TZ-4 TotalZone® Zone Control Panel
PRODUCT DATA
FEATURES
•
Up to three stages heat and two stages cooling can be
controlled by thermostat, built-in timer, or based on
the percentage of zones calling.
•
•
•
Controls single-stage, multi-stage, conventional, heat
pump or dual-fuel equipment.
Controls up to four zones and can be expanded up to
32 zones with Add-A-Zone Control Panels.
Uses Honeywell four-wire, single-stage, multi-stage, or
select heat pump thermostats.
•
•
Zone-A-Lone central setback feature.
Purge timer protects equipment between calls for heat
or cool with choice of panel or HVAC equipment
controlled fan.
•
System and zone damper LEDs indicate system and
damper status.
•
•
Individual zone fan control.
Discharge Air Temperature Sensor for capacity control
with adjustable high and low limits.
APPLICATION
•
Thermal circuit breaker protects panel and transformer
from damage if miswired.
The TZ-4 TotalZone Zone Control Panel controls single-stage,
multi-stage, conventional or heat pump heat/cool equipment.
It controls 2, 3 or 4 zones, and is expandable up to 32 zones
with optional TotalZone® Add-A-Zone™ Four Zone Control
Panel.
For Internet access:
For technical support, call 1-800-828-8367.
Contents
Application.........................................................................
Features ............................................................................
Specifications ....................................................................
Installation .........................................................................
1
1
2
4
Startup and Checkout........................................................ 12
Operation........................................................................... 12
Troubleshooting................................................................. 17
® U.S. Registered Trademark
Copyright © 2002 Honeywell • All Rights Reserved
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Table 1. Recommended Thermostats.
Non-Programmable
T87F1859/Q539A1014
System
Programmable
Single Stage
T8601D2027
T8600D2069
T8600D2028
T8601D2019
T8602D2018
T8602D2000
T8000C1002
T8000C1010
T8001C1019
T87F4010/Q539A4026
T8501D1046
T8400C1016
T8400C1040
T8400C1099
PC8900/W8900A/C
b
Heat Pump
a,c,d
T8611G2051
Y594R1243
a,e
T8011R1006
T8011R1014
Y594G1252
T8411R1002
T8411R1028
b
Multi-Stage
f
Y594D1347
T8624D2004
T8624D2012
T8524D1015
a
b
Heat pump thermostat with single Y first-stage terminals. See Heat Pump Thermostats section and Fig. 6.
Multi-stage and heat pump thermostats are not required to control multi-stage and heat pump systems with TotalZone. They are
used only when second stage or emergency heat control from the zone thermostat is needed.
c
The Y594R1243 must be wired to the panel using the B terminal for changeover.
d
Cut thermostat second-stage variable heating anticipator wire (gray).
e
f
Cut thermostat first-stage fixed heating anticipator wire (bare) and second-stage variable heating anticipator wire (gray).
Cut thermostat second-stage cooling anticipator wire (lowest bare wire).
Recommended Dampers (See Table 2):
Ten ZD or ARD dampers maximum connected to each panel
and a maximum of five dampers per zone when using two
40 VA transformers.
Table 2. Recommended Dampers.
Use SDCR and 40 VA transformer for additional dampers
required on one zone.
Honeywell Damper Type
Round
Rectangular
Dampers are connected to M1 Common, M4 Open, and M6
Closed (see Fig. 7-10 for hookups).
Power-open/power-closed (for
systems > 2000 cfm)
MARD
D643 using
ML6161
Motor
Actuator
Motor Terminal
Common/M1
Damper Action
Common
Spring-open/power-closed (for
systems </= 2000 cfm)
ARD
ZD
Open/M4
Power Open
Power Close
Accessories: For required accessories, see Table 3.
Closed/M6
3
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
3. Mount the TZ-4 zone panel near the HVAC equipment;
(on a wall or on the cold-air return). See Fig. 2.
4. Level the TZ-4 for appearance only.
Table 3. Required Accessories (Not Supplied).
Accessory
Description
Bypass Rating
(cfm)
Wiring
40 VA
transformers
AT140D1046
(PMT-40)
—
—
—
CAUTION
Voltage Hazard.
Capacity
protector
C7735A1000
Can cause electrical shock or equipment damage.
Disconnect power before continuing installation.
Outdoor
C7089B1000
Wiring must comply with applicable codes, ordinances, and
regulations.
Temperature
Sensor
(Required for
dual-fuel
applications)
1. Connect thermostats as shown in Fig. 3-6.
2. Connect dampers as shown in Fig. 7-10.
3. Connect C7735A Discharge Air Temperature Sensor
(not supplied) to the DATS terminals. The wires are not
polarized. See Fig. 13.
4. Connect Add-A-Zone panels (if used) to the AZ1 and
AZ2 terminals.
Round static
pressure
regulator
damper
SPRD7
SPRD8
SPRD9
SPRD10
SPRD12
SPRD14
SPRD16
300
400
600
750
1200
1800
2400
5. Connect the HVAC equipment to the EQUIP terminals
on the panel. See Fig. 15-21.
6. Connect a 40 VA, 24 volt transformer to R (hot) and C
(common). This must be a dedicated transformer and
each TAZ-4 board also requires a transformer. See Fig.
12.
7. The auxiliary 40 VA 24-volt transformer can be con-
nected to T1 and T2 if additional power for dampers is
required. This second transformer is not required; how-
ever, total power consumption of panel and damper is
limited to 40VA without it.
Rectangular
static pressure
regulator
SPRD12x8
SPRD12x10
SPRD12x12
SPRD20x8
SPRD20x10
SPRD20x12
1000
1200
1400
1600
2000
3000
damper
INSTALLATION
Mounting
RETURN
AIR
CAUTION
Equipment Damage Hazard.
Do not mount TZ-4 inside HVAC equipment
Mount only on wall or on cold air return.
