne ction Terminal Strips TERMINAL BO ARD TERMINAL NO . DESC RIPTION TYPE TB-1 - PO WER CONNECTION OR DISCONNECT (in Ma in Control Bo x) TB1 11 L1 power sup ply 208-230/4 60/575/3 80/-3-60, 400-3-5 0 12 L2 power sup ply 208-230/4 60/575/3 80/-3-60, 400-3-5 0 13 L3 power sup ply 208-230/4 60/575/3 80/-3-60, 400-3-5 0 TB-2 -[...]

  • Pagina 126

    126 Green LED — The boards also have a green LED, which is the indicator of the operation of the LEN communications, which is used for communications between the boards. On the MBB board the Local Equipment Network (LEN) LED should always be blinking whenever power is on. All other boards have a LEN LED that will blink whenever power is on and th[...]

  • Pagina 127

    127 T o connect the unit to the network: 1. T urn off power to the control box. 2. Cut the CCN wire and strip the ends of the red (+), white (ground), and black (–) conduc tors. (Substitute appropri- ate colors for different colored cables.) 3. Connect the red wire to (+) terminal on TB3 of the plug, the white wire to COM terminal, and the black [...]

  • Pagina 128

    128 SER VICE Service Access — All unit components can be reached through clearly labelled hinged access doors. These doors are not equipped with tiebacks, so if heavy duty servicing is need- ed, either remove them or prop them open to prevent accidental closure. Each door is held closed with 3 latches. The latches are se- cured to the unit with a[...]

  • Pagina 129

    129 COMBUSTION-AIR BLOWER — Cl ea n pe ri od ic all y t o as - sure proper airflow and heating efficiency . Inspect blower wheel every fall and periodically during heating season. For the first heating season, inspect blower wheel bi-monthly to deter - mine proper cleaning frequency . T o inspec t blower wheel, remove heat exchanger access panel.[...]

  • Pagina 130

    130 1 1. Ensure surfaces are not allowed to dry before rinsing. Reapplying cleaner as needed to ensure 10-minute satura- tion is achieved. 12. Thoroughly rinse all surfaces with low velocity clean wa- ter using downward rinsing mo tion of water spray nozzle. Protect fins from damage from the spray nozzle. MICROCHANNEL HEA T EXCH ANGER (MCHX) CON- D[...]

  • Pagina 131

    131 7. Outside of the unit, assemble the flex members to the cen- ter drive shaft with 4 bolts and nuts. The flex members have collars that need to be inserted into the smaller hole of the drive shaft flange. 8. Assemble the fle x member /dri ve shaft assembly to one of the shaft flanges, using 2 bolt s and nuts. Slide the other shaft flange toward[...]

  • Pagina 132

    132 Condenser -F an Adjustment NOTE: Condenser fans on size 060 MCHX units are not adjustable. 1. T urn off unit p ower supply . 2. Remove fan guard. 3. Loosen fan hub setscrews. 4. Adjust fan height on shaft using a straightedge placed across venturi and measure per Fig. 43. 5. Fill hub recess w ith permagum if rub ber hubcap is missing. 6. T ight[...]

  • Pagina 133

    133 20 T on M CHX CIRCUIT A Ch a rgi ng Ch a rt All C o mp r e ss or s on a Ci rc u it M us t b e O p er a ting All O u tdoor F a n s M us t b e O p er a ting 70 75 8 0 8 5 90 95 100 105 110 115 120 125 1 3 0 1 3 5 140 145 150 55 60 65 70 75 8 0 8 5 90 95 100 105 110 115 120 125 O u tdoor A ir T emper a t u re (d eg F ) Sa t u r a ted Di s ch a rge[...]

  • Pagina 134

    134 Fig. 45 — Char ging Char t — 48/50A2,A3,A4,A5025 and 027 with R-410A Refrigerant LEGEND MCHX — Microchannel Heat Exchanger SST — Saturated Suction T emperature 25 a nd 2 7 T on M CHX CIRCUIT A Ch a rgi ng Ch a rt A ll Compre ss or s on a Ci r c u it M us t b e O p er a ting A ll O u tdoor F a n s M us t b e O p er a ting 70 75 8 0 8 5 9[...]

