Carrier Heat Pump 50RLP User Manual

50RLP

Aquazone™ System Control Panel

Water Source Heat Pump Units

Installation Instructions

CONTENTS

SAFETY CONSIDERATIONS

Page

Installation and servicing of air-conditioning equipment can

be hazardous due to system pressure and electrical compo-

nents. Only trained and qualified service personnel should

install, repair, or service air-conditioning equipment.

SAFETY CONSIDERATIONS. . . . . . . . . . . . . . . . . . . . . . . 1

GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1,2

Aquazone System Control Panel Functionality . . . . . .2

Stand-Alone Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2

CCN Systems Using PremierLink™ Controls . . . . . . . .2

COMPONENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9

Aquazone System Control Panel Hardware . . . . . . . . . .2

Water Source Heat Pumps with

Untrained personnel can perform basic maintenance

functions. All other operations should be performed by trained

service personnel. When working on air-conditioning equip-

ment, observe precautions in the literature, tags and labels

attached to the unit, and other safety precautions that may

apply.

PremierLink Controller Hardware. . . . . . . . . . . . . . . . . .7

Field-Supplied Hardware

Improper installation, adjustment, alteration, service, main-

tenance, or use can cause explosion, fire, electrical shock or

other conditions which may cause personal injury or property

damage. Consult a qualified installer, service agency, or your

distributor or branch for information or assistance. The quali-

fied installer or agency must use factory-authorized kits or

accessories when modifying this product. Refer to the individ-

ual instructions packaged with the kits or accessories when

installing.

Follow all safety codes. Wear safety glasses and work

gloves. Use quenching cloth for brazing operations. Have fire

extinguisher available. Read these instructions thoroughly and

follow all warnings or cautions attached to the unit. Consult

local building codes and the National Electrical Code (NEC)

for special installation requirements.

Understand the signal words — DANGER, WARNING,

and CAUTION. DANGER identifies the most serious

hazards which will result in severe personal injury or death.

WARNING signifies hazards that could result in personal

injury or death. CAUTION is used to identify unsafe practices,

which would result in minor personal injury or product and

property damage.

Recognize safety information. This is the safety-alert

symbol ( ). When you see this symbol on the unit and in

instructions or manuals, be alert to the potential for personal

injury.

for Stand-Alone Systems. . . . . . . . . . . . . . . . . . . . . . . . . .8

Field-Supplied Hardware for CCN Applications . . . . . .9

INSTALLATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10-14

Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

Mounting Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

Install Thermostat, Sensors and Switches. . . . . . . . . .13

Install Loop Water Supply and Return

Temperature Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . .13

Install Loop Water Pressure Sensor . . . . . . . . . . . . . . . .13

Install Loop Water Flow Switch . . . . . . . . . . . . . . . . . . . . .13

Connect to CCN Communication Bus . . . . . . . . . . . . . .14

START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-20

LID Power Up Display. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14

Log On to the LID Display . . . . . . . . . . . . . . . . . . . . . . . . . .14

Change the Default Password . . . . . . . . . . . . . . . . . . . . . .15

Set the Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15

Configure Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16

Program Set Points. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16

Check System Parameters. . . . . . . . . . . . . . . . . . . . . . . . . .16

Display Alarm History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16

Configure the Custom Programming Selections . . . . .16

Set the Aquazone System Control Panel

Controller Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

Log Off from Controller. . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

LID Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

Sequence of Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

•

HEAT REJECTION

HEAT ADDITION

WATER CIRCULATION

CONFIGURATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21-27

Hardware Points. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21

Software Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23

Loop Supply Water Set Point . . . . . . . . . . . . . . . . . . . . . . .24

System Pressure Set Point . . . . . . . . . . . . . . . . . . . . . . . . .24

Global Dictionary. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24

Heat Pump Default Configuration. . . . . . . . . . . . . . . . . . .26

Cool Source Default Configuration . . . . . . . . . . . . . . . . .26

Heat Source Default Configuration . . . . . . . . . . . . . . . . .26

Occupancy Configuration Screen . . . . . . . . . . . . . . . . . .26

Network Time Schedule . . . . . . . . . . . . . . . . . . . . . . . . . . . .27

Holiday Schedules. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27

Electrical shock can cause personal injury or death. Before

installing or servicing system, always turn off main power

to system. There may be more than one disconnect switch.

Turn off accessory heater power if applicable.

GENERAL

IMPORTANT: The installation of water source heat pump

units and all associated components, parts, and accessories

which make up the installation shall be in accordance with

the regulations of ALL authorities having jurisdiction and

MUST conform to all applicable codes. It is the responsi-

bility of the installing contractor to determine and comply

with ALL applicable codes and regulations.

IMPORTANT: Read the entire instruction manual before

starting installation.

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.

PC 111 Catalog No. 535-00077 Printed in U.S.A. Form 50RLP-1SI Pg 1 1-03 Replaces: New

Book 1

Tab 5a 5a

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EXPANSION

TANK

COOLING

TOWER

AIR SEPARATOR

PUMP

FLOW

SENSOR

BOILER

TEMP.

SENSOR

WSHP

T-STAT

AQUAZONE

SYSTEM

CONTROL

PANEL

WSHP

LEGEND

Control Wiring

Loop Water Piping

T-STAT

Fig. 2 — Typical Stand-Alone WSHP System

If variable frequency drives are utilized for system pumps,

no pump control relays are specified. Each relay contains a red

light-emitting diode (LED), which indicates the relay coil is

energized. The pump control relays are located in the upper left

hand corner of the system control panel. See Fig. 4. Wiring is

shown in Fig. 5A-5C. Specifications for the pump control

relays are as follows:

modulating valve operation for steam or water are utilized, no

output transducer card is specified. The output transducer is a

solid-state multi-stage device used for staging control from a

single analog signal. Output transducers are located in the

upper left hand corner of the Aquazone System Control Panel

underneath the pump control relays. See Fig. 4. Specifications

for the pump control relays are as follows:

Voltage Input:

24 vdc @ 15 mA, 14 vac @ 30 mA,

115 vac @ 20 mA, 230 vac

@ 20 mA.

Supply Voltage:

24 vac ± 10% @ 100 mA,

24 vdc ± 10% @ 50 mA

4-20 mA

2 SPDT relays for 2-stage,

4 SPDT relays for 4-stage.

5A @ 120 vac

Input Signal:

Output:

Contact Rating:

10 A res. @ 115 vac,

7 A res. @ 230 vac/28 vdc,

N.O.: ¹/₆hp @ 115 vac.

Relay rating:

Accuracy & repeatability: ± 1%

Set point adjustment:

Input impedance:

Temperature Range: –60 F to 185 F

Indication:

Enclosure:

Dimensions:

LED

18 ga. metal back

5.125-in. x 3.125-in. x 2.5-in.

(HxWxD) or 5.125-in. x 9.5-in. x

2.5-in. (HxWxD)

25-turn potentiometers

250 W (mA input), 10 kW

(V input)

32 F to 158 F

5 to 95% relative humidity

non-condensing

3.25-in. x 3.5-in. x 1.375-in.

(HxWxD) for 2-stage, 3.25-in. x

5.5-in. x 1.375-in. (HxWxD)

for 4-stage

Temperature Range:

Humidity Limit:

OUTPUT TRANSDUCERS — For both stand-alone and

CCN systems (based on the stages of heat addition or rejection

required) the Aquazone™ system control panel can be ordered

with a combination of 2-stage and 4-stage output transducers to

provide 2, 4, 6, or 8 stages. The combination desired is speci-

fied in the 50RLP model nomenclature in digit 6 to specify heat

rejection stages and digit 7 to specify heat addition stages. See

Fig. 1. If variable speed cooling tower fan operation and/or

Dimensions:

Relay Differential:

0.5 mA or 0.375 V.

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PREMIERLINK

ROOM SENSOR

ZONE 2

ZONE 1

WSHP 2

WSHP 1

WSHP CONTROLLER

PREMIERLINK

WSHP CONTROLLER

FAN(S)

TOWER

BOILER

SPRAY PUMP

AQUAZONE SYSTEM

STAGE 2

STAGE 1

LOOP CONTROL PANEL

(CARRIER COMFORT

CONTROLLER)

LCP

MAIN

PUMPS

STANDBY

LOOP TEMP

MASTER CONTROL PANEL

(CARRIER COMFORT

CONTROLLER)

VENTILATION

FAN

MCP

LOCAL

COMPUTER

REPEATER: INTERFACE

PC TO NETWORK

TELEPHONE

LINE

REMOTE

COMPUTER

TELINK WITH

MODEM CONTROLLER

DATA COLLECTION

LOADSHED

D.C.

L.S.

LIGHTS

CC6400

T.B.

COMFORT CONTROLLER

TENANT BILLING

EQUIPMENT

Fig. 3 — CCN Water Source Heat Pump System with PremierLink™ Controllers

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HOA

Processor

Input/Output 1

Input/Output 2

Low Voltage

Zone Thermostat

Control Relays

Pump 1

Pump 2

UCS-421

MODE

FLT SEQ

MODE

FLT SEQ

INPUT

TYPE

Cool Stages 1

UCS-421

MODE

FLT SEQ

MODE

FLT SEQ

INPUT

TYPE

Cool Stages 2

UCS-421

MODE

FLT SEQ

MODE

FLT SEQ

INPUT

TYPE

Heat Stages 1

UCS-421

MODE

FLT SEQ

MODE

FLT SEQ

INPUT

TYPE

Heat Stages 2

PANDUCT®

WIRING DUCT

Transformer 1

Transformer 2

Transformer 3

POWER SWITCH

CONVENIENCE

OUTLET

CONDUIT

Fig. 4 — Aquazone™ System Control Panel

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COMPLETE C CONTROL

(IN WSHP)

STARTER

COIL

OL’s

FIRE

FREEZE,

ETC.

CONTROL RELAY

STAGING CARD

SYSTEM

ZONE

RELAYS

(1-18)

SWITCH S-1

TP WIRES

(-)

(+)

TO COMFORT

CONTROLLER

Fig. 5C — Control Relay Wiring for Pump

W1 Y1

Start/Stop or Cooling Tower Fan

THERMOSTAT

Fig. 5A — System Zone Relay Wiring

(Aquazone™ System Control Panel Used to

Control a Single Thermostat)

PANEL 24 VAC POWER

COMPLETE C CONTROL

(IN WSHP)

SYSTEM ZONE

RELAYS

(1-18)

W2 Y2

THERMOSTAT

TYPICAL

FIELD-INSTALLED

RELAYS

(ONE PER WSHP)

TO OTHER WSHP COMPLETE C CONTROLS AND THERMOSTATS

Fig. 5B — System Zone Relay Wiring

(Aquazone System Control Panel Used to Control Multiple Thermostats)

ZONE THERMOSTAT CONTROL RELAYS — A unique

feature of the Aquazone system control panel is the capability to

add zone thermostat control relays. This feature is used when the

Aquazone system control panel is utilized in a stand-alone type

of installation. Either a set of 10 or 18 relays can be selected

from the 50RLP model nomenclature in digit 9 to control either

10 or 18 zones, respectively. If selected in the model nomencla-

ture, zone control relays are located on the right hand side of the

system control panel. See Fig. 4. See Fig. 5A-5C for wiring.

primary power to the power switch and convenience outlet in

the field. Transformers include a manual reset button for reset-

ting the circuit breaker. Control transformers are located on the

bottom half of the system control panel. Specifications for the

control transformers are as follows:

Primary:

120/208/240 vac

Secondary: 24 vac

Frequency: 60 Hz

MOUNTING RAILS AND WIRING DUCT — All exposed

panel wiring is low voltage. Line voltage wiring to the control

transformers, control circuits for pumps, cooling tower fans,

and boilers is factory-installed in conduit, using wiring duct,

and on mounting rails.