TZ-4
OPTIONAL
LOCATION
TZ-4
Identifying DIP Switches
EL
EC
TR
O
NI
C
A
IR
C
LE
AN
ER
WATER
HEATER
FURNACE
OR BOILER
This panel has two banks of DIP switches, DIP switch 4 (S4)
and DIP switch 5 (S5), see Fig 15. Each bank has eight
individual switches that are identified by two numbers; the first
number is the bank number (4 or 5) and the second number
identifies the individual switch. For example, DIP 5-1 is bank
5, switch 1.
HIGH
EFFICIENCY
AIR CLEANER
M20517
1. Mount the thermostats in each zone of the living space
using the installation instructions provided with each
thermostat.
Fig. 2. TZ-4 mounting location.
2. Mount the dampers in the ductwork using the installa-
tion instructions provided with each damper.
68-0259-1
4
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Wiring Diagrams (Fig. 3 and 4)
Conventional Thermostats
Conventional (RWYG) thermostats can be used to control
conventional, multi-stage, and heat pump equipment. If the
thermostat has a common terminal, it is wired to C on the
panel, see Fig. 3. A multi-stage thermostat is wired with the
second and third stage of heat to W2 and W3 on the panel
thermostat connections, and with the second stage of cooling
to Y2. Leave the zone O/B thermostat jumper on the TZ-4
disconnected. See Single and Multi-Stage Operation in the
Operation section for instructions on staging the TZ-4.
3
The PC8900 with the W8900A or W8900C can be used as a
zone thermostat. See Fig. 4 for hookup. This thermostat can
be used to control up to 2 heat and 2 cool stages of
conventional equipment. When used to control heat pump
equipment, the W8900A is recommended.
TZ-4 THERMOSTAT
CONNECTORS
2
G
Connect a jumper on the W8900 from Rc to Rh as shown in
Fig. 4. Wire terminals R and C to a transformer. If the system
current draw is within specifications, the R and C on the
W8900 could alternately be connected to R and C on the
TZ-4. The PC8900/W8900 draws 5 VA.
C
R
1
W
Y
TYPICAL SINGLE STAGE
THERMOSTAT WIRING
COMMON (C) TERMINAL IS USED ONLY BY THERMOSTATS
THAT REQUIRE A COMMON WIRE.
1
2
MULI-STAGE THERMOSTATS ARE WIRED SIMILARLY BUT WITH
Y2 AND W2 USED FOR SECOND STAGE COOL AND HEAT.
THIRD STAGE OF HEAT (W3) CAN BE WIRED TO W3/AUX.
3
LEAVE O/B JUMPER ON TZ-4 DISCONNECTED.
M20509B
Fig. 3. Typical single-stage thermostat wiring.
5
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
2
TZ-4 THERMOSTAT
CONNECTORS
CO2
S1
S
T1
T
OUT
OUT
1
2
3
4
LED
GND
C
R
RH
RC
HUM
HUM
VNT
VNT
G
Y2
Y1
24 VAC
W1
W2
120 VAC
1
2
3
4
PC8900
1
W8900A,C
W8900A/C IS RECOMMEDED FOR CONVENTIONAL AND HEAT PUMP APPLICATIONS. THE W8900B CANNOT
SWITCH THE PANEL TO EMERGENCY HEAT.
1
2
M20508B
LEAVE O/B JUMPER ON TZ-4 DISCONNECTED.
Fig. 4. PC8900 with W8900A,C Thermostat wiring.
If the PC8900/W8900 /Thermostat is used in a heat pump
application, use the W8900A, not the W8900B, and wire as
shown in Fig. 4.
Heat Pump Thermostats
Select a heat pump thermostat from Table 1. If the thermostat
selected has a separate Y1 and W1 wire, as shown in Fig. 5,
leave the zone O/B thermostat type jumper on the TZ-4
disconnected, and wire as shown in Fig. 5.
68-0259-1
6
TZ-4 TOTALZONE® ZONE CONTROL PANEL
.
ARD or ZD Dampers
Wire the ARD or ZD Damper to the panel as shown in Fig. 8.
Multiple dampers can be wired in parallel. Use these dampers
on systems up to 2000 cfm.
AOBD Dampers
Wire the AOBD dampers to the panel as shown in Fig. 9. Two
AOBD can be wired in tandem as shown in Fig. 10. More than
two AOBD dampers require the Slave Damper Control Relay
(SDCR).
3
TZ-4 THERMOSTAT
CONNECTORS
3
G
L
C
R
1
W2
E
2
TZ-4 THERMOSTAT
CONNECTORS
W1
Y
B
O
HEAT PUMP THERMOSTAT WITH
SEPARATE Y1 AND W1
THERMOSTAT WIRING
G
L
COMMON (C) TERMINAL IS USED ONLY BY THERMOSTATS
THAT REQUIRE A COMMON WIRE.
1
C
1
2
3
JUMP E TERMINAL TO W1 FOR EMERGENCY HEAT.
LEAVE O/B JUMPER ON TZ-4 DISCONNETED.
W2
R
E
M20506B
2
W1
B
Y1
Fig. 5. Heat pump thermostat with separate Y1 and W1
terminals and multi-stage thermostat wiring.
O
HEAT PUMP THERMOSTAT WITH
SINGLE Y THERMOSTAT WIRING
If the thermostat selected from Table 1 has a single Y terminal
for first stage heat and cool, wire as shown in Fig. 6. Wire
either O or B (not both) from the thermostat to the O/B
terminal on the panel. Locate the O/B thermostat jumper on
the TZ-4 near each zone thermostat wiring terminal. Connect
the jumper if O was used or leave disconnected if B was used.
Connect second stage, auxiliary heat to W2.
COMMON (C) TERMINAL IS USED ONLY BY THERMOSTATS
THAT REQUIRE A COMMON WIRE.
1
2
NORMALLY, CONNECT E ON THERMOSTAT TO W1 ON PANEL.