  • Pagina 135

    135 3 0 T o n M CHX CIRCUIT A Ch a rging Ch a rt A ll Compre ss or s on a Ci r c u it M us t b e O p er a ting Al l O u tdoor F a n s M us t b e O p er a ti n g 70 75 8 0 8 5 90 95 100 105 110 115 120 125 1 3 0 1 3 5 140 145 150 55 60 65 70 75 8 0 8 5 90 95 100 105 110 115 120 125 O u tdoor Air Te m pe r a t u re (de g F) Sa t u r a ted Conden s in[...]

  • Pagina 136

    136 3 5 T o n M CHX CIRCUIT A Ch a r ging Ch a rt A ll C om pre ss or s on a Ci rc u it M us t b e O per a ting A ll O u tdoor F a n s M us t b e Op er a ting 8 5 90 95 100 105 110 115 120 125 1 3 0 1 3 5 140 145 150 55 60 65 70 75 8 0 8 5 90 95 100 105 110 115 120 O u tdoor Air Te m pe r a t u re (de g F) Sa t u r a ted Conden s ing Temper a t u r[...]

  • Pagina 137

    137 40 T on M CHX Ch a rgi ng Ch a rt Al l C o m p r e ss or s on a Cir c u it M us t b e O p er a ting A ll O u tdoor F a n s M us t b e O per a ting 70 75 8 0 8 5 90 95 100 105 110 115 120 125 1 3 0 1 3 5 140 145 150 55 60 65 70 75 8 0 8 5 90 95 100 105 110 115 120 125 O u tdoor Air Te m pe r a t u re (de g F) Sa t u r a ted Conden s ing Temper a[...]

  • Pagina 138

    138 60 T o n M CHX CIRCUIT A Ch a rging Ch a rt A ll Com pr e ss or s on a Ci r c u it M us t b e O p er a ting Al l O u tdoor F a n s M us t b e O p er a ti n g 70 75 8 0 8 5 90 95 100 105 110 115 120 125 1 3 0 1 3 5 140 145 150 55 60 65 70 75 8 0 8 5 90 95 100 105 110 115 120 125 O u tdoor Air Te m pe r a t u re (de g F) Sa t u r a ted Conden s i[...]

  • Pagina 139

    139 Main Burners — For all application s, main burners are factory set and should require no adjustment. MAIN BURNER REMOV AL (Fig. 52) 1. Shut off (field-supplied) manual main gas valve. 2. Shut off power supply to unit. 3. Remove heating access panel. 4. Disconnect gas piping from gas valve inlet. 5. Remove wires from gas valve. 6. Remove wires[...]

  • Pagina 140

    140 APPENDIX A — LOCAL DISPLAY TABLES MODE — RUN ST A TUS ITEM EXP ANSION RANGE UNITS CCN POINT WRIT E ST A TUS P A GE NO. VIEW A UTO VIEW OF R UN ST A TUS  HV A C ascii string spelling out the hvac modes str ing 90,91  OCC Occupied ? YES/NO OCCUPIED forcib le 90,91  MA T Mix ed Air T emperature dF MA T 90,91  EDT Evapor a tor Disch[...]

  • Pagina 141

    141 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — R UN ST A TUS (cont) MODE — SER VICE TEST MODE — TEMPERA TURES ITEM EXP ANSION RANGE UNITS CCN POINT WRITE ST A TUS P A GE NO. TMGD TIMEGU ARDS  TG.A1 Compressor A1 Timeguard CMP A1_TG 93  TG.A2 Compressor A2 Timeguard CMP A2_TG 93  TG.B1 Compressor B1 Timeguard CMPB1_T G 9 3  [...]

  • Pagina 142

    142 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — PRESSURES MODE — SET POINTS MODE — INPUTS *The display te xt changes depending on the remote switch configuration ( Configuration  UNIT  RM.CF ). If RM.CF is set to 0 (No Remote Switch), then the display te xt will be “On” or “Off. ” If RM.CF is set to 1 (Occupied/U noccupied[...]

  • Pagina 143

    143 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — INPUTS (cont) *The display te xt changes depending on the remote switch configuration ( Configuration  UNIT  RM.CF ). If RM.CF is set to 0 (No Remote Switch), then the display te xt will be “On” or “Off. ” If RM.CF is set to 1 (Occupied/U noccupied Switch), then the display te xt[...]