CONTROL TRANSFORMERS — Control transformers are

supplied with the Aquazone system control panel and are wired

to the power switch and convenience outlet. The control

transformers provide power to the nominal 24 VAC circuit in

Aquazone system control panel. The contractor will supply the

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POWER RECEPTACLE — A power receptacle is provided

in the Aquazone™ system control panel and is located in the

bottom left corner. Specifications for the power receptacle are

as follows:

provide more water. When solenoid valves close, the system

pressure rises, which results in the variable frequency drive

slowing down to allow the pump to provide less water.

WATER FLOW SWITCH — A factory-provided water flow

switch is included with the Aquazone system control panel and

must be field-installed in the water loop piping. The flow

switch is connected to the control panel by a cable with a

watertight connector. This device uses a triac output that cannot

be connected directly to the Main Base Board. Therefore, a

control relay is used to signal the Main Base Board that loop

water flow is detected. The switch contains a fifteen-turn

adjustment potentiometer, to be used to adjust the set point in a

range of 3 to 60 cm/sec. The factory set point is 20 cm/sec.

Power: 120 vac

Rating: 15A @ 120 vac for receptacles

15A @ 120 vac for switch

250 V for fuse

WATER TEMPERATURE SENSORS — Two water tem-

perature sensors and thermowells have been provided with the

Aquazone system control panel. The first sensor is utilized to

read loop supply water temperature, such that the system

control panel can adjust heat rejection and heat addition

equipment to maintain the loop temperature based on user

input. The second sensor may be installed to monitor return

loop water temperature. The active sensing element is a highly

stable precision thermistor material accurate to within ± 0.36 F.

The temperature range of the sensor is 10 F to 230 F.

The potentiometer switch may be adjusted down to zero

velocity (no flow) or above 60 cm/sec, however operation

in those ranges may not be linear or reliable.

WATER PRESSURE SENSOR — A water pressure sensor is

provided with the Aquazone system control panel with variable

speed pumping only, and is utilized to operate variable frequen-

cy drives for system pumps. The water sensor senses system

pressure and the pressure is sent to the system control panel.

The Aquazone system control panel speeds up or slows down

the variable frequency drive to control the pump in order to

keep the system at the correct pressure.

When a variable frequency drive is used for system pump-

ing, the Aquazone water source heat pumps are typically

furnished with a factory or field-mounted solenoid valve that

allows water to flow though the heat pump. When solenoid

valves open, the system pressure drops, which results in the

variable frequency drive speeding up to allow the pump to

Water Source Heat Pumps with PremierLink™

Controller Hardware — When a CCN system installa-

tion is implemented, a factory-mounted PremierLink controller

is provided with the water source heat pump units. The package

from the factory includes the PremierLink controller, supply air

temperature sensor, and leaving water temperature sensor.

PREMIERLINK CONTROLLER — PremierLink controllers

can be provided with any Aquazone water source heat pump

product by selecting this option in the model nomenclature.

See Fig. 6.

The PremierLink controller is provided with the Complete C

unit controller. Factory supplied wiring is illustrated in Fig. 7.

Fig. 6 — PremierLink™ Control Module

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Carrier’s diagnostic standard tier display tools such as

Navigator™ or Scrolling Marquee can be used with the

PremierLink™ controller. Access is available via an RJ-11

connection or a 3-wire connection to the communication bus.

Computers equipped with Carrier user interface software such

as Service Tool, ComfortVIEW™, or ComfortWORKS®

software are used to interface with the system. When used as

part of the CCN, other devices such as the CCN data transfer,

Linkage Thermostat, or system control panel comfort

controller can read data from or write data to the PremierLink

Controller.

SUPPLY AIR TEMPERATURE SENSOR — A factory-

installed supply air temperature sensor is provided with the

PremierLink controller. Wiring of the temperature sensor is

shown in Fig. 7. The sensor is a 10 kohm thermistor, which is

protected by a stainless steel housing probe. Probe is ¹/₄-inch in

diameter and 1.5-in. long. Wire is 22 AWG (American Wire

Gage), 7/30 copper wire, PVC white, 2 conductor type.

LEAVING WATER TEMPERATURE SENSOR — A factory-

installed leaving water temperature sensor is provided with

PremierLink controller. Wiring of the temperature sensor is

shown in Fig. 7. The sensor is a 10 kohm thermistor is protect-

ed by a stainless steel housing probe. Probe is ¹/₄-inch. in diam-

eter and 1.5-in. long. Wire is 22 AWG, 7/30 copper wire, PVC

white, 2 conductor type.

Field-Supplied Hardware for Stand-Alone Sys-

tems — To utilize the Aquazone™ system control panel in a

stand-alone configuration, individual Aquazone thermostats

(or compatible equivalent) are required for water source heat

pump units.

AQUAZONE THERMOSTAT — A field-supplied Carrier

thermostat is required to maintain space temperature for stand-

alone water source heat pump installations. There are five

different Aquazone thermostats available for stand-alone appli-

cations. See Table 1.

COMPLETE

CONTROL

PREMIER

LINK

PWR

HS1/EXH/RVS

LEGEND

CR — Control Relay

LWT — Leaving Water Temperature Sensor

SAT — Supply Air Temperature Sensor

SPT — Space Temperature Sensor

CMP1

FAN

NOTE: Reversing valve is on in Cooling

mode.

AL1

AL2

Fig. 7 — PremierLink Controller Applications with Complete C Control

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Table 1 — Aquazone™ Thermostats

ORDERING

NUMBER

THERMOSTAT TYPE

FUNCTIONS

50QE900-220WS

50QE900-220LA

50QE900-NPWS

Aquazone 7-Day Programmable

2 stages heating, 2 stages cooling, auto changeover

Fahrenheit and Celsius temperature scales

4 settings per day

24 vac

Backlit LCD

Carrier

COOL

AUTO

HEAT

Keypad

5-minute compressor protection

NEVERLOST™ memory

3 security levels

Aquazone Light Activated, 7-Day Programmable

2 stages heating, 2 stages cooling, auto changeover

4 settings per day

24 vac

Carrier

Keypad lockout

COOL

AUTO

HEAT

5-minute compressor protection

Occupied with lights on, unoccupied with lights off

NEVERLOST memory

3 security levels

Aquazone Non-programmable

2 stages heating, 2 stages cooling, auto changeover

5-minute built-in compressor protection

Locking cover included

Fahrenheit and Celsius temperature scales

Large display

COOL

AUTO

HEAT

Keypad lockout

Backlit display or B terminal

NEVERLOST memory

Dual set point with adjustable deadband

Back plate with terminals

50QE900-511WS

Aquazone 5-1-1 day programmable

2 stages heating, 2 stages cooling, auto changeover

5-minute built-in compressor protection

Keypad lockout and locking cover included

Fahrenheit and Celsius temperature scales

4 settings per day

COOL

AUTO

HEAT

Backlit and configurable display

O or B terminal

NEVERLOST memory

Dual set point with adjustable deadband

Self prompting program

50QE900-250FS

Aquazone Flush Mount, 7-Day Programmable

2 stages heating, 2 stages cooling, auto changeover

4 settings per day, Holiday/vacation programming

Self prompting program with copy command locking

cover plate with tamperproof screws

Fahrenheit and Celsius temperature scales

Set point limiting

Mounts flush to the wall

NEVERLOST memory

Dual set point with adjustable deadband and B terminal

Remote sensor capability (sold separately): Wireless,

(33CSRFS-RC transmitter and 33CSRFS-RE receiver),

wired with override (33CSCEN-WB), duct mounted (33CSSEN-DS)

Sensor with Override Button, Set Point Adjustment, and

Manual fan control.

Field-Supplied Hardware For CCN Applica-

tions — The factory-installed PremierLink™ controller for

the water source heat pump unit is configurable with a variety

of Carrier space temperature sensors.

SPACE TEMPERATURE SENSOR (SPT) — A field-supplied

Carrier space temperature sensor is required to maintain space

temperature in sensor mode. There are three sensors available

for this application: the 33ZCT55SPT Space Temperature

Sensor with Override Button, the 33ZCT56SPT Space

Temperature Sensor with Override Button and Set Point

Adjustment, and the 33ZCT58SPT T58 Communicating Room

INDOOR AIR QUALITY CO₂SENSOR — An indoor air

quality sensor is required for CO₂level monitoring. Three

different CO₂sensors are available for this application: the

33ZCSENCO2 sensor is an indoor, wall-mounted sensor with

an LED display, the 33ZCT55CO2 sensor is an indoor,

wall-mounted sensor without display (also includes a space

temperature sensor with override button), the 33ZCT56CO2

sensor is an indoor, wall-mounted sensor without display (also

includes a space temperature sensor with override button and

temperature offset).

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wiring. For proper service of the Aquazone system control

panel, the following service clearances are recommended:

INSTALLATION

Inspection — Inspect the package contents for visual de-

fects that may have occurred during shipping. If there is any

damage, contact your local representative before proceeding.

Height: 54 in.

Width: 42 in.

Depth: 36 in.

Mounting Location — The Aquazone™ system control

panel should be located indoors. Be sure the location prevents

moisture and rain from coming into contact with the internal

hardware. Avoid areas where excessive moisture, corrosive

fumes, or vapors are present. The ambient temperature range at

the location should be between 32 to 125 F. Do not install the

Aquazone system control panel in electrical interference or

high radio frequency areas. Select a location which will be safe

from water damage and allow sufficient access for service and

Mounting — Mount the Aquazone system control panel to

a wall with screws or bolts (not provided). Attach through the

mounting holes provided in enclosure. Provide clearance to

open key-locked access door. Refer to the mounting sheet in-

cluded with the Aquazone system control panel for additional

detailed mounting instructions.

Wiring — The Aquazone System Control Panel inputs and

outputs are shown in Table 2.

Table 2 — Aquazone System Control Panel Inputs and Outputs

PARAMETER

Processor Module

POWER

INPUT/OUTPUT

TERMINAL

Loop Water Flow

24 vdc

10 K thermistor

4-20 mA

24 vdc

Input

FLOW

SSWT

SRWT

SDP

RMTOCC

System Supply Water Temp.