ALTERNATIVELY, INSTALL JUMPER FROM E TO Y1 ON
THERMOSTAT.
3
CONNECT O/B TERMOSTAT JUMPER ON TZ-4 PANEL IF
USING O FROM THERMOSTAT; DISCONNECT IF USING B.
M20507B
When using two- or three-stage heat pump thermostats with
single Y first-stage hookup, place a jumper from W2 to Y2 on
the TZ-4 thermostat connections. See Fig. 7.
Fig. 6. Heat pump thermostat with single Y thermostat
wiring.
See Single and Multi-Stage Operation in the Operation
section for instructions on staging the TZ-4.
7
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
MOTOR TERMINALS
M6 M4 M1
3
4
1
5
2
6
3
Z
X
FIELD JUMPER
M19067
DAMPER MOTOR
TZ-4
THERMOSTAT
CONNECTORS
Fig. 9. Wiring AOBD damper to panel.
1
4
MOTOR TERMINALS
M6 M4 M1
G
L
FIELD JUMPER
C
R
W3
E
2
Y2
Y1
B
4
1
5
2
6
3
Z
X
4
1
5
2
6
3
Z
X
O
HEAT PUMP THERMOSTAT WITH
SINGLE Y THERMOSTAT WIRING
DAMPER MOTORS
M19068
COMMON (C) TERMINAL IS USED ONLY ON THERMOSTATS
THAT REQUIRE A COMMON WIRE.
1
2
ALTERNATIVELY, JUMPER E THERMOSTAT TERMINAL TO Y1 FOR
EMERGENCY HEAT.
Fig. 10. Wiring two AOBD dampers in parallel.
3
4
CONNECT O/B JUMPER ON TZ-4 WHEN USING O OR DISCONNECT
WHEN USING B FOR CHANGEOVER.
MARD Dampers or Dampers Using an ML6161 Motor
Actuator
Wire the MARD Damper or ML6161 Actuator to the panel as
shown in Fig. 11. These are floating control actuators, but are
controlled as two-position devices on the TZ-4 panel. Multiple
dampers can be wired in parallel.
FIELD INSTALLED JUMPER FROM Y2 TO W2 ON PANEL
THERMOSTAT CONNECTIONS.
M20891
Fig. 7. Heat pump thermostat with 3-stage heat, 2-stage
cool single Y thermostat wiring.
The ML6161 Motor causes the damper LED to illuminate
green constantly. WIre a relay as shown in Fig. 12 to restore
damper position indication.
Use the MARD or D643 with the ML6161 on systems above
2000 cfm.
ZONE PANEL
CONNECTIONS
M1
M4
M6
MARD
CW
COM
CCW
Fig. 8. Wiring ARD or ZD damper to panel.
M20136A
Fig. 11. Wiring MARD Damper or ML6161 Actuator to
panel.
68-0259-1
8
TZ-4 TOTALZONE® ZONE CONTROL PANEL
ZONE CONTROL PANEL
DAMPER TERMINALS
R
C
M6
M4
M1
ML6161
24 VAC, 40 VA
Transformer
COM
CCW
CW
PANEL
XFRM
R8222 RELAY
R
R
C
C
T1
T2
DAMPER
XFRM
C
R
M20548A
24 VAC, 40 VA
Transformer
(Required if
more than
Fig. 12. MARD or ML6161 Damper Motor Actuator using
R8222 Relay wiring.
four dampers)
M20518
Transformer
Fig. 13. Wiring transformer(s) to panel.
1. Wire the transformers to the panel as shown in Fig. 13.
One 40 VA, 24 Vac transformer controls up to five ARD
or ZD dampers.
Discharge Air and Outdoor Temperature Sensors
Wire the C7735A Discharge Air Temperature Sensor (DATS)
to the panel as shown in Fig. 14. The Purge LED (yellow)
flashes in all modes except purge if no DATS is connected to
the TZ-4 or if there is a problem with the DATS or the wiring.
For dual fuel applications, connect the C7089 Outdoor
Temperature Sensor as shown in Fig. 14.
2. Connect the transformer to terminals R and C.
3. Add the auxiliary transformer if six to ten ARD or ZD
dampers are used.
a. Wire auxiliary transformer to terminals T1 and T2.
b. It is important that these two transformers be wired
in phase. If they are wired out of phase, the internal
circuit breaker trips and the board de-powers. If this
occurs, remove power, correct the wiring and
restore power to the board.
OT
Sensor
OT
IMPORTANT
OT
If more than five dampers are required for one zone
or if more than ten dampers are used for the TZ-4,
use the Slave Damper Control Relay (SDCR).
DATS
DATS
DATS
M20519
Fig. 14. Wiring C7735A Discharge Air Temperature Sensor
(DATS) to panel.
Add-A-Zone Panel
Remove power from TZ-4 before connecting AZ-1 and AZ-2.
Wire the Add-A-Zone (TAZ-4) Panel to the TotalZone (TZ-4)
Panel as shown in Fig.15. Up to seven TAZ-4 Panels can be
wired to one TZ-4 panel to control up to 32 zones.
9
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Conventional Equipment
Wire the heating and cooling equipment to the equipment
terminals on the TZ-4 Panel as shown in Fig. 16.
AZ1
AZ2
Conventional Equipment: Set DIP switch 5-1 to on.
Electric Furnaces: Set DIP switch 5-6 to off to energize the fan
with a call for heat.
Hydro-Air: Wire the zone valve or circulator relay to the Rh
and W1 equipment terminals. (If the circulator relay has
powered terminals, remove the Rh Rc jumper.) Set DIP switch
5-6 to off to energize the fan with a call for heat.
TotalZone Panel
DIP-SWITCHES
Oil Heat: Wire the oil primary T, T terminals to the Rh and W
equipment terminals. (If the oil primary has powered
terminals, remove the Rh Rc jumper.)