  • Pagina 144

    144 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — CONFIGURA TION (cont) ITEM EXP ANSION RANGE UNITS C CN POINT DEF A UL T P A GE NO. COOL COOLING CONFIGURA TION  Z.GN Capacity T hreshold Adjst –10 - 10 Z_GAIN 1 39 ,46,91  MC.LO Compressor Lo ck o ut T emp –20 - 55 dF OA TLCOMP 40 39,4 8  C.FOD F an- Off Delay , Mech Cool 0 - 6 00[...]

  • Pagina 145

    145 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — CONFIGURA TION (cont) ITEM EXP ANSION RANGE UNITS CCN POINT DEF A UL T P A GE NO . BP BUILDING PRESS. CONFIG  BP .CF Building Press. Config 0-3 BLDG_CFG 0 29 ,64,65  BP .RT Bldg.Pres .PID Run Rate 5-120 sec BPIDRA TE 10 64,65  BP .P Bldg. Press. Prop . Gain 0-5 BLDGP_PG 0.5 64,65  [...]

  • Pagina 146

    146 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — CONFIGURA TION (cont) ITEM EXP ANSION RANGE UNITS CCN POINT DEF A UL T P A GE NO. CCN CCN CONFIGURA TION  CCNA CCN Address 1 - 239 CCNADD 1 71,72  CCNB CCN Bus Number 0 - 239 CCNBUS 0 71,72  BAUD CCN Baud Rate 1 - 5 (multi-text strings) CCNBA UDD 3 71,72  BROD CCN BRO ADCST DEFINIT[...]

  • Pagina 147

    147 APPENDIX A — LOCAL DISPLAY TABLES (cont) MODE — TIME CLOCK MODE — OPERA TING MODES MODE — ALARMS ITEM EXP ANSION RANGE UNITS CCN POINT DEF A UL T P A GE NO . TIME TIME OF D A Y  HH.MM Hour and Minute 00:00 TIME 75,77 DA T E MONTH,D A TE,DA Y AND YEAR  MNTH Month of Y ear multi-text strings MO Y 75 ,77  DOM Day of Month 0-31 DOM[...]

  • Pagina 148

    148 APPENDIX B — CCN T ABLES All A Series units with Comfort Link™ controls have a port for interface with the Carrier Comfort Network ® (CCN) system. On TB3 there is a J1 1 jack which can be used for temporary connection to the CCN network or to computers equipped with CCN software like the Service T ool. Also on TB3 there are screw connectio[...]

  • Pagina 149

    149 APPENDIX B — CCN T ABLES (cont) STATUS DISPLAY TABLES (cont) T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A TUS GENERA L Occupied ? Y es/No OCCUPIED forcib le Static Pressure "H2O SP Building Pressure "H2O BP Outside Air Rel.Humidity % OARH f o rcible Return Air Rel.Humidity % RARH f o rcible Space T emperature Offset ^F SPT[...]

  • Pagina 150

    150 APPENDIX B — CCN T ABLES (cont) STATUS DISPLAY TABLES (cont) T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A TUS TEMPS Air T emp Lvg Supply F an dF SA T Return Air T emperature dF RA T forcible Outside Air T emperature dF OA T f o rcible Space T emperature dF SPT forcible Space T emperature Offset ^F SPTO forcible Staged Gas LA T Sum d[...]

  • Pagina 151

    151 APPENDIX B — CCN T ABLES (cont) SET POINT TABLE CONFIG TABLES T A BLE NAME RANGE UNITS POINT N AME DEF A UL T SET_PNT Occupied Heat Setpoint 40-99 dF OHSP 68 Occupied Cool Setpoint 40-99 dF OCSP 75 Unoccupied Heat Setpoint 40-99 dF UHSP 55 Unoccupied Cool Setpoint 40-99 dF UCSP 90 Heat-Cool Setpoint Gap 2-10 ^F HCSP_GAP 5 V A V Occ. Cool On D[...]

