OE326-23I-OR VAV/Zone Controller · Form: ORION-OE326-23I-OR-01A.doc Page 1 of 1 Description The...
Transcript of OE326-23I-OR VAV/Zone Controller · Form: ORION-OE326-23I-OR-01A.doc Page 1 of 1 Description The...
Form: ORION-OE326-23I-OR-01A.doc Page 1 of 1
Description The OE326-23I-OR is a VAV/Zone Controller that is designed for pressure independent VAV Box and Zone Damper applications. It is supplied with an integral Airflow Sensor and is mounted in a plastic enclosure. The VAV/Zone Controller is designed for use with an OE282-01 Damper Actuator with cable package. The controller and actuator can be purchased separately or as a combined package (referenced below). The VAV/Zone Controller connects to the actuator via the modular cable included with the actuator. One stage of Aux Heat is provided on the controller. The VAV/Zone Controller can use a Standard Room Temperature Sensor wired to the 3 pole terminal block provided or an E-BUS Digital Room Sensor connected via the integral E-BUS cable connector or to the 4 pole terminal block provided. The VAV/Zone Controller also has a 2 pole terminal block for wiring a Discharge Temperature Sensor, if desired. An optional Reheat Expansion Module is available for applications using fan terminals and/or more than 1 stage of Heat, SCR electric heat, or if using modulating HW heat. The Expansion Module connects to the VAV/Zone Controller by means of a prefabricated E-BUS cable.
Package OE744-01P-VAVZ (Pressure Independent VAV/Zone Controller Package) includes the Zone Controller and Actuator. Package OE744-03P-VAVZ (Pressure Independent VAV/Zone Controller Package) includes the Zone Controller, Actuator, and Reheat Expansion Module.
Mounting The VAV/Zone Controller is very easy to mount on your terminal unit or to a round or rectangular damper mounting plate. Three holes are provided in the plastic controller housing for mounting to a control panel base. Detailed mounting and installation instructions are provided with each package.
OE326-23I-ORVAV/Zone Controller
5.82
5.64
5.05
2.62
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4.10
1.49
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24 VAC POWER ONLYWARNING! POLARITY
MUST BE OBSERVED
OR THE CONTROLLER
WILL BE DAMAGED
POWERINPUT
E-BUSCONNECTORS
GN
D
GN
D
SH
GND
BIN
TM
P
R+
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24 VAC
DU
CT
TE
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SE
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DS
WIT
CHCOMM
+ -
1
1 2
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DR
ES
S
ON
2 4 8 16
32
BAUD
ADDRESSSWITCH
www.wattmaster.com
OE326-23I-ORP.I. VAV CONTROLLER/ZONE
www.orioncontrols.com
WattM
aste
r Label
#L102317
Rev.
: 01A
B
2.05
CU
S
R
Technical Data OE326-23I-OR Pressure Independent VAV/Zone Controller
VAV/Zone Controller General Specifications: Inputs: Supply Power 24 VAC (1) 3 Pole Terminal Block Connector For Comm In & OutPower Consumption
6 VA Maximum (1) 2 Pole Terminal Block Connector For Power In
Operating Temperature
10F to 149F (1) 2 Pole Terminal Block For Discharge Temperature Sensor Connection
Operating Humidity 0-90% RH Non-Condensing
(1) 2 Pole Terminal Block for Occupancy or Window Switch Terminals
Communications RS-485 57,600 Baud Hi & Lo Pressure Tube Fittings For Integral Air Flow Sensor(P.I. Controllers Only)
Inputs: Outputs: (1) 3 Pole Terminal Block for Analog Room
Temperature Sensor Applications(2) E-BUS Connectors For Connection of Expansion Module
and/or E-BUS Digital Room Temperature Sensor (1) RJ-45 Modular Connector for Connection of Actuator
(1) 4 Pole Terminal Block for E-BUS Digital Room Sensor Applications
(1) 2 Pole Terminal For Connection Of Auxiliary Heat Contactor
WattMaster reserves the right to change specifications without notice. All Dimensions are in inches. Three Year Warranty
Form: ORION-OE326-23D-OR -01A.doc Page 1 of 1
Description The OE326-23D-OR is a VAV/Zone Controller designed for pressure dependent VAV Box and Zone Damper applications and is mounted in a plastic enclosure. The VAV/Zone Controller is designed for use with an OE282-01 Damper Actuator with cable package. The controller and actuator can be purchased separately or as a combined package (referenced below). The VAV/Zone Controller connects to the actuator via the modular cable that is included with the actuator. One stage of Aux Heat is provided on the controller. The VAV/Zone Controller can use a Standard Room Temperature Sensor wired to the 3 pole terminal block provided or an E-BUS Digital Room Sensor connected via the integral E-BUS cable connector or to the 4 pole terminal block provided. The VAV/Zone Controller also has a 2 pole terminal block for wiring a Discharge Temperature Sensor, if desired. An optional Reheat Expansion Module is available for applications using fan terminals and/or more than 1 stage of Heat, SCR electric heat, or if using modulating HW heat. The Expansion Module connects to the VAV/Zone Controller by means of a prefabricated E-BUS cable.
Package OE742-01P-VAVZ (Pressure Dependent VAV/Zone Controller Package) includes the Zone Controller and Actuator. Package OE742-03P-VAVZ (Pressure Dependent VAV/Zone Controller Package) includes the Zone Controller, Actuator, and Reheat Expansion Module.
Mounting The VAV/Zone Controller is very easy to mount on your terminal unit or to a round or rectangular damper mounting plate. Three holes are provided in the plastic controller housing for mounting to a control panel base. Detailed mounting and installation instructions are provided with each package.
OE326-23D-ORP.D. VAV/Zone Controller
5.82 .02
5.64
5.05
2.62
2.05
4.10
1.49
GN
D
TM
P
SP
AC
E
+
D1
R40
R37
D2
10
02
10
02
10
02
10
02
10
02
10
02
10
02
10
02
36
50
10
02
10
02
36
50
10
02
10
02
47
51
47
51
1002
10
uF
.00
1uF
10
uF
VA
C~
VD
C
VD
E
OFF
36
50
36
50
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36
50
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V1
SW
ITC
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CC
.
GN
D
BIN
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WE
R
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NS
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L
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1 2 4 8 16
32
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CC
W
ON
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1 2
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R5
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R4
R4
R4
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WattM
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r Label
#L102318
Rev.
: 01A
B
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LA
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ON
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CT
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+1
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DC
AD
J
TM
PH
EA
T
CO
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24 VAC POWER ONLYWARNING! POLARITY
MUST BE OBSERVED
OR THE CONTROLLER
WILL BE DAMAGED
POWERINPUT
E-BUSCONNECTORS
GN
D
GN
D
SH
GND
BIN
TM
P
R+
T-
24 VAC
DU
CT
TE
MP
SE
NS
OR
OC
CU
PIE
DS
WIT
CHCOMM
+ -
1
1 2
AD
DR
ES
S
ON
2 4 8 16
32
BAUD
ADDRESSSWITCH
www.wattmaster.com
OE326-23D-ORP.D. VAV CONTROLLER/ZONE
www.orioncontrols.com
Technical Data OE326-23D-OR P.D. VAV/Zone Controller VAV/Zone Controller General Specifications: Inputs:
Supply Power 24 VAC (1) 3 Pole Terminal Block Connector For Comm In & OutPower Consumption 6 VA Maximum (1) 2 Pole Terminal Block Connector For Power InOperating Temperature 10F to 149F (1) 2 Pole Terminal Block For Discharge Temperature
Sensor ConnectionOperating Humidity 0-90% RH
Non-Condensing(1) 2 Pole Terminal Block for Occupancy or
Window Switch TerminalsCommunications RS-485 57,600 Baud
Inputs: Outputs: (1) 3 Pole Terminal Block for Analog Room
Temperature Sensor Applications(2) E-BUS Connectors For Connection of Expansion Module
and/or E-BUS Digital Room Temperature Sensor (1) RJ-45 Modular Connector for Connection of Actuator
(1) 4 Pole Terminal Block for E-BUS Digital Room Temperature Sensor Applications
(1) 2 Pole Terminal For Connection Of Auxiliary Heat Contactor
WattMaster reserves the right to change specifications without notice. All Dimensions are in inches. Three Year Warranty
Form: ORION-OE282-01ZoneDmprAct-Sub-01B.doc Page 1 of 1
Description The OE282-01 Zone Damper Actuator is a shaft mounted, floating point control actuator with an included phone jack cable. Actuators are 24VAC/24VDC with a 10K ohm feedback signal for position monitoring. Wiring connection to the actuator is by means of a modular phone cable connector located on the actuator cover. The actuator is rated for 45 in-lb of torque. All actuators are electronically protected against overload. The angle of rotation is mechanically limited to 95. When the end position of the actuator or damper is reached, the actuator automatically stops. For adjustment purposes, the gears can be manually disengaged by pushing the manual override button on the actuator cover. Applications The OE282-01 Zone Damper Actuator is used to provide control of air volume dampers in a VAV or Zoning system. The actuator is included in the OE742-01P-VAVZ or OE742-03P-VAVZ. P.D. VAV/Zone Controller Packages or the OE744-01P-VAVZ and OE744-03P-VAVZ. P.I. VAV/Zone Controller Packages. The OE282-01 Zone Damper Actuator is also included in the following zone damper packages: OE520-XX-PT, OE520-XX-PM, OE521-XX-PT, and OE521-XX-PM, where XX = 06,08,12,14,16 – the size of the damper.