O
N
5
4
3
2
1
AZ1
AZ2
Multi-Stage: Wire the equipment as shown in Fig. 16 using the
W2 and W3 terminals for second and third stages of heat.
Wire Y2 for second stage of cooling.
AZ1
AZ2
TO NEXT
ADD-A-ZONE
PANEL
See Single and Multi-Stage Operation in the Operation
section to configure DIP switches 4-1, 4-2, 4-3, and 4-4.
TotalZone
Add-A-Zone Panel
M20362
Fig. 15. TotalZone Add-A-Zone wiring.
68-0259-1
10
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
HEAT
COOL
PURGE
130 F
FAN EM. HEAT ZONE 1 ZONE 2 ZONE 3 ZONE 4
H
C
ZONE LEDs
ON Damper open or opening
OFF Damper closed or closing
(factory installed).
30 F
ON
140 F
25 F
35 F
LED STATES:
Heat LED
Heating Mode
Flashing Heat LED High Limit
Cooling Mode
Flashing Cool LED Low Limit
Purge Mode
Flashing Purge LED Sensor Failure
EM
Heat
120 F
110 F
150 F
160 F
20 F
15 F
40 F
45 F
HVAC Equipment
Heating Transformer
Cooling Transformer
First Stage Heating
PURGE
OVERRIDE
Cool LED
OFF
Occup
Zone-
BOOT
R
R
24 VAC
Equip.
H
C
MAX. DUCT TEMP. DUAL FUEL OT SETTING
Purge LED
A-Lone
W /E
1
Fan LED
EM Heat LED
Fan Mode
EM Heat Mode
MOMENTARY PUSH BUTTONS
Boot – Clears microprocessor
Purge Overide – Bypass Purge Mode
Unoccup
Second Stage Heating Relay
Third Stage Heating
W
2
W /AUX
3
DIP SWITCH S4 SETTINGS
First Stage Cooling Relay
Second Stage Cooling Relay
Fan Relay
Y
1
DIP SWITCH S4
DIP SWITCH S5
1
2
3
4
5
6
7
8
2ND STAGE OPERATION: TABLE 1
2ND STAGE OPERATION: TABLE 1
3RD STAGE OPERATION: TABLE 1
3RD STAGE OPERATION: TABLE 1
STAGE TIMER: TABLE 2
STAGE TIMER: TABLE 2
STAGE TIMER: TABLE 2
UNUSED
AZ1
Add-A-Zone
Panel(s)
O
N
O
N
Y
2
AZ2
OC
OC
G
1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
Remote
Zone-A-Lone
O/B
TABLE 1
#1/#3 #2/#4 OPERATION
TABLE 2
#5 #6 #7 TIME
1
1
0
0
1
0
1
0
STAT
1
1
1
1
0
0
0
0
1
1
0
0
1
1
0
0
1
5 MIN
OT
Sensor
OT
OT
ON
1
CONV
40F
2.0 MIN 3.5 MIN
HVAC PANEL
NO CHG OPEN
HVAC PANEL
COOL HEAT
DISABLEDENABLED
OFF
0
HP
48F
TIMER
% ZONES
OFF
0 10 MIN
1 15 MIN
0 20 MIN
1 30 MIN
0 40 MIN
1 50 MIN
0 60 MIN
DIP SWITCH S5 SETTINGS
24VAC, 40VA
Transformer
1
2
3
4
5
6
7
8
SYSTEM TYPE
DATS LOW LIMIT
PURGE TIME
PURGE FAN
PURGE DAMPER
HEAT FAN
DATS
DATS
PANEL
XFRM
DATS
R
C
R
C
T1
T2
O/B ENERGIZED
DUAL FUEL
DAMPER
XFRM
ZONE 1
Thermostat
ZONE 2
Thermostat
ZONE 3
ZONE 4
Thermostat
2
2
Damper
W3/
2
2
L
1
2
“C” terminal connection
is not required on battery
powered, power stealing,
or some electromechanical
thermostats.
C
R
Damper
Thermostat
Damper
W3/
Y1 G O/BY2 W2AUX M6 M4 M1
L
Damper
W1/
E
W3/
W1/
E
W1/
W1/
W3/
Y1 G O/BY2 W2AUX
24VAC, 40VA
Transformer
(Required if
more than
C
R
Y1 G O/BY2 W2AUX
M6 M4 M1
C
R
Y1 G O/BY2 W2AUX
M6 M4 M1
C
R
E
C
R
E
M6 M4 M1
L
L
1
1
1
1
Leave jumper disconnected
for conventional thermostats.
four dampers)
C
R
W1 Y1 G O/B Y2 W2W3/
AUX
L
C
R
W1 Y1 G O/B Y2 W2W3/
AUX
L
C
R
W1 Y1 G O/B Y2 W2W3/
AUX
L
C
R
W1 Y1 G O/B Y2 W2W3/
AUX
L
Zone 1 Thermostat
Zone 2 Thermostat
Zone 3 Thermostat
Zone 4 Thermostat
This diagram shows the typical
three-stage equipment, thermostat,
and damper motor connections.
For specific wiring for other
thermostats, damper motors, and
HVAC Equipment, refer to the
nstallation Instructions.
4
1
5
2
6
3
Z
X
Power-closed
Spring-open
(Model ZD)
Power-closed
Spring-open
(Model ARD)
Power-closed
Spring-open
(Model ARD)
Power-open
Power-closed
(Opposed Blade
Damper Motors)
ZONE DAMPER MOTORS
M1 - common
M4 - power open
M20520B
M6 - power closed
Fig. 16. Wiring conventional heating and cooling equipment to TZ-4 panel.
Single-Speed Compressor: Wire the compressor to the Y1
terminal.
Heat Pump Equipment
See Fig. 17-22 for heat pump wiring. Refer to manufacturer
instructions for additional wiring details and substitute the
TZ-4 equipment terminals for the thermostat terminals shown.