System Return Water Temp.

System Differential Pressure

Remote Occupied Mode

System Shut Down

24 vdc

Input

ALLSYS

Override Input for Zones 1 & 2

Pump Number 1 & 2 Speeds

Cooling Tower 1 & 2 Speed/Level

Heat Source 1 & 2 Speed/Level

System Enable for Zone 1 & 2

First Optional I/O Module

Override Input for Zone 3 to 10

System Enable for Zone 3 to 10

Second Optional I/O Module

Override Input for Zone 11 to 18

System Enable for Zone 11 to 18

Pump Control

24 vdc

Input

OVRIZ1, OVRIZ2

PUMP1, PUMP2

CTL1, CTL2

BLRL1, BLRL2

SYSZ1, SYSZ2

4-20 mA

24 vdc

Output

24 vdc

Input

OVRIZ3 — OVRIZ10

SYSZ3 — SYSZ10

24 vdc

Input

OVRIZ11 — OVRIZ18

SYSZ11 — SYSZ18

Occupancy Schedule 1 to 18

Network Global Schedule 65 to 82

Override Input 1 to 18

Logic

Internal Parameter

Input

Output

Input

User Configuration

Input

—

OVRIZ1 — OVRIZ18

SYSZ1 — SYSZ18

RMTOCC

SDP

System Enable Outputs

Remote Occupied Mode

System Differential Pressure

System Differential Pressure Set point

Loop Water Flow

Control Type

Pump Number 1 & 2 Speeds

Shut Down Command

—

FLOW

—

User Configuration

Output

PUMP1, PUMP2

ALLSYS

Output

Heat Rejection Control

System Supply Water Temp.

System Return Water Temp.

System Loop Temperature Set points

Fluid Cooler/Tower Control

Loop Water Flow

Logic

Input

User Configuration

Input

SSWT

SRWT

—

FLOW

CTL1, CTL2

Cooling Tower 1 & 2 Speed/Level

Heat Addition Control

Output

System Supply Water Temp.

System Return Water Temp.

System Loop Temperature Set points

Boiler Control Type

Loop Water Flow

Boiler 1 & 2 Speed/Level

Logic

Input

User Configuration

Input

SSWT

SRWT

—

FLOW

Output

BLRL1, BLRL2

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PREMIERLINK™ CONTROLLER INPUTS AND OUT-

PUTS — When PremierLink controllers are factory mounted

with water source heat pump equipment to implement a CCN

system installation, the inputs and outputs are shown in Table 3.

CONNECT POWER — The Aquazone™ system control

panel requires an uninterrupted 110-v, single-phase, 60 Hz

power supply. All field wiring must comply with all local and

national fire, safety and electrical codes. It is recommended

that the power supply be separate from the power source

supplying the water source heat pumps. The Aquazone system

control panel is internally fused and a power switch is located

inside the enclosure. Supply power to the Aquazone system

control panel through the convenience outlet in the bottom left

hand corner of the Aquazone system control panel. Do not

apply power until all connections have been made and voltage

supply has been verified. Ground in accordance with NEC and

local electrical codes. Connect the dedicated ground wire to the

position in relationship to the main supply line and use shield

cable to protect from any electrical interference.

CONTROL WIRING — Low voltage wiring for the Aqua-

zone system control panel is shown in Fig. 8.

Table 3 — PremierLink Controller Inputs and Outputs

INPUTS

SPACE TEMPERATURE (SPT)

SET POINT ADJUSTMENT (STO)

SUPPLY AIR TEMPERATURE (SAT)

LEAVING WATER TEMPERATURE

IAQ SENSOR (IAQI)

REMOTE TIME CLOCK (RMTOCC)

COMPRESSOR LOCKOUT (CMPSAFE)

FIRE SHUTDOWN (FSD)

SUPPLY FAN STATUS (SFS)

NOT USED

POWER

AI (10 K Thermistor)

(4-20 mA)

DI (24 vac)

TERMINAL(S)

J6-7, J6-6

J6-5, J6-6

J6-3, J6-4

J6-1, J6-2

J5-5, J5-6

J4-11, J4-12

J4-9, J4-10

J4-7, J4-8

J4-5, J4-6

—

OUTPUTS

POWER

TERMINALS

J8-18

J8-15

J8-12

J8-9

FAN (SF)

COOL STAGE 1 (CMP1)

COOL STAGE 2 (CMP2)

HEAT STAGE 1 (HS1)

DO Relay (24 vac, 1A)

HEAT STAGE 2 (HS2)

J8-6

J8-3

HEAT 3/EXHAUST/REVERSING VALVE (HS3/EXH/RVS)

LEGEND

AI — Analog Input

DI — Digital Input

DO — Digital Output

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LOW VOLTAGE CONTROL WIRING

Loop Panel

GRN

PCB1

TBP

CB1

TBP

BLK

RED

24 V

RED

BLU

YEL

BLK

SYSZ1

FLOW

SYSZ2

SW1

2 3 4 5 6 7 8

SW2

INT

2 3 4 5 6 7 8

BLRL2

EXT

SW3

BLRL1

2 3 4 5 6 7 8

4-20mA

OTHER

SW4

2 3 4 5 6 7 8

0-10VDC

4-20mA

CTL2

SW5

TB1

RED

OFF

AUTO

CTL1

SW6

OVRZ2

OVRZ1

ALLSYS

PUMP2

RMTOCC

OFF

AUTO

SDP

PUMP1

RED

SRWT

SSWT

FLOW

GRN

BRN

RED

PCB2

BRN

24 V

GRN

CB2

TBP

YEL

BLU

SW1

2 3 4 5 6 7 8

SW2

INT

2 3 4 5 6 7 8

EXT

SW3

_4-20mA3

_OTHER2

2 3 4 5 6 7 8

SW4

1 2 3 4 5 6 7 8

SYSZ10

BRN

0-10VDC

4-20mA

SW5

TB3

SYSZ9

SYSZ8

SYSZ7

BRN

OVRZ10

SW6

OVRZ9

OVRZ8

OVRZ7

OVRZ6

OVRZ5

OVRZ4

OVRZ3

SYSZ6

SYSZ5

BRN

PCB2

SYSZ4

SYSZ3

TB2

GRN

BRN

RED

PCB3

BRN

GRN

CB3

TBP

24 V

YEL

BLU

SW1

2 3 4 5 6 7 8

SW2

INT

2 3 4 5 6 7 8

EXT

SW3

SYSZ18

_4-20mA3

_OTHER2

_0-10VDC1

2 3 4 5 6 7 8

SW4

SYSZ18

BRN

2 3 4 5 6 7 8

4-20mA

SW5

TB5

SYSZ17

SYSZ16

OVRZ18

OVRZ17

OVRZ16

OVRZ15

OVRZ14

OVRZ13

OVRZ12

OVRZ11

SW6

BRN

SYSZ15

SYSZ14

SYSZ13

SYSZ12

SYSZ11

TB4

Fig. 8 — Typical Aquazone™ System Control Panel

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LEGEND FOR FIG. 8

ALLSYS — System

OVRIZ12 — Override Input for Zone 12

OVRIZ13 — Override Input for Zone 13

OVRIZ14 — Override Input for Zone 14

OVRIZ15 — Override Input for Zone 15

OVRIZ16 — Override Input for Zone 16

OVRIZ17 — Override Input for Zone 17

OVRIZ18 — Override Input for Zone 18

SYSZ5 — System for Zone 5

SYSZ6 — System for Zone 6

SYSZ7 — System for Zone 7

SYSZ8 — System for Zone 8

SYSZ9 — System for Zone 9

SYSZ10 — System for Zone 10

SYSZ11 — System for Zone 11

SYSZ12 — System for Zone 12

SYSZ13 — System for Zone 13

SYSZ14 — System for Zone 14

SYSZ15 — System for Zone 15

SYSZ16 — System for Zone 16

SYSZ17 — System for Zone 17

SYSZ18 — System for Zone 18

BLRL1

BLRL2

— Heat Source 1 Speed/Level

— Heat Source 2 Speed/Level

— Circuit Breaker

— Cooling Tower 1 Speed/Level

— Cooling Tower 2 Speed/Level

— Loop Water Flow

CTL1

CTL2

FLOW

OVRIZ1 — Override Input for Zone 1

OVRIZ2 — Override Input for Zone 2

OVRIZ3 — Override Input for Zone 3

OVRIZ4 — Override Input for Zone 4

OVRIZ5 — Override Input for Zone 5

OVRIZ6 — Override Input for Zone 6

OVRIZ7 — Override Input for Zone 7

OVRIZ8 — Override Input for Zone 8

OVRIZ9 — Override Input for Zone 9

OVRIZ10 — Override Input for Zone 10

OVRIZ11 — Override Input for Zone 11

PCB

— Comfort Controller Circuit Board

PUMP1 — Pump Number 1

PUMP2 — Pump Number 2

RMTOCC — Remote Occupied Mode

SDP

— System Differential Pressure

— System Return Water Temperature

— System Supply Water Temperature

— System for Zone 1

SRWT

SSWT

SYSZ1

SYSZ2

SYSZ3

SYSZ4

— Transformer

— System for Zone 2

TBP

— Terminal Block

— Terminal Block or Pin Connector

— System for Zone 3

— System for Zone 4

standard pipe tee (Thredolet fitting) or reducing fitting, with at

least three pipe diameters straight run upstream and down-

stream of the switch. Wire sensor to terminals SDP. See Fig. 8.

Install Thermostat, Sensors and Switches — In

all installations, the loop supply water temperature sensor and

water flow switch must be installed in the field. The water

pressure sensor is used to sense water system pressure to

operate in conjunction with pump variable frequency drives.

A thermostat is used in stand-alone systems. A space tempera-

ture sensor is used in conjunction with water source heat

pumps provided with PremierLink™ controllers. Refer to the

accessory installation instructions literature provided with each

accessory that is used for accessory installation instructions.

Install Loop Water Flow Switch — Install the loop

water flow switch on the discharge side of the circulating

pump(s) in a common supply main so that total system flow

rather than individual pump(s) flow is detected. The flow

switch must be placed in a vertical position and must match the

actual water flow direction with flow switches direction indica-

tors. Seal the switch fitting with Teflon tape and insert in a stan-

dard pipe tee or reducing fitting, with at least three pipe diame-

ters straight run upstream and downstream of the switch.

NOTE: All thermostats, sensors, and switches are field-

installed accessories.

Electrical connection can be made to the switch. Two wires

should be run to the switch for 24 VAC power. The switch is

supplied with wire leads for connection to the FLOW terminal.

When power is supplied to the device, a warm-up period is

initiated. During this period, the right green LED will be lit.

Each LED to the left is successively lit until the farthest left red

LED is lit. Each LED will be turned off when the next is lit.

The warm-up period may take up to 30 seconds.