OE282-01Zone Damper Actuator
18” Long Modular Cable
OE282 Damper Actuator
5.70
”
0.75
”
0.38”
Modular Jack Connection
Technical Data OE282-01 Zone Damper ActuatorPower Supply 24VAC 20% 50/60HZ Angle of Rotation Max. 95, AdjustableLife Cycle Rating 2.5 Million Cycles with Mechanical StopsPower Consumption 3 VA Maximum Power Connection RJ-11 Modular JackOperating Temp -22F to 122F Servicing Maintenance FreeOperating Humidity 5 to 95% RH Non-
CondensingQuality Standard ISO 9001
Shaft Size Self-Centering -Adjustable from 3/8” to ½”
Direction of Rotation Reversible with Switch
Overload Protection Electronic Throughout 0 to 95 Rotation
Agency Listings UL873 listedCSA 4813 02 Certified
and/orcULus acc. to UL 60730-1A/-2-14,
CAN/CSA E60730-1:02,CE acc. to 2004/108/EEC and
2006/95/ECFeedback Signal 10K ohm 1W Potentiometer Torque Minimum 45 in-lbRunning Time 80-110 Seconds. Weight 1.2 lb.Three Year Warranty WattMaster reserves the right to change specifications without notice
Form: ORION-OE325-03-ExpMod-01A.doc Page 1 of 1
Description The OE325-03 VAV/Zone Controller Expansion Module is used in conjunction with the OE326-23I-OR & OE326-23D-OR VAV/Zone Controller to allow for control of fans included in series and parallel flow fan terminal units and/or additional staged or modulating heat. It can also control up to 3 stages of electric heat, SCR electric heat, on/off HW heat, or modulating hot water heat. The OE325-03 VAV/Zone Controller Expansion Module provides 4 relay outputs for pilot duty switching control, (1 fan and 3 heat) relay outputs and 1 analog output for control of a 0-10V modulating hot water valve or SCR controlled electric heating coil. The OE325-03 VAV/Zone Controller Expansion Module connects to the controllers mentioned previously by means of an E-BUS cable that is provided with the Expansion Module. Power to this board is also supplied to the board by means of this E-BUS cable for the VAV/Zone Controller. De-pluggable screw terminals are provided for connection of field wiring to the relays outputs, the analog outputs, and the binary input (not used in this application). The relay outputs are N.O. contacts with one common terminal. All outputs and the relay common are electrically isolated from all other circuitry on the board. All relay outputs are supplied with transient suppression devices across each set of contacts to reduce EMI and contact arcing. The relay output circuits are rated for pilot duty control of a maximum of 1 Amp @ 24 VAC or 24 VDC each. These outputs require a separate 24 VAC transformer provided by others. The analog output provides a 0-10 VDC modulating signal output into a 1K Ohm minimum load. If a Modulating Hot Water Valve is being used, it will also need a 24 VAC transformer by others for its power source. Mounting The OE325-03 VAV/Zone Controller Expansion Module is supplied mounted on a plastic snap track channel. The snap track channel has a single mounting hole which is used to field mount the board with the provided screw. The module should be mounted in close proximity to the VAV/Zone Controller to allow for connection with the supplied E-BUS cable.
Technical Data OE325-03 VAV/Zone Controller Expansion ModuleOperating Temp 10F to 149F Operating Humidity 0-90% RH Non-CondensingWeight 4 oz. Connection to
Controller: E-BUS Modular Cable
Outputs: Inputs:
Analog Output Qty & Rating
(1) 0-10 VDC @ 1K Ohm Minimum load
Binary Input Not Used for this Application
Relay Output Qty. 4 – Electrically Isolated Relay Circuit Rating 1 Amp @ 24 VAC
1.35"
4
4
3
3
22
1
1
18.00"
E-BUS CABLE
SNAP TRACK CHANNEL
PL102532 EXPANSION BOARD
GN
D
AO
UT
CO
MM
STAT
ALR
M
PWR
CO
M
R2
R1
GN
D
P1
R17
R16
R15
R14
R13R12R11R10 D
8
D7
D6
D5
X1
U6
U5
U4
U3
U2
U1
TB2
TB1
R9
R8
R7
R6
R5
R4
R3
R2
R1
Q4Q3Q2Q1
J1
D4D3D2D1
C10
C9
C8
C7
C6
C5
C4
C3
C2
C1
BIN
1C11
D13
R18
R19
R20
TB3
U7U
8
YS102532REV R1
WATTMASTER CONTROLS, INCMADE IN USA
R4
R3
2015
SERIA
L#
C
D14
C13
C US
R
4.18"
4.34"
3.10"
OE325-03 VAV/Zone ControllerExpansion Module
Form: Orion-OE742-03-OR-01A.doc Page 1 of 2
Description The OE742-03-OR Pressure Dependent VAV/Zone Controller Package with Terminal Block connectors provides the latest solution for zone damper applica-tions. The package includes the OE326-23D-OR VAV/Zone Controller mounted in a plastic enclosure and the OE282-01 Zone Damper Actuator with cable.
Mounting The VAV/Zone Controller Package is very easy to mount on your terminal unit. There are four conduit holes that are sized for ½” conduit fittings that are provided for as part of the mounting plate that is on the Orion series of zone dampers - OE520-XX-PT or OE521-XX-PT. The rectangular damper kit also has four ½” conduit knock-outs in its enclosure as well. Detailed mounting and installation instructions are provided with each VAV Zone Controller Package.
OE742-03-OR Pressure Dependent VAV/Zone Controller Package
Technical Data OE326-23D-OR P.D. VAV/Zone Controller Zone Controller General Specifications: Inputs:
Supply Power 24 VAC (1) 3 Pole Terminal Block Connector For Comm In & OutPower Consumption 6 VA Maximum (1) 2 Pole Terminal Block Connector For Power InOperating Temperature 10F to 149F (1) 2 Pole Terminal Block For Discharge Temperature
Sensor ConnectionOperating Humidity 0-90% RH
Non-Condensing(1) 2 Pole Terminal Block for Occupancy or
Window Switch TerminalsCommunications RS-485 57,600 Baud
Inputs: Outputs: (1) 3 Pole Terminal Block for Analog Room Tempera-
ture Sensor Applications(2) E-BUS Connectors For Connection of Expansion Module
and/or E-BUS Digital Room Temperature Sensor (1) RJ-45 Modular Connector for Connection of Actuator
(1) 4 Pole Terminal Block for E-BUS Digital Room Temperature Sensor Applications
(1) 2 Pole Terminal For Connection Of Auxiliary Heat Contactor
WattMaster reserves the right to change specifications without notice. All Dimensions are in inches. Three Year Warranty
2 of 2 Form: Orion-OE742-03-OR-01A.doc
OE742-03-OR Pressure Dependent VAV/Zone Controller Package
Technical Data OE282-01 Zone Damper Actuator
Power Supply 24VAC 20% 50/60HZ Angle of Rotation Max. 95, AdjustableLife Cycle Rating 2.5 Million Cycles with Mechanical StopsPower Consumption 3 VA Maximum Power Connection RJ-11 Modular JackOperating Temp -22F to 122F Servicing Maintenance FreeOperating Humidity 5 to 95% RH Non-
CondensingQuality Standard ISO 9001
Shaft Size Self-Centering -Adjustable from 3/8” to ½”
Direction of Rotation Reversible with Switch
Overload Protection Electronic Throughout 0 to 95 Rotation
Agency Listings UL873 listedCSA 4813 02 Certified
and/orcULus acc. to UL 60730-1A/-2-14,
CAN/CSA E60730-1:02,CE acc. to 2004/108/EEC and
2006/95/ECFeedback Signal 10K ohm 1W Potentiometer Torque Minimum 45 in-lbRunning Time 80-110 Seconds. Weight 1.2 lb.
WattMaster reserves the right to change specifications without notice. All Dimensions are in inches. Three Year Warranty
Form: Orion-OE744-03-OR-1A.doc Page 1 of 2
Description The OE744-03-OR Pressure Independent VAV/Zone Control-ler Package with Terminal Block connectors provides the latest solution for zone damper appli-cations. The package includes the OE326-23I-OR VAV/Zone Controller mounted in a plastic enclosure, the OE282-01 Zone Damper Actuator with cable, and an Airflow Sensor.
Mounting The VAV/Zone Controller Pack-age is very easy to mount on your terminal unit. There are four conduit holes that are sized for ½” conduit fittings that are provided for as part of the mounting plate that is on the Orion series of zone dampers - OE520-XX-PT or OE521-XX-PT. The rectangular damper kit also has four ½” conduit knock-outs in its enclosure as well. Detailed mounting and installa-tion instructions are provided with each VAV/Zone Controller Package.
18” Long Modular Cable
OE282 Damper Actuator
5.70
”
0.75
”
0.38”
Modular Jack Connection
5.82 .02
5.64
5.05
2.622.05
4.10
1.49
GN
D
TMP
SPA
CE
+
D1
R40
R37
D2
1002
1002
1002
1002
1002
1002
1002
1002
3650
1002
1002
3650
1002
1002
4751
4751
1002
10uF
.001
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10uF
VA
C~
VD
CV
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OFF
3650
3650
3650
3650
3650
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REV
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LOHI
SW
ITC
HO
CC
.
