Carrier AQUAFORCE 30XW150-400 manuel d'utilisation

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148

Aller à la page of

Un bon manuel d’utilisation

Les règles imposent au revendeur l'obligation de fournir à l'acheteur, avec des marchandises, le manuel d’utilisation Carrier AQUAFORCE 30XW150-400. Le manque du manuel d’utilisation ou les informations incorrectes fournies au consommateur sont à la base d'une plainte pour non-conformité du dispositif avec le contrat. Conformément à la loi, l’inclusion du manuel d’utilisation sous une forme autre que le papier est autorisée, ce qui est souvent utilisé récemment, en incluant la forme graphique ou électronique du manuel Carrier AQUAFORCE 30XW150-400 ou les vidéos d'instruction pour les utilisateurs. La condition est son caractère lisible et compréhensible.

Qu'est ce que le manuel d’utilisation?

Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Carrier AQUAFORCE 30XW150-400 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.

Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.

Donc, ce qui devrait contenir le manuel parfait?

Tout d'abord, le manuel d’utilisation Carrier AQUAFORCE 30XW150-400 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Carrier AQUAFORCE 30XW150-400
- nom du fabricant et année de fabrication Carrier AQUAFORCE 30XW150-400
- instructions d'utilisation, de réglage et d’entretien de l'équipement Carrier AQUAFORCE 30XW150-400
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

Pourquoi nous ne lisons pas les manuels d’utilisation?

Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Carrier AQUAFORCE 30XW150-400 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Carrier AQUAFORCE 30XW150-400 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Carrier en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Carrier AQUAFORCE 30XW150-400, comme c’est le cas pour la version papier.

Pourquoi lire le manuel d’utilisation?

Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Carrier AQUAFORCE 30XW150-400, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Carrier AQUAFORCE 30XW150-400. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 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 . 04-53300024-0 1 Printed in U .S.A. Form 30XW -1T Pg 1 11-09 Replaces: New Controls , Star t-Up , Oper ation, Ser vice and T roub leshooting CONTENTS Page SAFETY CONSIDERA TIONS . . . . . [...]

  • Page 2

    2 CONTENTS (cont) Cooler . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 • SUCTION SER VICE V AL VE • LOW FLUID TEMPERA TURE • LOSS OF FLUID FLOW PROTEC TION • TUBE PLUGGING •R E T U B I N G • TIGHTENING COOLER HEAD BOL TS • INSPECTING/CLEANING HEA T EXHANGERS • W A TER TREA TMENT • CHILLED[...]

  • Page 3

    3 GENERAL This publication contains controls, operation, start-up, ser- vice and troubleshooting information for the 30XW150-400 water-coo led liquid chillers with electronic controls. The 30XW chillers are equipped with Comfort Link™ contro ls and electronic expansion valves. The AquaForce ® 30XW chillers offer two different user interface devi[...]

  • Page 4

    4 “ALARM INDICA TOR LIGHT” activates when a new alarm condition occurs. The alarm indicator light LED, located on the right side of the display , remains activated until it is manually reset using the Reset button on the Main menu. “ST AR T/STOP BUTT ON” enables the user to start or stop the chiller from the T ouch Pilot™ display . See En[...]

  • Page 5

    5 User interface Group display x 8 Main m enu Status GENUNIT CIRCA_AN CIRCA_D CIRCB_AN CIRCB_D CIRCC_D CIRCC_AN STATEG EN RECLAIM MODES STRTHOUR FANHOURS FREECOOL QCK_ TST1 QCK_ TST2 SERV_TST Setpoint Schedule OCC1PO1S OCC2PO2S Servi ce FACTOR Y FACTOR Y2 SERVICE1 CP_UNABL UPDTHOUR UPDHRFAN MA INTCFG Mai nt LOADFAC T FANCTRL M_MST SLV DEFR OSTM LAS[...]

  • Page 6

    6 Table 1 — Setup Menu SETUP MENU BUTT ON FUNCTION REGIONAL This button specifies the time and date format and th e base unit of measure. Time displa y can be configured as 12-hour AM/PM setting or as a 24-hour setting. The date can be formatted in one of 3 settings, MM-DD-YYYY (Month- Day-Y ear), DD-MM-YYYY (Day-Month-Y ear), or YYYY -MM-DD (Y e[...]

  • Page 7

    7 Setting the Time and Date — The Comfort Link™ control has a time and date function. This can be useful for diagnostics to determine when alarms occur . The control is factory config- ured for the proper date and is set for the Eastern Time Zone. The date and time zone must be checked and corrected if nec- essary , to allow the machine to func[...]

  • Page 8

    8 This indicates an initialization period while the Navigator™ display initiates communication with the Main Base Board. Once communication is establis hed, the default rotating dis- play will be shown. If communi cation is not established, the Navigator module will display: Communication Failure If the Navigator module is connected to a Main Bas[...]

  • Page 9

    9 Table 2 — Comfort Link™ Navigator™ Disp lay Menu Structure CONTR OLS General — The 30XW water -cooled liquid chillers contain the Comfort Link™ electronic control system that controls and monitors all operations of the chiller . The control system is composed of several components as listed in the following sec- tions. All machines have[...]

  • Page 10

    10 Table 3 — Main Base Board Inputs an d Outputs LEGEND Compressor Pr otection Module (CPM) — T here is one CPM per compressor . See Fi g. 9. The device controls the compressor contactors, oil sole noid, and loading/unloading the solenoid. The CPM also monitors the compressor motor tem- perature, high pressure switch, oil level switch, discharg[...]

  • Page 11

    11 Table 4 — DIP Switch 1 (S1) Inputs The CPM board DIP switch S2 setting determines the must trip amps (MT A) setting. See Appendix D for DIP switch set- tings. The MT A setting which is calculated using the setting s S2 must match the MT A setting in the software or an MT A alarm will be generated. See below for CPM board DIP switch S3 address [...]

  • Page 12

    12 Table 5 — Compressor Protection Module Input s and Outputs* *“X” denotes the circuit, A or B. †See Appendix D for MT A setting s. DESCRIPTION INPUT/OUTPUT I/O TYPE DISPLA Y MODULE PO INT NAME CONNECTION POINT Pin Notation Po wer (24 vac supply) —— — CPM-X-J1 11 24 vac 12 Ground Local Equipment Network —— — CPM-X-JP12 1 RS485 [...]

  • Page 13

    13 Electronic Expansion V alve (EXV) Board — The 30XW150-325 units have one EXV board. The 30XW350,400 units have one EXV board per circuit. See Fig. 10. The board is responsible for monitoring the suction gas temperature and economizer gas temperature thermistors. The board also signals the main EXV and economizer EXV (ECEXV) motors to open or c[...]

  • Page 14

    14 Table 6 — EXV1 Board Inputs and Outputs (30XW150-325) Table 7 — EXV1,2 Board Inputs and Outputs* (30XW350,400) *“X” denotes the circuit: 1 = Circuit A; 2 = Circuit B. DESCRIPTION INPUT/OUTPUT I/O TYPE DISPLA Y MODULE POINT NAME CO NNECTION POINT Pin Notation P ower (24 vac supply) —— — EXV A-J1 11 24 vac 12 Ground Local Equipment N[...]

