OE217-00 & OE217-01 Digital Room Sensors

OE217-00 & OE217-01

Digital Room Sensors Description The OE217 series of Touch Screen Digital Room Sensors are used to sense Space Temperature only or Space Temperature & Space Humidity. The OE217-00 is a Space Temperature Sensor only and the OE217-01 is a combination Space Temperature & Space Humidity Sensor. Both are used with the VCM-X E-BUS Controller.

Besides sensing Temperature & Humidity, the Digital Room Sensors also provide these other useful features:

• User Friendly Graphical LCD Display with LED Backlight

• Display the Current Space and Outdoor Air Temperature

• Display the Current Space Humidity and Outdoor Air Relative Humidity (OE217-01 Model Only)

• Display the current Zone Setpoint Temperature

• Equipped With Push Buttons for Changing the Zone Setpoint Temperature

• Equipped With an Override Button for Forcing the VCM-X E-BUS Controller into Occupied Operation from Unoccupied Operation

• Provides graphics to indicate the mode of operation

• Provides LEDs to indicate Schedule Override, Button Push, and Alarms

Both sensors connect to the controllers using TSDRSC modular cables of multiple lengths connected between the controller and the sensor. The TSDRSC modular cables should not run in conduit with other AC line voltage wiring or with any conductors carrying highly inductive loads.

Mounting The Digital Room Sensor is designed to be mounted to a vertical, 2” x 4” electrical box recessed in the wall. If the wall cannot be penetrated, a plastic surface mount box such as those made by WiremoldTM, may be used to mount the sensor to the wall surface. The Sensor is mounted by removing the front cover and fastening the housing base to the electrical box using the supplied (2) 6/32” x 1” machine screws. The Modular cable is then plugged into the phone jack located on the circuit board that is mounted on the cover. The cover is then placed onto the housing base and the Allen Screw on the bottom of the base is adjusted to hold the cover in place.

Technical Data OE217-00 & OE217-01 Digital Room Sensor Sensor Element Type III Thermistor 10k ohm Display 112 x 64 Monochrome Graphical LCD @ 77 F Digital Sensing Device w/LED Backlight Sensor Reading 40F to 120F Connection RJ-45 Modular Female Jack Range RH = 0-100% Ambient -40F to 180F Weight 3.2 oz. Temperature Limits Accuracy RH +/- 3%, Temp +/- .8F Three Year Warranty AAON reserves the right to change specifications without notice.

Form: ORION-OE217-00-01-DigitalRoomSensor-1G.doc Page 1 of 1

TSDRSC-XX

Digital Sensor Cable

Description The TSDRSC Cables are used to connect power and communications between the WattMaster Digi- tal Room Sensor or Digital CO2 Sensor and the VCM-X Controller or VAV/Zone Controller.

The TSDRSC Cables are prefabricated plenum-rated cables with RJ- 45 Connectors on both ends of the cable for connection between the Digital Room Sensor, Digital CO2 Sensor, and the VCM-X or VAV/Zone Controller.

The TSDRSC Cables are labeled near each end with the cable part number.

The TSDRSC Cables are available in 5, 10, 15, 25, 40, 80, 120 & 160 feet lengths. These lengths should satisfy most job requirements. For length requirements other than those listed, the MS000029 Modular Room Sensor Cable Coupler can be used to connect two of the TSDRSC Cables together to provide for your specific-length requirements.

The plug-in design of the TSDRSC Cables eliminates costly wiring errors and makes system installation easy. The cable components are all UL approved.

Technical Data TSDRSC Digital Sensor Cables TSDRSC Cable Available TSDRSC-5 (5 Ft.) Current Rating of 24 AWG Wire = 0.577 Amps Lengths and Part Numbers TSDRSC-10 (10 Ft.) Cable Wire (Maximum Amps TSDRSC-15 (15 Ft.) For Power Transmission) TSDRSC-25 (25 Ft.) TSDRSC-40 (40 Ft.) TSDRSC-80 (80 Ft.) TSDRSC-120 (120 Ft.) TSDRSC-160 (160 Ft.) Cable Type Plenum-rated Wire Colors Brown, Blue, White W/ Blue Stripe, White W/ Brown Stripe, Orange, White W/ Orange Stripe, Green, White W/ Green Stripe Wire Size 24 AWG Stranded UL Listing No. CMP-UL As Per UL 910 8 Conductor Terminations (2) RJ-45 Cable Sheath Gray Connectors Color Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-ModularCable-TSDRSC-1A.doc Page 1 of 1 OE217-02 & OE217-03

E-BUS Digital Room Sensors Description The OE217 series of Touch Screen E-BUS Digital Room Sensors are used to sense Space Temperature only or Space Temperature & Space Humidity. The OE217-02 model is the Space Temperature Sensor only model and can be used with the VCCX2 Controller, VCC-X Controller or VCB-X Controller and the VAV/Zone Controller. The OE217-03 is a combination Space Temperature & Space Humidity Sensor model and can only be used with the VCCX2, VCC-X or VCB-X Controller.

Besides sensing Temperature & Humidity, the E-BUS Digital Room Sensors also provide these other useful features: • User Friendly Graphical LCD Display with LED Backlight • Display the Current Space and Outdoor Air Temperature • Display the Current Space Humidity and Outdoor Air Relative Humidity (OE217-03 Model Only) • Display the current Zone Setpoint Temperature

• Equipped With Push Buttons for Changing the Zone Setpoint Temperature • Equipped With an Override Button for Forcing the VAV/Zone Controller or VCB-X Controller into Occupied Operation from Unoccupied Operation • Provides graphics to indicate the mode of operation

• Provides LEDs to indicate Schedule Override, Button Push, and Alarms Both sensors connect to the controllers using E-BUS cables of multiple lengths connected between the controller and the sensor. The E-BUS cables should not run in conduit with other AC line voltage wiring or with any conductors carrying highly inductive loads. Mounting The Digital Room Sensor is designed to be mounted to a vertical, 2” x 4” electrical box recessed in the wall. If the wall cannot be penetrated, a plastic surface mount box such as those made by WiremoldTM, may be used to mount the sensor to the wall surface. The Sensor is mounted by removing the front cover and fastening the housing base to the electrical box using the supplied (2) 6/32” x 1” machine screws. The E-BUS cable is then plugged into the E-BUS connector located on the circuit board that is mounted on the cover. The cover is then placed onto the housing base and the Allen Screw on the bottom of the base is adjusted to hold the cover in place. An additional cover plate is provided in case the sheet rock cut-out is too large to be covered by the regular back plate.

Technical Data OE217-02 & OE217-03 E-BUS Digital Room Sensor Sensor Element Type III Thermistor 10k ohm Display 112 x 64 Monochrome Graphical LCD @ 77 F Digital Sensing Device w/LED Backlight Sensor Reading 40F to 120F Connection E-BUS Range RH = 0-100% Ambient -40F to 180F Weight 3.2 oz. Temperature Limits Accuracy RH +/- 3%, Temp +/- .8F Three Year Warranty AAON reserves the right to change specifications without notice.

Form: ORION-OE217-02-03-EBUS-DRS-1C.doc Page 1 of 1

OE217-04

E-BUS Digital Room Sensor

Description 1.00 The OE217-04 E-BUS Digital Room Space & Humidity Sensor is used to sense Space Temperature & Space 2.80 0.69 Humidity. The E-BUS Digital Room Sensor can be used with the VCCX2 or VCB-X Controller.

The E-BUS Digital Room Sensor connects to the controller using E-BUS cables of multiple lengths connected between the controller and the sensor. The E-BUS cables should not run in conduit with other AC line voltage wiring or with any conductors carrying highly inductive loads. 4.55”

Mounting The E-BUS Digital Room Sensor is designed to be mounted to a vertical, 2” x 4” electrical box recessed in Cover Set the wall. If the wall cannot be penetrated, a plastic Front View Screw Side View surface mount box such as those made by WiremoldTM, may be used to mount the sensor to the wall surface. The Sensor is mounted by removing the front cover and fastening the housing base to the E-BUS Cable electrical box using the supplied (2) 6/32” x 1” machine

Connection MICROCHIP 256GP206 PIC24HJ screws. The E-BUS cable is then plugged into the E- 0.81 BUS connector located on the circuit board that is

SHLD mounted on the cover. The cover is then placed onto -COM GND

+12Vdc the housing base and the Allen Screw on the bottom of 1.87 the base is adjusted to hold the cover in place. Remote Thermistor Sensor Connector

1.81 0.49

Back View

Technical Data OE217-04 E-BUS Digital Room Sensor Sensor Element Digital Capacitive Sensing Accuracy RH +/- 3%, Temp +/- .8F Device Sensor Reading 40F to 120F Connection E-BUS Range RH = 0-100% Ambient -40F to 180F Weight 3.2 oz. Temperature Limits Three Year Warranty AAON reserves the right to change specifications without notice.

Form: ORION-OE217-04-EBUS-DRS-1B.doc Page 1 of 1

BK000081 – Sensor Mounting Plate

Description The BK00081 Sensor Mounting Plate is used, if necessary, to cover the Sensor sheet rock opening. It is provided with the following Sensors:

• OE217-00 - Digital Room Temperature Sensor • OE217-01 - Digital Room Temperature and Humidity Sensor • OE217-02 - E-BUS Digital Room Temperature Sensor • OE217-03 - E-BUS Digital Room Temperature and Humidity Sensor • OE217-04 - E-BUS Digital Room Temperature Sensor (No LCD Display)

• OE256-01 - Wall Mounted CO2 Sensor

• OE256-05 - E-BUS Wall Mounted CO2 Sensor

Mounting The Mounting Plate screws onto the back of the Sensor’s housing base. The mounting plate is then mounted and covers the recessed space in the wall. A locking screw secures the Sensor to the wall.

Form: ORION-BK000081-Sensor-Mounting-Plate-1A.doc Page 1 of 1 MS000248 - E-BUS Adapter Hub

Description ADAPTER HUB The MS000248 E-BUS Adapter RIGHT END Hub is used to provide a VIEW connection point for multiple E- BUS Sensors or Modules. This E-

BUS Adapter Hub has four 0.762

-AMP ports. One port is used to connect 1234 the Hub to an E-BUS Expansion Port on the VCB-X Controller or a 0.405 ADAPTER HUB VCB-X Expansion Module using TOP VIEW EBC E-BUS cables. This leaves ADAPTER HUB three ports available for E-BUS SIDE VIEW Sensors and other Modules.