GN
D
BIN
PO
WER
APP
HB
WD
OG
OS
HB
STA
T2
STA
T1
AC
TUA
TOR
HE
ATA
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CO
MM
AD
DR
ESS
DU
CT
SE
NSO
R
GN
D
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SE
NSO
RS
PA
CE
GN
D
AD
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TMP
1 2 4 8 16 32 CW
CC
W
ON
LOOPBAUD
1 2
3.3V
5.0V
AIR
FLO
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1025
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RIA
L#
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V4 V3
R60
R59
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R30 R29 R28
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TB6
TB5
P1
R5
TB4
TB3
SW
1
R5
R5
R4
R4
R4
R4
R4
R37
R24
R21
R14
R13 R11
R10 R6R5
R4
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D
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PH
EAT
CO
M
24 VAC POWER ONLYWARNING! POLARITYMUST BE OBSERVEDOR THE CONTROLLERWILL BE DAMAGED
POWERINPUT
E-BUSCONNECTORS
GN
D
GN
DSH
GND
BIN
TMP
R+
T-
24 VAC
DU
CT
TEM
P SE
NSO
R
OC
CU
PIED
SWIT
CHCOMM
+ -
1
1 2
ADD
RES
SO
N
2 4 8 16 32 BAUD
ADDRESSSWITCH
www.wattmaster.com
OE326-23I-ORP.I. VAV CONTROLLER/ZONE
www.orioncontrols.comW
attM
aste
r Lab
el
#L10
2317
Rev
.: 01
AB
2.05
CU
S
R
OE744-03-OR Pressure Independent VAV/Zone Controller Package
Technical Data OE326-23I-OR Pressure Independent VAV/Zone Controller
VAV/Zone Controller General Specifications: Inputs: Supply Power 24 VAC (1) 3 Pole Terminal Block Connector For Comm In & OutPower Consump-tion
6 VA Maximum (1) 2 Pole Terminal Block Connector For Power In
Operating Temper-ature
10F to 149F (1) 2 Pole Terminal Block For Discharge Temperature Sensor Connection
Operating Humidity 0-90% RH Non-Condensing
(1) 2 Pole Terminal Block for Occupancy or Window Switch Terminals
Communications RS-485 57,600 Baud Hi & Lo Pressure Tube Fittings For Integral Air Flow Sensor(P.I. Controllers Only)
Inputs: Outputs: (1) 3 Pole Terminal Block for Analog Room Tempera-
ture Sensor Applications(2) E-BUS Connectors For Connection of Expansion Module
and/or E-BUS Digital Room Temperature Sensor (1) RJ-45 Modular Connector for Connection of Actuator
(1) 4 Pole Terminal Block for E-BUS Digital Room Sensor Applications
(1) 2 Pole Terminal For Connection Of Auxiliary Heat Contactor
WattMaster reserves the right to change specifications without notice. All Dimensions are in inches. Three Year Warranty
2 of 2 Form: Orion-OE744-03-OR-01A.doc
OE744-03-OR Pressure Independent VAV/Zone Controller Package
Technical Data OE282-01 Zone Damper Actuator
Power Supply 24VAC 20% 50/60HZ Angle of Rotation Max. 95, AdjustableLife Cycle Rating 2.5 Million Cycles with Mechanical StopsPower Consumption 3 VA Maximum Power Connection RJ-11 Modular JackOperating Temp -22F to 122F Servicing Maintenance FreeOperating Humidity 5 to 95% RH Non-
CondensingQuality Standard ISO 9001
Shaft Size Self-Centering -Adjustable from 3/8” to ½”
Direction of Rotation Reversible with Switch
Overload Protection Electronic Throughout 0 to 95 Rotation
Agency Listings UL873 listedCSA 4813 02 Certified
and/orcULus acc. to UL 60730-1A/-2-14,
CAN/CSA E60730-1:02,CE acc. to 2004/108/EEC and
2006/95/ECFeedback Signal 10K ohm 1W Potentiometer Torque Minimum 45 in-lbRunning Time 80-110 Seconds. Weight 1.2 lb.
WattMaster reserves the right to change specifications without notice. All Dimensions are in inches. Three Year Warranty
Form: Orion-OE520XX-PT-RndDmpr-01A Page 1 of 2
Description The OE520-XX-PT Round Pressure Dependent Zone Damper Assembly with terminal block connectors consists of a round air damper and the OE742-01P-VAVZ VAV/Zone Controller Package with terminal block wiring connectors. An optional VAV/Zone Controller Expansion Module (OE325-03) is available for control of reheat, auxiliary heat and/or control of series or parallel flow fan terminal units.
The VAV/Zone Controller board is microprocessor based and communicates with the HVAC unit controller on the Orion local communications loop. The VAV/Zone Controller monitors the space temperature and allocates the proper airflow into its assigned space to achieve the desired comfort and ventilation levels. Pressure Dependent Zone Dampers are used in air conditioning systems that do not require pressure independent airflow control. If your system requires pressure independent control of the airflow, see the “OE521-XX-PT Round Pressure Independent Zone Damper” submittal sheet for the correct specifications. All dampers are tested for performance in accordance with AMCA 500D standards.
Mounting The Zone Damper Assembly should be mounted according to standard duct installation practices with airflow direction as shown in the illustration above. After installation of the Zone Damper in the ductwork, insulation should be applied around any remaining un-insulated surface on the damper inlet and outlet. The Zone Damper should be mounted so that the control enclosure is positioned to the left or right side of the ductwork with the control enclosure in a vertical plane. Do not mount the Zone Damper Assembly with the control enclosure on the top or bottom of the ductwork. Adequate clearance should be maintained between the control panel and any obstruction to allow for removal of the control panel cover and access to the controls.
P.D. ZoneController
Damper Actua
Control Base Cover
1/2” Foil Face Insulation
Damper Housing
Damper Blade And Shaft
OE520-XX-PT Round P.D. Zone DamperAssembly W/ Terminal Block Connectors
Technical Data OE520-XX-PT Round Pressure DependentZone Damper Assembly W/ Terminal Block
Connectors VAV/Zone Controller: Air Damper Construction: Supply Power 24 Volt AC Damper Body 20 Ga. Galv. Steel Power Consumption 6 VA Maximum Damper Blade Round -18 Ga. Galv. Steel Operating Temperature 35F to 125F Damper Bearings Stainless Steel Operating Humidity 0-90% RH Non-Condensing Damper Seal EPDM Rubber Gasket Communications RS-485 – 57600 Baud Leakage < 20 CFM Per Sq. Ft. @ 4” SP Insulation ½” Foil Faced Fiberglass Inputs: Dimensions: Room Temperature Sensor Air Damper Model “A” “B” “C” Setpoint Adjustment OE520-06 (6”) 23.00 5.88 9.88 Actuator Position Feedback OE520-08 (8”) 23.00 7.88 12.13 Communication Connectors: 3 Position Terminal Block OE520-10 (10”) 23.00 9.88 14.31 Expansion E-BUS Port for Auxiliary Relay Board OE520-12 (12”) 23.00 11.88 16.43 E-BUS Port for E-BUS Digital Room Sensor and CO2 Sensor OE520-14 (14”) 23.00 13.88 18.50 Actuator Port for Connection to Damper Actuator OE520-16 (16”) 23.00 15.88 20.56 WattMaster reserves the right to change specifications without notice All Dimensions are in inches. Three Year Warranty On Electronic Components One Year Warranty On Air Damper
Form: Orion-OE520XX-PT-RndDmpr-01A Page 2 of 2
VAV/Zone Damper Sizing Use a load program to determine the peak load for each zone. These calculations will be used to select Zone Damper sizes. The Orion Systems utilize a typical low pressure duct design. To reduce airflow noise problems, duct pressures generally should not exceed 1” W.C. Primary trunk ducts that are used with Orion systems should not be “undersized”. This is especially true of “pressure dependent” systems. With larger trunk ducts, it is easier to assure relatively constant pressure to each Zone Damper. Runs should be as short as possible, and the trunk duct system kept as symmetrical as possible to facilitate system balancing. Wherever possible, run the trunk ducts above corridors and locate the Zone Dampers in the areas above corridors to reduce the noise in the space and to facilitate service of the valves. Trunk ducts should be sized for no more than 0.1” W.C. drop per 100 ft. of duct, and a maximum duct velocity of 2000 FPM. Zone Damper Selection Data OE520-XX-PT Round Pressure Dependent
Zone Damper Assembly W/ Terminal Block Connectors Zone Damper Round Duct Size
(Area Ft2) 6”
(0.196) 8”
(0.349) 10”
(0.545) 12”
(0.785) 14”
(1.069) 16”
(1.396)
Velocity Through VAV/Zone Damper
FPM Airflow Through VAV/Zone Damper - CFM (PS inches W.C. w/ Damper Full Open)
500 98 (< 0.01)
175 (< 0.01)
273 (< 0.01)
393 (< 0.01)
535 (< 0.01)
698 (< 0.01)
750 147 (0.01)
262 (0.01)
409 (0.01)
589 (< 0.01)
802 (< 0.01)
1047 (< 0.01)
1000 196 (0.015)
349 (0.015)
545 (0.01)
785 (< 0.01)
1069 (< 0.01)
1396 (< 0.01)
1250 245 (0.025)
436 (0.02)
681 (0.015)
981 (0.015)
1336 (0.015)
1745 (0.015)
1500 294 (0.035)
523 (0.035)
818 (0.022)
1178 (0.020)
1604 0.020)
2094 (0.020)
1750 343 (0.045)
611 (0.035)
954 (0.034)
1374 (0.030)
1871 (0.030)
2443 (0.025)
2000 392 (0.065)
698 (0.043)
1090 (0.040)
1570 (0.040)
2138 (0.040)
2792 (0.030)
WattMaster reserves the right to change specifications without notice
Using the maximum acceptable velocity for a branch duct (typically 1000-1500 FPM for minimal noise), find the smallest Zone Damper that will deliver the required CFM as determined by the load program. Locate the branch velocity used in the duct design program in the left hand column of the Zone Damper Selection Data table. Move across the table and find the Zone Damper, which will provide the acceptable CFM to meet the zone airflow requirements.
Note: Compare the Zone Damper size selected against the duct size to determine if the next size up or down will provide acceptable performance without requiring a transition fitting.