  • Page 15

    15 ML V/Condenser Boar d — One auxiliary board is op- tionally installed in each unit. See Fig. 1 1. The auxiliary board contains an analog output for head pressure control and dis- crete outputs for minimum load control. The auxiliary board responds to commands from the MBB and sends the MBB the results of the channels it monitors via the Local [...]

  • Page 16

    16 Enable-Off-Remote Contact Switch (SW1) — This switch is installed in all units and provides the owner and service person with a local means of enabling or disabling the machine. It is a 3-position switch and it is used to control the chiller . When switched to the Enable position, the chiller will be under its own control. When switched to the[...]

  • Page 17

    17 Table 9 — Energy Management Module (EMM) Inputs and Outputs * A field-supplied 1/2 w att 250 ohm resistor is required across terminals TB6-1,2 (CH6) and/or TB6-3, 4 (CH5). Local Equipment Netw ork — Information is trans- mitted between modules via a 3-wire communication bus or LEN (Local Equipment Network) . External connection to the LEN bu[...]

  • Page 18

    18 Carrier Comfort Network ® (CCN) Interface — All 30XW units can be connected to a CCN system, if desired. The communication bus wiring is a shielded, 3-conductor cable with drain wire and is field supplied and installed. The system elements are connected to the communication bus in a daisy chain arrangement. The positive pin of each system ele[...]

  • Page 19

    19 Table 12 — Touch Pilot Contr oller Identification Configuration Table Table 13 — Touch Pilot™ User Configuration (USERCONF) Table BA C KL I GH T AL W A YS O N? — This configuration is used to keep the backlight on continuously or to turn it off after 60 seconds with no activity . Allowable Entries: No/Y es (No=0 or Y es=1) Default V alue[...]

  • Page 20

    20 LI M IT E D AC C E SS P AN E L — This configuration is used to specify the limited access password. Allowable Entries: 0 through 9999 Default V alue: 2222 AC T IV E L AN G UA G E — This configuration is used to spec- ify the display’ s active language. All translatable text will be displayed in th is language. Allowable Entries: 0 (English[...]

  • Page 21

    21 T able 14 summarizes the unit control type and stop or go status with regard to the following parameters: • Operating type: this is selected by using the start/stop button on the front of the user interface. • Remote start/stop contacts: these contacts are used when the unit is in remote operating type (Remote mode). • CHIL_S_S: this netwo[...]

  • Page 22

    22 Table 15 — Config uring the Sche dule with Touch Pilot Display Holiday Schedule — For the T ouch Pilot display , the control allows up to 16 holiday periods. All holidays are entered with numerical values. T o configure, first change the month ( Holi- day S tart Month ), then the day ( Holiday S tart Day ), then the duration ( Holiday Durati[...]

  • Page 23

    23 commands, except the Emergency S top Command will be ignored. The Run S tatus variable will indicate the current sta- tus of the machine (OFF , RUNNING , DELA Y , or READY), depending on the position of the Remote/Of f/Enable Switch closure. The Chiller Occupied? variable will change to YES. The Control T ype variable will change to Remote. The [...]

  • Page 24

    24 T ime Schedule — W ith T ime Schedule Operating T ype con- trol, the machine operates unde r a local schedule programmed by the user as long as the Enab le/Off/Remote Contact switch is in the Enable or Remote Contact position (external contacts closed). T o operate under this Operating T ype Control ( OPER ) must be set to TIME SCHED (T ime Sc[...]

  • Page 25

    25 CCN Control — W ith CCN Operating T ype control, the ma- chine operates under CCN control as long as the Enable/Off/ Remote Contact Switch is in th e Enable or Remote Contact position (external contacts closed.) T o operate under this Operating Control, OPER must be set to CCN CONTROL. An external CCN device, such as Chillervisor , controls th[...]

  • Page 26

    26 Table 22 — C ooling Se t Point Se lection Touch Pilot™ Parameters Table 23 — Cooling Set Point Se l ection Navigato r™ Parameters Set Point 1 — When Set Point Select ( Setpoint Select , SP .SE ) is configured to 1 ( Setpoint 1 ), the unit’ s active set point is based on Cooling Set Point 1 ( Cooling Setpoint 1 , CSP .1 ). T o configu[...]

  • Page 27

    27 T o conf igure this option while using a Navigator display: Dual Switch — When Set Point Select ( Setpoint Select , SP .S E ) is configured to 4 (Dual Se tp Sw), the unit’ s active set point is based on Cooling Set Point 1 ( Cooling Setpoint 1 , CSP .1 ) when the Dual Set Point switch contact is open and Cooling Set Point 2 ( Cooling Setpoin[...]

  • Page 28

    28 Cooler Pump Control — It is required for all chillers that the cooler pump control be utilized unless the chilled water pump runs continuously or the chilled water system contains a suitable concentration of antifre eze solution. When the Cooler Pumps Sequence is configured, the cooler pump output will be energized when the chiller enters an &[...]

  • Page 29

    29 Machine Start Delay — An option to delay the start of the machine is also availa ble. Th is parameter is useful in keep- ing multiple machines from starting at the same time in case of a power failure. The parameter has a factory default of 1 minute. This parameter also has a role in the timing for a chilled water flow switch alarm. The flow s[...]

  • Page 30

    30 between the master and the slave remains less than the Lead/ Lag Balance Delta, the chiller designated as the lead will remain the lead chiller . The L ead/Lag changeover between the master and the slave chiller due to hour balance will occur dur- ing chiller operating odd days, such as day 1, day 3, and day 5 of the month, at 12:00 a.m. If a le[...]

  • Page 31

    31 Table 24 — Dual Master Chill er Control Paramete rs for Parallel Ap plications wi th Touch Pilot™ Display DISPLA Y NAME P A TH LINE NO. V A LUE Master/Slave Select Main Menu Config MST_SL V 3 1 (Master) Default: 0 (Disab le) Master Control T ype Main Menu Config MST_SL V 7 1=Local Control 2=Remote Control 3=CCN Control Default: 1 Configure f[...]

  • Page 32

    32 Table 25 — Dual M aster Chiller Control Para meters for Para llel Applications wi th Navigator™ Dis play Table 26 — Dual Slave Chiller Control Parameters for Parallel Applicat ions with Touch Pilot™ Display ITEM ITEM EXP ANSION P A TH V A LUE MSSL Master/Slav e Select Configuration RSET Master Default: Disab le SL V A Slav e Address Conf[...]

  • Page 33

    33 DUAL CHILLER PUMP CONTROL FOR P AR ALLEL CHILLER APPLICA TIONS — It is rec om men de d th at a dedicated pump be used for each unit. The chiller must start and stop its own water pump located on its own piping. If pumps are not dedicated for each chiller , chiller isolation valves are required and each chiller must open and close its own isola[...]

  • Page 34

    34 Table 29 — D ual Master Chiller C ontrol Parameters for Se ries Applications w ith Navigator™ Di splay Table 30 — Dual Slave Chiller Control Parameters for Se ries Applications with Touch Pilot™ Display ITEM ITEM EXP ANSION P A TH V A LUE MSSL Master/Slav e Select Configuration RSET Master Default: Disab le SL V A Slav e Address Configur[...]

  • Page 35

    35 Table 31 — Dual Slav e Chiller Control Parameters fo r Series Applicat ions with Navi gator Display DUAL CHILLER PUMP CONTROL F O R SERIES CH I LL E R A PP L IC A T IO N S — Pump control for series chill- er applications is controlled by the master chiller only . The control of the slave chiller is directed through commands emit- ted by the [...]