The EBC Cables are plenum-rated 0.327 high flex wire cables with an EBC ADAPTER HUB Connector on each end of the LEFT END cable for connection between the VIEW Sensors, Modules, and the VCB-X Controller. MS000248 E-BUS ADAPTER HUB

Technical Data MS000248 E-BUS Adapter Hub Terminations Hub - (4) EBC Connectors . Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: AAON-MS000248-E-BUS-Adapter-1A.doc Page 1 of 1 HZ-EBC-248 - E-BUS Adapter Hub

with 1.5 Ft. EBC Cable

Description The HZ-EBC-248 (AAON Part No. V17180) is comprised of the MS000248 E-BUS Adapter Hub and a 1.5 Foot EBC Cable (Part No. EBC-1.5F).

The E-BUS Adapter Hub is used to provide a connection point for multiple E-BUS Sensors or Modules. This E-BUS Adapter Hub has four ports. One port is used to connect the Hub to an E-BUS Expansion Port on the VCB-X Controller or a VCB-X Expansion Module using the supplied EBC- 1.5F cable. This leaves three ports available for E-BUS Sensors and other Modules.

The EBC Cable is a plenum-rated high flex cable with EBC Connectors on each end of the cable for connection between the Sensors, Modules, and the VCB-X Controller.

Technical Data HZ-EBC-248 E-BUS Adapter Hub with 1.5 Ft. EBC Cable EBC E-BUS Cable EBC-1.5F (1.5 Foot) Current Rating of 300 Vrms Min = 10.15 Ohms per 1000 Available Length and Cable Wire feet @ 20 Deg Celsius, Nominal Part Number Cable Type Plenum-rated High Flex Wire Wire Colors Red/Black First Pair; White/Blue Second Pair Wire Size 19 Strands of 32 Gage Wire, 4 UL Listing No. CMP/CL3P/FPLP Conductor Terminations Hub - (4) EBC Connectors Cable Sheath White, Plenum Rated CL3P/CMP Cable – 2 EBC Connectors Color with “WATTMASTER EBUS” marking every foot. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: AAON-HZ-EBC-248-E-BUS-Adapter-1A.doc Page 1 of 1

OE365-15-EBA-A - E-BUS Adapter Board

Description

The OE365-15-EBA-A E-BUS Adapter Board is used to provide a 4.12 1.33 connection point for multiple E- BUS Sensors or Modules.

The E-BUS Adapter Board is also R+

MODULAR EBUS MSTP ® EBUS YS102478 SH used for connecting an EBTRON REV 0 MADE IN USA T-

P1 P2 3.00 R+ GTC-116 Airflow Measurement J1 J2 J3 SH Digital Transmitter or a Green- T- TrolTM GA-200-N Transmitter Mod- ule with GF Series Airflow Monitor- ing Station to the VCM-X E-BUS Modular Controller*, RNE Controller*, or VCB-X Controller.

You must wire the EBTRON® or GreenTrolTM Airflow Measurement Digital Transmitter to this Adapter Board. Up to (3) EBTRON® or GreenTrolTM Airflow Measurement Digital Transmitters can be attached to the Adapter Board when using the VCM-X E-BUS Controller or RNE Controller and up to (4) EBTRON® or GreenTrolTM Airflow Measurement Digital Transmitters can be attached to the Adapter Board when using the VCB-X Controller.

The E-BUS Adapter Board has (3) HSSC Connections. One of these E-BUS ports is used to connect the Board to the E-BUS Port on the VCM-X E-BUS Controller or RNE Controller using an HSSC E- BUS cable.

The E-BUS Adapter Board also has (4) Modular E-BUS ports. One of these Modular E-BUS ports is used to connect the Board to the E-BUS Port on the VCB-X Controller.

The EBUS Adapter Board also has (2) MSTP E-BUS Connections. The AirFlow Monitoring Station(s) connect to one of the MSTP E-BUS Connections.

*NOTE: With custom VCM-X software, the Paragon MicroTrans EQ series Air Flow Monitoring Station can be used and would wire into the E-BUS Adapter Board the same way.

Technical Data OE365-15-EBA-A E-BUS Adapter Board Terminations (4) EBC Connections (2) MSTP E-BUS Connections . (3) HSSC Connections Three Year Warranty WattMaster reserves the right to change specifications without notice

EBTRON® is a registered trademark of Ebtron, Inc., Loris, SC. GreenTrolTM is a registered trademark of GreenTrol Automation, Inc. Loris, SC. Paragon® is a registered trademark of Paragon Controls, Inc. Santa Rosa, CA

Form: ORION-OE365-15-EBA-A-E-BUS-Adapter-Board-1C.doc Page 1 of 1

EBC-XXXF – EBC E-BUS Cables

3M Description 1 432 The EBC E-BUS Cables are used to connect power and communications between the VCB-X Controller, VCB-X Expansion Module, E-BUS Modules, and E-BUS Sensors.

The EBC E-BUS Cables are plenum- F rated high flex wire cables with an XX

EBC Connector on each end of the EBC- cable.

The EBC E-BUS Cables are labeled with “WATTMASTER E-BUS” marking every foot. "WATTMASTER EBUS" Length in Feet The EBC E-BUS Cables are available in 1, 1.5, 3, 10, 15, 25, 50, 75, 100, 150, and 250 foot lengths and additionally a 1000 foot long spool. "WATTMASTER EBUS" These lengths should satisfy most job requirements. For length requirements F other than those listed, the MS000248 XX E-BUS Adapter Hub can be used to EBC- connect EBC E-BUS Cables together to provide for your specific-length requirements.

The plug-in design of the EBC E-BUS

Cables eliminates costly wiring errors

3 1 432 and makes system installation easy. 3M The cable components are all UL CABLE SIDE approved. VIEW

EBC-XXF E-BUS CABLE Technical Data EBC-XXXF EBC E-BUS Cables EBC E-BUS Cable EBC-1-F (1 Foot) Current Rating of 300 Vrms Min = 10.15 Ohms per 1000 Available Lengths and EBC-1.5-F (1.5 Foot) Cable Wire feet @ 20 Deg Celsius, Nominal Part Numbers EBC-3-F (3 Foot) EBC-25-F (25 Foot) EBC-50-F (50 Foot) EBC-75-F (75 Foot) EBC-100-F (100 Foot) EBC-150-F (150 Foot) EBC-250-F (250 Foot) EBC-SPOOL-F (1000 Foot Spool) Cable Type Plenum-rated High Flex Wire Wire Colors Red/Black First Pair; White/Blue Second Pair Wire Size 19 Strands of 32 Gage Wire, 4 UL Listing No. CMP/CL3P/FPLP Conductor Terminations Cable – 2 EBC Connectors Cable Sheath White, Plenum Rated CL3P/CMP Color with “WATTMASTER EBUS” marking every foot. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-EBC-XXXF-E-BUS-Cable-1B.doc Page 1 of 1

OE210-02, 211-02, 212-02, 213-02

Modular Room Sensors Description 2.75“ The patented design, OE21x-02 series Modular Room 0.88“ Sensor provides accurate sensing of the room temperature. Its design allows for flush wall mounting yet rejects the influence of surface and internal wall temperatures. The Modular Room Sensor is used in conjunction with the W A R M Orion VAV/Zone Controller. Connection between the E R

VAV/Zone Controller board and the Modular Room Sen- 2.50"

3.25“ O

O 4.50“ L sor is by means of an RJ-45 Modular Cable. The Modular E R Room Sensor cannot be used for connection to the VCM- X controller. For these applications the Standard Room Sensor must be used. Please see the Orion Standard Room Sensor submittal sheet for information. 0.25“ Sensors provided with the setpoint adjustment option can 2.00“ be programmed to allow a temperature range adjustment of ± 6° F from their standard setpoint. Sensors provided with the pushbutton override option can be programmed

YS101858 REV 0 to provide a timed override duration of up to 8.0 hours. SENSOR MODULAR Wall Cut-Out Dimensions When Sensor Is To Be The Room Sensor’s attractive styling and off white casing PJ1 R2 Mounted Without THERM1 R1 color make it suitable for most building decors. If interior 2.75“ Handy Box (By Others) decoration requires, the Modular Room Sensor casing can also be painted or wall papered without affecting the sensor's performance. Modular Room Sensors are available in 4 different configurations:

 OE210-02 - Sensor Plain  OE211-02 - Sensor with Override  OE212-02 - Sensor with Setpoint Adjustment  OE213-02 - Sensor with Setpoint Adjustment and Override

Modular cable from the VAV/Zone Controller to the Modular Room Sensor should not be run in conduit with other AC line voltage wiring, or with any conductors carrying highly inductive loads. Mounting The Room Sensors are designed to be mounted on a vertical, 2” x 4” electrical box recessed in the wall. If the wall cannot be penetrated, a plastic surface mount box such as those made by Wiremold, may be used to mount the sensor to the wall surface.

Technical Data OE210-02, OE211-02, OE212-02, OE213-02 Modular Room Sensor Sensor Element Type III Thermistor Mounting Designed to be Flush Mounted to Wall 10k ohm @ 77º F using Vertical 2” x 4” Handy Box (by others) Accuracy 0.4º F between 40º F to 95º F Connection RJ-45 Modular Female Jack Range -30º F to 150º F Weight 4 oz. 3 Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-ModularRoomSensor-1F.doc Page 1 of 1

FMRSC-XX

Modular Room Sensor Cable

Description Description The FMRSC Cables are used to connect power and communications between the Modular Room Sensor and the Orion VAV/Zone Controller.

The FMRSC Cables are prefabricated plenum-rated cables with RJ- 45 Connectors on both ends of the cable for connection between the Modular Room Sensor and the Orion VAV/Zone Controller.

The FMRSC Cables are labeled near each end with the cable part number.

The FMRSC Cables are available in 5, 10, 25, 40 and 80 feet lengths. These lengths should satisfy most job requirements. For length requirements outside of this range, the MS000029 Modular Room Sensor Cable Coupler can be used to connect two of the FMRSC Cables together to provide for your specific- length requirements. Not more than one coupler should be used on a run. Maximum run is 160 feet.

The plug-in design of the FMRSC Cables eliminates costly wiring errors and makes system installation easy. The cable components are UL approved.