Up to a maximum of two Slaved Zone Dampers may be slaved together with the main Zone Damper for large zones. This design should be reserved only for situations when it is not practical to use a single Zone Damper. See the Pressure Independent Zone Damper submittal sheet submittal sheet for information regarding application and selection of Round Slaved Zone Dampers.
OE520-XX-PT Round P.D. Zone Damper Assembly W/ Terminal Block Connectors
Form: Orion-OE521XX-PT-RndDmpr-01A Page 1 of 2
Description The OE521-XX-PT Round Pressure Independent Zone Damper Assembly with terminal block connectors consists of a round air damper with air flow pickup cross and the OE744-01P-VAVZ Zone Controller Package (including air flow sensor) with terminal block connectors. An optional VAV/Zone Controller Expansion Module (OE325-03) is available for control of reheat, auxiliary heat, and/or control of series or parallel flow fan terminal units.
The VAV/Zone Controller board is microprocessor based and communicates with the HVAC unit controller on the Orion local communications loop. The VAV/Zone Controller monitors the space temperature and allocates the proper airflow into its assigned space to achieve the desired comfort and ventilation levels.
Pressure Independent VAV/Zone Dampers are used in air conditioning systems that require pressure independent airflow control. If your system requires pressure dependent control of the airflow, see the “OE520-XX-PT Round Pressure Dependent Zone Damper” submittal sheet for the correct specifications. All dampers are tested for performance in accordance with AMCA 500D standards. Mounting The Zone Damper Assembly should be mounted according to standard duct installation practices with airflow direction as shown in the illustration above. After installation of the Zone Damper in the ductwork, insulation should be applied around any remaining un-insulated surface on the damper inlet and outlet. The Zone Damper should be mounted so that the control enclosure is positioned to the left or right side of the ductwork with the control enclosure in a vertical plane. Do not mount the Zone Damper Assembly with the control enclosure on the top or bottom of the ductwork. Adequate clearance should be maintained between the control panel and any obstruction to allow for removal of the control panel cover and access to the controls.
1/2” Foil Face Insulation
Damper Housing
Damper Blade And Shaft
Air FlowPickup Cross
Control Base Cover
P.I. ZoneController
Damper Actuator
OE521-XX-PT Round P.I. Zone DamperAssembly W/ Terminal Block Connectors
Technical Data OE521-XX-PT Round Pressure IndependentZone Damper Assembly W/ Terminal Block
Connectors Zone Controller: Air Damper Construction: Supply Power 24 Volt AC Damper Body 20 Ga. Galv. Steel Power Consumption 6 VA Maximum Damper Blade Round -18 Ga. Galv. Steel Operating Temperature 35F to 125F Damper Bearings Stainless Steel Operating Humidity 0-90% RH Non-Condensing Damper Seal EPDM Rubber Gasket Communications RS-485 - 57600 Baud Leakage < 20 CFM Per Sq. Ft. @ 4” SP Inputs: Insulation ½” Foil Faced Fiberglass Air Flow Sensor Dimensions:Room Temperature Sensor Air Damper Model “A” “B” “C” Setpoint Adjustment OE520-06 (6”) 23.00 5.88 9.88 Actuator Position Feedback OE520-08 (8”) 23.00 7.88 12.13 Communication Connectors: 3 Position Terminal Block OE520-10 (10”) 23.00 9.88 14.31 Expansion E-BUS Port for Auxiliary Relay Board OE520-12 (12”) 23.00 11.88 16.43 E-BUS Port for E-BUS Digital Room Sensor and CO2 Sensor OE520-14 (14”) 23.00 13.88 18.50 Actuator Port for Connection to Damper Actuator OE520-16 (16”) 23.00 15.88 20.56 WattMaster reserves the right to change specifications without notice All dimensions are in inches.Three Year Warranty On Electronic Components One Year Warranty On Air Damper
Form: Orion-OE521XX-PT-RndDmpr-01A Page 2 of 2
Zone Damper Sizing Use a load program to determine the peak load for each zone. These calculations will be used to select Zone Damper sizes. The Orion Systems utilize a typical low pressure duct design. To reduce airflow noise problems, duct pressures generally should not exceed 1” W.C. Primary trunk ducts that are used with Orion systems should not be “undersized”. This is especially true of “pressure dependent” systems. With larger trunk ducts, it is easier to assure relatively constant pressure to each Zone Damper. Runs should be as short as possible, and the trunk duct system kept as symmetrical as possible to facilitate system balancing. Wherever possible, run the trunk ducts above corridors and locate the Zone Dampers in the areas above corridors to reduce the noise in the space and to facilitate service of the valves. Trunk ducts should be sized for no more than 0.1” W.C. drop per 100 ft. of duct, and a maximum duct velocity of 2000 FPM.
Using the maximum acceptable velocity for a branch duct (typically 1000-1500 FPM for minimal noise), find the smallest Zone Damper that will deliver the required CFM as determined by the load program. Locate the branch velocity used in the duct design program in the left hand column of the Zone Damper Selection Data table. Move across the table and find the Zone Damper, which will provide the acceptable CFM to meet the zone airflow requirements.
Note: Compare the Zone Damper size selected against the duct size to determine if the next size up or down will provide acceptable performance without requiring a transition fitting.
Pressure Independent Zone Dampers may not be slaved together with Slaved-Zone Damper Assemblies. If more than one damper is required for a zone, all dampers must be selected as pressure dependent. See the Pressure Dependent Zone Damper submittal sheet and Slaved-Zone Damper submittal sheets for selection of master/slave damper configurations.
OE521-XX-PT Round P.I. Zone Damper Assembly W/ Terminal Block Connectors
Zone Damper Selection Data OE521-XX-T Round Pressure IndependentZone Damper Assembly W/ Terminal Block Connectors
Zone Damper Round Duct Size (Area Ft2)
6” (0.196)
8” (0.349)
10” (0.545)
12” (0.785)
14” (1.069)
16” (1.396)
CFM @ 1” Velocity Pressure (Air Flow Probe “K” Factor) 448 904 1436 1891 3015 3839
Velocity Through VAV/Zone Damper FPM
Airflow Through VAV/Zone Damper - CFM (PS inches W.C. w/ Damper Full Open)
500 98 (< 0.01)
175 (< 0.01)
273 (< 0.01)
393 (< 0.01)
535 (< 0.01)
698 (< 0.01)
750 147 (0.01)
262 (0.01)
409 (0.01)
589 (< 0.01)
802 (< 0.01)
1047 (< 0.01)
1000 196 (0.015)
349 (0.015)
545 (0.01)
785 (< 0.01)
1069 (< 0.01)
1396 (< 0.01)
1250 245 (0.025)
436 (0.02)
681 (0.015)
981 (0.015)
1336 (0.015)
1745 (0.015)
1500 294 (0.035)
523 (0.035)
818 (0.022)
1178 (0.020)
1604 0.020)
2094 (0.020)
1750 343 (0.045)
611 (0.035)
954 (0.034)
1374 (0.030)
1871 (0.030)
2443 (0.025)
2000 392 (0.065)
698 (0.043)
1090 (0.040)
1570 (0.040)
2138 (0.040)
2792 (0.030)
WattMaster reserves the right to change specifications without notice
Form: Orion--OE736-03-PT-Rect-PD-VAVZP-01A.doc Page 1 of 1
Description The OE736-03-PT P.D. Rectangular Damper Kit with Terminal Blocks provides the latest solution for rectangular zone damper applications. The Rectangular Damper Kit is used in conjunction with rectangular dampers for applications where rectangular dampers are specified or required because of space limitations or job requirements. The Rectangular Damper Kit includes the OE742-01P-VAVZ VAV/Zone Controller Package mounted in a metal enclosure. The rectangular dampers may be purchased from WattMaster or you may get them from the supplier of your choice. For proper control, WattMaster recommends the use of low leakage opposed blade dampers. The maximum allowable damper face area for the Rectangular Damper Kit is 6 sq. ft.
Mounting Before mounting the Rectangular Damper Kit, the rectangular damper should be mounted in the ductwork according to standard duct installation practices. The damper should be mounted so the damper shaft turns in a clockwise direction to open the damper. The Rectangular Damper Kit is simply slid over the damper shaft, the actuator shaft collar setscrews tightened and the supplied self-tapping screws are used to mount the enclosure to the ductwork. Detailed mounting and installation instructions are provided with each kit. A knockout is provided in the front access cover, which can be punched out to allow for damper shaft lengths, which extend past the enclosure depth. When mounting the Rectangular Damper Kit, be sure to allow clearance for removal of the access cover. Conduit knockouts are provided in the top and bottom of the enclosure for simplified wiring installation.