  • Page 36

    36 T o configure this option with the T ouch Pilot™ display: T o configure this option with the Navigator™ display: In the example in Fig. 21 using Return W ater T emperature Reset, the chilled water temper ature will be reset by 5° F (2.8° C) when the Fluid T emperature Difference is 2° F (1.1° C) and 0° F (0° C) reset when the T emperat[...]

  • Page 37

    37 40 42 44 46 4 8 50 52 54 56 100 90 8 0 70 60 50 40 3 0 20 10 0 % Load Fluid Temperature (de g F) EWT LWT De s ign Ri s e (typic a l) Fig. 20 — Return Water Temperature Contro l Load Profile a30-4478 Load % Fluid Temperature (de g F) EWT LWT 40 42 44 46 4 8 50 52 54 56 100 90 8 0 70 60 50 40 3 0 20 10 0 De s ign Ri s e (typic a l) Fig. 19 — L[...]

  • Page 38

    38 0 1 2 3 4 5 6 0 Enterin g -Leavin g Water Temperature (de g F) De g ree s Re s et (de g F) Cooling Re s et Deg. V a l u e, DGRC Delt a T No Re s et Temp, CRT1 Delt a T F u ll Re s et Temp, CRT2 24 6 8 10 Fig. 21 — Return Water Reset a30-4479 0 1 2 3 4 5 6 7 60 65 70 75 8 0 S pace Temperature (de g F) De g ree s Re s et (de g F) Cooling Re s et[...]

  • Page 39

    39 Demand Limit — Demand limit is a feature that allows the unit capacity to be limited during periods of peak energy usage. This allows the owner to keep energy costs down. There are three types of demand limiting that can be configured. The first type is through 2-step switch control, which will reduce the maximum capacity to 2 user configurabl[...]

  • Page 40

    40 In the following example, 2-step demand limit based on capacity is desired with the first switch closure limiting the capacity to 60%. The second switch closure is to limit the capacity to 40%. Demand Limit Switch 1 is 60% and Demand Limit Switch 2 is 40%. Switch Cont rolled (Curr ent Based) — If using 2-step de- mand limit control, an ener gy[...]

  • Page 41

    41 T o configure this option with the Navigator display: In the following example, a 4 mA signal is Demand Limit for compressor current is 2000 amps and a 20 mA Demand Limit signal corresponds with a compressor current of 0 amps. The 4 to 20 mA signal is connected to TB6-1 and TB6-2. The demand limit is a linear interpolation between the two values[...]

  • Page 42

    42 Set this variable to 2 for stand-alone units that are not con- nected to a CCN. W ith this configuration, daylight saving time and holiday determination will be done without broadcasting through the bus. This variable can only be changed when using the T ouch Pilot display , ComfortVIEW™ software, or Network Service T ool. This variable cannot[...]

  • Page 43

    43 RE - AL A RM T I ME — This variable specifies the amount of time that will be allowed to el apse between re-alarms. A re- alarm occurs when the conditions that caused the initial alarm continue to persist for the number of minutes specified in this decision. Re-alarming will continue to occur at the specified in- terval until the condition cau[...]

  • Page 44

    44 Override #2: Circuit A Low Saturated Suction T emperature in Cooling Override #3: Circuit B Low Saturated Suction T emp erature in Cooling These overrides attempt to avoi d the low suction temperature alarms and are active only when the compressor is running beyond the fully unloaded level. The slide valve in the affected circuit will be decreas[...]

  • Page 45

    45 Override #14: Slow C hange Override — This override pre- vents compressor stage changes when the leaving temperature is close to the control point and slowly moving towards it. Override #15: System Manager Cap acity Control — If a Chillervisor module is controlling the unit and multiple chill- ers, the unit will increase capacity to attempt [...]

  • Page 46

    46 Table 34 — 30XW Compre ssor Nominal Capacity Override #59: Circuit A Low Oil Level Override #60: Circuit B Low Oil Level — This override is only effective when the circuit is not running. The override will prevent the circuit from starting up with a low oil level. If th is override occurs three times, the low oil level alarm will be tripped.[...]

  • Page 47

    47 6. Fill the chiller fluid circuit with clean water (with recom- mended inhibitor added) or other non-corrosive fluid to be cooled. Bleed all air out of high points of system. If unit is exposed to temperatures below 32 F (0° C), suffi- cient inhibited propylene glycol or other suitable corro- sion inhibited antifreeze shoul d be added to the ch[...]

  • Page 48

    48 process applications. Refer to application information in Prod- uct Data literature for details. FLO W R A T E RE QU IRE ME NT S — Standard chillers should be applied with nominal flow rates within those listed in the Evaporator and Condenser Flow Rates table. Higher or lower flow rates are permissible to obtain lower or higher tempera- ture r[...]

  • Page 49

    49 Fig. 28 — 30XW325-400 Ev aporator Marine W aterbo x 0 500 1000 1500 2000 2500 3000 (0) (31.5) (63.1) (94.6) (126.2) (157.7) (189.3) 3 2 1 pass pass pass gpm (L/s) Evaporator Flow Rate 0.00 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 ft wg (0) (14.9) (29.8) (44.8) (59.7) (74.6) (89.5) (104.4) (119.4) (kPa) Pressure Drop NO TE : The table abo[...]

  • Page 50

    50 0 500 1000 1500 2000 (0) (31.5) (63.1) (94.6) (126.2) Evaporator Flow Rate 3 2 1 pass pass pass 0.00 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 ft wg gpm (L/s) (0) (14.9) (29.8) (44.8) (59.7) (74.6) (89.5) (104.4) (119.4) (kPa) Pressure Drop LEGEND NO TE: The table abov e represents pressure drops only . The table does not imply that the chi[...]

  • Page 51

    51 Fig. 32 — 30XW150-200 Condense r Marine W aterbo x A30-4835 NO TE : The tabl e abov e represe nts pressure drops only . The table does not imply that the chiller can b e properly applied ov er th e entire range of condenser water flow rates represented. 0 500 1000 1500 2000 gpm (0) (31.5) (63.1) (94.6) (126.2) (L/s) 0.00 5.00 10.00 15.00 20.00[...]

  • Page 52

    52 Fig. 34 — 30XW150-200 Condenser NIH Fl ange A30-4836 LEGEND NO T E: The table abo ve represents pressure drops only . The table does not imply that the chiller can be properly applied o ver th e entire range of e vapor ator water flow rates represented. NIH — Nozzle-In-Head 0 500 1000 1500 2000 gpm (0) (31.5) (63.1) (94.6) (126.2) (L/s) 2 pa[...]

  • Page 53

    53 Fig. 36 — 30XW150- 200 Condenser NIH Victauli c A30-4837 LEGEND NO TE: The table abov e represents pressure drops only . The table does not imply that the chiller can be proper ly applied over th e entire range of e vapor a tor water flow r ates represented. NIH — Nozzle-In- Head 0 500 1000 1500 2000 gpm (0) (31.5) (63.1) (94.6) (126.2) (L/s[...]

  • Page 54

    54 OPERA TION Sequence of Operation — With a command to start the chiller , the cooler and conde nser pumps will start. After verifying water flow , the control will monitor the entering and leaving water temperatures. If the need for mechanical cooling is determined, the control decides which circuit and compres- sor to start. The control will s[...]