Technical Data FMRSC Modular Sensor Cables FMRSC Cable Available FMRSC-5 (5 Ft.) Current Rating of 24 AWG Wire = 0.577 Amps Lengths and Part Numbers FMRSC-10 (10 Ft.) Cable Wire (Maximum Amps FMRSC-25 (25 Ft.) For Power Transmission) FMRSC-40 (40 Ft.) FMRSC-80 (80 Ft.) Cable Type Plenum-rated Wire Colors White W/ Green Stripe, Green W/ White Stripe, White W/ Orange Stripe, Orange W/ White Stripe, White W/ Blue Stripe, Blue W/ White Stripe Wire Size 24 AWG Stranded UL Listing No. CMP-UL As Per UL 910 6 Conductor Terminations (2) RJ-45 Cable Sheath Gray Connectors Color Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-ModularCable-FMRSC-1B.doc Page 1 of 1 OE210, 211, 212 & 213 Standard Room Sensors Description

The patented design, OE21x series Standard Room Sen- 2.75“ sor provides accurate sensing of the room temperature. 0.88“ Its design allows for flush wall mounting yet rejects the influence of surface and internal wall temperatures. The Standard Room Sensor is used in conjunction with the

Orion controllers. Wire terminals are provided on the sen- W A R M sor for connection to the controllers. The Standard Room E R

2.50"

Sensor cannot be used for connection to the VAV/Zone 3.25“ O

O 4.50“ L E controller. For this application the Modular Room Sensor R must be used. Please see the Orion Modular Room Sen- sor submittal sheet for information.

Sensors provided with the setpoint adjustment option can be programmed to allow a temperature range adjustment 0.25“ of ± 6°F from their standard setpoint. Sensors provided 2.00“ with the pushbutton override option can be programmed to provide a timed override duration of up to 8.0 hours.

TMP The Room Sensor’s attractive styling and off white casing GND AUX OUT color make it suitable for most building decors. If interior Wall Cut-Out Dimensions When Sensor Is To Be decoration requires, the Room Sensor casing can also be Mounted Without painted or wall papered without affecting the sensor's per- 2.75“ Handy Box (By Others) formance. Room Sensors are available in 4 different configurations:

 OE210 Sensor Plain  OE211 Sensor with Override  OE212 Sensor with Setpoint Adjustment  OE213 Sensor with Setpoint Adjustment and Override

Mounting The Room Sensors are designed to be mounted on a vertical, 2” x 4” electrical box recessed in the wall. If the wall cannot be penetrated, a plastic surface mount box such as those made by Wiremold, may be used to mount the sensor to the wall surface.

W W A A R R M M E E R R

C C O O O O OVR L OVR L E E R R

OE210 OE211 OE212 OE213 Room Sensor - Plain Room Sensor Room Sensor Room Sensor With Override With Setpoint Adjust With Setpoint Adjust & Overide

Technical Data OE210, OE211, OE212, OE213 Standard Room Sensor Sensor Element Type III Thermistor Mounting Designed to be Flush Mounted to Wall 10k ohm @ 77º F using Vertical 2” x 4” Handy Box (by others) Accuracy 0.4º F between 40º F to 95º F Line Loss 0.25º F max. error, using 22 AWG wire at 1000 ft Range -30º F to 150º F Weight 4 oz. 3 Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-StandardRoomSensor-1D.doc Page 1 of 1

Duct Temperature Sensors OE230 (6" Probe) & OE231 (12" Probe)

Leads Are Non-polarized. Caution! Butt Splice Leads To 24 Gauge The Duct Sensor Is Used For Sensing Supply Wire Minimum. Connect Leads Or Return Air Temperatures. Location Of The To "Analog In" And "Ground" Sensors Is Very Important In Order To Obtain At Controller. Accurate Temperature Readings. The Following Recommendations Should Be Followed:

Supply Air When Used As A Supply Air Sensor The Sensor Should Be Mounted In The Supply Air Duct As Close To The HVAC Unit As Possible 4.0" And Upstream Of The Bypass Damper (If Used) For Best Results. For Best Accuracy, Thread Apply Insulation On The Outside Of The Together 3/4" Ductwork Over The Sensor. This Will Help Thermal Gradients From Affecting The Sensor. 5-1/2" (OE230) Mounting Plate 11-1/2" (OE231) Return Air When Used As A Return Air Sensor The Sensor Should Be Mounted In The Return Air 1/4" Hex Head Sheet Metal Screws Duct As Close To The HVAC Unit As Possible And Upstream Of The Bypass Damper (If Used) For Best Results. For Best Accuracy, Mounting Plate Apply Insulation On The Outside Of The Gasket Ductwork Over The Sensor. This Will Help Thermal Gradients From Affecting The Sensor. Adhesive Backed Drill Guide See The Systems Installation And Operation Mounting Template Manual For Other Design Considerations And Recommendations Regarding Duct Duct Work Temperature Sensor Location.

Drill 3/8” Hole In Ductwork For Probe

Temperature Sensor Resistance/Voltage Chart Temp Resistance* Voltage Temp Resistance* Voltage Temp Resistance* Voltage Temp Resistance* Voltage ° F Ohms @ Input* ° F Ohms @ Input* ° F Ohms @ Input* ° F Ohms @ Input* -10...... 93333...... 4.620 45...... 21094...... 3.470 69...... 11906 ...... 2.780 84...... 8514...... 2.352 -5...... 80531...... 4.550 50...... 18655...... 3.330 70...... 11652 ...... 2.752 86...... 8153...... 2.297 0...... 69822...... 4.474 52...... 17799...... 3.275 71...... 11379 ...... 2.722 88...... 7805...... 2.242 5...... 60552...... 4.390 54...... 16956...... 3.217 72...... 11136 ...... 2.695 90...... 7472...... 2.187 10...... 52500...... 4.297 56...... 16164...... 3.160 73...... 10878...... 2.665 95...... 6716...... 2.055 15...... 45902...... 4.200 58...... 15385...... 3.100 74...... 10625...... 2.635 100...... 6047...... 1.927 20...... 40147...... 4.095 60...... 14681...... 3.042 75...... 10398...... 2.607 105...... 5453...... 1.805 25...... 35165...... 3.982 62...... 14014...... 2.985 76...... 10158...... 2.570 110 ...... 4923...... 1.687 30...... 30805...... 3.862 64...... 13382...... 2.927 78...... 9711 ...... 2.520 115 ...... 4449...... 1.575 35...... 27140...... 3.737 66...... 12758...... 2.867 80...... 9302...... 2.465 120...... 4030...... 1.469 40...... 23874...... 3.605 68...... 12191...... 2.810 82...... 8893...... 2.407 125...... 3656...... 1.369

*Chart Notes: 1. Use the resistance column to check the thermistor sensor while disconnected from the controllers (not powered).

Technical Specifications Sensor Element: Type III Thermistor 10k ohm @ 77ºF Accuracy: ± 0.4º F between 40º F to 95º F Range: -30º F to 150º F

JOB NAME Notes: 1.)All Wiring To Be In Accordance With Local And National Electrical Codes FILENAME And Specifications. G-DUCSENS1.CDR

DATE: 07/13/15 DRAWN BY: B. CREWS PAGE DESCRIPTION: OE230 & OE231 1 Duct Temperature Sensor Gasketed Cover CAUTION! Cover See Note3 Mounting 2.70” Closure Plug Screw - Typ. CAUTION! 3.00” 2.30” See Note 2

0.21" Dia. x 0.73 Lg. Slot - Typ.

Mounting Tab

2.25”

4.50” & Screws - Typ.

Mounting Tab 1.13” & Screw - Typ.

Closure Plug CAUTION! See Note 2

3.00” Incorrect Sensor Tube See Note #1 CAUTION! See Note 1

Front View Side View Back View

Technical Specifications Incorrect Correct Sensor Element: Type III Thermistor 10k ohm @ 77ºF Accuracy: ± 0.4º F between 40º F to 95º F Sensor Mounting Range: -30º F to 150º F Postion

Outside Air Sensor OE250

*Chart Notes: 1. Use the resistance column to check the thermistor sensor while disconnected from the controllers (not powered). 2. Use the voltage column to check sensors while connected to powered controllers. Read voltage with meter set on DC volts. Place the "-"(minus) lead on GND terminal and the "+"(plus) lead on the sensor input terminal being investigated. If the voltage is above 5.08 VDC, then the sensor or wiring is "open." If the voltage is less than 0.05 VDC, the sensor or wiring is shorted.

Notes: 1.)The Outside Air Sensor Must Be 2.)Unused Conduit Opening(s) Must Mounted In A Vertical Position As Have Closure Plugs Installed And Must Shown (Sensor Tube Pointing Be Coated with Sealing Compound To JOB NAME Down). Water Must Not Be Provide Raintight Seal. Water Can Allowed To Stand In Sensor Damage Sensor! Tube. Rainwater Will Damage Sensor. 3.)Gasket Must Be Installed Under Cover FILENAME Sensor Must Be Located Plate To Provide Raintight Seal. Where It Will Not Be Affected By Rainwater Can Damage Sensor! G-OE250-OAS-PDWG.CDR Direct Sunlight Or Heat Producing Equipment. If Possible Mount Under 4.)All Wiring To Be In Accordance With DATE: 07/13/15 DRAWN BY: B. CREWS Roof Eave Or Similar Protected Local And National Electrical Codes PAGE DESCRIPTION: Location. If Sensor Is Not Located And Specifications. As Specified, Erroneous Outside Air OE250 Temperature Readings Will Result. 1 Outside Air Temperature Sensor OE265-15 – E-BUS Horizontal Outdoor

Air Temperature and Humidity Sensor

2.82

2.34 2.35 Description 3.29 The OE265-15 E-BUS Horizontal Outdoor Air Temperature and HINGED COVER Humidity is a combination

Outdoor Air Temperature and FILTER Outdoor Air Humidity sensor that 4.91 4.18 SENSING TUBE connects to the VCCX2 or VCB-X Controller using an EBC E-BUS modular cable.

This sensor is used when both Outdoor Air Temperature and Humidity are needed for the VCCX2 or VCB-X Controller to do Wetbulb or Dewpoint 36.00 APPROX. Economizer Control. It is also E-BUS CONNECTOR used if the VCCX2 or VCB-X FEMALE END

Controller is used in a Make Up

3 1 432 Air application to initiate 3M dehumidification based on an Outdoor Air Dewpoint Setpoint.