OE736-03-PT P.D. Rectangular Damper Kit w/Terminal Blocks
15.50
14.15
Dimensional Info
Component View
DamperActuator
EnclosureBase
EnclosureCover
P.D. ZoneController
Technical Data OE736-03-PT Rectangular P.D. Damper Kit VAV/Zone Controller: Features:Supply Power 24 Volt AC Sensors Uses Standard Room Sensor or E-BUS
Temp/HumidityPower Consumption 6 VA Maximum Enclosure Material Galvanized SteelOperating Temperature 10F to 149F Zone Controller Factory Mounted Operating Humidity 0-90% RH Non-Condensing Zone Actuator Factory Mounted E-BUS Communications RS-485, 57,600 Baud Actuator Rating 45 in/lbs (6 ft2 Damper Area Max.)Inputs: Actuator Shaft Size Self-Centering - Adjustable from 3/8” to ½” Occupied or Window Switch Actuator Direction
of Rotation Reversible with Switch
Wire Terminals for E-BUS Digital Room Sensor E-BUS Port for E-BUS Digital Room Sensor Outputs: Discharge Temperature Sensor – Wire Terminals E-BUS Ports for Expansion Board and/or E-BUS SensorActuator Position Feedback Modular Port And Cable For Connection to ActuatorWattMaster reserves the right to change specifications without notice
Three Year Warranty On Electronic Components One Year Warranty On Air Damper
Form: ORION-OE519-RectDmpr-Sub-01B.doc Page 1 of 2
DescriptionThe OE519 Rectangular Damper is usedin applications where rectangular duct isspecified or required because of spacelimitations or job requirements. The Rec-tangular Damper utilizes opposed bladesof airfoil design for improved air flow con-trol. The Rectangular Damper frame ismade of .080 thick extruded aluminum.The blades are also made of extrudedaluminum. Blade pins are 7/16” hexagonshaped aluminum fixed to a Celcon innerbearing rotating within a polycarbonateouter bearing inserted in the damperframe. The Damper linkage is mechani-cally assembled and located in thedamper frame. The linkage componentsare constructed of aluminum, zinc andnickel plated steel. Blade gaskets aremade of extruded EPDM material and aresecured within an integral slot on theblade. Jamb seals are of extruded TPEmaterial for low leakage through thedamper when closed. The control shaft is1/2” diameter hexagon shaped rod andcan be extended 9” past the damperframe for connection to the damper ac-tuator. The damper shaft is shipped re-tracted into the frame area and must beadjusted to the required length in the field.
MountingThe Rectangular Damper should bemounted in the ductwork according to standard duct installation practices. The rectangular damper should be se-lected for the nominal inside duct size. All Rectangular Dampers are supplied with 1” flanges all around damperframe, making the overall damper width and height 2” larger than the nominal inside duct size thus providing forexternal flange mounting to ductwork. The damper shaft is shipped retracted into the damper frame. Loosen thetwo nuts on the U-bolt that secures the damper shaft to the damper blade and adjust to length. It is recommendedthat the shaft length be adjusted so approximately 4” of shaft extends beyond the inside of the damper frame.Retighten the two nuts on the U-bolt that secures the damper shaft to the blade. After installation of the Rectan-gular Damper to the ductwork, it is recommended that insulation be applied around any non-insulated surface onthe ductwork where the Rectangular Damper was installed.
Damper SizingUse a load program to determine the peak load for each zone. These calculations will be used in selecting theappropriate Rectangular Damper sizes. The Orion Systems utilize a typical low pressure duct design. To reducenoise problems, duct pressures should not exceed 1” W.C.
Primary trunk ducts used with Orion systems should not be “undersized”. This is especially true of “pressure de-pendent” systems. With pressure independent systems this is not as critical. With larger trunk ducts, it is easier toassure relatively constant pressure to each Rectangular Damper. Runs should be as short as possible, and thetrunk duct system kept as symmetrical as possible to facilitate system balancing. Wherever possible, run the trunkducts above corridors and locate the Rectangular Dampers above corridors to reduce the noise in the space andfacilitate service of the valves. Trunk ducts should be sized for no more than 0.1” W.C. drop per 100 ft. of duct,and a maximum duct velocity of 2000 FPM.
Dimensional Data
Opposed Blade Profile Flanged to Duct Installation
OE519 - Rectangular Damper
Form: ORION-OE519-RectDmpr-Sub-01B.doc Page 2 of 2
Using the maximum acceptable velocity for abranch duct (typically 1000-1500 FPM forminimal noise), find the smallest damper thatwill deliver the required CFM as determined bythe load program.
Locate the required CFM on the RectangularDamper Selection Data table below. This tableis based on an airflow velocity of 1000 FPMacross the damper.
Rectangular Damper Selection DataDamperHeight
“B”8” 10” 12” 14” 16” 18” 20” 22” 24” 26” 28” 30” 32” 34” 36”
DamperWidth
“A”
Airflow Data with Full Open DamperCFM @ 1000 FPM Velocity
(∆PS - inches W.C. @ 1000 FPM Velocity)
8” 410(0.16)
530(0.10)
640(0.07)
740(0.05)
850(0.04)
970(0.03)
1080(0.03)
1190(0.02)
1300(0.02)
1410(0.02)
1520(0.01)
1630(0.02)
1740(0.01)
1850(0.01)
1970(0.01)
10” 510(0.10)
590(0.07)
690(0.05)
800(0.03)
910(0.03)
1030(0.02)
1150(0.02)
1260(0.01)
1380(0.01)
1500(0.01)
1610(0.01)
1730(0.01)
1840(0.01)
2000(0.01)
2080(0.01)
12” 560(0.07)
650(0.05)
730(0.03)
850(0.02)
970(0.02)
1090(0.01)
1210(0.01)
1330(0.01)
1460(0.01)
1580(0.01)
1700(0.01)
1820(0.01)
1940(-)
2060(-)
2190(-)
14” 660(0.05)
770(0.03)
880(0.02)
1030(0.02)
1180(0.01)
1330(0.01)
1480(0.01)
1630(0.01)
1760(0.01)
1910(0.01)
2060(-)
2210(-)
2360(-)
2510(-)
2640(-)
16” 750(0.04)
890(0.03)
1030(0.02)
1200(0.01)
1370(0.01)
1540(0.01)
1710(0.01)
1880(0.01)
2060(-)
2230(-)
2400(-)
2570(-)
2740(-)
2910(-)
3090(-)
18” 770(0.03)
980(0.03)
1180(0.01)
1380(0.01)
1580(0.01)
1780(0.01)
1980(0.01)
2180(-)
2350(-)
2550(-)
2750(-)
2950(-)
3150(-)
3350(-)
3540(-)
20” 850(0.03)
1090(0.02)
1330(0.01)
1550(0.01)
1770(0.01)
1990(0.01)
2210(-)
2430(-)
2650(-)
2870(-)
3090(-)
3310(-)
3530(-)
3750(-)
3990(-)
22” 930(0.02)
1210(0.01)
1480(0.01)
1730(0.01)
1980(0.01)
2230(-)
2480(-)
2730(-)
2950(-)
3200(-)
3450(-)
3700(-)
3950(-)
4200(-)
4440(-)
24” 950(0.02)
1290(0.01)
1630(0.01)
1900(0.01)
2170(-)
2440(-)
2710(-)
2980(-)
3250(-)
3520(-)
3790(-)
4060(-)
4330(-)
4600(-)
4880(-)
26” 990(0.02)
1390(0.01)
1780(0.01)
2080(0.01)
2380(-)
2680(-)
2980(-)
3280(-)
3550(-)
3850(-)
4150(-)
4450(-)
4750(-)
NA NA
28” 1070(0.01)
1500(0.01)
1930(0.01)
2250(-)
2570(-)
2890(-)
3210(-)
3530(-)
3850(-)
4170(-)
4500(-)
4820(-)
NA NA NA
30” 1020(0.01)
1550(0.01)
2080(0.01)
2430(-)
2780(-)
3130(-)
3480(-)
3830(-)
4150(-)
4500(-)
4850(-)
NA NA NA NA
32” 1090(0.01)
1660(0.01)
2230(-)
2600(-)
2970(-)
3340(-)
3710(-)
4080(-)
4450(-)
4820(-)
NA NA NA NA NA
34” 1150(0.01)
1770(0.01)
2380(-)
2780(-)
3180(-)
3580(-)
3980(-)
4370(-)
4750(-)
NA NA NA NA NA NA
36” 1060(0.01)
1790(0.01)
2520(-)
2670(-)
3090(-)
3510(-)
3930(-)
4350(-)
5040(-)
NA NA NA NA NA NA
WattMaster reserves the right to change specifications without notice
Notes:1. The table above is calculated based on 1000 FPM velocity across the full open damper. For other velocities use the
following multipliers to obtain the correct CFM: 500 FPM = 0.5, 1500 FPM = 1.5, 2000 FPM = 2.0. It is recommendedthe damper velocity does not exceed 1500 FPM for quiet operation.
2. Pressure drop (∆PS) is based on 1000 FPM Velocity. Any pressure drop less than 0.01” W.C. is shown as (-).
This is the recommended velocity for quiet operation and nor-mal pressure drop through the damper. When space consid-erations or design criteria dictate, dampers may be selected forother face velocities by using the multipliers listed in the notesassociated with the table. Move across the table and find thedamper selection, which will provide the required CFM and fitwithin the ceiling area where the damper will be located. Manysize selections are possible for a given CFM. Pressure dropacross the damper is shown in parenthesis below the CFM.
OE519 - Rectangular Damper
Form: Orion-OE737-RectBypKit-Sub-01B Page 1 of 1
DescriptionThe OE737 Rectangular Bypass Damper Kitmounts to an OE519 Rectangular Damperand controls duct static pressure to insureproper system airflow. The Rectangular By-pass Damper is controlled by the OrionHVAC Unit Controller. The Unit Controllermodulates the Rectangular Bypass Damperin response to the duct static pressure basedon a signal received from a static pressuresensor located in the main system ductwork.
The Rectangular Bypass Damper Kit is usedin conjunction with rectangular dampers forapplications where rectangular dampers arespecified or required because of space limi-tations or job requirements. The rectangulardampers may be purchased from WattMas-ter or you may get them from the supplier ofyour choice. For proper control, WattMasterrecommends the use of low leakage op-posed blade dampers. The maximum allow-able damper face area for the RectangularBypass Damper Kit is 6 sq. ft. The Rectan-gular Bypass Damper Kit comes packagedwith the Damper Actuator and Wiring Interface pre-mounted in a galvanized steel enclosure. Each kit is suppliedwith mounting hardware and installation instructions. For applications where CFM or space requirements dictatethe use of more than a single bypass damper, up to 2 additional bypass dampers can be slaved together. Noother components are required. Each bypass is wired to the other bypass damper(s) by means of the Wiring In-terface.