  • Pagina 152

    152 APPENDIX B — CCN T ABLES (cont) CONFIG TABLES (cont) SERVICE-CONFIG TABLES T ABLE NAME RANGE UNITS POIN T NAME DEF A UL T SCHEDO VR Schedule Number 0-99 SCHEDNUM 0 Accept Global Holidays? Y es/No HOLIDA YT No Override Time Limit 0-4 ho urs O TL 1 Timed Override Hours 0-4 hours OV R _EXT 0 Accepting an Override: SPT Override Enabled ? Y es/No [...]

  • Pagina 153

    153 APPENDIX B — CCN T ABLES (cont) SERVICE-CONFIG TABLES (cont) T ABLE NAME RANGE UNITS POI NT NAME DEF A UL T COOL Capacity Threshold Adjust –10 -> 10 Z_GAIN 1 Compressor Lock out T emp –20 -> 55 dF OA TLCOMP 40 F an-off Delay , Mech Cool 0-6 00 sec COOL_FOD 60 Minimum Load V alv e? Y es/No ML V_SEL No Motor Master Control ? Y es/No M[...]

  • Pagina 154

    154 APPENDIX B — CCN T ABLES (cont) SERVICE-CONFIG TABLES (cont) T ABLE NAME RANGE UNITS POIN T NAME DEF A UL T HEA T Heating Control T ype 0 - 4 HEA TTYPE 0 Heating Supply Air Setpt 80-120 dF SASPHEA T 85 Occupied Heating Enabled Y es/No HT OCCENA No MBB Sensor Heat Relocate Y es/No HTLA TMON No F an-off Delay , Gas Heat 45-600 GAS_FOD 45 F an-o[...]

  • Pagina 155

    155 APPENDIX B — CCN T ABLES (cont) SERVICE-CONFIG TABLES (cont) T ABLE NAME RANGE UNITS POI NT NAME DEF A UL T SWLG Filter Status Inpt-Clean Open/Close FL T SLOGC Open IGC F eedback - Off Open/Close GASF ANLG Open RemSw Off-Unoc-Str t-NoOv Open/Close RMTINLOG Open Economizer Switch - No Open/Close ECOSWLOG Open F an Status Sw . - Off Open/Close [...]

  • Pagina 156

    156 APPENDIX B — CCN T ABLES (cont) MAINTENANCE DISPLAY TABLES T AB LE DISPL A Y NAME RANGE UNIT S POINT NAME WRITE ST A TUS ALARMS01 Activ e Alar m ascii ALARM_ 01 ------------- ----------- asci i Activ e Alar m ascii ALARM_ 02 ------------- ----------- asci i Activ e Alar m ascii ALARM_03 ------------- ----------- as cii Activ e Alar m ascii AL[...]

  • Pagina 157

    157 APPENDIX B — CCN T ABLES (cont) MAINTENANCE DISPLAY TABLES (cont) T AB LE DISPL A Y NAME RANGE UNIT S POINT NAME WRITE ST A TUS ECON_MIN Econo Damper Command P o s % ECONOCMD f orcible Econo Damper Current P os % ECONOPOS Econo Current Min. P os. % ECMINPOS Diff.Air Quality in PPM DA Q Econo P osition Override ECOORIDE forcib le IAQ Min.P os.[...]

  • Pagina 158

    158 APPENDIX B — CCN T ABLES (cont) MAINTENANCE DISPLAY TABLES (cont) T AB LE DISPL A Y NAME RANGE UNIT S POINT NAME WRITE ST A TUS ENTHALPY Outdoor Air Enthalpy OAE Outside Air T emperature dF OA T forcible Outside Air Rel.Humidity % OARH forcib l e Outside Air RH Sensor OARHSENS config OA De w point T emp Limit dF OADEWCFG config OutsideAir Dew[...]

  • Pagina 159

    159 APPENDIX B — CCN T ABLES (cont) MAINTENANCE DISPLAY TABLES (cont) T AB LE DISPL A Y NAME RANGE UNIT S POINT NAME WRITE ST A TUS PRESBLDG Building Pressure "H2O BP Econo Damper Current P os % ECONOPOS P ower Exhaust Stage A PE_A P ower Exhaust Stage B PE_B P ower Exhaust Stage C PE_C BP Load F actor BPSMZ BP Rise P er Stage BPRISE BP PID/[...]