3M "WATTMASTER EBUS" "WATTMASTER EBUS"

EBC-10F EBC-10F 3M 432 1 432 1

120.00 APPROX. E-BUS CONNECTOR EXTENSION CABLE WITH MALE ENDS PROVIDED WITH SENSOR

Mounting A 10 foot EBC E-BUS cable (provided) plugs into the E-BUS Outdoor Air Temperature and Humidity Sensor's attached 3 foot cable and then attaches to an E-BUS Expansion port on the VCCX2 or VCB-X Controller or into another available E-BUS Expansion port. The sensor should be mounted in the upright position as shown in an area that is protected from the elements and direct sunlight.

CAUTION: Be sure to mount the E-BUS Outdoor Air Temperature & Humidity Sensor in an area that is not exposed to direct sunlight. The shaded area under the HVAC unit rain hood is normally a good location. Unused conduit opening(s) must have closure plugs installed and must be coated with sealing compound to provide a rain-tight seal. Water can damage the sensor.

Technical Data OE265-15 E-BUS Horizontal Outdoor Air Temperature and Humidity Sensor Sensor Element Digital Capacitive Sensing Accuracy RH +/- 3%, Temp +/- .8F Device Sensor Reading -40F to 185F Connection E-BUS Range RH = 0-100% Ambient Tempera- -40F to 185F Weight 2.3 oz. ture Limits

Three Year Warranty AAON reserves the right to change specifications without notice.

Form: Orion-OE265-15-EBUS-Horiz-OA-RH-Sensor-01C Page 1 of 1 OE265-16 – E-BUS Vertical Outdoor Air Temperature and Humidity Sensor

Description FILTER The OE265-16 E-BUS Vertical Outdoor Air Temperature and Humidity is a combination SENSING TUBE 3.29 2.82 Outdoor Air Temperature and Outdoor Air Humidity sensor that 2.34 connects to the VCCX2 or VCB-X 2.35 Controller using an EBC E-BUS modular cable. HINGED COVER This sensor is used when both Outdoor Air Temperature and Humidity are needed for the VCCX2 or VCB-X Controller to 4.91 4.18 do Wetbulb or Dewpoint Economizer Control. It is also used if the VCCX2 or VCB-X Controller is used in a Make Up Air application to initiate dehumidification based on an Outdoor Air Dewpoint Setpoint.

Mounting

A 10 foot EBC E-BUS cable 36.00 APPROX. (provided) plugs into the E-BUS E-BUS CONNECTOR Outdoor Air Temperature and FEMALE END Humidity Sensor's attached 3

foot cable and then attaches to 3 1 432 an E-BUS Expansion port on the 3M VCCX2 or VCB-X Controller or into another available E-BUS Expansion port. The sensor should be mounted in the upright

3M "WATTMASTER EBUS" "WATTMASTER EBUS"

EBC-10F EBC-10F 3M

position as shown in an area that 432 1 432 1 is protected from the elements and direct sunlight. 120.00 APPROX. E-BUS CONNECTOR EXTENSION CABLE WITH MALE ENDS PROVIDED WITH SENSOR CAUTION: Be sure to mount the E-BUS Outdoor Air Temperature & Humidity Sensor in an area that is not exposed to direct sunlight. The shaded area under the HVAC unit rain hood is normally a good location. Unused conduit opening(s) must have closure plugs installed and must be coated with sealing compound to provide a rain-tight seal. Water can damage the sensor.

Technical Data OE265-16 E-BUS Vertical Outdoor Air Temperature and Humidity Sensor Sensor Element Digital Capacitive Sensing Device Accuracy RH +/- 3%, Temp +/- .8F Sensor Reading Range -40F to 185F Connection E-BUS RH = 0-100% Ambient Temperature -40F to 185F Weight 2.3 oz. Limits

Three Year Warranty AAON reserves the right to change specifications without notice.

Form: Orion-OE265-16-EBUS-Vert-OA-RH-Sensor-01D Page 1 of 1 OE265-17-A – E-BUS Return Air

Temperature and Humidity Sensor

2.82 Description 2.34 2.35 3.29 The OE265-17-A E-BUS Return

Air Temperature and Humidity is HINGED COVER a combination Return Air Temperature and Return Air Humidity sensor that connects to FILTER 4.91 4.18 the VCCX2 or VCB-X Controller SENSING TUBE using an EBC E-BUS modular cable.

This sensor is used when both Return Air Temperature and Return Air Humidity are needed for the VCCX2 or VCB-X Controller. The Return Air Humidity Sensor can be used to 36.00 APPROX. E-BUS CONNECTOR initiate dehumidification based on FEMALE END an Indoor Humidity Setpoint.

3 1 432 3M Mounting A 50 foot EBC E-BUS cable (provided) plugs into the E-BUS ALL DIMENSIONS ARE

3M "WATTMASTER EBUS" "WATTMASTER EBUS"

EBC-10F EBC-10F 3M 432 1 432 1 IN INCHES UNLESS Return Air Temperature and OTHERWISE NOTED. Humidity Sensor's attached 3 foot cable and then attaches to 50.00 FEET APPROX. an E-BUS Expansion port on the E-BUS CONNECTOR EXTENSION CABLE WITH MALE ENDS PROVIDED WITH SENSOR VCCX2 or VCB-X Controller or into another available E-BUS Expansion port.

Technical Data OE265-17-A E-BUS Return Air Temperature and Humidity Sensor Sensor Element Digital Capacitive Sensing Accuracy RH +/- 3%, Temp +/- .8F Device Sensor Reading -40F to 185F Connection E-BUS Range RH = 0-100% Ambient -40F to 185F Weight 2.3 oz. Temperature Limits

Three Year Warranty AAON reserves the right to change specifications without notice.

Form: ORION-OE265-17-A-EBUS-Return-RH-Sensor-01C Page 1 of 1 Top View

Left Right Side Side View View

Front 6.70 View

Installation Instructions:

1.) Place The Outside Air Humidity Sensor Where It Is To Be Mounted. See Note 1 Below For Important Mounting Information And Considerations. Mark The (4) Mounting Holes. Secure The INCORRECT Humidity Sensor By Using The (4) #10 X 1.5" Self Tapping Screws Included With The Humidity Sensor.

2.) Open The Cover by Moving the Latch to the Side And Install Your Conduit Connectors. The Cover Must Always Be Opened Before Attempting To Punch Out The Knockouts.

3.) Connect The Wires To The Corresponding Sensor Wire Leads Per The Wiring Diagram On Page 2 Of This Drawing. Insert the Wires Into the Sealant Filled Connectors Provided and Crimp. Lightly Tug on the Wire to Assure a Good Mechanical Connection

4.) Close The Cover by Pushing Down Until the Latch Snaps Into Place. Be Careful Not To Pinch The Sensor Wires When Closing The Housing Cover.

5.) Verify That You Are Getting A Humidity Reading On Your Control System. Please Note That It CORRECT May Take Ten To Twenty Minutes For The Sensor Reading To Stabilize Upon Initial Power Up.

Notes: INCORRECT 1.) The Outside Air Humidity Sensor Must 2.) Sensor's Plastic Cover Has Be Mounted In A Vertical Position As Shown A UL94V0 Flame Rating. (Sensor Tube Pointing Down). Water Must Sensor Mounting Position Not Be Allowed To Stand In Sensor Tube, 3.) Unused Conduit Opening(s) Must It Will Cause Erroneous Sensor Not be Knocked Out to Prevent Dust Readings. The Sensor Will Recover When or Insects From Infiltrating the Sensor JOB NAME It Dries Out. Sensor Must Be Located Electrical Box. Where It Will Not Be Affected By Direct Sunlight Or Heat Producing Equipment. If 4.) All Wiring To Be In Accordance FILE NAME Possible, Mount Under Roof Eave Or Similar With Local And National Electrical G-OE265-13B-OAHUMID-1G.PDF Protected Location. If Sensor Is Not Codes And Specifications. Located As Specified, Erroneous Outside Air DATE: 08/13/15 REVISED BY: S. OLSON Humidity Readings Will Result. PAGE DESCRIPTION OE265-13 BAPI 1 of 2 Outside Air Humidity Sensor – 0-5 VDC 0-5 VDC Output Wiring (24VAC Power)

CONNECT TO 24 VAC POWER Warning Be Sure To Observe Polarity Or Serious Damage To The Board Could Result

Terminal

LB101966

BLK

RED

WHT

0-5V

GND

0-5VDC Label:

Not Used

VACorDC SENSOR TERMINAL BLOCK

Humidity Sensor RH/Voltage Chart

RH Output RH Output % VDC % VDC 5 ...... 0.25 55 ...... 2.75 10 ...... 0.50 60 ...... 3.00 15 ...... 0.75 65 ...... 3.25 20 ...... 1.00 70 ...... 3.50 25 ...... 1.25 75 ...... 3.75 30 ...... 1.50 80 ...... 4.00 35 ...... 1.75 85 ...... 4.25 40 ...... 2.00 90 ...... 4.50 45 ...... 2.25 95 ...... 4.75 50 ...... 2.50 100 ...... 5.00

*Chart Notes: 1. First, be sure that +24VAC power is being supplied to the sensor. Second check the sensor output. Set the meter to DC volts and connect the meter between ground and the 0-5 VDC input terminal on the controller board or between the 0-5 VDC output on the sensor and its ground wire or you can measure voltage at the 0-5 VDC JOB NAME and GND terminals on the sensor located at the sensor installtion location. After measuring the voltage use an accurate humidity measurement device to determine RH (relative humidity) such as an aspirating psychrometer. Use the FILE NAME Output VDC column to read the Output Voltage corresponding with the RH G-OE265-13B-OAHUMID-1G.PDF percentage measured with the psychrometer. If the measured voltage is within 3% of what is listed for the corresponding RH, then the sensor is functioning properly. DATE: 08/13/15 DRAWN BY: B. CREWS Notes: PAGE DESCRIPTION 1.) All Wiring To Be In Accordance With Local And OE265-13 BAPI National Electrical Codes And Specifications. 2 of 2 Outside Air Humidity Sensor – 0-5 VDC See Note #1

Mounting Sensor to Duct

Top View

Left Right Side Side View View Front View

Installation Instructions:

1.) Drill a 1" Diameter Hole In The Duct Wall In the Location Where The Humidity Sensor Is To Be Mounted. Insert The Probe Of The Return Air Humidity Sensor Through The Hole. See Note 1 Below For Important Mounting Information And Considerations. Mark The (4) Mounting Holes. Secure The Humidity Sensor By Using The Four #10 X 1.5" Self Tapping Screws Included With The Humidity Sensor.