Install Loop Water Supply and Return Tem-

perature Sensors — Install the water loop supply sen-

sor in the main water supply, located before the water source

heat pumps. Install the water loop return sensor in the return

water piping from the water source heat pumps. The sensors

must be inserted fully into an immersion well (provided). Seal

immersion well threads with tape and install into pipe tee or re-

ducing fitting. The well screws into a /₂-in. NPT saddle (or

Thredolet fitting) furnished by the installing contractor. Screw

the sensor into the well via the ¹/₈-in. NPT brass fitting. Termi-

nate wiring with butt splice or soldering. Wire nuts are not rec-

ommended. Use full 8 ft of lead length provided to avoid mois-

ture migration up the wire. Wire the supply sensor to terminals

SSWT. Wire the return sensor to terminals SRWT. See Fig. 8.

Sensors may be located in any position in relationship to the

main supply line. Use shield cable to protect from any electri-

cal interference.

When flow is detected, a red LED at the far left will be lit.

With increasing flow, successive red LEDs will be lit. When

the switch determines sufficient flow is present, the amber

LED lights indicating the output has closed. This is not an indi-

cation of minimum flow. As flow increases, the first green

LED will be lit. Each successive green LED indicates greater

flow. The switch closure does not indicate minimum flow for

the machine. With one green LED lit, minor fluctuations in

water flow may cause nuisance alarms. Additional green LEDs

indicate higher flow rates, and can avoid the nuisance alarms.

The switch is calibrated to light the amber LED at a fluid

velocity of 0.8 ft/sec (0.24 m/sec). The flow rate will depend on

the nozzle size. See Table 4. See Table 5 for Water Flow

Switch Troubleshooting. If the water flow switch is not work-

ing correctly, refer to Table 5.

Install Loop Water Pressure Sensor — Install the

pressure sensor on the discharge side of the circulating pump(s)

in a common supply main so that total system pressure rather

than individual pump(s) flow is detected. The pressure sensor

must be placed in a vertical position and must match the actual

water flow direction with flow switch direction indicators. Seal

the switch fitting with Teflon tape and insert in a ¹/₄-in.

Table 4 — Loop Water Flow Switch LED Display

SCHEDULE 40 PIPE

Wall Thickness (in.)

SIZE

O.D. (in.)

4.5

I.D. (in.)

4.026

5.047

6.065

7.981

Area (Ft²)

0.09

GPM

125

.237

.258

.28

5.563

6.625

8.625

0.14

0.20

0.35

.322

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Table 5 — Water Flow Switch Troubleshooting

PROBLEM

SOLUTION

No display or output from the flow sensor

Check for 24 VAC across pins 1 and 3. These are small pins and caution should

be used when measuring the voltage in the harness so as not to damage the connector.

Check flow switch pin connections for damage.

Check for air in the chilled water system.

Check for 24 vac across pins 1 and 3. These are small pins and caution should be used

when measuring the voltage in the harness so as not to damage the connector.

Flow sensor indicates zero flow

when flow is present

Check for fouling on the sensor switch, which could inhibit the dissipation of heat from the probe.

Consider replacing the flow switch. The switch might be out of calibration,

the internal heater may have been damaged by extreme temperatures, pressure

or vibration, or mechanical damage to the tip of the device may have occurred.

Flow Sensor indicates flow

when no flow is present

Check for 24 vac across pins 1 and 3. These are small pins and caution should

be used when measuring the voltage in the harness so as not to damage the connector.

Low voltage can lead to less heat generated by the internal heater.

Consider replacing the flow switch. The switch might be out of calibration, the internal

heater may have been damaged by extreme temperatures, pressure or vibration, or

mechanical damage to the tip of the device may have occurred.

Connect to CCN Communication Bus — The

Aquazone™ system control panel primary controller connects

to the bus in a daisy chain arrangement. Negative pins on each

component must be connected to respective negative pins and

likewise positive pins on each component must be connected to

respective positive pins. The controller signal pins must be

wired to the signal ground pins. Wiring connections for CCN

must be made at the 3-pin plug. See Fig. 9.

At any baud (9600, 19200, 38400 baud), the number of

controllers is limited to 239 devices maximum. Bus length may

not exceed 4000 ft, with no more than 60 total devices on any

1000-ft section. Optically isolated RS-485 repeaters are

required every 1000 ft.

START-UP

LID Power Up Display — When power is applied to

the Aquazone System Control panel, the red LED on the top

front of the processor module will flash at a rapid pace (about

twice a second) for the first 20 seconds. This rapid flash will

then be replaced by a slower pace of about once per second.

The green LED below the red LED will start flashing. This

LED indicates input/output communications for accessory input

output modules and the LID display.

The first six red LEDs on the controller will light.

The yellow LED will flash when the controller is broadcast-

ing CCN messages to a laptop or other computer.

NOTE: Carrier device default is 9600 baud.

The LID display will show the controller identification,

time and date as shown below.

COMMUNICATION BUS WIRE SPECIFICATIONS —

The CCN Communication Bus wiring is field-supplied and

field-installed. It consists of shielded three-conductor cable

with drain (ground) wire. The cable selected must be identical

to the CCN Communication Bus wire used for the entire

network. See Table 6 for recommended cable.

Aquazone System

hh:mm mm-dd-yy

Log On to the LID Display — To Log On to the LID

display of the Aquazone System Control panel, perform the

following procedure:

Table 6 — Recommended Cables

1. Press 3 and then

. The LID display will show:

SET

MANUFACTURER

Alpha

CABLE PART NO.

2413 or 5463

A22503

Controller Password

2. Press

. The LID display will show:

Enter Password

ENTER

American

Belden

8772

Columbia

02525

NOTE: The LID display has two modes: Edit mode and

Status/Maintenance mode. If the LID display is in Edit

mode, then the display will only show the word “pass-

NOTE: Conductors and drain wire must be at least 20 AWG

(American Wire Gage), stranded, and tinned copper. Individual

conductors must be insulated with PVC, PVC/nylon, vinyl,

Teflon, or polyethylene. An aluminum/polyester 100% foil

shield and an outer jacket of PVC, PVC/nylon, chrome vinyl,

or Teflon with a minimum operating temperature range of

–20 C to 60 C is required.

The communication bus shields must be tied together at

each system element. If the communication bus is entirely

within one building, the resulting continuous shield must be

connected to ground at only one single point. If the communi-

cation bus cable exits from one building and enters another

building, the shields must be connected to the grounds at a

lightning suppressor in each building (one point only).

word.” Press the

mode.

key to toggle to the Status

EXPN/EDIT

3. Key in the password and press

ENTER

NOTE: The default password is 1111.

4. The LID display will show:

Logged In

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NOTE: Do not bundle power and

communication wiring with sensor

and device wiring.

Fig. 9 — Connection to CCN Bus

Change the Default Password — To change the

4. Enter the time. The time is entered in military time (for

default password, perform the following procedure:

example 14.59 for 2.59 pm). Press the

LID display will show:

button. The

NOTE: The password must have already been entered to per-

form this procedure.

Day of Week

1. Press 3 and then

. The LID display will show:

SET

Controller Password

2. Press . The LID display will show:

5. Enter the day of week. The numbers 1 through 7 corre-

spond to the days of the week (1 = MON, 2 = TUE,

3 = WED, 4 = THUR, 5 = FRI, 6 = SAT, 7 = SUN). Press

. The LID display will show:

ENTER

Enter Password

3. Press

. The LID display will show:

EXPN/EDIT

Password

1111

4. Enter the new password (up to 8 digits) and press

Month

6. Enter the number of the corresponding month (1 through

12). Press

. The LID display will show:

ENTER

Day

Password

(New Password)

7. Enter the day of the month. Press

will show:

. The LID display

5. Press CLEAR to leave the password screen and return to

the default display screen.

Year

Set the Clock — The user must be logged in to set the

clock. To set the clock, perform the following procedure:

8. Enter the last two digits of the current year. Press

The LID display will show:

1. Press 1 and then

. The LID display will show:

SET

Set Clock

Update Clock

2. Press

. The LID display will show:

ENTER

No Maintenance

NOTE: There is no maintenance information regarding

setting the clock.

9. Press 1 and then

to change display to a YES.

ENTER

. The clock will be updated. Press

ENTER

Press

CLEAR twice to view the default display and the clock

should update to the input time and date.

3. Press

Time

. The LID display will show:

EXPN/EDIT

00:00

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This set point is the Loop Low Water Temperature set

point.

Configure Schedules — To configure the schedules,

perform the following procedure:

5. Press

. The LID display will show:

1. Press 1 and then

. The LID display will show:

SCHD

Occupied Hi Setpoint

Occupancy Algorithm

90.00

2. Press

. The LID display will show:

ENTER

Occupancy 01

OCCPC01

This set point is the Loop High Water Temperature set

point.

The down or up arrow will also display the Unoccupied

Low and High Temperature set points. These values

should be kept the same as the occupied values.

3. There are 18 occupancy algorithms: OCCPC01 to

OCCPC18. There is one algorithm for each of the

18 zone relay outputs. Use the up and down arrows to

select the desired schedule to modify then press

6. The system pressure set point (SETPT02) is used for

controlling variable speed pumps. This can be accessed

by pressing the down or up arrow when SETPT01 is on

the display.

7. Pressing the CLEAR button will take the user out of the

set point configuration mode.

. The LID display will show:

ENTER

Time Schedule

Enter to select

4. Press

. If the LID display shows “MODE 0”

ENTER

then the user is in Maintenance mode and the LID display

is showing the maintenance information for the occupan-

cy schedule. Press

Check System Parameters — To check system

parameters, press the

show: “Hardware Points”. Press

STAT

to enter the configura-

button. The LID display will

to view the hard-

EXPN/EDIT

tion mode. The LID display will show:

ENTER

ware points. The user can navigate up and down through the

points with the up and down arrows.

Manual Override Hours

0 hours

STAT

Press 2 and

to display the software points. The user

This is the first configuration for each occupancy algo-

rithm and is used to put the schedule in or out of occupan-

cy override for the number of hours entered.

can navigate up and down through the points with the up and

down arrows.

5. Press

. The LID display will show:

Refer to the Configuration section for a listing of the hard-

ware and software points.

Period 1: Day of week

00000000

Display Alarm History — If the controller is indicating

The eight digits represent if this period should apply to

certain days of the week or holidays. The digits represent

M, Tu, W, Th, F, Sa, Su, and Hol, respectively. Enter a

series of 0s or 1s with a 1 corresponding to the days that

this period should apply to and a 0 for the days that this

schedule should not apply to. As an example, entering

11111000 would make the schedule apply to days Mon-

day through Friday and not apply to Saturday, Sunday, or

Holidays.

there are alarms, the user can view the alarm history by

HIST

pressing the

button. The LID display will show “Alarm

. The LID display will show the date

History.” Press

ENTER

and type of alarm.

As an example, if the LID display shows:

ALARM — 10:55 11-27-02

SSWT

6. Press the

button. The LID display will show:

That display indicates that on 11/27/02 at 10:55 the system

Supply Water Temperature sensor went into an alarm condition.