MountingBefore mounting the Rectangular Damper Kit, the rectangular damper should be mounted in the ductwork ac-cording to standard duct installation practices. The damper should be mounted so the damper shaft turns in aclockwise direction to open the damper. The Rectangular Damper Kit is simply slid over the damper shaft, theactuator shaft collar setscrews tightened and the supplied self tapping screws are used to mount the enclosure tothe ductwork. Detailed mounting and installation instructions are provided with each kit. A knockout is provided inthe front access cover, which can be punched out to allow for damper shaft lengths, which extend past the enclo-sure depth. When mounting the Rectangular Damper Kit, be sure to allow clearance for removal of the accesscover. Conduit knockouts are provided in the top and bottom of the enclosure for simplified wiring.
OE737 - Bypass Rectangular
Damper Kit
Technical Data OE737 Rectangular Bypass Damper Kit
Supply Power 24 Volt AC Enclosure Base 22 Ga. Galv. SteelPower Consumption 3.0 VA Maximum Enclosure Cover 22 Ga. Galv. SteelOperating Temp -22°F to 122°F Conduit Openings Top - (2) ½ & ¾” Comb. Knockouts
Operating Humidity 90% RH Non-Condensing Bottom - (2) ½ & ¾” Comb. KnockoutsActuator Feedback 10Kohm, 1W Potentiometer Shaft Clearance Front - (1) ½ & ¾” Comb. KnockoutActuator Rating 35 in/lbs (6 ft2 Damper Area Max.) Controls Factory Mounted Inside EnclosureMounting Hardware (4) Self Tapping Screws Controls Access Cover is Removable byInstructions Included with Each Kit Loosening 2 Screws
WattMaster reserves the right to change specifications without notice
Three Year Warranty
Form: Orion-OE738-RectSlvZoneKit-SUB-01B Page 1 of 1
DescriptionThe OE738 Rectangular Slaved-VAV/ZoneDamper Kit provides a new solution for rectan-gular damper applications. The OE738 Rectan-gular Slaved-VAV/Zone Damper Kit is used inconjunction with rectangular dampers for appli-cations in systems when it is not possible orpractical to use a single large RectangularVAV/Zone Air Damper to satisfy the zones CFMrequirements.
The rectangular dampers may be purchasedfrom WattMaster or you may get them from thesupplier of your choice. For proper airflow con-trol, WattMaster recommends the use of lowleakage opposed blade dampers. The Rectan-gular Slaved-VAV/Zone Damper Kit is suppliedwith the slave wiring interface card and actuatorfactory mounted in a sheet metal enclosure. Atotal of two Slaved-VAV/Zone Air Dampers maybe used in conjunction with a master Rectan-gular VAV/Zone Damper Kit. The RectangularSlaved-VAV/Zone Air Damper(s) are wired inparallel with the master Rectangular VAV/ZoneDamper Kit and track the movement of themaster Rectangular VAV/Zone Damper. Connection to the master Rectangular VAV/Zone Damper Kit requires aSlave Wiring Adapter Kit, part # OE267 which is supplied with each Rectangular Slaved-VAV/Zone Damper Kit.The kit connects the zone controller on the master to the master actuator and provides wiring terminals for wiringto the Rectangular Slaved-VAV/Zone Damper Kit(s). Only one Slaved Wiring Kit is required for each Slaved-VAV/Zone system. Each kit is supplied with mounting hardware and installation instructions.
MountingThe rectangular damper should be mounted in the ductwork according to standard duct installation practices be-fore installing the Rectangular Slaved-VAV/Zone Damper Kit. The Rectangular Slaved-VAV/Zone Damper Kit issimply slid over the damper shaft, the actuator shaft collar setscrews tightened and the supplied self tappingscrews are used to mount the enclosure to the ductwork. Detailed mounting and installation instructions are pro-vided with each kit. A knockout is provided in the front access cover, which can be punched out for damper shaftlengths which extend past the enclosure depth. When mounting the Rectangular Slaved-VAV/Zone Damper Kit,be sure to allow clearance for removal of the access cover. Conduit knockouts are provided in the top and bottomof the enclosure for simplified wiring installation.
OE738 - Slaved-VAV/Zone
Rectangular Damper Kit
Technical Data OE 738 Rectangular Slaved-Zone Damper Kit
Actuator: OE 738 Damper Kit Features:Supply Power 24 Volt AC Enclosure Base 22 Ga. Galv. SteelPower Consumption 3.4 VA Maximum Enclosure Cover 22 Ga. Galv. SteelOperating Temperature 10°F to 149°F Conduit Openings Top - (2) ½ & ¾” Comb. Knockouts
Operating Humidity 90% RH Non-Condensing Bottom - (2) ½ & ¾” Comb. KnockoutsShaft Clearance Front - (1) ½ & ¾” Comb. Knockout
Inputs: Controls Factory Mounted inside the Enclosure
Actuator Position Feedback Mounting Hardware Supplied with (4) Self Tapping ScrewsInstructions Included with Each KitControls Access Cover is Removable by
Loosening 2 ScrewsActuator Rating 35 in/lbs (6 ft2 Damper Area Max.)
WattMaster reserves the right to change specifications without notice
Three Year Warranty
13.5
8.0
12.15
5.75
Dimensional Data
Component View
Form: Orion-OE282-03-SlvZoneDmprKit-Sub-01A.doc Page 1 of 1
Description The OE282-03 Slaved VAV/Zone Damper Kit consists of an OE282 Damper Actuator, (2) PL101824 Slave Wiring Interface Boards and (2) 18” Long Modular Cables. The OE282 Actuator is a shaft mounted, floating point control actuator. The actuator is a 24VAC/24VDC model with a 10K ohm feedback signal for position monitoring. Wiring connection to the actuator is by means of a modular phone cable connector located on the actuator cover. The actuator is rated for 45 in-lb. of torque. All actuators are electronically protected against overload. The angle of rotation is mechanically limited to 95. When the end position of the actuator or damper is reached, the actuator automatically stops. For adjustment purposes, the gears can be manually disengaged by pushing the manual override button on the actuator cover. Applications The OE282-03 Slaved VAV/Zone Damper Kit allows multiple dampers (up to 2 total besides the master) to be connected to a master OE742-31-VAVZ or OE742-32-VAVZ P.D. VAV/Zone Controller Actuator Package. The OE282-03 Kit is typically used when larger CFM requirements dictate multiple dampers are used. One of the Interface Boards connects to the master VAV/Zone Controller via a modular cable. The other Interface Board connects to the Slave Damper Actuator. Three conductor wiring is then routed and connected between the two Interface Boards. For zones requiring more than one Slave Damper Kit a second one can be purchased and installed in the same manner.
OE282-03 Slaved VAV/Zone Damper Kit
Technical Data OE282-03 Slaved VAV/Zone Damper KitActuator Power Supply
24VAC 20% 50/60HZ Actuator Angle of Rotation Max. 95, Adjustable
Actuator Life Cycle Rating
2.5 Million Cycles with Mechanical Stops
Actuator Power Consumption
3 VA Maximum Power Connections RJ-11 Modular Jack
Operating Temp -22F to 122F Servicing Maintenance FreeOperating Humidity 5 to 95% RH Non-
CondensingActuator Quality Standard ISO 9001
Actuator Overload Protection
Electronic Throughout 0 to 95 Rotation
Actuator Agency Listings UL873 listedCSA 4813 02 Certified
Actuator Feedback Signal
10K ohm 1W Potentiometer
Actuator Torque Minimum 45 in-lb.
Actuator Running Time
80-110 Seconds. Approx. Kit Weight 2.2 lb.
PL1018224 Board (2) RJ-11 Modular Jacks PL1018224 Board (2) Wiring Terminal BlocksThree Year Warranty WattMaster reserves the right to change specifications without notice
VAV/Zone Cable Length Worksheet Project Name: _____________________________________________ Local Loop Number: ______________________
Directions: Estimate cable lengths from building mechanical plans and place in estimated cable length column beside each VAV/Zone controller or Power/Comm board on loop. Select available cable lengths closest to estimated cable lengths and extensions for each controller or Power/Comm board on list and place checkmarks in these columns. Also Use this information for ordering correct quantity and length of modular or digital cables and extensions. Total each cable length column on each page and add both page totals together.
Form: Orion-VAVZoneCableEst-All-1A.doc Page 1 of 2
VAV/Zone Address
VAV/Zone Controller Or Power/Comm Board
Description, Location Or Tag Number
Estimated Incoming
Power/Comm Cable
Length
Available Power/Comm Cable Length
Estimated Incoming
Modular Or Digital Room Sensor Cable
Length
Available Modular Or Digital Room
Sensor Cable Length See Notes Below
3 F
t.
25 F
t.
40 F
t.
80 F
t.
120
Ft.
E-1
0 F
t.
E-2
0 F
t.
5 F
t.
10 F
t.
25 F
t.
40 F
t.
80 F
t.
120
Ft.
160
Ft.
N/A Power Comm Board 1 Caution: Each Power/Comm board has a total of 4 branch circuits. No more than 6 modular devices are allowed per branch circuit. No more than 16 modular devices total can be connected to each Power/Comm board. The longest total run per branch circuit is 240 Feet.