2.) Open The Cover by Moving the Latch to the Side And Install Your Conduit Connectors. The Cover Must Always Be Opened Before Attempting To Punch Out The Knockouts.

4.) Close The Cover by Pushing Down Until the Latch Snaps Into Place. Be Careful Not To Pinch The Sensor Wires When Closing The Housing Cover.

5.) Verify That You Are Getting A Humidity Reading On Your Control System. Please Note That It May Take Ten To Twenty Minutes For The Sensor Reading To Stabilize Upon Initial Power Up.

Notes: 1.) The Sensor Should Be Mounted so 2.) Unused Conduit Opening(s) Must Not that the 6" Probe is in the Center of the be Knocked Out to Prevent Dust or Insects Return Air Duct. It Should be Mounted From Infiltrating the Sensor Electrical Box. JOB NAME Away from Fans, Elbows, Heating or Cooling Coils or Other Equipment that 3.) The Sensor Probe Gasket Must Be Could Affect the Measurement of Installed Between the Back of the Sensor FILE NAME Relative Humidity. Also, the Sensor Box and the Duct to Provide an Airtight Should be Mounted in an Area that Seal. G-OE265-14B-RAHUMID-1D.PDF Receives Adequate Air Flow for Proper 4.) All Wiring To Be In Accordance With DATE: 08/28/07 DRAWN BY: B. CREWS Operation. The Sensor may be Mounted Local And National Electrical Codes And Horizontally or Vertically to the Return Air Specifications. PAGE DESCRIPTION Duct. See the Sensor Mounting Diagram OE265-14 BAPI Above. 1 of 2 Return Air Humidity Sensor – 0-5 VDC 0-5 VDC Output Wiring (24 VAC Power)

CONNECT TO 24 VAC POWER Warning Be Sure To Observe Polarity Or Serious Damage To The Unit Could Result

Terminal

LB101966

BLK

RED

WHT

0-5V

CorD

GND

0-5VDC Label:

Not Used

SENSOR TERMINAL BLOCK

Humidity Sensor RH/Voltage Chart

*Chart Notes: 1. First, be sure that +24VAC power is being supplied to the sensor. Second check the sensor output. Set the meter to DC volts and connect the meter between ground and the 0-5 VDC input terminal on the controller board or between the 0-5 VDC output on the sensor and its ground wire or you can measure voltage at the 0-5 VDC and GND terminals on the sensor located at the sensor installtion location. JOB NAME After measuring the voltage use an accurate humidity measurement device to determine RH (relative humidity) such as an aspirating psychrometer. Use the Output VDC column to read the Output Voltage corresponding with the RH FILE NAME percentage measured with the psychrometer. If the measured voltage is within 3% of what is listed for the corresponding RH, then the sensor is functioning properly. G-OE265-14B-RAHUMID-1D.PDF Notes: DATE: 08/28/07 DRAWN BY: B. CREWS 1.) All Wiring To Be In Accordance With Local And PAGE DESCRIPTION National Electrical Codes And Specifications. OE265-14 BAPI 2 of 2 Return Air Humidity Sensor – 0-5 VDC Right Side View Front View

Installation Instructions:

1.) Place The SpaceHumidity Sensor Where It Is To Be Mounted. See Note 1 Below For Important Mounting Information And Considerations.

2.) Remove The Humidity Sensor Cover By Screwing In The 2 Allen Screws That Secure It To The Base.

3.) Connect All Of The Wires From The Controller Board To The Corresponding Terminal Blocks Per The Wiring Diagram On Page 2 OfThis Drawing.

4.) Secure The Cover Onto The Base Housing By Snapping The Cover Onto The Base And Backing Out The 2 Allen Screws.

5.) Verify That You Are Getting A Humidity Reading On Your Control System. Please Note That It May Take Ten To Twenty MinutesForThe Sensor Reading To Stabilize Upon Initial Power Up.

Notes: 1.) The sensor is designed to be wall 2.) Sensor’s Plastic Cover mounted in rooms where appearance is Has A UL94V0 Flame Rating. important. It may be mounted directly on dry wall or on any single gang electrical 3.) All Wiring To Be In outlet box with no adapters required. Accordance With Local Toggle bolts or other direct wall mount And National Electrical JOB NAME screws can be used where conduit is not Codes And Specifications. required. It includes a detachable DATE: 08/13/15 REVISED BY: S. OLSON mounting plate. The cover is secured with tamper-resistant hex screws. The sensor FILE NAME should be mounted approximately five feet G-OE265-11-SPHUMID-1F.PDF above the floor, on an interior wall, away from any heating or cooling generating DATE: 08/10/15 DRAWN BY: B. CREWS devices, and out of the sun. Plug the PAGE DESCRIPTION wireway hole to prevent false readings by OE265-11 air drafts within the wall. 1 of 2 Space Humidity Sensor – 0-5 VDC CONNECT TO SPECIFIED AIx NOTE: RESISTOR IS NOT TERMINAL FOR YOUR REQUIRED FOR CONTROLLERS APPLICATION. SEE SPECIFIC WIRING DIAGRAM FOR YOUR 24 VAC or VDCTHAT HAVE JUMPER THE PULL-UP RESISTOR (PUx) SELECTABLE ANALOG INPUTS. APPLICATION FOR CORRECT AIXFOR TERMINAL THE ASSOCIATED TO BE ANALOGUSED. INPUT MUST BE REMOVED FROM -0mA 4-20

TB3 THERM THE CONTROLLER BOARD FOR 0-10v 0-5v THE SENSOR TO OPERATE ANALOG INPUTS JUMPER SELECTABLE

AI1 STYLE CONTROLLER TERMINAL. SET FOR 0-5V. AI1

GND

Not Used Not Used

-VCTerminal 0-5VDC Label: LB101969

Gnd

Vin Vo GND CONNECT TO GROUND NOTE: RESISTOR IS REQUIRED TERMINAL FOR YOUR FOR CONTROLLERS THAT DO ANALOG INPUT(S). NOT HAVE JUMPER SELECTABLE ANALOG INPUTS.

Humidity Sensor RH/Voltage Chart

RH Output RH Output %VDC%VDC 5 ...... 0.25 55 ...... 2.75 10 ...... 0.50 60 ...... 3.00 15 ...... 0.75 65 ...... 3.25 20 ...... 1.00 70 ...... 3.50 25 ...... 1.25 75 ...... 3.75 30 ...... 1.50 80 ...... 4.00 35 ...... 1.75 85 ...... 4.25 40 ...... 2.00 90 ...... 4.50 45 ...... 2.25 95 ...... 4.75 50 ...... 2.50 100 ...... 5.00

Chart Notes 1.) First be sure that the +24 VAC power is being supplied to the sensor. Second set the meter to DC volts and connect the meter between ground and the 0-5 VDC input on the controller board or between the 0-5 VDC output terminal on the sensor and its ground terminal. Use an accurate humidity measurement device (such as an aspirating psychrometer) to determine the RH percentage (relative humidity) .

Use the “Output VDC” column on the chart to read the voltage corresponding with the RH percentage column just measured. If the measured voltage is within 3% of what is listed for the corresponding RH, the sensor is functioning correctly. If it is not you will need to replace the sensor.

JOB NAME

FILENAME

G-OE265-11-SPHUMID-1F.CDR

DATE: 08/13/15 DRAWN BY: B. CREWS Notes: PAGE DESCRIPTION: 1.) All Wiring To Be In Accordance With Local And OE265-11 National Electrical Codes And Specifications. 2 of 2 Wall Mounted Humidity Sensor - 0-5 VDC OE365-03-EBSE E-BUS Space Temp/RH Sensor Emulator Board

4.2±0.15 Description

The OE365-03-EBSE E-BUS Space Temperature and Humidity

E-BUS SPACE TEMP/HUMIDITY Sensor Emulator Board allows the SENSOR EMULATION BOARD

OE365-03-EBSE use of separate 3rd party space 3.0 temperature and humidity sensors 2.0 to emulate the WattMaster E-BUS combination Space Temperature and Humidity Sensor.

The board provides E-BUS-out communication to these unit controllers or to their attached E-BUS modules using the supplied 1.5 foot EBC E-BUS cable.

Both the temperature and humidity sensors must be wired into this 1.5 Foot Emulator Board. The Emulator EBC E-BUS Cable Board converts the analog signals to E-BUS.

The normal Space sensor override and slide adjust functions are not available when using the Emulator Board.

The Emulator Board has 2 EBC E-BUS connectors, allowing it to also act as an adapter board. One port can be used to connect the Emulator Board to the controller. The other port can be used to connect to another sensor or controller.

The E-BUS Sensor Emulator Board has 3 LEDs – COMM LED to indicate sensor communication to the board, POWER LED to indicate that the board is powered up, and ALARM to indicate an alarm condition.

Technical Data OE365-03-EBSE E-BUS Space Temperature and Humidity Sensor Emulator Board Maximum Power Consumption 250 mA Operating Temperature -20ºF to 150ºF Idle Current* <5 mA Humidity Sensor Input 0-5 VDC Terminations 0-10 VDC Transmit Current* ~100 mA Temperature Sensor 10K Ohm Type III Thermistor Input Termination Module Weight without Cable 1.92 oz. Output Terminations (2) EBC E-BUS Connections +5VDC Module Weight with EBC-1.5F 2.64 oz. *NOTE: Currents may vary depending on the attached sensing Cable elements. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE365-03-EBSE-SpcRH-1A.doc Page 1 of 1

OE365-04-EBSE E-BUS Return Air Temp/RH Sensor Emulator Board

4.2±0.15 Description

The OE365-04-EBSE E-BUS Return Air Temperature and

E-BUS RETURN AIR TEMP/HUMIDITY

Humidity Sensor Emulator Board SENSOR EMULATION BOARD

OE365-04-EBSE allows the use of 3rd party analog 3.0 return air temperature and humidity 2.0 sensors to emulate the WattMaster E-BUS combination Return Air Temperature and Humidity Sensor.

The E-BUS Emulator Board works with the VCC-X and VCB-X Controllers. The board provides E-BUS-out communication to these unit controllers or to their attached E-BUS modules using the supplied 1.5 foot EBC E-BUS cable. 1.5 Foot Both the temperature and humidity EBC E-BUS Cable sensors must be wired into this Emulator Board. The Emulator

Board converts the analog signals to E-BUS.