  • Page 55

    55 ST AR TUP DELA Y IN EFFECT — T hi s m od e is c he c ke d for when the unit is started. This mode is active when the Min- utes Off T ime ( Unit Off to On Delay , DEL Y ) timer is active. The unit will not start until the timer has expired. The mode will terminate when the timer expires. SE C ON D SE T P OI N T I N US E — This mode is checked[...]

  • Page 56

    56 If this condition is encountered , see Possible Causes for Alarms 56 and 57 on page 75. HIGH DGT CIRCUIT A HIGH DGT CIRCUIT B — Th e cap ac it y of th e af fe c te d circuit may be increased to reduce circuit discharge gas temperature. HIGH PRES OVERRIDE CIR A HIGH PRES OVERRIDE CIR B — Thi s m ode is che ck ed for when the circuit is ON. Th[...]

  • Page 57

    57 HP S B DGT A HP S A DGTB EPTB ( 3 50, 400 ONL Y) ECTB ( 3 50, 400 ONL Y) EPT A (175, 200, 3 50, 400 ONL Y) ECT A (175, 200, 3 50, 400 ONL Y) A30-4838 LEGEND *Not visible from angle shown. DGT — Discharge Gas Ther mistor DPT — D ischarge Pressure T ransducer ECT — Economizer Gas Ther mistor EPT — Economizer Pressure T ransducer HPS — Hi[...]

  • Page 58

    58 Table 38 — Thermistor Identification *SGT A and SGTB f or 30XW150-325 unit s are connecte d to the EXV 1 board. Table 39A — 5K Thermis tor Temperature (° F) vs Resistance THERMIST OR ID DESCRIPTION RESIST ANCE A T 77 F (25 C) CONNECTION POINT EWT Evapo rator Entering W ater Ther mistor 5k  MBB-J6-CH2 LW T Evapo rator Leaving W ater Ther [...]

  • Page 59

    59 Table 39B — 5K Thermis tor Temperature ( °C) vs Resistance SER VICE Economizer Assembly — Each c ircuit on 30XW175,200,350,400 units has an economizer assembly . The 30XW150,325 units do not have an economizer and have one main electronic expansion valve. The 30XW150,325 units are controlled the same way as units with a separate economizer [...]

  • Page 60

    60 The EXV control logic has several overrides, which are also used to control the position of the EXV . • Approach between SST and L WT • Maximum Operating Pressure (MOP) Approach — If the approach (pinch), which is the difference between leaving fluid temperat ure and saturated suction tem- perature, is equal to or less than the pinch set p[...]

  • Page 61

    61 EXV TROUBLESHOOTING PROCEDURE — Th ere are two different economizer EXVs. Both of the economizer EXVs have a total of 2785 steps. There are three dif ferent main EXVs, which all have a total of 4260 steps. The EXV motor moves at 150 steps per second. Commanding the valve to either 0% or 100% will add an additional 160 steps to the move, to ens[...]

  • Page 62

    62 Table 40 — EXV Modes and Submodes Table 41 — Color Indi cators when Moisture is Present in Refr igerant Liquid Line Service V alve — This valve is located immediately ahead of filter drier , and has a 1 / 4 -in. access connection for fi eld charging. In combination with compressor dischar ge service valve, each circuit can be pumped down i[...]

  • Page 63

    63 Compressor Assembl y — The 30XW units utilize screw compressors with a modulating slide valve which varies capacity from 15% to 100% of compressor capacity for each circuit. See Fig. 45 for a view of a typical 06T compressor . The slide valve position is varied by opening and closing the 2 solenoid valves located on the com pressor . T o unloa[...]

  • Page 64

    64 Oil Charge — When additional oil or a complete charge is required it must meet the following specifications: • Manufacturer . . . . . . . . . . . . . . . . . . . . . Emkarate RL220XL • O il T ype . . . . . . . . . . . . . . . . . . . Inhibited polyolester-based synthetic compressor lubricant for use with screw compressors. • ISO V is cos[...]

  • Page 65

    65 LOW FLUID TEMPERA TURE — M ain Bas e Bo ar d is pr o- grammed to shut chiller down if leaving fluid temperature drops below 34 F (1.1 C) for cooler fluid type water or below Brine Freeze Setp oint ( Brine Fr eeze Setpoint , LOSP ) for cooler fluid type brine. The unit will shut down without a pumpout. When fluid temperature rises to 6° F (3.3[...]

  • Page 66

    66 INSPECTING/CLEANING HEA T EXCHANGERS — In - spect and clean cooler tubes at the end of the first operating season. Because these tubes have internal ridges, a rotary-type tube cleaning system is necessary to fully clean the tubes. T ube condition in the cooler will determine the scheduled frequency for cleaning, and will indicate whether water[...]

  • Page 67

    67 Refrigeran t Circuit LE A K TE S TI N G — Units are shipped wit h complete operat- ing char ge of refrigerant R-134a or nitrogen (see Physical Data tables supplied in the 30XW installation instructions) and should be under sufficient pressure to conduct a leak test. If there is no pressure in the system, introduce enough nitrogen to search for[...]

  • Page 68

    68 Table 48 — Troubleshooting LEGEND Alarms and Aler ts — The integral control system con- stantly monitors the unit and ge nerates warnings when abnor- mal or fault conditions occur . Alarms may cause either a circuit (Alert) or the whole machine (Alarm) to shut down. Alarms and Alerts are assigned codes as described in Fig. 52. The alarm/aler[...]

  • Page 69

    69 Table 49 — Alarm Codes LEGEND PREFIX CODE SUFFIX CODE ALARM NUMBER ALARM DESCRIPTION REASON FOR ALARM ACTION T AKEN BY CONTROL RESET TYPE PROBABLE CA USE th 01 1 Cooler Entering Fluid Ther mistor T em perature measure d by the controller i s outside of t he range of –40 F to 245 F Unit be shut down or not allow ed to star t Automatic Faulty [...]

  • Page 70

    70 Table 49 — Alarm Codes (cont) LEGEND PREFIX CODE SUFFIX CODE ALARM NUMBER ALARM DESCRIPTION REASON FOR ALARM ACTION T AKEN BY CONTROL RESET TYPE PROBABLE CA USE Co A1 53 Loss of communicatio n with Compressor Boa rd A No communicatio n with CPM board Aff ected compres sor shut down Automatic Wr ong CPM address, wrong unit co nfigura- tion, wir[...]

  • Page 71

    71 Table 49 — Alarm Codes (cont) LEGEND PREFIX CODE SUFFIX CODE ALARM NUMBER ALARM DESCRIPTION REASON FOR ALARM ACTION T AKEN BY CONTROL RESET TYPE PROBABLE CA USE P 11 77 Circuit A Low Suctio n Superheat EXV<5% and either the suction su perheat is le ss than the set point b y at least 5 F or th e suction temperature is great er than MOP set p[...]

  • Page 72

    72 Table 49 — Alarm Codes (cont) LEGEND PREFIX CODE SUFFIX CODE ALARM NUMBER ALARM DESCRIPTION REASON FOR ALARM ACTION T AKEN BY CONTROL RESET TYPE PROBABLE CA USE P 40 108 C ircuit A — Re peated low suction temp overrides Multiple ca pacity ov e rride s due to low satu- rated suction temp erature Circuit shut down Automatic I naccurate transdu[...]