Period 1 occupied from

The user can view other stored alarms by pressing the up

and down arrows. The five most recent alarms are stored.

00:00

7. Input the Occupancy Start time for this period.

NOTE: 12.00 represents 12:00 pm.

8. Press the

9. Input the days and times for periods 2 through 8 as

required.

10. Press clear to leave the occupancy programming.

Configure the Custom Programming Selec-

tions — To configure the custom programming selections,

perform the following procedure:

to input the Occupied To time for period 1.

1. Press 37

. The LID display will show:

ALGO

Custom Program

2. Press . The LID display will show:

ENTER

Program Set Points — To program the set points, per-

Global Dictionary

AQUAZONE

form the following procedure:

1. Press 2 and then

. The LID display will show:

SCHD

3. Press

if the display indicates “No Data.” Press

ENTER

CLEAR

Setpoint Schedule

then press

. Press

again.

ENTER

EXPN/EDIT

2. Press

. The LID display will show:

ENTER

Loop Water Supply

SETPT01

The LID display should now show:

PUMPS 0=ON/OFF, 1 = VFD

0.00

3. Press

ENTER

4. Press 1 and then

to change to variable speed

ENTER

pumping (if required).

4. If “No maintenance” is displayed, press

EXPN/EDIT

view the set point information. The LID display will

show:

5. Use the down and up arrows to select the other configura-

tion parameters as required. See the Configuration section

for an explanation of the configuration parameters.

Occupied Lo Setpoint

60.00

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DEFAULT SCREEN — Figure 10 shows a LID. This screen

provides the user with the 24-character controller name and the

controller’s current time, date, and alarm status. This screen

appears when the LID is powered up and communicating with

the Aquazone System Control Panel Controller or there is no

keyboard activity for10 minutes.

KEYPAD AND DISPLAY — The LID consists of a keypad

with 8 function keys, 4 operative keys, 12 numeric keys (0 to

9, ., and -) and a two-line, alphanumeric liquid crystal display

(LCD). Each line on the LCD can display up to 24 characters.

See Fig. 10.

Set the Aquazone™ System Control Panel

Controller Address — To set the address of the

Aquazone System Control panel controller, perform the

following procedure:

1. Press 7 and then

EXPN/EDIT

2. Type in the CCN element number and press

. Press

and then

ENTER

SRVC

ENTER

3. Press the

press

button. Type in the CCN bus number and

ENTER

Log Off from Controller — To log off from the Aqua-

zone System Control panel controller Press 3 and then

Table 8 below defines the purpose of the LID’s operative keys.

SET

button and then press 1. Press

Table 8 — Operative Keys

Press

ENTER

. Press the

ENTER

to log off.

OPERATIVE

USE

KEYS

LID Operation — The Local Interface Device (LID) is a

CCN operator interface that gives the user the capability to

view and modify all configuration and service data for the

Aquazone System Control Panel Controller. The LID also

gives the user the capability to override all point display and

maintenance data.

Clear — performs three operations:

CLEAR

• Cancels a data entry before the user

presses Enter, thus leaving the current

value unchanged.

• Returns a forced point to automatic

control.

• Redisplays the previous menu level.

Enter — performs two operations:

MENU STRUCTURE — The LID operates on a hierarchy of

four levels (menus).

The top level contains the LID’s major functions. Each

function has a corresponding key on the LID. For an explana-

tion of each function key, refer to Table 7.

The second level separates the major functions (items) into

types with corresponding type numbers that can be used for

quick access.

The third level gives the user the capability to access each

occurrence of an item. For example, the application may

require two DO — Analog Comparison algorithms. Thus, the

Aquazone System Control Panel Controller would have two

occurrences of the DO — Analog Comparison algorithm.

ENTER

• Selects the displayed item, thus displaying

either its maintenance or configuration

data, depending on whether the user is in

the Status mode or the Edit mode.

• Accepts the value entered in a configuration

decision as new configuration data or as a

force.

Down arrow — displays the next configured

item or decision. When the last configured

item or decision is displayed, the LID

re-displays the first configured item or

decision. For example, when the user presses

the down arrow key while viewing the last

configuration decision of an algorithm, the LID

re-displays the first configuration decision.

Up arrow — Displays the previous configured

item or decision.

The fourth level gives the user the capability to access main-

tenance and configuration data associated with the selected

occurrence of the item.

Table 9 below defines the purpose of the LID’s numeric keys.

Table 7 — LID Function Keys

Table 9 — Numeric Keys

OPERATIVE

USE

OPERATIVE

USE

KEYS

Status — gives access to maintenance

values and configuration data for points.

Numeric keys

Performs two operations:

Alarm — gives access to maintenance

• Separates items, such as an algorithm from

its occurrence or hours from minutes.

• Serves as a decimal point in numeric values.

and configuration data for alarms.

History — gives access to maintenance

and configuration data for history system

functions.

Service — gives access to maintenance

and configuration data for service system

functions.

Setup — gives access to configuration

data for setup system functions.

Schedule — gives access to maintenance

and configuration data for schedules.

Performs two operations:

• Negates the value of numeric keys.

• Clears current data entry value any time it is

not the first key pressed during the data

entry sequence.

VIEWING MODES — The user can view items in either the

Status (maintenance) mode or the Edit (configuration) mode.

Status Mode — When the user first powers up the LID, it

displays the Aquazone System Control Panel Controller items

in the Status (maintenance) mode. The user may view the

current value or status of an item in the Status mode without

actually logging on to the Aquazone System Control Panel

Controller. Knowing the current values or status of items can

be useful when troubleshooting. For example, the user could

determine if a point was forced.

Algorithm — gives access to maintenance

and configuration data for AO, DO, and global

algorithms. It also gives access to BEST ++™

custom programs.

Edit — gives the capability to switch from

Status mode to Edit (configuration) mode for

the selected item. (EXPN is not used in

conjunction with the Aquazone System

Control Panel Controller.)

LEGEND

AO — Analog Output

DO — Digital Output

NOTE: Not all items have maintenance data. If the item you

select does not have maintenance data, the LID will display

“No maintenance.”

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EXPN

EDIT

TEST

ALRM

STAT

SET

–

SRVC

HIST

FUNCTION

KEYS

FUNCTION

KEYS

ALGO

SCHD

CLEAR

OPERATIVE

KEYS

OPERATIVE

KEYS

ENTER

NUMERIC KEYS

Fig. 10 — Typical LID Device

Access Items in the Status Mode — The user can access

maintenance data in the Status mode in two ways:

Access Items in the Edit Mode — The two ways to access

items in the Edit mode are the same as in the Status mode,

•

Pressing the appropriate function key (i.e.,

)

ALRM

once to access a category (i.e., alarms) and then continu-

ing to press that key ( ) to scroll through all the

except for an additional step — pressing the

key.

EXPN/EDIT

The user can access configuration data in the Edit mode in

two ways:

ALRM

items in that category (i.e., Limit Alarm, Setpoint

Alarm, Discrete Alarm, First Out Alarm, Runtime

•

Pressing the appropriate function key (i.e.,

to access a category (i.e., alarms), pressing

) once

ALRM

EXPN/EDIT

) to scroll

Alarm, and Number of Starts Alarm). Press

display the first maintenance decision.

ENTER

and then continuing to press that key (

ALRM

through all the items in that category (i.e., Limit Alarm,

Setpoint Alarm, Discrete Alarm, First Out Alarm,

Runtime Alarm, and Number of Starts Alarm).

NOTE: Scrolling by repeatedly pressing the function key,

displays the name of all the items in that category, whether

or not they are actually configured. Scrolling by pressing

the up or down arrow, displays only the configured items

within that category.

Pressing the appropriate LID numeric key (i.e., 2) and

the appropriate function key (i.e., ALRM ) to directly

access an item without having to scroll through all the

NOTE: Scrolling by repeatedly pressing the function key,

displays the name of all the items in that category, whether

or not they are actually configured. Scrolling by pressing

the up or down arrow, displays only the configured items

within that category.

•

Pressing the appropriate LID numeric key (i.e., 2),

items in that category. Press

maintenance decision.

to display the first

ENTER

the appropriate function key (i.e.,

), and

ALRM

to directly access an item without having

EXPN/EDIT

to scroll through all the items in that category.

Edit Mode — Because the LID first displays items in the

Status mode when it is powered up, the user must log on to the

connected Aquazone™ System Control Panel Controller and

QUICK ACCESS IN EITHER STATUS OR EDIT

MODE — Use Table 10 on next page as a reference to directly

press the

key to switch to the Edit mode.

EXPN/EDIT

access Aquazone System Control Panel Controller items using

a LID in either the Status or Edit modes. For example, to access

maintenance data for the AO — Heating VAV algorithm, press

While in the Edit mode, the user can change the configura-

tion of items. For example, the user could change the value of

an algorithm’s configuration decision.

, and

. To access configuration data for

ENTER

ALGO

NOTE: Not all items have configuration data. If the item

selected does not have configuration data, pressing the

key will have no effect. The LID will display

EXPN/EDIT

“No configuration.”

the AO — Heating VAV algorithm, press

ALGO

. If the database consisted of two

ENTER

, and

EXPN/EDIT

AO — Heating VAV algorithms, to access the second one,

press

(decimal),

, and

ALGO

EXPN/EDIT

ENTER

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Table 10 — Quick Access Chart

LID FUNCTION KEYS

LID

NUM.

KEY

Algorithms

(ALGO)

Status

(STAT)

History

(HIST)

Service

(SRVC)

Alarm

(ALRM)

Setup

(SET)

Schedules

(SCHD)

AO—Adaptive Control

AO—Cooling CV

Hardware Points

Alarm History

Function Definition Limit

Set Clock

Real Time Clock

Occupancy

Setpoint

Software Points

Analog Point Trace

Discrete Point Trace

Channel Definition Setpoint

AO—Cooling VAV

Temperature Input

System Definition

Discrete

First out

Runtime

Controller Password Holiday

S/W Setpoint

AO—Fan Tracking

Milliamp Input

Consumable Channel Setpoint Definition

Internal Consumable Database Control

N/A

AO—Heating CV

Custom Milliamp Input

Network Time

N/A

AO—Heating VAV

Voltage Input

Runtime Channel

N/A

Comfort Controller # of starts

AO—Humidity Control

AO—Mixed Air CV w/IAQ

AO—Mixed Air VAV w/IAQ

AO—Permissive Interlock

AO—Reset

Custom Voltage Input

CCN Control

LID Preferences

N/A

Sensed Discrete Input

N/A

Latched Discrete Input

N/A

Pulsed Discrete Input

N/A

Milliamp Output

N/A

AO—Shared Transducer

AO—Static Pressure

DO—Analog

Custom Milliamp Output

N/A

Voltage Output

N/A

Custom Voltage Output

N/A

DO—DX-Staging VAV

DO—Electric Heat CV

DO—Electric Heat VAV

DO—Enthalpy Comparison

DO—Interlock

Discrete Output

N/A

Stepper Motor Output

N/A

Discrete Software Point

N/A

Analog Software Point

N/A

Network Data Out

N/A

DO—Lighting Control

DO—Permissive Interlock

DO—Pump Control

DO—Prop Thermo

DO—Prop Thermo 2 Pipe

DO—Prop Thermo 4 Pipe

DO—Staged Thermostat

DO—Staging Control

DO—Time Clock

Network Data In

N/A

DO—Time Clock w/Check

AOSS Schedule

N/A

Network Broadcast

Linkage/AOSS Schedule

NTFC w/Enthalpy Check

Sensor Group

N/A

WSM Air Source

N/A

WSM Cool Source

N/A

Custom Program

N/A

LEGEND

NOTES:

1. If in the Edit mode and wish to switch to the Status mode, press

CLEAR

—

Analog Output

Adaptive Optimal Start/Stop

Constant Volume

Digital Output

Indoor Air Quality

Not Available

AOSS

—

EXPN/EDIT

or press

again.