The E-BUS Sensor Emulator Board has 3 LEDs – COMM LED to indicate sensor communication to the board, POWER LED to indicate that the board is powered up, and ALARM to indicate an alarm condition.

Technical Data OE365-04-EBSE E-BUS Return Air Temperature and Humidity Sensor Emulator Board Maximum Power Consumption 250 mA Operating Temperature -20ºF to 150ºF Idle Current* <5 mA Humidity Sensor Input 0-5 VDC Terminations 0-10 VDC Transmit Current* ~100 mA Temperature Sensor 10K Ohm Type III Thermistor Input Termination Module Weight without Cable 1.92 oz. Output Terminations (2) EBC E-BUS Connections +5VDC Module Weight with EBC-1.5F 2.64 oz. *NOTE: Currents may vary depending on the attached sensing Cable elements. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE365-04-EBSE-RATRH-1A.doc Page 1 of 1 OE365-05-EBSE E-BUS Outdoor Air Temp/RH Sensor Emulator Board

4.2±0.15 Description The OE365-05-EBSE E-BUS Outdoor Air Temperature and Humidity Sensor Emulator Board rd E-BUS OUTDOOR AIR TEMP/HUMIDITY

SENSOR EMULATION BOARD

allows the use of 3 party analog OE365-05-EBSE outdoor air temperature and 3.0 humidity sensors to emulate the 2.0 WattMaster E-BUS combination Outdoor Air Temperature and Humidity Sensor.

Board converts the analog signals to E-BUS.

The E-BUS Sensor Emulator Board has 3 LEDs – COMM LED to indicate sensor communication to the board, POWER LED to indicate that the board is powered up, and ALARM to indicate an alarm condition.

Technical Data OE365-05-EBSE E-BUS Outdoor Air Temperature and Humidity Sensor Emulator Board Maximum Power Consumption 250 mA Operating Temperature -20ºF to 150ºF Idle Current* <5 mA Humidity Sensor Input 0-5 VDC Terminations 0-10 VDC Transmit Current* ~100 mA Temperature Sensor 10K Ohm Type III Thermistor Input Termination Module Weight without Cable 1.92 oz. Output Terminations (2) EBC E-BUS Connections +5VDC Module Weight with EBC-1.5F 2.64 oz. *NOTE: Currents may vary depending on the attached sensing Cable elements. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE365-05-EBSE-OATRH-1A.doc Page 1 of 1

OE365-06-EBSE

E-BUS Space CO2 Sensor Emulator Board

4.2±0.15 Description

The OE365-06-EBSE E-BUS

Space CO2 Sensor Emulator Board

SENSOR EMULATION BOARD allows the use of a third-party OE365-06-EBSE

E-BUS SPACE CO2 analog CO2 sensor to emulate the 3.0 WattMaster E-BUS Wall-Mounted 2.0 Space CO2 Sensor.

The E-BUS Emulator Board works with VCC-X and VCB-X Controllers. The board provides E-BUS-out communication to these unit controllers or to their attached E-BUS modules using the supplied 1.5 foot EBC E-BUS cable.

The CO2 sensor must be wired into this Emulator Board. The 1.5 Foot Emulator Board converts the EBC E-BUS Cable analog signal to E-BUS.

The Emulator Board has 2 EBC EBUS connectors, allowing it to also act as an adapter board. One port can be used to connect the Emulator Board to the controller. The other port can be used to connect to another sensor or controller.

The E-BUS Sensor Emulator Board has 3 LEDs – COMM LED to indicate sensor communication to the board, POWER LED to indicate that the board is powered up, and ALARM to indicate an alarm condition.

Technical Data OE365-06-EBSE E-BUS Space

CO2 Sensor Emulator Board Maximum Power Consumption 250 mA Operating Temperature -20ºF to 150ºF Idle Current* <5 mA Input Terminations 0-5V or 0-10V Transmit Current* ~100 mA Output Terminations (2) EBC E-BUS Connections +5VDC Module Weight without Cable 1.92 oz. *NOTE: Currents may vary depending on the attached sensing Module Weight with EBC-1.5F 2.64 oz. elements. Cable Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE365-06 EBSE-SpcCO2-1A.doc Page 1 of 1

OE365-07-EBSE

E-BUS Return Air CO2 Sensor Emulator Board

4.2±0.15 Description

The OE365-07-EBSE E-BUS

Return Air CO2 Sensor Emulator

rd SENSOR EMULATION BOARD

OE365-07-EBSE Board allows the use of a 3 party E-BUS RETURN AIR CO2 analog CO2 sensor to emulate the 3.0 WattMaster E-BUS Duct-Mounted 2.0 CO2 Sensor.

The CO2 sensor must be wired into this Emulator Board. The 1.5 Foot Emulator Board converts the EBC E-BUS Cable analog signal to E-BUS.

The E-BUS Sensor Emulator Board has 3 LEDs – COMM LED to indicate sensor communication to the board, POWER LED to indicate that the board is powered up, and ALARM to indicate an alarm condition.

Technical Data OE365-07-EBSE E-BUS Return Air

Form: ORION-OE365-07-EBSE-RACO2-1A.doc Page 1 of 1 OE265-06 – Wall Mounted Humidistat Description The OE265-06 Wall Mounted Humidistat is used with the HVAC unit controller to initiate dehumidification when the relative humidity in the space rises above the 2.88" 1.63” user adjustable setpoint. It is designed to be mounted on the wall in the space where sensing is required.

The Wall Mounted Humidistat is adjustable for relative humidity between 10% to 90% with a differential relative humidity % Relative Humidity 20 40 60 80 of 5%.

3.31” The electrical switch on the Humidstat is 4.38” a snap-acting SPDT type. The switch is rated at 8 Amps resistive load and 60 VA pilot duty load at 24 VAC.

The Humidistat is enclosed in a beige plastic housing with a removable cover. The cover face is of brushed bronze with relative humidity markings indicating Mounting Holes relative humidity setpoints between 10% In Humidistat Base to 90%. A removable dial is provided for the adjustment of the relative humidity setpoint. The Humidistat is also provided with a blank cover plate to facilitate tamper proof installations. The external setpoint cover plate is first removed and then the blank cover plate is installed. An Allen screw and 5/64” Allen wrench is also provided to complete the tamper proof hardware..

Six inch long color coded leads are provided on the back of the Humidistat base for wiring connections. A green grounding lead is provided for grounding requirements.

Mounting The Humidistat can be mounted to a flush or surface switch box using the provided screws. It can also be mounted directly to the wall if your wiring codes allow for mounting of 24 Volt devices without a switch box. Mounting screws for direct wall mounting must be provided by others.

Technical Data OE265-06 Wall Mounted Humidistat Humidity Sensing Nylon Ribbon Electrical Switch Snap acting SPDT Rated at 8 Amps Element Resistive Load. 60 VA Pilot Duty Load

Control Dial Settings 10 to 90% RH Location NEMA 1 Indoor Locations Only Differential 5% RH Housing Beige Plastic with Brushed Bronze Cover Plate. Also includes Tamper Proof Cover Plate and Tamper Resistant Hardware Operating Humidity 5% to 95% RH Non- Connections 6” Long Color Coded Wire Leads with condensing Ground Wire Operating Temp 40°F to 125°F Weight 1 Lb. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE265-06-Humidistat-1C.doc Page 1 of 1 OE265-07 – Duct Mounted Humidistat Description The OE265-07 Duct Mounted Humidistat is used with the HVAC unit controller to initiate dehumidification mode when the 6.50” 2.24" relative humidity in the return air duct rises above the user adjustable setpoint. The Duct Mounted Humidistat is designed to be mounted on the side of the HVAC

unit return air duct. % HUMIDITY 50 60 0 40 70 0 3 8

4.75” 0 2 2.81" 0 9 The Duct Mounted Humidistat is 1 0 adjustable for relative humidity setpoints between 15% to 95%. The Duct Mounted Humidistat has a relative humidity differential of 5%. 1.25"

The electrical switch on the Duct Mounted Humidstat is of the snap-acting SPDT type. The switch is rated at 8 Amps resistive load and 345 VA pilot duty load at 120 VAC.

The Humidistat is enclosed in a metal housing with a removable cover and duct mounting plate. The mounting base plate face is labeled with relative humidity markings indicating relative humidity setpoints between 15% to 95%. A dial knob is provided for the adjustment of the relative humidity setpoint. The dial knob can be locked at the setpoint position by tightening the dial lock screw to facilitate tamper proof installations.

Color coded wiring terminals are provided for wiring connections to the humidistat. A green grounding lead is provided for grounding requirements.

Mounting The Duct Mounted Humidistat is designed to be mounted on the side of the HVAC unit return air duct. 4 screws are provided for mounting the humidistat to the return air duct. A mounting template is also provided to help lo- cate the mounting holes and the duct cut-out on the duct wall.

Technical Data OE265-07 Duct Mounted Humidistat Humidity Sensing Nylon Ribbon Electrical Switch Snap acting SPDT Rated at 8 Amps Element Resistive Load. 345 VA Pilot Duty Load

Control Dial Settings 15 to 95% RH Location NEMA 1 Indoor Locations Only Differential 5% RH Housing Painted Metal Operating Humidity 5% to 95% RH Non- Connections Color Coded Wire Terminals with Ground condensing Terminal Operating Temp 40°F to 125°F Weight 1.5 Lb. Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE265-07-Humidistat-1B.doc Page 1 of 1 AmbientLight SensorEye ThreadedInto WaterProof GasketedCover Enclosure CAUTION! SeeNote3 2.70” 3.00” 2.30”

0.21"Dia.x0.73 Lg.Slot-Typ.

MountingTab &Screws-Typ.

MountingTab &Screw-Typ. SensorWire LeadsInside Cover ClosurePlug ClosurePlug WeatherProof Mounting CAUTION! CAUTION! Enclosure Screw-Typ. SeeNote2 SeeNote2 FrontView SideView BackView

AmbientLightSensor OE259

TheAmbientLightSensorIsAPhotoSensitiveResistorHousedInAWaterProofEnclosure. ItIsUsedInConjunctionWithTheOE310-21-LPLightingControllerToSenseThePresenceOrAbsence OfAmbientLightForTheControlOfLightingCircuitsConnectedToTheController.TheSensor HasAResistanceInExcessOf1MOhmsInDarknessAndRangesDownToLessThan1.5KOhmsIn BrightLight.TheSensorWireConnectionsAreNon-Polarized.SeeTheOE310-21-LPWiringDiagramFor CorrectWiringConnections.SeeNote1ForMountingLocationCautions.