  • Pagina 160

    160 APPENDIX B — CCN T ABLES (cont) MAINTENANCE DISPLAY TABLES (cont) TIME SCHEDULE CONFIG TABLE Allowable Entries: Da y not se lected = 0 Day selected = 1 T AB LE DISPL A Y NAME RANGE UNIT S POINT NAME WRITE ST A TUS TESTCOOL Compressor A1 Relay ON/OFF CMP A1T ST test Compressor A2 Relay ON/OFF CMP A2T ST test Min. Load V alve (HGBP) ON/OFF ML V[...]

  • Pagina 161

    161 APPENDIX C — VFD INFORMA TION On variable air volume un its with optional VFD , the supply fan speed is controlled by a 3-phase VFD. The VFD is located in the supply fan section b ehind a removable panel. The VFD speed is controlled directly by the Comfort Link™ controls through a 4 to 20 mA si gnal based on a supply duc t pressure sensor .[...]

  • Pagina 162

    162 APPENDIX C — VFD INFORMA TION (cont) Table B — VFD Configurations VFD Operation — The VFD keypad is shown in Fig. B. The function of SOFT KEYS 1 and 2 change depending on what is displayed on the screen. The function of SOFT KEY 1 matches the word in the lower left-hand box on the display screen. The function of SOFT KEY 2 matches the wor[...]

  • Pagina 163

    163 APPENDIX C — VFD INFORMA TION (cont) 4. Use the UP or DOWN keys to highlight the desired parameter and press EDIT (SOFT KEY 2). 5. Use the UP or DOWN keys to change the value of the parameter . 6. Press SA VE (SOFT KEY 2) to store the modified value. Press CANCEL (SOFT KEY 1) to keep the previous val- ue. Any modifi cations that are not saved[...]

  • Pagina 164

    164 APPENDIX C — VFD INFORMA TION (cont) CHANGED P ARAMETERS MODE — The Ch ange d P ar am - eters mode is used to view and edit recently changed parameters on the drive. T o view the changed parameters, perform the following procedure: 1. Select MENU (SOFT KEY 2). The Main menu will be displayed. 2. Use the UP or DOWN keys to highlight CHANGED [...]

  • Pagina 165

    165 APPENDIX C — VFD INFORMA TION (cont) 7. Use the UP or DOWN keys to high light DA TE FOR- MA T and press SEL (SOFT KEY 2). Use the UP or DOWN keys to change the parameter setting. Press OK (SOFT KEY 2) to save the configuration and return to the Clock Set menu. 8. Press EXIT (SOFT KEY 1) tw ice to return to the main menu. I/O SETTINGS MODE —[...]

  • Pagina 166

    166 APPENDIX C — VFD INFORMA TION (cont) Table C — Fault Codes FAU LT CODE F A UL T NAME IN P ANEL DESCRIPTION AND RECOMME NDED CORRECTIVE A C TION 1 O VERCURRENT Output current is excessive . Check for e xcessive motor load, insufficient acceler ation time (parameters 2202 ACCEL ER TIME 1, defa ult 30 seconds), or f aulty motor , motor cables [...]

  • Pagina 167

    167 APPENDIX C — VFD INFORMA TION (cont) Table D — Alarm Codes *This alar m is not indicated by a relay output, e ven when the re lay output is configured to indi cate alarm conditions, paramete r 1401 RELA Y OUT - PUT = 5 (ALARM) or 16 (FL T/ALARM). Check the heat sink as follows (when necessary): 1. Remove power from drive. 2. Remove the cool[...]

  • Pagina 168

    168 APPENDIX C — VFD INFORMA TION (cont) MA I N F AN R E PL A C EM E N T — The main coo ling fan of the VFD has a life span of about 60,000 op erating hours at maximum rated operating temperature and drive load. The expected life span doubles for each 18 F drop in the fan temperature (fan temperature is a function of ambient tempera- tures and [...]

  • Pagina 169

    169 APPENDIX C — VFD INFORMA TION (cont) Fig. F — Internal Enclosure Fan Replacement A48-7716[...]

  • Pagina 170

    170 APPENDIX D — MODE SELECTION PROCESS The following section is to be used in conjunction with Fig. 4 on page 34. T o help determine why the unit controls are in a certain mode, the programming logic is provided below . The software will proceed, step by step, until a mode is reached. If an “If” statement is true, then that mode will be en- [...]