  • Page 73

    73 Table 49 — Alarm Codes (cont) LEGEND DIAGNOSTIC ALARM COD ES AND POSSIBLE CAUSES Thermistor F ailure Alarm 1 — Cooler Fluid Entering (th.01) Alarm 2 — Cooler Fluid Leaving (th.02) Criteria for T rip — This alarm criterion is tested whether the unit is on or off if the temperature as measured by the thermis- tor is outside of the range ?[...]

  • Page 74

    74 Alarm 10 — M aster/Slave Common Fluid Thermistor (th.11) Criteria for T rip — This alarm criterion is tested whether the unit is ON or OFF . The alarm will be tripped if the unit is configured as a master or a slave ( Master/Slave Selec t, MSSL ), leaving temperature control is selected ( Entering Fluid Control, EWT O ), and if the temperatu[...]

  • Page 75

    75 Criteria for T rip — The criteria are tested whether the circuit i s ON or OFF . The alarm is generated if one of the following criteria is met: 1. If the voltage as sensed by the MBB is 0 vdc, which corresponds to the Navigator™ display of –7 psi (–48.3 kPa). 2. The circuit is ON in cooling mode and the Saturated Suction T emperature ( [...]

  • Page 76

    76 Alarm 64 — Loss of Communication w ith Energy Manage- ment Module Board (Co.03) Criteria for T rip — The criterion is tested whether the unit is ON or OFF and when a function that requires the Energy Management Module (EMM) is configured. If communication with the EMM is lost for a period of 10 seconds, the alarm will be triggered. Action to[...]

  • Page 77

    77 • a liquid line r efrigerant restriction, filter drier , service valve, etc. • refrigerant charge Low Suction Superheat Alarm 77 — Circuit A (P .11) Alarm 78 — Circuit B (P .12) Criteria for T rip — The criteria are tested whe n the circuit is ON. This alarm is generated if the following criterion is met: The EXV position is equal to o[...]

  • Page 78

    78 Max Oil Filter Dif ferential Pressure Failure Alarm 87 — Circuit A (P .70) Alarm 88 — Circuit B (P .71) Criteria for T rip — The criterion is tested when the compres- sor has been operating for at least 5 seconds. The alarm is generated if the difference between the Circuit Dischar ge Pres- sure and the Compressor Oil Pressure is greater t[...]

  • Page 79

    79 Table 50 — Master/Slave Ala rm Code LEGEND Table 51 — Illegal Configurat ion Alarm Code Cooler Pump Fault Alarm 100 — Pump 1 Fault (P .32) Alarm 101 — Pump 2 Fault (P .33) Criteria for T rip — The criterion is tested wh ether the units are ON or OFF . This alarm will be generated if the cooler pump interlock opens. When starting the pu[...]

  • Page 80

    80 Repeated Low Suction T emperature Protection Alarm 108 — Circuit A (P .40) Alarm 109 — Circuit B (P .41) Criteria for T rip — The criterion is tested when the circuit is ON. If the circuit operates and if more than 8 succ essive circuit capacity decreases (stop the co mpressor) have occurred because of low suction temperature protection ov[...]

  • Page 81

    81 generated if the one of the fo llowing configuration errors is detected by the control. The “nn” refers to the error code listed in T able 52. Table 52 — Service Maintenance Alert Codes Action to be T aken — None. Reset Method — Manual, after the service has been completed. Possible Causes — If the Sr-01, 02, or 03 conditions are enc[...]

  • Page 82

    82 Action to be T aken — The compressor will be stopped. Reset Method — Manual Possible Causes — If this condition is encountered, check the following items: • power failure • blown fuse or tripped circuit breaker • deenergized contactor • faulty current toroid • high pressure switch (HPS) tr ip (when auto reset HPS is used) Compres[...]

  • Page 83

    83 Possible Causes — If this condition is encountered, check the following items: • electrical noise • faulty CPM board Compressor U L 1998 Current Measure Dual Channel Mismatch Alarm 132-19 — Circuit A (A1.19) Alarm 133-19 — Circuit B (B1.19) Criteria for T rip — The alarm criterion is checked when the compressor is ON. This alarm will[...]

  • Page 84

    84 Table 53 — Testing Circuit A Oil Solenoid LEGEND FOR FIG. 53 MODE (Red LED) SUB-MOD E KEYP AD ENTRY ITEM DISPLA Y EXP ANSION VA L U E DESCRIPTION (Units) COMMENT SER VICE TEST Service T est Mode TEST Manual Sequence QUIC Q. RE Q P ASS WORD P assword ma y be required 0111 Each will lock in the next digit. If 0111 is not the password, use the ar[...]

  • Page 85

    85 Fig. 53 — 30XW Low Voltag e Control Wiring Schematic A30-4848[...]

  • Page 86

    86 APPENDIX A — T OUCH PILO T DISPLA Y T ABLES The T ouch Pilot™ display tables are forma tted in alphabetical order based on the point name description. The line number corresponds to the line number from the top the T ouch Pilot screen. A cross reference to the CCN tables in Appendix C is provided. Please refer to Appendix C for range and con[...]

  • Page 87

    87 APPENDIX A — T O UCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME TOUCH PILO T P A TH LINE READ/ WRITE CCN T ABLE NAME Ball V alve Closin g Out Circuit A ISO_CL_A MAIN MENUStatusCIR CA_D 22 RO Status Display T ablesCIRCA_D Circuit B ISO_CL_B MAIN MENUStatusCIR CB_D 22 RO Status Display T ables[...]

  • Page 88

    88 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TO UCH PILOT DESCRIPTION TOUCH PILOT POINT NAME TOUCH PILO T P A TH LINE READ / WRITE CCN T ABLE NAME Compressor Output Circuit A COMP_A MAIN MENUStatusCIRCA_D 2 RO Status Display T ablesCIRCA_D Circuit B COMP_B MAIN MENUStatusCIRCB_D 2 RO Status Display T ablesCIRCB_D Circuit [...]

  • Page 89

    89 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Cooler Pump Run Status CPUMPDEF MAIN MENUStatusST A TEGEN 13 RO Status Display T ablesST A TEGEN Cooler Pumps Rotation Mode_07 MAIN MENUStatusMODES 8 RO Status Displa y T ables[...]

  • Page 90

    90 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME TOUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Current Setpoint SP MAIN MENUStatusGENUNIT 31 RW Status Display T ablesGENUNIT Current Unoccupied Time ENDTIME MAIN MENUMaintOCCDEFCMOCC1PO1S 6 R O Maintenance Display T ablesO[...]

  • Page 91

    91 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TO UCH PILOT DESCRIPTION TO UCH PILOT POINT NAME TOUCH PILO T P A TH LINE READ/ WRITE CCN T ABLE NAME DGT Cooling Solenoid Circuit A GASCOOLA MAIN MENUStatusCIRCA_D 8 RO Status Display T ablesCIRCA_D Circuit B GASCOOLB MAIN MENUStatusCIRCB_D 8 RO Status Display T ablesCIRCB_D C[...]

  • Page 92

    92 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME TOUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Economizer Gas T emp Circuit A EC O_TP_A MAIN MENUStatusCIRCA_AN 11 RO Status Display T ablesCIRCA_AN Circuit B EC O_TP_B MAIN MENUStatusCIRCB_AN 11 RO Status Display T ablesCIR[...]