CorrectMountingPosition IncorrectMountingPosition

Notes: 1.)TheAmbientLightSensorShould 3.)GasketMustBeInstalledUnderCover BeInstalledOutdoorsWhereItCan PlateToProvideRaintightSeal. SenseTheAmbientLightLevel.Do RainwaterCanDamageSensor! NotMountInAShadyAreaOrNear AnyObstructionsThatWouldBlock 4.)AllWiringToBeInAccordanceWith TheSensorEye.TheAmbientLight LocalAndNationalElectricalCodes SensorShouldBeMountedOnIts AndSpecifications. SideInAHorizontalPositionSo JOBNAME WaterWillNotPuddleAroundThe SensorEye. FILENAME 2.)UnusedConduitOpening(s)Must HaveClosurePlugsInstalledAndMust G-OE259-AmbLightSnsr1A.CDR BeCoatedwithSealingCompoundTo ProvideRaintightSeal.WaterCan DATE: 06/17/03 DRAWNBY: B.CREWS DamageSensor! PAGE DESCRIPTION: OE259 1 AmbientLightSensor Butt Splice Wire Leads To Extend Wires To Controller Terminals. Connect One Wire Lead To Return Water Temperature Or Supply Water Temperature Terminal At The Controller As Required By Intended Use. Secure Other Wire Lead To Ground Terminal At The Controller. See Note 3.

Secure Sensor Element And Thermal Mastic Strip To Pipe With Supplied Wire Tie. Be Sure To Tighten Wire Tie Snugly To Ensure Good Thermal Contact Between Pipe And Sensing Element. Wire Tie Supply Or Return (Supplied) Water Pipe. See Note1&2.

Important Note: For Accurate Temperature Sensing Element Readings (Supplied) It Is Necessary To Place Insulation Over The Sensor Install Sensing After Installation. This Element With Prevents The Ambient Curved Face Temperature From Affecting Touching Pipe The Sensor. Insulation Should Surface As Shown Cover The Sensor And Extend 6“ to 12” Beyond Each End Of The Sensor.

PlaceThermal Mastic Between Pipe And Sensing Element. Pipe Should Be Clean And Smooth To Provide Proper Thermal Contact With Sensing Element.

Thermal Mastic Strip (Supplied)

Temperature Sensor Resistance/Voltage Chart

Temp Resistance* Voltage Temp Resistance* Voltage Temp Resistance* Voltage Temp Resistance* Voltage ° F Ohms @ Input* ° F Ohms @ Input* ° F Ohms @ Input* ° F Ohms @ Input* -10...... 93333...... 4.620 45...... 21094...... 3.470 69...... 11906 ...... 2.780 84...... 8514...... 2.352 -5...... 80531...... 4.550 50...... 18655...... 3.330 70...... 11652 ...... 2.752 86...... 8153...... 2.297 0...... 69822...... 4.474 52...... 17799...... 3.275 71...... 11379 ...... 2.722 88...... 7805...... 2.242 5...... 60552...... 4.390 54...... 16956...... 3.217 72...... 11136 ...... 2.695 90...... 7472...... 2.187 10...... 52500...... 4.297 56...... 16164...... 3.160 73...... 10878...... 2.665 95...... 6716...... 2.055 15...... 45902...... 4.200 58...... 15385...... 3.100 74...... 10625...... 2.635 100...... 6047...... 1.927 20...... 40147...... 4.095 60...... 14681...... 3.042 75...... 10398...... 2.607 105...... 5453...... 1.805 25...... 35165...... 3.982 62...... 14014...... 2.985 76...... 10158...... 2.570 110 ...... 4923...... 1.687 30...... 30805...... 3.862 64...... 13382...... 2.927 78...... 9711 ...... 2.520 115 ...... 4449...... 1.575 35...... 27140...... 3.737 66...... 12758...... 2.867 80...... 9302...... 2.465 120...... 4030...... 1.469 40...... 23874...... 3.605 68...... 12191...... 2.810 82...... 8893...... 2.407 125...... 3656...... 1.369 *Chart Notes: 1. Use the resistance column to check the thermistor sensor while disconnected from the controllers (not powered).

2. Use the voltage column to check sensors while connected to powered controllers. Read voltage with meter set on DC volts. Place the "-"(minus) lead on GND terminal and the "+"(plus) lead on the sensor input terminal being investigated. If the voltage is above 5.08 VDC, the sensor or wiring is "open." If the voltage is less than 0.05 VDC, the sensor or wiring is shorted. Notes: 1.)Sensor Should Be Mounted At Location Along Pipe Length JOB NAME That Best Represents Desired Temperature Reading. 2.)Sensing Element Shown FILENAME Mounted To Top Of Pipe. The G-OE233-W-TempSnsr1a.CDR Sensor Element May Be Located CONTROLS At Any Location Around Pipe. DATE: 01/03/05 DRAWN BY: B. CREWS 3.)All Wiring To Be In Accordance PAGE DESCRIPTION: With Local And National Electrical OE233 - Strap-On Temperature Codes And Specifications. 1 Sensor Kit Installation Static Pressure Pickup Tube OE290

Connect This End Of Tubing To “Hi” Port Of Pressure Sensor

1/4“ O.D. X 3/16” I.D. x 14” Long - Fire Rated Tubing Slide Over 1/4“ Barb Fitting Tubing Not To Exceed 250 Ft. Length. Do Not Splice Tubing.

1/8“ MPT 1/4“ Barb Fitting Threaded Pipe

4.0"

Thread 3/4" Together

2-3/4“ Mounting Plate

1/4" Hex Head Sheet Metal Screws

Mounting Plate

Gasket

Adhesive Backed Drill Guide Mounting Template Duct Work

Drill 5/16" Hole In Ductwork For Probe

Caution! In Order To Obtain Accurate Static Pressure Readings The Static pressure Pickup Probe Should Be Mounted Per The Following Recommendations: 1.)The Probe Should Be Mounted In a Straight Section Of Ductwork Approx. 2/3 The Length Of the Supply Duct, Downstream Of The HVAC Unit. 2.)The Probe Should Not Be Mounted Less Than 3 Duct Diameters Downstream Or Not Less Than 2 Duct Diameters Upstream Of Any Elbow or Takeoff. See The Systems Installation And Operation Manual For Other Design Considerations And Recommendations Regarding Static Pressure Pickup Tube Location.

Notes: 1.)The Static Probe(OE290) Is Supplied With A 14“ Length Of Tubing For Connection To The Static JOB NAME Pressure Sensor. The Static Pressure Sensor (OE271) Is Designed To Be Mounted Adjacent To The Location Where The Static Pickup Tube Is Mounted And Wired Back To The Controller Board. The Static FILENAME Pressure Sensor Can Also Be Mounted Close To The SPUTUBE1.CDR Controller Board And Tubing (By Others) Routed CONTROLS From The Sensor To The Static Pickup Probe. Be DATE: 05/21/00 DRAWN BY: B. CREWS Sure Not To Kink The Tubing Between The Static Pickup Probe And The Static Pressure Sensor. PAGE DESCRIPTION: OE290 1 Static Pressure Pickup Tube The OE230 Duct Sensor Threads Into Leads Are Non-polarized. The OE291 Stainless Steel Thermowell. Butt Splice Leads To 24 The OE291 Thermowell Threads Into A Gauge Wire Minimum. 1/2” FPT Elbow or Tee in the Water Piping Connect Leads To of the Water Coil at Which You wish to "Analog In" And "Ground" Measure the Water Temperature. The At Controller. Pipe must be a minimum of 4” Diameter or an Extended Tee and Bushing Configuration Must be Used to Accommodate the Length of the Thermowell Assembly. OE230 Temperature Sensor (Ordered Separately)

1/8" -27 NPT External Thread Caution! The Duct Sensor Is Used For Sensing Entering Or Leaving Water Temperatures. Location Of The Sensors Is Very Important In Order To Obtain Accurate Temperature Readings. The Following Recommendations Should Be Followed: Entering Water When Used As A Supply Water Temperature Sensor The Sensor Should Be Mounted In The Supply Water Piping As Close To The Water Coil 1/8" -27 NPSM Internal Thread As Possible For Best Accuracy, Apply Insulation On The Outside Of The Piping Over The Sensor. This Will Help Thermal Gradients From Affecting The Sensor. OE291 Stainless Steel Thermowell Leaving Water When Used As A Leaving Water Temperature 4.94" 1/2" NPT External Thread Sensor The Sensor Should Be Mounted In The Return Piping As Close To The Water Coil Outlet As Possible. For Best Accuracy, Apply Insulation 5.13" On The Outside Of The Piping Over The Sensor. This Will Help Thermal Gradients From Affecting The Sensor. 3.25" See The Systems Installation And Operation Manual For Other Design Considerations And Recommendations Regarding Water Temperature

0.5" OE291 Thermowell Assembly Using OE230 Temperature Sensor

Temperature Sensor Resistance/Voltage Chart

JOB NAME

FILENAME

Notes: G-OE291-T-Well.CDR 1.)All Wiring To Be In Accordance With DATE: 07/09/04 DRAWN BY: B. CREWS Local And National Electrical Codes PAGE DESCRIPTION: And Specifications. 1 OE291 Water Temperature Sensor Thermowell OE271 - Airflow Sensor For

Applications Requiring 0-5” H2 O Pressure Range

Performance Data Top View Accuracy*RSS (at constant temp): ±1.0% @ FS Thermal Effects 2.46" Temperature Compensated Range: +20 to +150°F or (+16 to +65°C ) 2.17" Zero Shift %FS/°F 0.033% (0.066%) °C Span Shift %FS/°F 0.033% (0.066% °C) Burst Pressure 15 PSI Proof Pressure 5 PSI (either direction) 24.0" APPROX. Long Term Stability 1%FS/1 Year

IN (Red)

OUT (Black) *RSS of Non-Linearity, Non-Repeatability, and Hysteresis GND (Green) (Full scale using the Root Sum Squared method)

1.85" DIA. GND OUT Environmental Data IN 1.29" 0.15" DIA.