— Connect the changeover relay to O/B equipment terminal.
— Set switch number 5-7 to on for O (cool) changeover, or to
off for B (heat) changeover.
If the same heat source is used for auxiliary heat and
emergency heat:
— Wire a jumper from W2 (auxiliary heat) to W1/E
(emergency heat).
— Do not connect W3/AUX. See Fig. 17.
— Set switch number 5-1 to off for heat pump equipment.
— Set DIP switches 4-1, 4-2, 4-3, and 4-4. See Single Stage
and Multi-Stage Operation in the Operation section.
If auxiliary heat is separate from emergency heat:
— Connect the auxiliary heat to W2 jumped to W3/AUX.
— Connect the emergency heat to W1/E. See Fig. 18.
IMPORTANT
Some heat pump manufacturers (such as York and
Trane) use the B terminal as the transformer
common. Do not connect the common from the
equipment to the zone control panel.
11
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
H
C
H
C
(factory installed).
(factory installed).
HVAC Equipment
Heating Transformer
Cooling Transformer
HVAC Equipment
Heating Transformer
Cooling Transformer
R
R
24 VAC
Equip.
H
C
R
R
24 VAC
Equip.
H
C
Auxiliary Heat
1
W /E
1
Auxiliary Heat
1
W /E
1
W
2
W
2
W /AUX
3
W /AUX
3
Compressor
Y
1
First Stage Compressor
Second Stage Compressor
Fan Relay
Y
1
Y
2
Y
2
Fan Relay
G
G
Reversing Valve
O/B
Reversing Valve
O/B
1
FIELD INSTALLED JUMPER.
M20521B
1
FIELD INSTALLED JUMPER.
M20523B
Fig. 17. Wiring single-stage heat pump with auxiliary heat.
Fig. 19. Wiring two-stage heat pump with auxiliary heat.
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
H
C
(factory installed).
H
C
(factory installed).
HVAC Equipment
HVAC Equipment
Heating Transformer
Cooling Transformer
Emergency Heat
Auxiliary Heat
1
R
R
24 VAC
Equip.
H
C
Heating Transformer
Cooling Transformer
Emergency Heat
R
R
24 VAC
Equip.
H
C
W /E
1
W
2
W /E
1
W /AUX
3
W
2
Compressor
Auxiliary Heat
Y
1
W /AUX
3
First Stage Compressor
Second Stage Compressor
Fan Relay
Y
2
Y
1
Fan Relay
G
Y
2
Reversing Valve
O/B
G
Reversing Valve
O/B
1
FIELD INSTALLED JUMPER.
M20522B
M20524A
Fig. 18. Wiring single-stage heat pump with separate
auxiliary and emergency heat.
Fig. 20. Wiring two-stage heat pump with separate
auxiliary and emergency heat.
Two-speed Compressor: Wire the first stage compressor to
Y1 and the second stage compressor to Y2.
Dual Fuel Heat Pumps: Install C7089B1000 Outdoor
Temperature Sensor to terminals OT and OT.
— Set outdoor sensor setting to:
If the same heat source is used for auxiliary heat and
emergency heat:
— Wire a jumper from W3/AUX (auxiliary heat) to W1/E
(emergency heat), see Fig. 19.
—
—
Balance point temperature of heat pump or
Outdoor temperature above which the heat pump is to
be used and below which the fossil fuel is to be used.
— Set DIP switch number 5-8 to off for dual fuel operation.
— Connect compressor to Y1. See Fig. 21.
— Connect fossil fuel heat to W1/E.
If auxiliary heat is separate from emergency heat:
— Wire the auxiliary heat to W3/AUX.
— Wire emergency heat to W1/E, see Fig.20.
—
—
Connect second stage of fossil fuel to W3/AUX.
Connect second stage of compressor to Y2. See
Fig. 22.
68-0259-1
12
TZ-4 TOTALZONE® ZONE CONTROL PANEL
STARTUP AND CHECKOUT
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
After the installation is complete, verify correct operation:
1. Place the Em Heat switch in the Off (down) position.
2. Place the Zone-A-Lone switch in the Occup/Remote
(up) position.
H
C
(factory installed).
3. Verify that DIP switches are set correctly. See
Sequence of Operation section and Table 8 for correct
configuration.
HVAC Equipment
Heating Transformer
Cooling Transformer
R
R
24 VAC
Equip.
H
C
4. Power up the TZ-4 and set the thermostats so no zones
are calling. The board then enters the Purge mode
where all dampers open and the fan operates for two or
three and one-half minutes (configurable). (If there is no
Discharge Air Temperature Sensor connected to the
panel, the purge LED flashes in all modes other than
purge.) The damper LEDs are green to indicate the
dampers are open. Press Purge Override button on
panel to exit Purge mode.
First Stage Fossil Fuel
W /E
1
W
2
W /AUX
3
First Stage Compressor
Y
1
Y
2
Fan Relay
G
Reversing Valve
O/B
M20525A
5. Set zone one thermostat to heat and raise the setpoint
to call for heat. Verify that the heat LED is red and zone
one damper remains green while the other damper
LEDs turn off.
Fig. 21. Dual Fuel with single-stage heat pump and single-
stage fossil fuel.
6. Raise zone two setpoint to call for heat. Lower zone one
setpoint to stop the call for heat to that zone. Verify that
zone one LED turns off and zone two LED turns green.
7. Repeat for zones three and four.
Single Transformer Heating/Cooling
systems require a jumper to be installed
connecting R and R
8. Alternately, lower the setpoint to call for cooling. Verify
that the green cool LED illuminates.
H
C
(factory installed).
HVAC Equipment
Heating Transformer
Cooling Transformer
OPERATION
R
R
24 VAC
Equip.