N/A Power Comm Board 2
N/A Power Comm Board 3
N/A Power Comm Board 4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
22
23
24
25
26
27
28
Page Totals
Notes: 1.) Available Power/Comm cable lengths with the prefix “E” (E-10 Ft. or E-20 Ft.) are extensions to be used in conjunction with another standard Power/Comm cable
length to extend it to a desired length, they cannot be used by themselves without connection to a standard cable. 2.) Available Modular Sensor cable lengths are provided in 5 Ft, 10 Ft., 25 Ft., 40 Ft. and 80 Ft. Lengths. To get longer lengths you can join 2 Modular cables together
using the MS000029 Modular Room Sensor Cable Coupler to extend the cables to a desired length in between or greater than the standard cable sizes. Available Digital Sensor cable lengths are provided in 5 Ft., 10 Ft., 25 Ft., 40 Ft., 80 Ft., 120 Ft. and 160 Ft. sizes. You can join 2 Modular cables together using the MS000029 Modular Room Sensor Cable Coupler to extend the cables to a desired length in between the available sizes. It is recommended that you avoid this when using the Digital Sensor cable. The maximum allowable total cable length for Digital Sensor cables is 160 Ft. and should never be exceeded.
717
VAV/Zone Cable Length Worksheet Project Name: _____________________________________________ Local Loop Number: ______________________
Directions: Estimate cable lengths from building mechanical plans and place in estimated cable length column beside each VAV/Zone controller or Power/Comm board on loop. Select available cable lengths closest to estimated cable lengths and extensions for each controller or Power/Comm board on list and place checkmarks in these columns. Also Use this information for ordering correct quantity and length of modular or digital cables and extensions. Total each cable length column on each page and add both page totals together.
Form: Orion-VAVZoneCableEst-All-1A.doc Page 2 of 2
VAV/Zone Address
VAV/Zone Controller Or Power/Comm Board Description, Location
Or Tag Number
Estimated Incoming
Power/Comm Cable
Length
Available Power/Comm Cable Length
Estimated Incoming
Modular Or Digital Room Sensor Cable
Length
Available Modular Or Digital Room
Sensor Cable Length See Notes Below
3 F
t.
25 F
t.
40 F
t.
80 F
t.
120
Ft.
E-1
0 F
t.
E-2
0 F
t.
5 F
t.
10 F
t.
25 F
t.
40 F
t.
80 F
t.
120
Ft.
160
Ft.
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
Page Totals
Totals For Both
Pages
Notes: 1.) Available Power/Comm cable lengths with the prefix “E” (E-10 Ft. or E-20 Ft.) are extensions to be used in conjunction with another standard Power/Comm cable
length to extend it to a desired length, they cannot be used by themselves without connection to a standard cable.
2.) Available Modular Sensor cable lengths are provided in 5 Ft, 10 Ft., 25 Ft., 40 Ft. and 80 Ft. Lengths. To get longer lengths you can join 2 Modular cables together using the MS000029 Modular Room Sensor Cable Coupler to extend the cables to a desired length in between or greater than the standard cable sizes. Available Digital Sensor cable lengths are provided in 5 Ft., 10 Ft., 25 Ft., 40 Ft., 80 Ft., 120 Ft. and 160 Ft. sizes. You can join 2 Modular cables together using the MS000029 Modular Room Sensor Cable Coupler to extend the cables to a desired length in between the available sizes. It is recommended that you avoid this when using the Digital Sensor cable. The maximum allowable total cable length for Digital Sensor cables is 160 Ft. and should never be exceeded.
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Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
10
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
11
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
12
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
13
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
14
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
15
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
16
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
NF
= N
on F
an T
erm
inal
] [S
F =
Ser
ies
Flo
w F
an T
erm
inal
] [P
F =
Par
alle
l Flo
w F
an T
erm
inal
] [E
L-S
TG
D =
Ele
ctric
Hea
t -
Sta
ged]
[EL
-SC
R =
Ele
ctric
Hea
t -
SC
R C
ontr
olle
r] [H
W-O
N-O
FF
= H
ot w
ater
Hea
t -
On/
Off
Con
trol
] [H
W-M
OD
= H
ot W
ater
- M
odul
atin
g C
ontr
ol]
720
VA
V/Z
one
Wor
kshe
et
Fo
rm:
OR
ION
-VA
VZ
on
eW
ork
she
et1
B.d
oc
P
age
3 of
8
Pro
ject
Nam
e:
____
____
____
____
____
____
____
____
____
____
____
_ L
oca
l L
oo
p N
um
ber
: __
____
T
ota
l Q
ty.
Of
VA
V/Z
on
e C
on
tro
ller
s o
n L
oo
p:
____
____
_
Min
iLin
k P
D A
dd
ress
Fo
r T
his
Lo
op
: __
____
____
T
ota
l N
um
ber
Of
Po
wer
/Co
mm
Bo
ard
s O
n L
oo
p:
__
____
___
No
te:
See
End
Of V
AV
/Zon
e C
ontr
olle
r A
ddre
ss L
ist F
or
Pow
er/C
omm
Boa
rd C
able
Sel
ectio
n.
VA
V/Z
on
e A
dd
ress
V
AV
/Zo
ne
Co
ntr
olle
r D
escr
ipti
on
, L
oca
tio
n O
r T
ag
Nu
mb
er
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
C
on
tro
ller
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Co
ntr
olle
r
(If
Req
uir
ed)
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d
Ro
om
S
enso
r M
od
ula
r o
r D
igit
al C
able
L
eng
th
Typ
e
Of
Ter
min
al
Un
it
Typ
e O
f H
eat
17
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
18
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
19
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
20
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
21
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
22
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
23
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
24
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
NF
= N
on F
an T
erm
inal
] [S
F =
Ser
ies
Flo
w F
an T
erm
inal
] [P
F =
Par
alle
l Flo
w F
an T
erm
inal
] [E
L-S
TG
D =
Ele
ctric
Hea
t -
Sta
ged]
[EL
-SC
R =
Ele
ctric
Hea
t -
SC
R C
ontr
olle
r] [H
W-O
N-O
FF
= H
ot w
ater
Hea
t -
On/
Off
Con
trol
] [H
W-M
OD
= H
ot W
ater
- M
odul
atin
g C
ontr
ol]
721
VA
V/Z
one
Wor
kshe
et
Fo
rm:
OR
ION
-VA
VZ
on
eW
ork
she
et1
B.d
oc
P
age
4 of
8
Pro
ject
Nam
e:
____
____
____
____
____
____
____
____
____
____
____
_ L
oca
l L
oo
p N
um
ber
: __
____
T
ota
l Q
ty.
Of
VA
V/Z
on
e C
on
tro
ller
s o
n L
oo
p:
____
____
_
Min
iLin
k P
D A
dd
ress
Fo
r T
his
Lo
op
: __
____
____
T
ota
l N
um
ber
Of
Po
wer
/Co
mm
Bo
ard
s O
n L
oo
p:
__
____
___
No
te:
See
End
Of V
AV
/Zon
e C
ontr
olle
r A
ddre
ss L
ist F
or
Pow
er/C
omm
Boa
rd C
able
Sel
ectio
n.
VA
V/Z
on
e A
dd
ress
V
AV
/Zo
ne
Co
ntr
olle
r D
escr
ipti
on
, L
oca
tio
n O
r T
ag
Nu
mb
er
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
C
on
tro
ller
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Co
ntr
olle
r
(If
Req
uir
ed)
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d
Ro
om
S
enso
r M
od
ula
r o
r D
igit
al C
able
L
eng
th
Typ
e
Of
Ter
min
al
Un
it
Typ
e O
f H
eat
25
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
26
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
27
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
28
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
29
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
30
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
31
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
32
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
NF
= N
on F
an T
erm
inal
] [S
F =
Ser
ies
Flo
w F
an T
erm
inal
] [P
F =
Par
alle
l Flo
w F
an T
erm
inal
] [E
L-S
TG
D =
Ele
ctric
Hea
t -
Sta
ged]
[EL
-SC
R =
Ele
ctric
Hea
t -
SC
R C
ontr
olle
r] [H
W-O
N-O
FF
= H
ot w
ater
Hea
t -
On/
Off
Con
trol
] [H
W-M
OD
= H
ot W
ater
- M
odul
atin
g C
ontr
ol]
722
VA
V/Z
one
Wor
kshe
et
Fo
rm:
OR
ION
-VA
VZ
on
eW
ork
she
et1
B.d
oc
P
age
5 of
8
Pro
ject
Nam
e:
____
____
____
____
____
____
____
____
____
____
____
_ L
oca
l L
oo
p N
um
ber
: __
____
T
ota
l Q
ty.
Of
VA
V/Z
on
e C
on
tro
ller
s o
n L
oo
p:
____
____
_
Min
iLin
k P
D A
dd
ress
Fo
r T
his
Lo
op
: __
____
____
T
ota
l N
um
ber
Of
Po
wer
/Co
mm
Bo
ard
s O
n L
oo
p:
__
____
___
No
te:
See
End
Of V
AV
/Zon
e C
ontr
olle
r A
ddre
ss L
ist F
or
Pow
er/C
omm
Boa
rd C
able
Sel
ectio
n.
VA
V/Z
on
e A
dd
ress
V
AV
/Zo
ne
Co
ntr
olle
r D
escr
ipti
on
, L
oca
tio
n O
r T
ag
Nu
mb
er
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
C
on
tro
ller
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Co
ntr
olle
r
(If
Req
uir
ed)
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d
Ro
om
S
enso
r M
od
ula
r o
r D
igit
al C
able
L
eng
th
Typ
e
Of
Ter
min
al
Un
it
Typ
e O
f H
eat
33
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
34
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
35
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
36
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
37
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
38
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
39
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
40
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
NF
= N
on F
an T
erm
inal
] [S
F =
Ser
ies
Flo
w F
an T
erm
inal
] [P
F =
Par
alle
l Flo
w F
an T
erm
inal
] [E
L-S
TG
D =
Ele
ctric
Hea
t -
Sta
ged]
[EL
-SC
R =
Ele
ctric
Hea
t -
SC
R C
ontr
olle
r] [H
W-O
N-O
FF
= H
ot w
ater
Hea
t -
On/
Off
Con
trol
] [H
W-M
OD
= H
ot W
ater
- M
odul
atin
g C
ontr
ol]
723
VA
V/Z
one
Wor
kshe
et
Fo
rm:
OR
ION
-VA
VZ
on
eW
ork
she
et1
B.d
oc
P
age
6 of
8
Pro
ject
Nam
e:
____
____
____
____
____
____
____
____
____
____
____
_ L
oca
l L
oo
p N
um
ber
: __
____
T
ota
l Q
ty.