  • Pagina 171

    171 APPENDIX E — UPC OPEN CONTROLLER The following section is used to configure the UPC Open. The UPC Open controller is mounted in a separate enclosure below the main control box. T o Address the UPC Open Contr oller — The user must give th e UPC Open controller an address that i s unique on the BACnet* network. Perform the following proce- du[...]

  • Pagina 172

    172 APPENDIX E — UPC OPEN CONTROLLER (cont) Configuring the B AS P or t for B A Cnet MS/ TP — Use the same baud rate and communication settings for all controllers on the network segment. The UPC Open controller is fixed at 8 data bits, No Parity , and 1 S top bit for this protocol's communications. If the UPC Open controller ha s been wir[...]

  • Pagina 173

    173 APPENDIX E — UPC OPEN CONTROLLER (cont) T o install a BT485 terminator , push the BT485 terminator , on to the BT485 connector located near the BACnet connector . NOTE: The BT485 terminator has no polarity associated with it. T o order a BT485 terminato r , consult Commercial Products i-V u ® Open Control System Master Prices . MS/TP Wiring [...]

  • Pagina 174

    174 APPENDIX E — UPC OPEN CONTROLLER (cont) Table D — Open System Wiring Specification s and Recommended Vendors LEGEND Local access to the UPC Open — T he user can use a BACview 6 handheld keypad display unit or the V irtual BACview software as a local user interface to an Open control- ler . These items let the user access the controller ne[...]

  • Pagina 175

    175 APPENDIX E — UPC OPEN CONTROLLER (cont) Configuring the UPC Open Contr oller's Prop- erties — The UPC Open device and Comfort Link™ con- trols must be set to the same CCN Address (Element) number and CCN Bus number . The factory default settings for CCN Element and CCN Bus number are 1 and 0 respectively . If modifications to the def[...]

  • Pagina 176

    176 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST See legend on page 182. BA CNET OBJECT ID POINT NAME READ ONL Y UNITS DEF A UL T VA L U E RANGE BA CNET OBJECT NAME UNIT POINT AV : 9 Active Demand Limit W % n /a 0-100 dem_lim_1 DEM_LIM AV : 1 0 Air T emp Lvg Supply F an R °F n/a n/a sat_1 SA T AV : 1 1 CEM AN1 4-20 ma J5,1 -2 W mA[...]

  • Pagina 177

    177 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST (cont) See legend on page 182. BACN E T OBJECT ID POINT NAME READ ONL Y UNITS DEF A UL T VA L U E RANGE BA CNET OBJECT NAME UNIT POINT AV : 6 1 Dmd Level(+) Hi Cool ON W °^F 0.5 0.5-20 dmdhcon_1 DMDHCON AV : 6 2 Dmd L e vel(+) Hi Heat ON W °^F 0.5 0.5-20 dmdhhon_1 DMD HHON AV : 6 3[...]

  • Pagina 178

    178 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST (cont) See legend on page 182. BACN E T OBJECT ID POINT NA ME READ ONL Y UNITS DEF A UL T VA L U E RANGE BA CNET OBJECT NAME UNIT POINT A V :134 Retur n Air Relative Humidity W % n/a 0-100 rarh_1 RARH A V :135 Retur n Air T emperature W °F n/a -40-240 rat_1 RA T A V :136 Schedule Nu[...]

  • Pagina 179

    179 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST (cont) See legend on page 182. BA CNET OBJECT ID POINT NA ME READ ONL Y UNITS DEF A UL T VA L U E RANGE BA CNET OBJECT NAME UNIT POINT A V :1009 IAQ - PPM Indoor CO2 W n/a n/a 0-5000 iaq_1 IA Q A V :1016 Static Pressure R in H2O n /a n/a static_press_1 SP A V :1022 HV AC Mode Numeric[...]