  • Page 93

    93 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME TOUCH PILO T P A TH LINE READ/ WRITE CCN T ABLE NAME EXV P osition Circuit A EXV_A MAIN MENUStatusFREECOOL 20 RO Status Display T ablesFREECOOL Circuit B EXV_B MAIN MENUStatusFREECOOL 30 RO Status Display T ablesFREECOOL Circuit [...]

  • Page 94

    94 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION T OUCH PILOT POINT NAME TOUCH PILO T P A TH LINE READ/ WRITE CCN T ABLE NAME Fan #7 Hours Circuit A hr_fana7 MAIN MENUServiceUPDHRF AN 14 RW Service Configuration T ablesUPDHRF AN Circuit B hr_fanb7 MAIN MENUServiceUPDHRF AN 24 RW Service Configuration T[...]

  • Page 95

    95 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME TOUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Fan Output DO #5 Circuit A fan_a5 MAIN MENUStatusCIRCA_D 15 RO Status Display T ablesCIRCA_D Circuit B fan_b5 MAIN MENUStatusCIRCB_D 15 RO Status Display T ablesCIRCB_D Circuit [...]

  • Page 96

    96 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH P ILOT DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Frost Integrator Gain Circuit A fr_int_a MAIN MENUMaintDEFROSTM 14 RO Maintenance Display T ablesDEFROSTM Circuit B fr_int_b MAIN MENUMaintDEFROSTM 31 RO Maintenance Display T a[...]

  • Page 97

    97 APPENDIX A — T O UCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TO UCH PILOT DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Int PID Gain V arifan hd_ig MAIN MENUServiceSERVICE1 7 RW Service Configuration T ablesSER VICE1 Lag Capac ity Limit V alue LA G_LIM MAIN MENUStatusGENUNIT 22 RO Status Display[...]

  • Page 98

    98 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TO UCH PILOT DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Motor T emp erature Circuit A CP_TMP_A MAIN MENUStatusCIRCA_AN 9 RO Status Display T ablesCIRCA_AN Circuit B CP_TMP_B MAIN MENUStatusCIRCB_AN 9 RO Status Display T ablesCIRCB_A[...]

  • Page 99

    99 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILOT POINT NAME TOUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Pump Inlet Pressure Circuit A fc_inp_a MAIN MENUStatusFREECOOL 17 RO Status Display T ablesFREECOOL Circuit B fc_inp_b MAIN MENUStatusFREECOOL 27 RO Status Display T ablesFREECOO[...]

  • Page 100

    100 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILOT POINT NAME TOUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Occupied From OCCTOD# MAIN MENUScheduleOCC PC01S 3 RO C onfiguration T ablesOCCPC01S Occupied Override Switch OCC_OVSW MAIN MENUStatusST A TEGEN 10 RO Status Display T ablesST A[...]

  • Page 101

    101 APPENDIX A — T O UCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILOT POINT NAME T O UCH PILOT P A TH L INE READ/ WRITE CCN T ABLE NAME Po wer On 1: day-mon-y ear date_on1 MAIN MENUMaintLAST_POR 1 RO Maintenance Display T ablesLAST_POR Po wer On 1: hour-minute time_on1 MAIN MENUMaintLAST_POR 2 RO Maintenance [...]

  • Page 102

    102 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Reclaim Deadband hr_deadb MAIN MENUSetpointSETPOINT 37 RW Setpoint Configuration T ablesSETPOINT Reclaim Entering Fluid HR_EWT MAIN MENUStatusRECLAIM 5 RO Status Display T able[...]

  • Page 103

    103 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME SCT Candidate Circuit A sct_fu_a MAIN MENUMaintF ANCTRL 2 RO Maintenance Display T ablesF ANCTRL Circuit B sct_fu_b MAIN MENUMaintF ANCTRL 6 RO Maintenance Display T ablesF AN[...]

  • Page 104

    104 APPENDIX A — T OUCH PILO T™ DISPLA Y T ABLES (cont) LEGEND TOUCH PILO T DESCRIPTION TOUCH PILO T POINT NAME T OUCH PILOT P A TH LINE READ/ WRITE CCN T ABLE NAME Sub Condenser T em p Cir A hr_subta MAIN MENUStatusRECLAIM 12 RO Status Displa y T ablesRECLAIM Sub Condenser T em p Cir B hr_subtb MAIN MENUStatusRECLAIM 22 RO Status Displa y[...]

  • Page 105

    105 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES MODE — RUN ST A TUS *As data in all of these categories can exceed 999 9 the fol lowing displa y strategy is used: F rom 0-9999 displa y as 4 digits. F rom 9999-99999 displa y xx.xK F rom 99900-999999 displa y as xxxK. ITEM EXP ANSION UNITS R ANGE COMMENT WRITE ST A TUS CCN T ABLE CCN POINT PA G[...]

  • Page 106

    106 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — RUN ST A TUS *As data in all of these categories can exceed 999 9 the fol lowing displa y strategy is used: F rom 0-9999 displa y as 4 digits. F rom 9999-99999 displa y xx.xK F rom 99900-999999 displa y as xxxK. ITEM EXP ANSION UNITS RANGE COMMENT WRITE ST A TUS CCN T ABLE CCN POIN[...]

  • Page 107

    107 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — SER VICE TEST ITEM EXP ANSION UNITS RANGE COMMENT WRITE ST A TUS CCN T ABLE CCN POINT PA G E NO . TEST MANU AL TEST MODE Remote- Off- Enabl e Switch must be set to OFF P osition Remote-Off - Enabl e Switch must be set to ENABLE Po s i t i o n N/A T. R E Q Manual Sequence OFF/ON f o[...]

  • Page 108

    108 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — TEMPERA TURE ITEM EXP ANSION UNITS RANGE COMMENT WRI TE ST A TUS CCN T ABLE CCN POINT PA G E NO . UNIT UNIT TEMPERA TU RES CEWT Cooler Entering Fluid XXX.X (deg F/deg C) –40-245 F (–40-118 C) ST A TEGEN COOL_EWT CL WT Cooler Lea ving Fluid XXX.X (deg F/deg C) –40-245 F (–40[...]

  • Page 109

    109 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — SET POINTS ITEM EXP ANSION UNITS RANGE COMMENT WRI TE ST A TUS CCN T ABLE CCN POINT PA G E NO . COOL COOLING SETPOINTS CSP .1 Cooling Setpoint 1 XXXX.X (deg F/deg C) –20-70 F (–29-21 C), Def ault = 44.0 for cible SETPOINT csp1 25, 41, 55 CSP .2 Cooing Setpoint 2 XXXX.X (deg F/d[...]

  • Page 110

    110 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — PRESSURE MODE — INPUTS ITEM EXP ANSION UNITS RANGE COMMENT WRI TE ST A TUS CCN T ABLE CCN POINT PA G E NO . PRC.A CIRCUIT A PRESSURES DP .A Discharge Pressure Cir A XXX.X (psig/kP a) CIRCA_AN DP_A 56 SP .A Suction Pressure Circ A XXX.X (psig/kP a) CIRCA_AN SP_A OP .A Oil Pressure[...]

  • Page 111

    111 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — OUTPUTS MODE — CONFIGURA TION ITEM EXP ANSION UNITS RANGE COMMENT WRI TE ST A TUS CCN T ABLE CCN POINT PA G E NO . CIR.A CIRCUIT A OUTPUTS CP .A Compressor A Relay OFF/ON CIRCA_D CP_A HT .A Oil Heater Circu it A OFF/ON OIL_HT_A SL1.A Slide V alve 1 Cir A OFF/ON SLID1_A SL2.A Slid[...]