H
C
First Stage Fossil Fuel
W /E
1
Identifying DIP Switches
W
2
This panel has two banks of DIP switches, DIP switch 4 (S4)
and DIP switch 5 (S5). Each bank has eight individual
switches that are identified by two numbers; the first number
is the bank number (4 or 5) and the second number identifies
the individual switch. For example, DIP 5-1 is bank 5,
switch 1.
Second Stage Fossil Fuel
First Stage Compressor
Second Stage Compressor
Fan Relay
W /AUX
3
Y
1
Y
2
G
Reversing Valve
O/B
M20526A
Sequence of Operation
Fig. 22. Dual fuel with two-stage heat pump and
one- or two-stage fossil fuel.
•
When there is no call for heat, cool or fan, the board is in
idle mode, no system LEDs are illuminated and the green
damper LEDs indicate open.
•
On a call for heat, cool, or fan, the calling zone damper
stays open, and other zone dampers close:
Water Source Heat Pumps
Wire the equipment, as applicable, to the TZ-4 as shown in
Fig. 17-19. Refer to manufacturer instructions for additional
wiring instructions and substitute the TZ-4 equipment
terminals for the thermostat terminals shown.
— Wire first stage compressor to Y1, second stage
compressor to Y2.
—
—
—
—
TZ-4 panel energizes the HVAC equipment and condi-
tioned air is delivered to the calling zone.
Heat LED (red), cool LED (green), or fan LED (green)
illuminates to indicate equipment operation.
Fan LED illuminates only on a call for circulation; it
does not illuminate during a call for heat or cool.
When the call is satisfied, the system enters the Purge
mode. After purge, all dampers return to the Open
position, depending on the setting of DIP switch S5-5.
— Connect auxiliary heat to W3/AUX and emergency heat to
W1/E.
— If auxiliary heat and emergency heat are the same, wire a
jumper from W1/E to W3/AUX.
— Connect changeover relay to O/B equipment terminal.
— Set DIP switch 5-7 to on for O (cool) changeover, or to off
for B (heat) changeover.
•
•
Any zone thermostat can call for heating or cooling. If there
are co-existing calls for heat and cool, the panel accepts
the first call.
Once that call is satisfied, or a maximum of 20 minutes has
elapsed, the panel switches to allow the opposite call after
completing Purge mode.
— Set DIP switch 5-1 to off for heat pump equipment.
13
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Purge Mode
At the end of every call for heat or cool, the panel enters a
Purge mode that holds open the calling zone damper for two
(default) or three and one-half minutes.
DIP Switch bank 4, switches 1-4, are used to configure the
staging method:
— Switches 1 and 2 configure second stage control. See
Table 4.
During this time, the panel or the HVAC equipment can be
configured to operate the fan. The Purge LED lights to signal
that the system is in the Purge mode. Pressing the purge
override button overrides the Purge mode.
— Switches 3 and 4 configure third stage control. See Table.
5.
— When stage two or three is not used, disable that stage by
turning off the corresponding switches.
Unless there is a new call for heat or cool during the Purge
mode, all dampers are moved to the Open position at the end
of purge.
Single Stage
If equipment is single stage, set bank 4, DIP switches 1-4 Off:
The panel can be configured to open all dampers during the
purge mode.
DIP Switch
Number
Stage
Stage
Status
nd
nd
rd
4-1
4-2
4-3
4-4
Off
Off
Off
Off
2
2
3
3
DIP Switch
Number
Status
Off
Purge Operation
3.5 minutes
Stage
Stage
Stage
5-3
5-3
On
2 minutes
5-4
Off
Panel control of fan in
purge
rd
5-4
5-5
5-5
On
Off
On
HVAC control of fan
in purge
THERMOSTAT-CONTROLLED STAGES
Use a thermostat that energizes W2 and Y2 for second stage
of heat and cool, and W3 for third stage of heat. Configure for
thermostat as shown in Tables 4 and 5.
All dampers open
during purge
TIMER-CONTROLLED STAGES
Damper positions
unchanged during
purge
— The Timer energizes second stage of heat or cool after the
first stage begins calling for the set amount of time.
— The third stage of heat is energized once the second stage
of heat is calling for the set amount of time.
— Second and third stages remain energized until the call for
heat or cool is satisfied.
Individual Zone Fan Control
When all zones are satisfied, the fan switch of each
thermostat controls the fan operation for that zone.
— When the fan switch is in the On position, the fan is
energized, and dampers close to zones where fan switch is
in Auto position.
See Table 6 for stage timer configuration of DIP switch bank 4,
switches 5, 6, and 7.
— During a call for heat or cool at this time, the circulation
mode ceases, and the heat or cool call is honored.
— When the zone calling is satisfied, the circulation call
resumes.
PERCENTAGE OF ZONES CALLING—CONTROLLED STAGES
Percentage of zones calling energizes second or third stage
based on the percentage of zones called for heat or cool on
the TZ-4 and TAZ-4.
The percentage of zones necessary to turn stages two and
three on and off:
Single and Multi-Stage Operation
The panel can control up to three stages of heating and two
stages of cooling:
— First stage is energized by the thermostat.
Stage
Stage 2 Heat
Stage 2 Cool
Stage 3 Heat
On
Off
— Second stage of heating or cooling and third stage of
heating can be energized by the thermostat, timer, or the
percentage of zones calling. (For instance, first and second
stage of heat and cool can be thermostat energized and
third stage heat can be configured for timer energizing.)
— See Tables 5 and 6 for second and third stage
configuration. Note that second and third stage can be
controlled differently. Set stages not used to Off.
>33%
>33%
>66%
</=25%
</=25%
</=56%
68-0259-1
14
TZ-4 TOTALZONE® ZONE CONTROL PANEL
HEAT PUMP OPERATION
The panel can control single- or two-stage heat pumps with or
without auxiliary heat. Set DIP switch 5-1 to Off for heat pump
control. This energizes equipment terminal Y1 on a call for
first stage heat or cool. If second stage is configured to
operate with DIP switch 4-1 and 4-2, Y2 energizes to call for
second stage compressor. When in heat pump mode, the
panel energizes the fan with a call for heat and a call for cool.