2. Not all available selections will have items to select in sublevels.

IAQ

N/A

NTFC

VAV

WSM

Nighttime Free Cooling

Variable Air Volume

Water System Manager

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When the lead output is at 100% and the set point is not

being maintained, the lag output modulates to produce staging

from another two or four stage output transducer.

The value output by each analog output is determined by a

PID calculation of leaving water temperature versus the system

low leaving water temperature set point.

In the event that the system low water temperature set point

cannot be maintained and is exceeded by a defined Hysteresis,

the boiler outputs will go to maximum output, the system water

source heat pumps will stop heating, and the system pumps

will circulate water until the system temperatures are returned

to the normal range. System heating will then be allowed to

continue.

WATER CIRCULATION — When operational mode is de-

termined by one of the 18 occupancy schedules, one of the 18

network or global schedules, or occupancy overrides, then the

system pumps are put in operational mode. Also, if one of the

system enable outputs is forced on, then the system pumps are

put in operational mode.

If the remote occupancy input is detected, then the pumps

are put in operational mode and all 18 schedules overridden to

on. This energizes all 18 system enable outputs.

The pump control type is configured as either variable flow

or constant flow. When the pumps are in operational mode, the

pump speed output values are determined in one of two ways:

1. In constant flow mode, the desired output (one or two) is

ramped to 100% to turn the pumps on in a lead/lag

fashion, based on run time.

2. In variable flow mode, both outputs are determined by a

Proportional Integral Derivative (PID) calculation, which

controls the system pressure set point.

Whenever the runtime of the lead pump exceeds the

runtime of the lag pump by 50 hours or more, then the pump

with the lesser runtime will become the lead pump.

If the lead pump output is at 100% and the loop water flow

input detects no flow, then the lag pump will be put to 100% to

start the lag pump. Both outputs will stay at 100% as an indica-

tor that the lead pump did not start.

At each subsequent start-up, the lead pump will be tried

again. If both pumps are commanded to 100% and no flow is

detected, then the pumps will be forced off. To restart the sys-

tem, a pump must be energized manually or the flow switch

must be overridden to indicate flow. The lead pump will start if

there is a demand for system circulation.

Sequence of Operation

HEAT REJECTION — When the system pumps are operat-

ing and there is flow to the system, heat rejection control

compares the system supply water temperature to the high set

point in the system loop temperature set points.

If the system supply water temperature approaches the high

set point, the controller commands the heat rejection outputs to

hold the system supply water temperature as close as possible

to the high set point.

If the system return water temperature drops below the

system high water temperature set point minus a hysteresis

value the heat rejection, outputs are disabled.

When the cooling tower output control type is set to

“variable,” the heat rejection outputs are calculated using a PID

calculation based on the system high temperature water set

point. Both outputs will modulate together.

When the heat rejection control type is set to “staged,” the

outputs will be modulated in a lead/lag configuration. The

modulating signal of the lead output will control a transducer

of two or four stages.

When the lead output is at 100% and the set point is not

being maintained, the lag output will be modulated to produce

staging from another two or four stage output transducer.

The value output by each analog output is determined by a

PID calculation of leaving water temperature versus the system

high leaving water temperature set point.

In the event that the system high water temperature set point

cannot be maintained and is exceeded by a defined Hysteresis,

the heat rejection outputs will go to maximum output, the

system water source heat pumps will stop cooling, and the

system pumps will circulate water until the system tempera-

tures are returned to the normal range. System cooling will

then be allowed to continue.

HEAT ADDITION — When the system pumps are operating

and there is flow to the system, boiler control compares the

system supply water temperature to the low set point in the

system loop temperature set points.

If the system supply water temperature approaches the low

set point, then the controller commands the boiler outputs to

hold the system supply water temperature as close as possible

to the low set point.

If the system return water temperature rises above the

system low water temperature set point plus a Hysteresis value,

the boiler outputs are disabled.

In the event that the pumps have been commanded to

provide water flow but either the flow switch does not indicate

flow or the differential pressure sensor does not indicate pres-

sure is present, then the controller assumes that the pumps have

failed and commands the water source heat pumps to turn off

cooling or heat. The system fans will continue to circulate the

air.

In the event of a system shutdown command, the controller

commands the water source heat pumps to turn off all cooling

and heat sources and circulating fans.

When the boiler output control type is “variable,” the boiler

outputs will be calculated using a PID calculation based on the

system low temperature water set point. Both outputs will

modulate together.

When the boiler control type is set to “staged,” the outputs

are modulated in a lead lag configuration. The modulating

signal of the lead output controls a transducer (two or four

stages).

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LOOP WATER FLOW SWITCH — This discrete input is

used to provide a signal that one of the loop water pumps is on.

If both pumps have been commanded to run and no water flow

is detected, then the system water source heat pumps will

run in the fan only mode for DDC (Direct Digital Control)

coordinated heat pump controllers, while the system relays for

thermostat systems will be turned off.

CONFIGURATION

The Aquazone™ System Control Panel contains a Comfort

Controller 6400 programmed using the standard algorithms

and enhanced by BEST++™ custom programming. The

BEST++ Templates for some of the programs have been

removed to prevent field alterations. For other programs,

the templates are included to allow for jobsite customization.

For basic information about the algorithms please refer to the

Comfort Controller Overview and Configuration manual

(808-891). Default configurations are listed later in this section.

Loop Water Flow Switch:

Display Units

Default Value

Display Range

Discrete ASCII

Yes/No

Hardware Points — The hardware points are shown in

Table 11 and 12.

Network Access Read/Write

SYSTEM SUPPLY WATER TEMPERATURE — The sys-

tem supply water temperature is the temperature of the water

being pumped to the system of water source heat pumps. The

temperature is measured by a 10K Thermistor (MCI). This

output and sensor is required for proper function of the loop

and heat pumps.

Table 11 — Hardware Points 1 to 32 (HWP01-32)

DESCRIPTION

Loop Water Flow

System Supply Water Temp

System Return Water Temp

System Diff. Pressure

Remote Occupancy Mode

System

VALUE

Yes

60.3 dF

51.0 dF

0.00 PSIG

Off

Enable

NAME

FLOW

SSWT

SRWT

SDP

RMTOCC

ALLSYS

OVRIZ1

OVRIZ2

PUMP1

PUMP2

CTL1

System Supply Water Temperature:

Display Units

Default Value

Display Range

degrees F (degrees C)

–40.0

–40.0-245.0

Override Input Zone 1

Override Input Zone 2

Pump Number 1 Speed

Pump Number 2 Speed

Cooling Tower 1 Level

Cooling Tower 2 Level

Boiler 1 Level

100.0%

0.0%

83.2%

0.0%

Enable

Off

Network Access Read/Write

CTL2

BLRL1

BLRL2

SYSZ1

SYSZ2

OVRIZ3

OVRIZ4

OVRIZ5

OVRIZ6

OVRIZ7

OVRIZ8

OVRIZ9

OVRIZ10

SYSZ3

SYSZ4

SYSZ5

SYSZ6

SYSZ7

SYSZ8

SYSZ9

SYSZ10

SYSTEM RETURN WATER TEMPERATURE — The sys-

tem return water temperature is the temperature of the water

returning from the system of water source heat pumps. This

temperature measured by a 10K Thermistor (MCI). This output

and sensor is provided for informational purpose and indicates

the average load caused by the normal operation of the heat

pumps.

Boiler 2 Level

System for Zone 1

System for Zone 2

Override Input Zone 3

Override Input Zone 4

Override Input Zone 5

Override Input Zone 6

Override Input Zone 7

Override Input Zone 8

Override Input Zone 9

Override Input Zone 10

System for Zone 3

Off

System Return Water Temperature:

Off

Display Units

Default Value

Display Range

degrees F (degrees C)

–40.0

–40.0-245.0

Off

Disable

System for Zone 4

System for Zone 5

System for Zone 6

Network Access Read/Write

System for Zone 7

System for Zone 8

SYSTEM WATER PRESSURE — This sensor is used to

measure the pressure of the supply water to the system of water

source heat pumps. This sensor should be located ²/₃of the way

down the supply water distribution piping or in a location that

will provide a good reference of the supply water pressure.

This sensor is used to control the speed of variable frequency

drives pumping water to the water source heat pumps. Each

water source heat pump may be equipped with a two position

isolation valve that may be closed when the compressors are

not energized in order to reduce the quantity of water being

pumped through the system.

System for Zone 9

System for Zone 10

Table 12 — Hardware Points 33 to 64 (HWP33-64)

DESCRIPTION

VALUE

NAME

Override Input Zone 11

Override Input Zone 12

Override Input Zone 13

Override Input Zone 14

Override Input Zone 15

Override Input Zone 16

Override Input Zone 17

Override Input Zone 18

System for Zone 11

System for Zone 12

System for Zone 13

System for Zone 14

System for Zone 15

System for Zone 16

System for Zone 17

System for Zone 18

Off

OVRIZ11

OVRIZ12

OVRIZ13

OVRIZ14

OVRIZ15

OVRIZ16

OVRIZ17

OVRIZ18

SYSZ11

SYSZ12

SYSZ13

SYSZ14

SYSZ15

SYSZ16

SYSZ17

SYSZ18

Off

System Water Pressure:

Off

Display Units

Default Value

Display Range

in. wg

0.0

0.0-5.0

Disable

Network Access Read/Write

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REMOTE OCCUPANCY — This input is used to provide an

external clock input to enable all 18 of the local schedules, start

the loop pumps, and enable loop temperature control.

Table 13 — Total Number of Stages

TOTAL NUMBER OF STAGES

Output Displayed

45 50 95

100

Remote Occupancy:

Stage Activated

—

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

Stage Deactivated

—

Network Access Read/Write

TOTAL NUMBER OF STAGES

Output Displayed

SYSTEM/SHUT DOWN — This discrete input is used to

provide a signal from the fire alarm panel that will shut down

the Aquazone™ System Control Panel, disable the system

zone relays, and send out a command to shut down the water

source heat pumps.