Of
VA
V/Z
on
e C
on
tro
ller
s o
n L
oo
p:
____
____
_
Min
iLin
k P
D A
dd
ress
Fo
r T
his
Lo
op
: __
____
____
T
ota
l N
um
ber
Of
Po
wer
/Co
mm
Bo
ard
s O
n L
oo
p:
__
____
___
No
te:
See
End
Of V
AV
/Zon
e C
ontr
olle
r A
ddre
ss L
ist F
or
Pow
er/C
omm
Boa
rd C
able
Sel
ectio
n.
VA
V/Z
on
e A
dd
ress
V
AV
/Zo
ne
Co
ntr
olle
r D
escr
ipti
on
, L
oca
tio
n O
r T
ag
Nu
mb
er
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
C
on
tro
ller
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Co
ntr
olle
r
(If
Req
uir
ed)
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d
Ro
om
S
enso
r M
od
ula
r o
r D
igit
al C
able
L
eng
th
Typ
e
Of
Ter
min
al
Un
it
Typ
e O
f H
eat
41
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
42
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
43
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
44
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
45
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
46
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
47
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
48
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
NF
= N
on F
an T
erm
inal
] [S
F =
Ser
ies
Flo
w F
an T
erm
inal
] [P
F =
Par
alle
l Flo
w F
an T
erm
inal
] [E
L-S
TG
D =
Ele
ctric
Hea
t -
Sta
ged]
[EL
-SC
R =
Ele
ctric
Hea
t -
SC
R C
ontr
olle
r] [H
W-O
N-O
FF
= H
ot w
ater
Hea
t -
On/
Off
Con
trol
] [H
W-M
OD
= H
ot W
ater
- M
odul
atin
g C
ontr
ol]
724
VA
V/Z
one
Wor
kshe
et
Fo
rm:
OR
ION
-VA
VZ
on
eW
ork
she
et1
B.d
oc
P
age
7 of
8
Pro
ject
Nam
e:
____
____
____
____
____
____
____
____
____
____
____
_ L
oca
l L
oo
p N
um
ber
: __
____
T
ota
l Q
ty.
Of
VA
V/Z
on
e C
on
tro
ller
s o
n L
oo
p:
____
____
_
Min
iLin
k P
D A
dd
ress
Fo
r T
his
Lo
op
: __
____
____
T
ota
l N
um
ber
Of
Po
wer
/Co
mm
Bo
ard
s O
n L
oo
p:
__
____
___
No
te:
See
End
Of V
AV
/Zon
e C
ontr
olle
r A
ddre
ss L
ist F
or
Pow
er/C
omm
Boa
rd C
able
Sel
ectio
n.
VA
V/Z
on
e A
dd
ress
V
AV
/Zo
ne
Co
ntr
olle
r D
escr
ipti
on
, L
oca
tio
n O
r T
ag
Nu
mb
er
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
C
on
tro
ller
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Co
ntr
olle
r
(If
Req
uir
ed)
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d
Ro
om
S
enso
r M
od
ula
r o
r D
igit
al C
able
L
eng
th
Typ
e
Of
Ter
min
al
Un
it
Typ
e O
f H
eat
49
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
50
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
51
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
52
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
53
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
54
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
55
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
56
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
NF
= N
on F
an T
erm
inal
] [S
F =
Ser
ies
Flo
w F
an T
erm
inal
] [P
F =
Par
alle
l Flo
w F
an T
erm
inal
] [E
L-S
TG
D =
Ele
ctric
Hea
t -
Sta
ged]
[EL
-SC
R =
Ele
ctric
Hea
t -
SC
R C
ontr
olle
r] [H
W-O
N-O
FF
= H
ot w
ater
Hea
t -
On/
Off
Con
trol
] [H
W-M
OD
= H
ot W
ater
- M
odul
atin
g C
ontr
ol]
725
VA
V/Z
one
Wor
kshe
et
Fo
rm:
OR
ION
-VA
VZ
on
eW
ork
she
et1
B.d
oc
P
age
8 of
8
Pro
ject
Nam
e:
____
____
____
____
____
____
____
____
____
____
____
_ L
oca
l L
oo
p N
um
ber
: __
____
T
ota
l Q
ty.
Of
VA
V/Z
on
e C
on
tro
ller
s o
n L
oo
p:
____
____
_
Min
iLin
k P
D A
dd
ress
Fo
r T
his
Lo
op
: __
____
____
T
ota
l N
um
ber
Of
Po
wer
/Co
mm
Bo
ard
s O
n L
oo
p:
__
____
___
No
te:
See
End
Of V
AV
/Zon
e C
ontr
olle
r A
ddre
ss L
ist F
or
Pow
er/C
omm
Boa
rd C
able
Sel
ectio
n.
V
AV
/Zo
ne
Ad
dre
ss
VA
V/Z
on
e C
on
tro
ller
Des
crip
tio
n,
Lo
cati
on
Or
Tag
N
um
ber
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
C
on
tro
ller
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Co
ntr
olle
r
(If
Req
uir
ed)
Est
imat
ed
Po
wer
/Co
mm
Cab
le
Len
gth
To
N
ext
Co
ntr
olle
r
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Co
ntr
olle
r
Sel
ecte
d
Ro
om
S
enso
r M
od
ula
r o
r D
igit
al C
able
L
eng
th
Typ
e
Of
Ter
min
al
Un
it
Typ
e O
f H
eat
57
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
58
3 F
t. □
25
Ft.
□
40 F
t. □
80
Ft.
□
120
Ft.
□
Ext
.-10
Ft.
□
20 F
t. □
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
5 F
t. □
10
Ft.
□
25
Ft.
□ 4
0 F
t. □
80
Ft.
□ 1
20 F
t. □
16
0 F
t. □
NF
□
S
F □
P
F □
EL
-ST
GD
□ E
L-S
CR
□
HW
-ON
-OF
F □
H
W-M
OD
□ N
on
e □
59
Th
is A
dd
ress
Is
Res
erve
d F
or
Th
e V
CM
-X C
on
tro
ller
Th
at I
s S
ervi
ng
Th
e V
AV
/Zo
ne
Co
ntr
olle
rs
Po
wer
/Co
mm
B
oar
ds
Qty
Of R
equi
red
Pow
er/C
omm
B
oard
s M
ay V
ary
Dep
endi
ng O
n In
stal
latio
n
Est
imat
ed
Po
wer
/Co
mm
C
able
Len
gth
F
rom
P
ow
er/C
om
m
Bo
ard
To
Min
iLin
k P
D
Onl
y R
equi
red
For
F
irst
Pow
er/C
omm
B
oard
On
Loop
Sel
ecte
d P
ow
er/C
om
m
Cab
le L
eng
th F
rom
P
ow
er/C
om
m B
oar
d T
o
Min
iLin
k P
D
Est
imat
ed
Po
wer
/Co
mm
Cab
le
Len
gth
To
N
ext
Po
wer
/Co
mm
Bo
ard
(I
f R
equ
ired
)
Sel
ecte
d P
ow
er/C
om
C
able
Len
gth
T
o N
ext
Po
wer
/Co
mm
B
oar
d
(If
Req
uir
ed
NO
TE
: P
ow
er/C
om
m B
oar
d m
axim
um
tra
nsf
orm
er s
ize
=
100V
A.
Th
is is
du
e to
th
e b
oar
d c
ircu
itry
an
d f
usi
ng
. E
ach
mo
du
lar
dev
ice
is t
o b
e ca
lcu
late
d a
t 6V
A.
Th
is
allo
ws
for
a m
axim
um
of
16 d
evic
es p
er
Po
wer
/Co
mm
bo
ard
. If
mo
re t
han
16
dev
ices
are
re
qu
ired
, m
ult
iple
Po
wer
/Co
mm
bo
ard
s m
ust
be
use
d.
No
mo
re t
han
6 m
od
ula
r d
evic
es a
llow
ed p
er b
ran
ch
circ
uit
. (T
he
Po
wer
/Co
mm
bo
ard
has
a t
ota
l o
f 4
bra
nch
cir
cuit
s)
Th
e lo
ng
est
tota
l ru
n p
er b
ran
ch c
ircu
it is
240
Ft.
T
his
is d
ue
to v
olt
age
dro
p o
n t
he
pre
fab
rica
ted
ca
ble
.
Powe
r/Com
m
Boar
d #1
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□
Powe
r/Com
m
Boar
d #2
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□Po
wer/C
omm
Bo
ard
#3
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□Po
wer/C
omm
Bo
ard
#4
3
Ft.
□
25 F
t. □
40
Ft.
□
80 F
t. □
12
0 F
t. □
E
xt.-
10 F
t. □
20
Ft.
□[N
F =
Non
Fan
Ter
min
al] [
SF
= S
erie
s F
low
Fan
Ter
min
al] [
PF
= P
aral
lel F
low
Fan
Ter
min
al]
[EL
-ST
GD
= E
lect
ric H
eat
- S
tage
d] [E
L-S
CR
= E
lect
ric H
eat
- S
CR
Con
trol
ler]
[HW
-ON
-OF
F =
Hot
wat
er H
eat
- O
n/O
ff C
ontr
ol]
[HW
-MO
D =
Hot
Wat
er -
Mod
ulat
ing
Con
trol
]
726