  • Page 112

    112 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — CONFIGURA TION (cont) ITEM EXP ANSION UNITS RANGE COMMENT DEF A UL T CCN T ABL E CCN POINT P A GE NO. UNIT UNIT CONFIGURA TION TYPE Unit T ype 3 = W ater-Cooled 4 = Heat Machine Air cooled F ACT ORY unit_typ TO N S Unit Size XXX 0 to 1800 (nominal siz e) F ACT OR Y unitsize V AR.A [...]

  • Page 113

    113 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — CONFIGURA TION (cont) ITEM EXP ANSION UNITS RANGE COMMENT DEF AUL T CCN T ABLE CCN POINT P AGE NO . OPTN OPTIONS CONFIGURA TI ON CCNA CCN Address XXX 1-239 1 N/A CCNA CCNB CCN Bus Number XXX 0-239 0 N/A CCNB BAUD CCN Baud Rate 2400 4800 9600 19200 38400 9600 N/A BAUD LO AD Loading [...]

  • Page 114

    114 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — TIMECLOCK *P assword protected. ITEM EXP ANSION UNITS RANGE COMMENT WRITE ST A TUS CCN T ABLE CCN POINT PA G E NO . TIME TIME OF DA Y HH.MM Hour and Minute XX.XX 00.00-23.59 forcible* N /A HH.MM DA T E DA Y , DA T E MNTH Month 1= Januar y 2=F ebruary 3=March 4=April 5=May 6=June 7=[...]

  • Page 115

    115 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — TIMECLOCK (cont) ITEM EXP ANSION UNITS RANGE COMMENT WRITE ST A TUS CCN T ABLE CCN POINT PA G E NO . SCH1 SCHEDULE 1 PER.7 P eriod 7 Occ/Unocc Sel PER.7 OCC.7 Occupied Time XX.XX 00:00-23:59 for cible OCCP01S OCCTOD7 PER.7 UNO .7 Unoccupied Time XX.XX 00:00-23:59 for cible OCCP01S [...]

  • Page 116

    116 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — TIMECLOCK (cont) *Holida ys range from 1-16. Item has same structure, with the only diff erence being the tw o-number identifier . ITEM EXP ANSION UNITS RANGE COMMENT WRITE ST A TUS CCN T ABLE CCN POINT PA G E NO . PER.7 P eriod 7 Occ/Unocc Sel PER.7 OCC.7 Occupied Time XX.X X 00:0[...]

  • Page 117

    117 APPENDIX B — NA VIGA T OR™ DISPLA Y T ABLES (cont) MODE — OPERA TING MODE *Up to six current operating modes will be displa yed. NO TE: See Oper ating Modes star ting on page 54. MODE — ALARMS *Expanded displa y will be actual alar m description. †History of up to five past alarms will be displa yed. **History of fifty past alarms wil[...]

  • Page 118

    118 APPENDIX C — CCN T ABLES ST A TUS DISPLA Y T ABLES *Not supported. T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A TUS CIRCA_AN CIRCUIT A ANALOG V ALUES P ercent T otal Capacity 0 - 100 % CAP A_T Discharge Pressure nnn.n psi DP_A Suction Pressure nnn.n psi SP_A Economizer Pr essure nnn.n psi ECON_P_A Oil Pressure nnn.n psi OP_A OIl Pre[...]

  • Page 119

    119 APPENDIX C — CCN T A BLES (cont) ST A TUS DISPLA Y T ABLES (cont) *Not supported. T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A T US CIRCC_AN CIRCUIT C ANALOG V ALUES P ercent T otal Capacity 0-100 % CAPC_T Discharge Pressure nnn.n psi DP_C Suction Pressure nnn.n psi SP_C Economizer Pr essure nnn.n psi ECON_P_C Oil Pressure nnn.n psi[...]

  • Page 120

    120 APPENDIX C — CCN T A BLES (cont) ST A TUS DISPLA Y T ABLES (cont) *Not supported. †The fo rced value will be used. T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A TUS GENUNIT Operati ng T ype Control T ype L-Off-Local Of f (Comfo r tLink Controls= On/Off Switch=Opened ) L-On-Loc al On L-Sched-Local On/Off State based on Time Sched ul[...]

  • Page 121

    121 APPENDIX C — CCN T A BLES (cont) ST A TUS DISPLA Y T ABLES (cont) *Not supported. NO TE: Disab le quick test: all th e quick test paramete rs shall be reset to 0. *Not supported. NO TE: Disab le quick test: all th e quick test paramete rs shall be reset to 0. *Y es = ser vice test function enab le. †0 = capacity froz en (unchanged). 1 = cap[...]

  • Page 122

    122 APPENDIX C — CCN T A BLES (cont) ST A TUS DISPLA Y T ABLES (cont) *Not supported. T ABLE DISPLA Y NAME RANGE UNITS POINT NAME FREECOOL* GENERAL P ARAMETERS F ree Cooling Disable ? Y es/No — FC_DSBLE L WT – OA T Delta ±nnn.n °F fc_delta Current Cooling P ower nnn °F cool_pwr Estimated F reeCoo P ower nnn °F fc_pwr Next Session Allo wed[...]

  • Page 123

    123 APPENDIX C — CCN T A BLES (cont) ST A TUS DISPLA Y T ABLES (cont) *Not supported. T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A T US RECLAIM* Heat Reclaim Select Y es/no RECL_SEL Reclaim Condenser Pump On/Off CONDPUMP Reclaim Condenser Flow On/Off CONDFLOW Reclaim Condenser Heater On/Off cond_htr Reclaim Entering Fluid ±nnn.n °F HR[...]

  • Page 124

    124 APPENDIX C — CCN T A BLES (cont) CONFIGURA TION T ABLES *Da y of week where da ylight savings time wi ll occur in the mor ning (at 2:00 am). Da ylight savings time occurs on Sunda y (7) morning, 1 hour shall be added when e nter ing and 1 hour subtra cted when lea ving. †Date once selected (from 1) shall occur in the week number entered. 1:[...]

  • Page 125

    125 APPENDIX C — CCN T A BLES (cont) CONFIGURA TION T ABLES (cont) T ABLE DISPLA Y NAME RANGE DEF A UL T UNITS POINT NAME CFG_T ABn (n = 1 to 8) Display x table number 1 85 tab_nb_1 Display n v ar number 1 4 var_nb _1 Display n tab le number 2 85 tab_nb_2 Display n v ar number 2 20 var_nb_2 Display n tab le number 3 85 tab_nb_3 Display n v ar num[...]

  • Page 126

    126 APPENDIX C — CCN T A BLES (cont) CONFIGURA TION T ABLES (cont) *Not supported. †Only condenser pu mp sequence 1 is supported. NO TES: 1. Flow chec ked if pump off needed when a command is sent to t he primary pump to pre vent cooler from freezing in winter conditions. Command will set the cooler flow s witch to closed while the controls sto[...]