20 25 45 50 70 75 95 100

Stage Activated

—

Stage Deactivated

—

System/Shut Down:

COOLING TOWER 1 SPEED/LEVEL — When the Aqua-

zone system control panel is configured for variable speed

cooling tower control, this point displays the speed of tower

fan 1. When the Aquazone system control panel is equipped

for staged output, this point displays the percent of stages

commanded. The actual number of stages active will be

determined by the staging cards ordered with the Aquazone

system control panel. See Table 13. The value displayed is

determined by a PID (proportional/integral/derivative) loop set

to control the supply-water temperature at the Occupied high

set point.

Display Units

Default Value

Display Range

Discrete ASCII

Enable

EmStop/Enable

Network Access Read/Write

OVERRIDE INPUT FOR ZONE 1-18 — These inputs are

used to sense an external dry contact that override/enable each

of the 18 local schedules, start the loop pumps, and enable loop

temperature control.

Override Input for Zone 1-18

Cooling Tower 1 Speed/Level

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

Display Units

Default Value

Display range

0-100

Network Access Read/Write

PUMP NUMBER 1 — When the Aquazone System Control

Panel is configured for variable speed pumping, this point

displays the speed of Pump 1, as determined by a PID loop set

to control supply water pressure. When the Aquazone system

control panel is configured for constant flow this point will

display 0% when the pump is OFF and 100% when the pump

is on.

COOLING TOWER 2 SPEED/LEVEL — When the Aqua-

zone system control panel is configured for variable speed

cooling tower control, this point displays the speed of tower fan

2. When the Aquazone system control panel is equipped for

staged output, this point displays the percent of stages com-

manded. The actual number of stages active will be determined

by the staging cards ordered with the Aquazone system control

panel. See Table 13. The value displayed is determined by a

PID loop set to control the supply water temperature at the

Occupied high set point.

Pump Number 1

Display Units

Default Value

Display range

0-100

Cooling Tower 2 Speed/Level

Display Units

Default Value

Display range

0-100

Network Access Read/Write

PUMP NUMBER 2 — When the Aquazone system control

panel is configured for variable speed pumping, this point

displays the speed of Pump 2, as determined by a PID loop set

to control supply water pressure. When the Aquazone system

control panel is configured for constant flow this point will

display 0% when the pump is OFF and 100% when the pump

is on.

Network Access Read/Write

HEAT SOURCE 1 SPEED/LEVEL — When the Aquazone

system control panel is configured for modulating heat source,

this point displays the percent open or percent heat capacity re-

quested. When the Aquazone system control panel is equipped

for staged output, this point displays the percent of stages com-

manded. The actual number of stages active will be determined

by the staging cards ordered with the Aquazone system control

panel. See Table 13. The value displayed is determined by a

PID loop set to control the supply water temperature at the Oc-

cupied Low set point.

Pump Number 2

Display Units

Default Value

Display range

0-100

Network Access Read/Write

NUMBER OF STAGES — Table 13 is used with the follow-

ing four points to determine the number of stages that should

be active for the percent output displayed and the hardware

installed with the Aquazone system control panel. When the

outputs are configured for staging the second output will ramp

up when the first output has reached 100%. While the second

output is controlling the temperature the first will be held at

100%. When the second output ramps down to zero percent the

first output will resume temperature control.

Heat Source 1 Speed/Level

Display Units

Default Value

Display range

0-100

Network Access Read/Write

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HEAT SOURCE 2 SPEED/LEVEL — When the Aquazone™

system control panel is configured for modulating heat source,

this point displays the percent open or percent heat capacity

requested. When the Aquazone system control panel is

equipped for staged output, this point displays the percent of

stages commanded. The actual number of stages active will be

determined by the staging cards ordered with the Aquazone

system control panel. See Table 8. The value displayed is

determined by a PID loop set to control the supply water

temperature at the Occupied Low set point.

For example, the default maximum hours difference for

rotation is 50 hours. If the Lead Pump was forced to 2, so that

pump 2 is the lead pump, then the pump 2 runtime hours will

accumulate until the difference between the pump 1 and pump

2 runtime hours becomes greater than 50. The both will reset to

zero and pump 2 will start accumulating again.

Lead Pump Constant Flow:

Display Units

Default Value

Display Range

Numeric

1 or 2

Heat Source 2 Speed/Level

Network Access Read/Write

Display Units

Default Value

Display range

0 100

VARIABLE SPEED PUMPING — If the Aquazone system

control panel is configured for variable speed pumping, this

point will indicate when the pumps are requested to be running.

Network Access Read/Write

Variable Speed Pumping:

SYSTEM FOR ZONE 1-18 — These Outputs are is used to

enable a group of thermostats by energizing and deenergizing

the associated zone relays.

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

System for Zone 1-18

Network Access Read/Write

COOLING TOWER 1 — This point indicates when the first

cooling output is requested to control loop temperature.

Display Units

Default Value

Display Range

Discrete ASCII

Off

On/Off

Cooling Tower 1

Network Access Read/Write

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

Software Points — The software points are shown in

Table 14.

Table 14 — Software Points 65 to 96 (SWP65-96)

Network Access Read/Write

DESCRIPTION

VALUE

NAME

COOLING TOWER 2 — This point indicates when the sec-

ond cooling output is requested to control loop temperature.

Outside Air Temperature

Lead Pump Const. Flow

Variable Speed Pumping

Cooling Tower 1

94.94 dF

1.00

OAT

LEAD

Cooling Tower 2

Disable

VSPC

Disable

COOLT1

COOLT2

HEATC1

HEATC2

PUMP1RT

PUMP2RT

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

Cooling Tower 2

Disable

Heat Control 1

Enable

Heat Control 2

Disable

Pump 1 Run Time

Pump 2 Run Time

253.00 HOURS

250.00 HOURS

Network Access Read/Write

HEAT CONTROL 1 — This point indicates when the first

heat output is requested to control loop temperature.

OUTSIDE AIR TEMPERATURE — This software point is

included to receive an Outside Air Broadcast. If the system

is set up with Outside Air Broadcast, a control force will

be displayed on the OAT point of all system controllers.

For systems with factory-installed PremierLink™ controllers,

the individual unit leaving water temperature sensors are

connected to the OAT point. When OAT broadcast is enabled,

the leaving water temperature sensors connected to the

PremierLink controllers may be displayed temporarily by

removing the Outside Air Broadcast force. The Outside Air

Broadcast will be refreshed the next time the outside-air

temperature is broadcast.

Heat Control 1

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

Network Access Read/Write

HEAT CONTROL 2 — This point indicates when the second

heat output is requested to control loop temperature.

Heat Control 2

Display Units

Default Value

Display Range

Discrete ASCII

Disable

Enable/Disable

Outside Air Temperature:

Display Units

Default Value

Display Range

degrees F (degrees C)

–40.0

–40.0-245.0

Network Access Read/Write

PUMP 1 RUN TIME — This point displays the number of

hours that the pump has run. When the maximum number of

hours is exceeded (9999 hours), both pumps run time hours

will reset to 0.

Network Access Read/Write

LEAD PUMP CONSTANT FLOW — When the Aquazone

system control panel is configured for constant flow, this point

displays the current lead pump. This point may be forced to

keep the lead pump the same for more than the maximum

hours difference required for pump rotation. When the pump

runtime hours difference becomes greater than the maximum

number configured the pump runtime hours for both pumps

will reset to zero.

Pump 1 Run Time

Display Units

Default Value

Display Range

Numeric

0 to 9999

Network Access Read/Write

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PUMP 2 RUN TIME — This point displays the number of

hours that the pump has run. When the maximum number of

hours is exceeded (9999 hours), both pumps run time hours

will reset to 0.

Occupied High:

Configuration Units

Configuration Range

Default Value

Unoccupied Low:

PSIG

–9999.9 to 9999.9

10.0

Pump 2 Run Time

Display Units

Default Value

Display Range

Numeric

0 to 9999

Configuration Units

Configuration Range

Default Value

PSIG

–9999.9 to 9999.9

10.0

Network Access Read/Write

Unoccupied High:

Loop Supply Water Set Point — The low set point

is the low limit the supply water temperature may drop down to

before the heat source will be activated to maintain the Loop

Supply water temperature. The high set point is the high limit

the supply water may rise to before the cooling source will be

activated to maintain the loop supply water temperature. See

Table 15. Set points can also be modified with slide bars in the

ComfortVIEW™ software. See Fig. 11.

Configuration Units

Configuration Range

Default Value

PSIG

–9999.9 to 9999.9

10.0

Global Dictionary — The Global Dictionary table is

shown in Table 17.

Table 17 — Global Dictionary (AQUAMASC)

Table 15 — Loop Supply Water (SETPT01)

DESCRIPTION

VALUE

NAME

PUMPS 0=ON/OFF,1=VFD

Pump Rotation Hours

TOWERS 0=STAGED,1=VFD

HEAT 0=STAGED,1=MOD/VFD

Sched Bcst 0=N,1=Y

0.00

50.00

0.00

PUMP_CFG

ROT_TIME

COOL_CFG

HEAT_CFG

GLOBAL

DESCRIPTION

VALUE

NAME

Occupied Lo Setpoint

Occupied Hi Setpoint

Unoccupied Lo Setpoint

Unoccupied Hi Setpoint

60.00 df

90.00 df

60.00 df

90.00 df

OccLow

OccHgh

UnOccLow

UnOccHgh

0.00

PUMP CONTROL TYPE — This configuration determines

how the pump outputs will be controlled. If the pump relays

were ordered with the Aquazone system control panel, then the

pump control type should be set to 0. If the pump outputs will

control variable speed pumps, then the configuration should be

set to 1. When variable speed control is selected, both outputs

will control simultaneously.

Occupied Low:

Configuration Units

Configuration Range

Default Value

degrees F (degrees C)

–40.0 to 245.0

60.0

Occupied High:

Configuration Units

Configuration Range

Default Value

degrees F (degrees C)

–40.0 to 245.0

90.0

Pump Control Type:

Configuration Units

Configuration Range

Default Value

None

0 or 1

Unoccupied Low:

Configuration Units

Configuration Range

Default Value

degrees F (degrees C)

–40.0 to 245.0

60.0

PUMP ROTATION HOURS — When the pump control type

is set to 0 (on/off), this configuration is used to set the maxi-

mum number of hours the lead pump may accumulate beyond

the numbers of hours accumulated for the lag pump. When this

difference in hours is reached, the lead pump will change to the

pump with the lesser number of accumulated run hours.

Unoccupied High:

Configuration Units

Configuration Range

Default Value

degrees F (degrees C)

–40.0 to 245.0

90.0

Pump Rotation Hours:

Configuration Units

Configuration Range

Default Value

HOURS

0 to 9999

50.0

System Pressure Set Point — This set point defines

the system pressure that the variable speed pumps will operate

when the Aquazone™ system control panel is configured for

variable speed pumping. See Table 16. Set points can also be

modified with slide bars in the ComfortVIEW software. See

Fig. 12.