Configure DIP switch 5-7 for correct changeover valve control.
See Table 7.
Table 5. DIP Switch Bank 4, Stage 3 Configuration.
Operation
Thermostat
Switch 4-3
On
Switch 4-4
On
Off
On
Off
Timer
On
Off
Off
% of zones calling
Off
DUAL FUEL OPERATION
The panel can control a heat pump and a fossil fuel furnace in
a dual-fuel application. A C7089B1000 Outdoor Temperature
Sensor is wired to the OT and OT terminals on the TZ-4 to
switch the panel from heat pump to fossil fuel operation. DIP
switch 5-8 is set to Off to enable dual-fuel operation.
Table 6. DIP Switch Bank 4, Stage Timer Configuration.
The dual-fuel OT setting (see Fig. 16 for location) is set to the
outdoor temperature that locks out the heat pump and uses
the fossil fuel mode. The fan is energized by the panel for two
minutes after the changeover and the Em Ht LED illuminates
when in the fossil fuel mode.
DIP Switch
4-5
DIP Switch
4-6
DIP Switch
4-7
Time
5 minutes
On
On
On
On
Off
Off
Off
Off
On
On
Off
Off
On
On
Off
Off
On
Off
On
Off
On
Off
On
Off
10
15
20
30
40
50
60
IMPORTANT
A C7089B1000 Outdoor Temperature Sensor and a
C7735A1000 Discharge Air Temperature Sensor are
required for dual fuel operation.
Table 4. DIP Switch Bank 4, Stage 2 Configuration.
Operation
Thermostat
Timer
Switch 4-1
Switch 4-2
On
On
Off
Off
On
Off
On
Off
% of Zones
Off
Table 7. DIP Switch Bank 5 Settings and Functions.
DIP Switch
Function
On (Default)
Conventional
Off
5-1
5-2
5-3
5-4
5-5
5-6
System Type
Heat Pump
48°F
DATS low limit.
40°F
Purge mode timing.
Fan control during purge.
Damper control during purge
Fan control in heat.
Two minutes.
Three and one-half minutes.
Panel controlled.
HVAC controlled.
Last zone(s) calling open.
All dampers open.
Fan controlled by panel in cool
and HVAC equipment in heat.
Panel in heat and cool controlling
fan.
5-7
5-8
Operation of O/B heat pump
changeover equipment terminal.
O/B equipment terminal is
energized in cool (O).
O/B equipment terminal is
energized in heat (B).
Dual fuel operation.
Disabled.
Enabled.
15
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Multi-Stage Thermostats
Thermostat Operation
Use multi-stage thermostats to control up to three stages of
heat and two stages cool with the W1/E,W2, W3/AUX, Y1,
and Y2 thermostat terminals.
Conventional Thermostats
Conventional (R,W,Y,G) heat/cool thermostats can be used
with the TZ-4 to control single or multi-stage gas, electric or oil
systems and heat pumps with auxiliary heat.
Manual and Automatic Changeover Thermostats
Manual or automatic changeover thermostats can be used.
The panel determines the call for heat or cool based on which
was called for first. Subsequent calls for heat or cool are
honored when the initial call is satisfied, or 20 minutes has
elapsed.
The panel can be configured to control second stage heat and
cool and third stage heat using a 5-60 minute timer, or staging
can be controlled by the percentage of zones calling.
When using conventional thermostats on heat pump
applications, set DIP switch 5-1 to Off for heat pump
equipment. Set DIP switch 5-7 for correct reversing valve
operation. See Table 7.
Rebooting Microprocessor
To reset the panel, press and release the Boot button.The
system reboots and enters the Purge mode.
Heat Pump Thermostats
Discharge Air Temperature Sensor
The C7735A1000 Discharge Air Temperature Sensor (not
included) is a supply-duct-mounted temperature probe used
to control capacity and prevent high limit or coil-icing. The
sensor attaches to the two DATS terminals on the panel.
When a high or low limit is reached, the panel shuts off the
equipment and keeps the fan operating for 2-1/2 minutes.
After this time, it re-energizes the equipment after the
discharge air recovers by 10 degrees. When the DATS
exceeds the high or low limit, the Heat (red) or Cool (green)
LED flashes.
HEAT PUMP THERMOSTATS WITH SINGLE Y OUTPUT
Thermostats that have a single Y terminal for first stage heat
and cool and those with separate Y1 and W1 can be used.
Thermostats of either wiring type can be used on any zone.
For thermostats with a single Y, the reversing valve wire must
be connected to O/B:
— Connect the thermostat Y terminal to Y1 on the panel.
— If the thermostat energizes O on a call for cool, connect the
O/B jumper located near the thermostat wiring terminals.
— If the thermostat energizes B on a call for heat, leave the
O/B jumper disconnected.
Set the temperature from 110°F to 160°F. See Fig. 23. The
recommended setting for fossil fuel/ electric systems is 160°F
(default factory setting). For heat pump systems, the
recommended setting is 120°F. When using a heat pump
with dual fuel activated (DIP 5-8), the high limit will auto-
matically be set for 120 degrees when the outputs call for
compressor only operation. When the outputs call for non-
heat pump operation, the high limit will be set to the adjustable
110° to160°F setting.
HEAT PUMP THERMOSTATS WITH SEPARATE Y1 AND W1
TERMINALS
Heat pump thermostats with separate Y1 and W1 terminals for
first stage heat and cool are wired to Y1 and W1/E. Leave the
O/B jumper, located near the thermostat wiring terminals,
disconnected.
Emergency Heat Control
The cooling temperature limit can be set at 40°F or 48°F.