  • Page 127

    127 APPENDIX C — CCN T A BLES (cont) SETPOINT CONFIGURA TION T ABLES *Not suppor ted. MAINTENANCE DISPLA Y T ABLES * Not suppor ted. NOTES: T ables for displa y only . Forcing shall not be suppor ted on this maintenance screen. T ABLE DISPLA Y NAME RANGE DEF A UL T UNITS POINT NAME SETPOINT COOLING Cooling Setpoint 1 –20-70 44.0 °F csp1 Coolin[...]

  • Page 128

    128 APPENDIX C — CCN TA BLES (cont) MAINTENANCE DISPLA Y T ABLES (cont) *Not supported. T ABLE DISPLA Y NAME RANGE UNITS POINT NAME WRITE ST A TUS F ANCTRL* Cir A SCT Control P oint ±nnn.n °F sct_sp_a Cir A SCT Candidate ±nnn.n °F sct_fu_a Cir A F an Cycle Counter ±nnn.n fan cyc_a Cir A Optimal F an Count ±nnn.n fancop_a Cir B SCT Control P[...]

  • Page 129

    129 APPENDIX C — CCN T A BLES (cont) MAINTENANCE DISPLA Y T ABLES (cont) *Alwa ys CCN for the sla ve chiller . †Slav e ch iller chillstat value **This decision is consistent for master chiller only . It shall be set by default to 0 for the sla ve chiller. ††This item is true when chiller has loaded its total available capacity tonnage. NOTE[...]

  • Page 130

    130 APPENDIX C — CCN T A BLES (cont) SER VICE CONFIGURA TION T ABLES *Not supported. †0 = No economizer . NO TES: 1. T able used to disa ble compressors f or maintenance purposes. The capacity control will consider that these compressors (once set to YES) are f ailed manually (no alarm will appear). 2. Enter unit size. This item allo ws the con[...]

  • Page 131

    131 APPENDIX C — CCN T A BLES (cont) SER VICE CONFIGURA TION T ABLES (cont) *Not supported. *Not supported. Must be configured at def ault. NO TE: This tabl e shall be downloadable at a ny time . Howev er, modified v alue shall not be used by tasks until the unit is in OFF stat e. This shall no t apply to the V arifan gains that shall be modified[...]

  • Page 132

    132 APPENDIX C — CCN T A BLES (cont) SER VICE CONFIGURA TION T ABLES (cont) NO TE: This table sha ll be used for purposes of transplanting the de vices on time in the ev ent of a module hardware f ailure or s oftware up grade via do wnloading. It shall be usable only if all items are still null . Afte rwards , its access shall be denied. T ABLE D[...]

  • Page 133

    133 APPENDIX D — 30XW150-400 CPM DIP SWITCH ADDRESSES ACROSS-THE-LINE START — STANDARD CONDENSING ACROSS-THE-LINE START — HI GH CONDENSING/HEA T MA CHINE LEGEND NO TE: Sizes 15 0-200 are Circuit A only . 30XW UNIT SIZE VO LT AG E (3 ph, 60H z) CPM DIP SWITCHES CIRCUIT A CIRCUIT B MT A SETTING CIRCUIT A MT A SETTING CIRCUIT B 123456781234 5678[...]

  • Page 134

    134 APPENDIX D — 30XW150-400 CPM DIP SWITCH ADDRESSES (cont) WYE-DEL T A ST ART — ST AND ARD CONDENSING WYE-DEL T A ST ART — H IGH CONDENSING/HEA T MA C HINE LEGEND NOTE: Siz es 150-200 are Circuit A only . 30XW UNIT SIZE VO LT AG E (3 ph, 60Hz) CPM DIP SWITCHES CIRCUIT A CIRCUIT B MT A SETTING CIRCUIT A MT A SETTING CIRCUIT B 123456781234567[...]

  • Page 135

    135 APPENDIX E — PIPING AND INSTRUMENT A TION 30XW UNIT ECON OMIZED PIPING A30-4849[...]

  • Page 136

    136 APPENDIX E — PIPING AND INSTRUMENT A TION 30XW UNIT NON-ECONOMIZED PIPING A30-4850[...]

  • Page 137

    137 APPENDIX F — GLOBAL TIME SCHEDULE CONFIGURA TION FOR i-V u ® DEVICE AND CSM CONTROLLER The following is intended to assist a Carrier technician in configuring a 30XW chiller so either the i-V u ® 4.0 or 4.2 de- vice, CCN Global Schedule Master , or a CSM controller can Start and S top the chiller . The 30XW chiller has unique table naming c[...]

  • Page 138

    138 APPENDIX F — GLOBAL TIME SCHEDULE CONFIGURA TION FOR i-V u ® DEVICE AND CSM CONTROLLER (cont) Step 2 — Chiller Mode Selection — There are 3 different mode selections fo r the chiller which ar e described below . In order to change th e mode from the default configura- tion, a scrolling marquee or handheld Navigator™ device must be used[...]

  • Page 139

    139 APPENDIX F — GLOBAL TIME SCHEDULE CONFIGURA TION FOR i-V u ® DEVICE AND CSM CONTROLLER (cont) Fig. F — Schedule T ype Example (W eekly) A30-4856 Fig. G — CCN Global Schedule Nu mber A30-4857[...]

  • Page 140

    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 . 04-53300024-01 Printed in U .S.A. Fo rm 30XW-1T Pg 140 11-09 Replaces: New Copy right 2009 Carrier Cor poration INDEX 4-20 mA temperat ure reset 36 Actual start-up 47 Alarms and alerts 68[...]

  • Page 141

    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 . 04-53300024-01 Printed in U.S. A. Form 30XW -1T CL-1 11-09 Replaces: New ST ART -UP CHECKLIS T FOR 30XW LIQUID CHILLERS A. PROJECT INFORMA TION Job Name __________________________________[...]

  • Page 142

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

  • Page 143

    CL-3 Recor d Software V ersions (Press ENTER & ESCAPE simultaneously to obtain software versions) Recor d Configuration Info rmation *Not suppor ted. T OUCH PIL O T™ DESRIPTION NA VIGA TOR ITEM NA VIGA T OR™ SUB-MODE ITEM EXP ANSION Software P ar t Number APPL Run Status VERS CSA-SR- __ __ __ __ __ __  T O UCH PILO T DESCRIPTION NA VIGA [...]

  • Page 144

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

  • Page 145

    CL-5 Recor d Configuration Info rmation *Not suppor ted. T O UCH PILO T™ DESCRIPTION NA VIGA TOR ITEM NA VIGA TOR™ SUBMODE RANGE DEF A UL T ENTR Y Cooling Setpoint 1 CSP .1 Set Point COOL XXX.X 44.0° F Cooling Setpoint 2 CSP .2 Set Point COOL XXX.X 44.0° F Cooling Ice Setpoint CSP .3 Set Point COOL XXX.X 44.0° F Current No Reset V alue (Cool[...]

  • Page 146

    CL-6 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -[...]

  • Page 147

    CL-7 Operating Data: Record the following information from the Run Status, T emperatures and Outputs Modes when machine is in a stable operating condition. TEMPERA TURES COOLER ENTERING FLUID EWT _______________ COOLER LEA VING FLUID L WT _______________ CONDENSER ENTERING FLUID EWT _______________ CONDENSER LEA VING FLUID L WT _______________ CONT[...]

  • Page 148

    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 . 04-53300024-01 Printed in U .S.A. Form 30XW -1T CL-8 2-10A 11-09 Replaces: Ne w Copy right 2009 Carrier Cor poration - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - [...]