TOWER/COOLING SOURCE CONTROL TYPE — This

configuration determines how the tower outputs will be con-

trolled. If panels were ordered with the stage output transducers,

then tower control type should be set to 0. If the tower outputs

will control variable speed tower fans, then the configuration

should be set to 1.

Table 16 — System Pressure (SETPT02)

DESCRIPTION

VALUE

NAME

Variable speed configuration will control both outputs si-

multaneously.

Occupied Lo Setpoint

Occupied Hi Setpoint

Unoccupied Lo Setpoint

Unoccupied Hi Setpoint

10.00 PSIG

OccLow

OccHgh

Tower/Cooling Source Control Type:

UnOccLow

UnOccHgh

Configuration Units

Configuration Range

Default Value

None

0 or 1

Occupied Low:

Configuration Units

PSIG

Configuration Range

Default Value

–9999.9 to 9999.9

10.0

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Fig. 11 — Loop Supply Water Set Point Screen

Fig. 12 — System Pressure Set Point Screen

BOILER/HEAT SOURCE CONTROL TYPE — This con-

GLOBAL SCHEDULE BROADCAST — If desired, the

schedules 1 through 18 in the Aquazone™ system control

panel may be reconfigured to be schedules 65 through 82 (so

that they may be used as global schedules). If this is done, this

configuration must be set to 1. Local inputs for overriding

zones 1 to 18 or the remote occupancy input will then affect the

global schedules 65 through 82. In this condition local override

of individual PremierLink™ controllers will not occur since

the comfort controller does not respond to the command from

any PremierLink controller to override a global schedule. It is

recommended to allow the PremierLink controllers to broad-

cast global schedules.

figuration determines how the tower outputs will be controlled.

If panels were ordered with the stage output transducers, then

tower control type should be set to 0. If the tower outputs will

control variable speed tower fans, then the configuration

should be set to 1.

Variable speed configuration will control both outputs

simultaneously.

Boiler/Heat Source Control Type:

Configuration Units

Configuration Range

Default Value

None

0 or 1

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The loop controller comes pre-configured with local schedules

1 through 18. It is also pre-configured with network schedules 65

through 82 in order to receive global schedules broadcast from

PremierLink™ controllers or other networked controllers. See

Network Time Schedule section. This is the recommended

method for using global schedules since a PremierLink controller

(when set up to broadcast a global schedule) will respond to a

schedule override request from another PremierLink controller

that it is broadcasting the global schedule. This allows all

PremierLink controllers following the same global schedule to

enter occupancy override as a group.

Table 20 — Heating Control 1 (HEAT_1)

DESCRIPTION

VALUE

NAME

Analog Output Point

Status Point

BLRL1

Name*

HEATC1

OCCPC00

SETPT01

TEMP_I00

Time Schedule

Setpoint Schedule

Reset Point

Reset

Start Reset Value

Stop Reset Value

Control Point

–40.00 dF

245.00 dF

SSWT

StrtRst

StopRst

Name*

PID_Master_Loop

Proportional Gain

Integral Gain

3.0

1.5

Global Schedule Broadcast:

Derivative Gain

Disabled Output Value

Minimum Output Value

Maximum Output Value

Starting Value

0.0%

100.0%

0.0%

10 sec

0 sec

Configuration Units

Configuration Range

Default Value

None

0 or 1

DsblOut

MinOut

MaxOut

StartVal

BlkRate

PowerUp

Block Iteration Rate

Power on Delay

Heat Pump Default Configuration — The heat pump

default configuration table is shown in Table 18.

*User configured.

Table 18 — Pump 1 Speed (PUMP_1)

Occupancy Configuration Screen — The Occu-

pancy Configuration Screen is used to configure the occupancy

schedule. See Table 21.

MANUAL OVERRIDE HOURS — The Manual Override

Hours point is used to command a timed override by entering

the number of hours the override will be in effect. If the occu-

pancy schedule is occupied when this number is downloaded,

the current occupancy period will be extended by the number

of hours downloaded.

If the current occupancy period is unoccupied when the

occupancy override is initiated, the mode will change to occu-

pied for the duration of the number of hours downloaded. If the

occupancy override is due to end after the start of the next

occupancy period, the mode will transition from occupancy

override to occupied without becoming unoccupied and the

occupancy override timer will be reset.

DESCRIPTION

VALUE

PUMP1

VSPC

OCCPC00

SETPT02

TEMP_I00

NAME

Analog Output Point

Status Point

Name*

Time Schedule

Setpoint Schedule

Reset Point

Reset

Start Reset Value

Stop Reset Value

Control Point

–40.00 PSIG

245.00 PSIG

SDP

StrtRst

StopRst

Name*

PID_Master_Loop

Proportional Gain

Integral Gain

2.0

1.0

0.0

0.0%

10.0%

100.0%

35.0%

10 sec

0 sec

Derivative Gain

Disabled Output Value

Minimum Output Value

Maximum Output Value

Starting Value

DsblOut

MinOut

MaxOut

StartVal

BlkRate

PowerUp

Block Iteration Rate

Power on Delay

An active occupancy override or a pending occupancy

override may be canceled by downloading a zero to this

configuration. Once a number other than zero has been down-

loaded to this configuration, any subsequent downloads of any

value other than zero will be ignored by the controller.

*User configured.

Cool Source Default Configuration — The cool

source default configuration table is shown in Table 19.

Table 19 — Cooling Tower 1 (COOLT_1)

Manual Override

Hours:

Units

hours

0 to 4

DESCRIPTION

VALUE

CTL1

COOLT1

OCCPC00

SETPT01

SRWT

NAME

Range

Analog Output Point

Status Point

Name*

Default Value

Time Schedule

OCCUPANCY SCHEDULE — For flexibility of scheduling,

the occupancy programming is broken into eight separate peri-

ods. For each period the schedule contains the following fields:

Day of Week, Occupied From, and Occupied To.

Setpoint Schedule

Reset Point

Reset

Start Reset Value

Stop Reset Value

Control Point

–40.00 dF

–39.00 dF

SSWT

StrtRst

StopRst

Name*

DAY OF WEEK — The Day of Week configuration consists

of eight fields corresponding to the seven days of the week and

a holiday field in the following order: Monday, Tuesday,

Wednesday, Thursday, Friday, Saturday, Sunday, Holiday.

PID_Master_Loop

Proportional Gain

Integral Gain

–3.0

–1.5

Derivative Gain

Disabled Output Value

Minimum Output Value

Maximum Output Value

Starting Value

0.0

0.0%

100.0%

0.0%

10 sec

0 sec

DsblOut

MinOut

MaxOut

StartVal

BlkRate

PowerUp

It is displayed as:

Th Fr

Sa Su Hol

Block Iteration Rate

Power on Delay

If a 1 is configured in the corresponding place for a certain

day of the week, the related “Occupied from” and “Occupied

to” times for that period will take effect on that day of the

week. If a 1 is placed in the holiday field, the related times will

take effect on a day configured as a holiday. A zero means the

schedule period will not apply to that day.

*User configured.

Heat Source Default Configuration — The heat

source default configuration table is shown in Table 20.

Day of week:

Range

Default Values

0 or 1

11111111 for period 1,

00000000 for the rest of

the periods

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OCCUPIED FROM — This field is used to configure the

hour and minute, in military time, that the mode for the

PremierLink™ controller will switch to occupied.

Network Time Schedule — The network time schedule

allows the occupancy schedule in another device on the CCN

to control the Aquazone™ system control panel’s occupancy

state.

Each time the occupancy schedule on the controlling device

changes to occupied, the controlling device broadcasts an

occupancy flag over the CCN. To receive an occupancy flag,

a network time created. Up to 18 network time schedules are

configured. The schedules are sequentially named OCCPC65E

to OCCPC82E, however Service Tool or Building Supervisor

software can be used to modify the names up to OCCPC99E.

Occupied From: Units

Range

Hours:Minutes

00:00 to 24:00

(Minutes 00 to 59)

00:00

Default Value

OCCUPIED TO — This field is used to configure the hour

and minute, in military time, that the mode for the PremierLink

controller switches from occupied to unoccupied.

Occupied To:

Units

Hours:Minutes

00:00 to 24:00

(Minutes 00 to 59)

24:00

Holiday Schedules — A Holiday schedule allows the

user the capability to specify days of the year (holidays) on

which the Aquazone system control panel will follow the

holiday time schedule instead of the normal time schedule for

that day. Holiday time schedules are normally used to program

a weekday in unoccupied mode for the entire day since the

building will be empty during a holiday.

There are 16 different holiday schedules that can be created.

Holiday schedules can also last more than one day, as long as

the days are consecutive.

Holiday schedules must be configured on the time and date

broadcaster element on the CCN. If the Comfort Controller on

the Aquazone system control panel is the broadcaster, it will

send holiday status to all other system elements on the CCN. If

the Comfort Controller is not the broadcaster, do not configure

the holiday schedules for it, as they will not be used.

Range

Default Value

Table 21 — Occupancy Schedule (OCCPC01)

DESCRIPTION

Time Schedule

VALUE

NAME

Manual Override Hours

Period 1: Day of Week

Period 1: Occupied from

Period 1: Occupied to

Period 2: Day of Week

Period 2: Occupied from

Period 2: Occupied to

Period 3: Day of Week

Period 3: Occupied from

Period 3: Occupied to

Period 4: Day of Week

Period 4: Occupied from

Period 4: Occupied to

Period 5: Day of Week

Period 5: Occupied from

Period 5: Occupied to

Period 6: Day of Week

Period 6: Occupied from

Period 6: Occupied to

Period 7: Day of Week

Period 7: Occupied from

Period 7: Occupied to

Period 8: Day of Week

Period 8: Occupied from

Period 8: Occupied to

Push Button Override

Thermostat Override

Time Delay

0 hours

Ovrd

DOW1

Occ1

UnOcc1

DOW2

Occ2

UnOcc2

DOW3

Occ3

UnOcc3

DOW4

Occ4

UnOcc4

DOW5

Occ5

UnOcc5

DOW6

Occ6

UnOcc6

DOW7

Occ7

UnOcc7

DOW8

Occ8

UnOcc8

Name*

Value*

PowerUp

00000000

00:00

24:00

00000000

00:00

24:00

00000000

00:00

24:00

00000000

00:00

To configure a holiday schedule, enter a “1” in the Holiday

column of the Day of Week point of the Occupancy schedule.

24:00

00000000

00:00

24:00

00000000

00:00

24:00

00000000

00:00

24:00

00000000

00:00

24:00

LATCHI00

TEMP_I00

5 min

0 sec

Timed Override Duration

Power on Delay

*User configured.

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Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.

PC 111 Catalog No. 535-00077 Printed in U.S.A. Form 50RLP-1SI Pg 28 1-03 Replaces: New

Book 1

Tab 5a 5a

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