Emergency heat is defined as using an auxiliary heat source
without using the heat pump. When the Em Heat switch is in
the emergency heat position, the heat pump is locked out and
calls for heat are sent to the W1/E equipment terminal for
fixed stage emergency heat. Second stage emergency heat
energizes equipment terminals W3/Aux. Second stage
emergency heat is configured with DIP switch S41 and 2.
When the panel is in the heat pump mode, W1/E is energized
only in emergency heat.
130 F
140 F
120 F
110 F
150 F
160 F
MAX DUCT
TEMP
M19079A
Fig. 23. DATS high-limit temperature dial.
IMPORTANT
A recommended heat pump thermostat can also control
emergency heat from the thermostat system switch. See
Table 1.
Be sure the Discharge Air Temperature Sensor wir-
ing does not run parallel with line voltage wiring
unless more than 12 in. of separation exists or
shielded cable is used.
68-0259-1
16
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Use DIP switch 5-2 to change cooling limit settings:
When the circuit breaker is tripped, none of the LEDs
illuminate and the yellow rectangular component located left
of the R and C terminals is hot to touch. Remove power to the
panel for at least five minutes to allow the circuit breaker to
cool off and reset. To eliminate the short, verify the dampers
and thermostat wiring.
Cooling Temperature
Limit
Dip Switch
5-2
Status
On
40°F
48°F
5-2
Off
Fan On In Heat
The system blower can be set to come on with a call for heat
as required for hydro-air or electric heat systems. Set the
blower function using DIP switch 5-6.
Zone-A-Lone Switch
When the Zone-A-Lone switch is in the occupied (up) position
and the OC/OC terminals are not used, the system functions
as a zone control system.
When DIP switch 5-1 is set to Off for heat pump control, the
panel brings the fan on with a call for heat and a call for cool.
When switched to the unoccupied (down) position, all
dampers are opened and all requests for heat, cool, or fan,
except from zone one, are not honored.
DIP Switch 5-6
Fan Control
HVAC system
Fan on in heat
On
Off
The zone one thermostat becomes the controlling thermostat
for the entire system. During long unoccupied periods, one
thermostat can be set back instead of adjusting each zone
thermostat in the building.
TotalZone Add-A-Zone Panels
The T8601D2027 and T8611G2051 include two OC terminals.
When wired to the TZ-4 OC terminals, and with the Zone-A-
Lone switch in the occupied (up) position, the board enters the
unoccupied mode during the Leave and Sleep programs. This
feature requires two extra wires to the Zone 1 thermostat.
Using TotalZone Add-A-Zone Panels, the system can be
expanded to up to 32 zones using TAZ-4 Add-A-Zone panels.
Two wires connect the AZ1 and AZ2 terminals on the TZ-4 to
the matching terminals on the TAZ board(s).
See Fig. 15 and the TAZ installation instructions for more
information.
Circuit Breaker Protection
A built-in thermal circuit breaker protects the TotalZone panel.
This circuit breaker protects the panel against shorts in the
thermostat and damper wiring. It does not protect against
shorts in the wiring of the HVAC equipment into the panel.
17
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
TROUBLESHOOTING
Table 8. Troubleshooting.
Possible Cause
Symptom
Action
No LEDs are Illuminated
No power to the board.
Transformers out of phase
Shorted wire.
Check for 24 Vac (±10%) across R and C.
If 48 Vac across R and T1, reverse T1 and T2 wires.
Check thermal circuit breaker. If hot, a short exists in
thermostat or damper wiring.
Damper LEDs on, but no
other LEDs illuminated.
Insufficient voltage.
Incorrect configuration.
Incorrectly wired.
Check for 24 Vac (±10%) across R and C.
Check jumpers and DIP switches for correct configuration.
Verify equipment and thermostat terminal wiring.
Heat pump operates
incorrectly or not at all.
Incorrectly configured.
Verify DIP switch configuration.
Verify position of O/B thermostat type jumper.
Erratic Operation
Emergency Heat switch
on.
Turn off (down) Emergency Heat switch.
Zone-A-Lone Feature on.
High limit reached.
Turn off (up) Zone-A-Lone.
Heat LED flashing.
Cool LED flashing.
LED stops flashing with ten-degree fall and 2-1/2 minute
delay.
Low limit reached.
LED stops flashing with ten-degree rise and 2-1/2 minute
delay.
Purge LED flashes
continuously.
DATS or OT problem or not
connected.
Verify that DATS and OT (if any) are connected and wired
correctly.
Add-A-Zone not operating.
Incorrectly configured.
Incorrectly wired.
Verify DIP switch settings on the TAZ panels.
Check AZ1and AZ2 for correct wiring.
Verify that a separate transformer is used for each TAZ-4
panel.
Be sure that AZ1 and AZ2 are at least 12 in. from line voltage
wiring.
68-0259-1
18
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Table 9. LED Indicators.
LED
Heat
Color
Red
Illuminated
Heat call.
Not Illuminated
Flashing
High limit reached.
Low limit reached.
No heat calls.
Cool
Green
Amber
Cool call.
No cool calls.
Purge
Purge mode.
Not in Purge mode.
•
•
•
DATS failure: slow flash.
OT failure: fast flash.
DATS and OT failure:
alternating fast and slow flash.
Fan
Green
Red
Fan only call.
No fan only call.
—
—
EM Heat
Emergency Heat mode or
dual-fuel mode.
Not in emergency Heat mode or
dual-fuel mode.
Zones
Green
Damper is open or
opening.
Damper is closed or closing.
—
1,2,3.4
19
68-0259-1
TZ-4 TOTALZONE® ZONE CONTROL PANEL
Automation and Control Solutions
Honeywell
Honeywell Limited-Honeywell Limitée
1985 Douglas Drive North
Golden Valley, MN 55422
35 Dynamic Drive
Scarborough, Ontario
M1V 4Z9
68-0259-1 G.H. Rev. 12-02
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