  • Pagina 180

    180 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST (cont) See legend on page 182. BA CNET OBJECT ID POINT NAME READ ONL Y UNITS DEF AUL T VA L U E RANGE BAC N E T OBJECT NAME UNIT POINT BV :9 Alar m State R n/a n/a n/a alm_1 ALM BV :10 Capacity C lamp Mode R n/a n/a n/a capmode_1 CAPMODE BV :11 Fan request from IGC R n/a n/a n/a igcf[...]

  • Pagina 181

    181 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST (cont) See legend on page 182. BACN E T OBJECT ID POINT NAME READ ONL Y UNITS DEF A UL T VA L U E RANGE BAC N E T OBJECT NAME UNIT POINT BV :59 Lo cal Machine Disable W n/a No 0-1 unitstop_1 UNIT ST OP BV :60 Low BP Override R n/a n/a n/a bplpovrd_1 BPLPO VRD BV :61 Low T emp Cap Ove[...]

  • Pagina 182

    182 APPENDIX E — UPC OPEN CONTROLLER (cont) NETWORK POINTS LIST (cont) LEGEND BA CNET OBJECT ID POINT NAME READ ONL Y UNITS DEF A UL T VA L U E RANGE BA CNET OBJECT NAME UNIT POINT BV :1052 F ilter Status Input W n/a n/a 0-1 filter_status_1 FL TS BV :1060 Evacuation Input W n/a n/a 0-1 smk_ev ac_1 EV A C BV :1061 Pressur ization Input W n/a n/a 0[...]

  • Pagina 183

    183 INDEX Accessory control components 124 Accessory installation 7 Accessory Navigator™ display 4, 124 Airflow control during fire-smoke modes 66 Alarm output 31 Alarms and alerts 93 Alert limit confi guration 72 Auto view o f run status 90 Basic control usage 3-6 Building pressure configuration 63 Building pressure control 63 Carrier Comfort Ne[...]

  • Pagina 184

    Manufacturer reserves the right to disco ntinue, or change at any time, specificatio ns or designs without notice and without inc urring obligations. Catalog No . 04-53480077-01 Printed in U. S.A. F or m 48/50A-9T Pg 184 6-10 Replaces: 48/50A-7T Copy right 2010 Carrier Cor poration[...]

  • Pagina 185

    Manufacturer reserves the right to disco ntinue, or change at any time, specifications or de signs without notice and without inc urring obligations. Catalog No . 04-53480077-01 Printed in U. S.A. F or m 48/50A-9T Pg CL-1 6-10 Replaces: 48/50A -7T CONTROLS SET POINT AND CONFIGURA TION LOG MODEL NUMBER: Software V ersion SERIAL NUMBER: MBB CESR13134[...]

  • Pagina 186

    CL-2 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -[...]

  • Pagina 187

    CL-3 ITEM EXP ANSION RANGE D EF A UL T ENTR Y BP BUILDING PRESS. CONFIG  BP .CF Building Press. Config 0 -2 0  BP .RT Bldg.Pres .PID Run Rate 5-120 sec 10  BP .P Bldg. Press. Prop . Gain 0-5 0.5  BP .I Bldg.Press.Integ.Gain 0-2 0.5  BP .D Bldg.Press.Deriv .Gain 0-5 0.3  BP .SO BP Setpoint Offset 0.0 - 0.5 “H2O 0.05  BP .MN BP[...]

  • Pagina 188

    CL-4 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -[...]

  • Pagina 189

    CL-5 ITEM EXP ANSION RANGE D EF A UL T ENTR Y SW .LG SWITCH LOGIC: NO / NC  FTS.L Filter Status Inpt-Clean Open/Close Open  IGC.L IGC Feedbac k - Off Open/Close Open  RMI.L RemSw Off-Unoc-Str t-NoOv Open/Close Open  ECS.L Economizer Switch - No Open/Close Open  SFS.L F an Status Sw . - Off Open/Close Open  DL1.L Dmd.Lmt.Sw .1 - Of[...]

  • Pagina 190

    Manufacturer reserves the right to disco ntinue, or change at any time, specificatio ns or designs without notice and without inc urring obligations. Catalog No . 04-53480077-01 Printed in U. S.A. F or m 48/50A-9T Pg CL-6 6-10 Replaces: 48/50A -7T Copy right 2010 Carrier Cor poration - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -[...]