Temperature 0-5"WC RANGE: 2631005WD4MZZCWM1 0.15" VDC 4.25 - .25 Output: /:20 3635 2801 S/N: x:5VDC 5 Exc: Operating °F(°C) +20 to +150 (-6 to +65) setra Storage °F(°C) -40 to +185 (-40 to +85) 2.66" Vibration 10G Mil Std. 202, 0.60" Method 213B, Cond.C (-)LO Shock 100G Mil Std. 202, 0.200" (3/16" Tubing Conn.) Method 204 Cond. D 0.125" (1/8" Tubing Conn.) Physical Description Case UL94V-O Glass Filled Polyester Electrical Connection 24” Cable Leads with 4 Position RJ 22 Modular Plug 1.95" Pressure Fittings 1/8” and 3/16” Diameter I.D. Tubing 0.55" Weight 3 ounces (-)Lo 1.00" Electrical Data (Voltage) 0.35" (+)Hi Circuit 3-Wire (Com, Out, Exc) Fully protected against mis-wiring. Side View Excitation 4.8 to 8.1 VDC (+5 VDC Nominal) Output -0.5 to 4.5 VDC- Ratiometric output. Note: All dimensions are in inches. Output Impedance 10 Ohms Current Consumption 5 mA Calibrated into a 50K ohm load, operable into a 5000 ohm load or greater. **Zero output factory set to within ±40 mV. Warning! **Span (Full Scale) output factory set to within ±40 mV. The plastic housing on the sensor is electrically conductive. Avoid contact with any electrical components. It is acceptable to mount the sensor on grounded sheet 1.)Caution: The Airflow Sensor should be mounted in a vertical position as metal such as ductwork, electrical panels, etc. shown with tubing connections pointing down. If this mounting position is not possible in your application, it may be mounted in a horizontal position. When mounted in a horizontal position, accuracy will be affected by approximately Warning! 2% full scale null shift due to diaphragm gravity effect error. Use extreme care when mounting the sensor to avoid 2.)All wiring to be in accordance with local and national electrical codes and damage to the plastic housing. Do not overtighten the specifications. mounting screws! Do not use mounting screws which are too large for the holes!

Duct Static Pressure Sensor Applications VAV Pressure Independent Airflow Sensor Applications Mounting Information Mounting Information When the OE271 is used as a Duct Static Pressure Sensor, When the OE271 is used as an Airflow Sensor for VAV applications, it should be the Sensor should be located near the Controller, with the mounted in the VAV Box control enclosure near the Box Controller Board. The modular modular plug on the Sensor directly connected to the mating plug should be connected to the VAV Controller Board connection. Tubing must be run Controller jack. Tubing must be run from the Sensor to the from the Sensor to the Airflow Pickup Probe Tubing connection. Static Pressure Pickup Tube. Tubing should not exceed 250 Ft. and must be continuous without any splices.

DATE: 02/09/18 G-OE271TRAN1-1D.CDR PAGE BY: S.OLSON OE271 1 of 2 Pressure Sensor OE271 Pressure Sensor Testing

OE271 Duct Static Pressure Sensor Pressure Voltage Pressure Voltage @ @ @ @ Sensor Input Sensor Input (“ W.C.) (VDC) (“ W.C.) (VDC) 0.00 0.25 2.60 2.33 0.10 0.33 2.70 2.41 0.20 0.41 2.80 2.49 0.30 0.49 2.90 2.57 0.40 0.57 3.00 2.65 0.50 0.65 3.10 2.73 0.60 0.73 3.20 2.81 0.70 0.81 3.30 2.89 0.80 0.89 3.40 2.97 0.90 0.97 3.50 3.05 1.00 1.05 3.60 3.13 1.10 1.13 3.70 3.21 1.20 1.21 3.80 3.29 1.30 1.29 3.90 3.37 1.40 1.37 4.00 3.45 1.50 1.45 4.10 3.53 1.60 1.53 4.20 3.61 1.70 1.61 4.30 3.69 1.80 1.69 4.40 3.77 1.90 1.77 4.50 3.85 2.00 1.85 4.60 3.93 2.10 1.93 4.70 4.01 2.20 2.01 4.80 4.09 2.30 2.09 4.90 4.17 2.40 2.17 5.00 4.25 2.50 2.25

Table: Duct Static Pressure/Voltage for OE271 Duct Static Pressure Sensors

OE271 Pressure Sensor Testing Instructions Use the voltage column to check the Duct Static Pressure Sensor while connected to powered controllers. Read voltage with meter set on DC volts. Place the “-” (minus) lead on the GND terminal and the “+” (plus) lead on the 0-5 pin terminal with the jumper removed. Be sure to replace the jumper after checking.

DATE: 02/09/18 G-OE271TRAN1-1D.CDR PAGE BY: S.OLSON OE271 2 of 2 Pressure Sensor OE274 - Velocity PressureSensor For P. I. VAV/Zone Control

2.50" 0-1.5“ H2 O Pressure Range - 5 VDC Operation 2.20" Minimum Typical Maximum Full Scale Output (Positive Pressure) 3.92 VDC 3.95-4.05 VDC 4.08 VDC Null Offset 0.17 VDC 0.2-0.3 VDC 0.33 VDC 12.0" APPROX. Span* 3.59 VDC3.65-3.85 VDC 3.91 VDC

IN (Red)

OUT (Black) Non-Linearity ±0.3 % Span ±0.5 % Span GND (Green) Hystereisis And Repeatability ±0.03 % Span ±0.05 % Span GND OUT Temperature Error IN Null +10°° To 40 C ±1.0 % Span ±1.5 % Span Span +10°° To 40 C ±1.0 % Span ±1.5 % Span 1.29" UP 0.15" DIA. Stability (1 Year) ±0.5 % Span ±1 % Span 0.15" Supply Voltage (Vs) 4.75 VDC 5.0 VDC 8.0 VDC OE274 2.94" P.I. Sensor Common Mode Pressure 15 PSI 0.60" Pressure Overload (-)LO Positive Pressure (Hi Side) 5“ H O 2 0.200" (3/16" Tubing Conn.) Negative Pressure (Lo Side) 3“ H2 O Burst Pressure 0.125" (1/8" Tubing Conn.)

Positive Pressure (Hi Side) 10“ H2 O Negative Pressure (Lo Side) 5“ H2 O Top View *Span Is The Algebraic Difference Between End Points (Null Offset And Full Scale Output)

1.95" 0.55"

1.00" 0.35"

Side View

Warning! Warning! The plastic housing on the sensor is electrically Use extreme care when mounting the sensor to avoid conductive. Avoid contact with any electrical components. damage to the plastic housing. Do not overtighten the It is acceptable to mount the sensor on grounded sheet mounting screws! Do not use mounting screws which are metal such as ductwork, electrical panels, etc. too large for the holes!

Notes: 1.)Caution: The Velocity Pressure Sensor Should Be Mounted In A Vertical Position As Shown With Arrow Pointing Up. ( Tubing Connections Pointing Down). If This Mounting Position Is Not Possible In Your Application, It May Be Mounted In A Horizontal Position. When Mounted In A Horizontal Position Accuracy Will Be Affected By Approximately 2% Full Scale Null Shift Due To Diaphragm Gravity Effect Error. 2.)All Wiring To Be In Accordance With Local And National Electrical Codes And Specifications.

JOB NAME

FILENAME PITRAN1.5.CDR CONTROLS DATE: 10/20/01 DRAWN BY: B. THRALL PAGE DESCRIPTION: OE274 1 Pressure Independent Velocity Sensor 2(²%XLOGLQJ3UHVVXUH6HQVRU

Description The OE258 Building Static Pressure Sen- 0.95 0.156 DIA. HOLE TYP. 2 PL. sor is used to sense building pressure in applications where monitoring of the building static pressure is required to in- sure the building maintains the proper air MODEL 265 pressurization.

The OE258 Building Pressure Sensor HIGH case is molded from fire retardant glass 3.16 2.74 filled polyester. The sensor utilizes a ten- setra sioned stainless steel diaphragm and in- LOW sulated stainless steel electrode. This - + + arrangement allows up to 10 PSI over- pressure without damage to the unit. The + sensor provides a 0.0 to 5.0 VDC output in response to a –0.25 to +0.25 inch WC pressure differential. Accuracy is ± 1% of full scale of the sensor. 1.89

For easy wiring the OE258 Building Static Pressure Sensor has (3) 6-32 screw ter- 0.95 minal wiring connectors. The sensor has (2) ¼” barbed fittings provided for the connection of tubing to the high and low pressure ports. 1.64

The OE258 Static Pressure Sensor is designed to be mounted to a flat surface by means of the (2) 0.156 diameter holes provided in the sensor casing. For accurate readings the sensor must be mounted in a vertical position.

Technical Data OE258 - Building Static Pressure Sensor Operating Pressure -0.25” WC to +0.25” WC Power Input 9-30 VDC Range Pressure Differential Signal Output 0 to 5 VDC Operating Temp 0°F to 150°F Hysteresis ± 0.1% of full scale Circuit 3 Wire Non-repeatability ± 0.05% of full scale Accuracy ± 1% of full scale Weight 3 ounces Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE258-6-BuildingPressureSensor-1B.doc Page 1 of 1

OE256-01 Wall Mounted CO2 Sensor

Description

The OE256-01 Wall Mounted CO2 Sensor is used in conjunction with the VCM-X Control- ler (OE332-23-VCM) to monitor and control

CO2 levels in the building environment.

Some typical applications are:  Demand Ventilation Control  Controlling ventilation in a building where the occupancy varies frequently

 Controlling ventilation based on CO2 levels to ensure excess outside air is not causing energy waste  To ensure good air distribution throughout building zones

The OE256-01 is used for monitoring room CO2 levels and is designed for permanent wall mounting in the conditioned space. It connects to the VCM-X Controller by using a modular prefabricated cable with RJ-45 connectors. It can be daisy chained with the Ori- on Modular Room Temperature Sensor or Digital Room Temperature Sensor for applications requiring both a room CO2 sensor and room temperature sensor.

The OE256-01 CO2 Sensor uses non- dispersive infrared (NDIR) technology. The

CO2 Sensor’s accuracy is  50 ppm @1000 ppm or 2% of the measured value and has a measurement range of 0-2000 ppm. Mounting

The OE256-01 CO2 Sensor utilizes a sub- base mounting plate with either terminal blocks or modular phone jack providing for quick and easy mounting and wiring. The wall-mounted sensor’s sub-base is compatible with standard junction boxes. A locking screw secures the assembly to the wall.

Technical Data OE256-01 – CO2 Sensor Input Power 12-34 VDC Power Consumption 30 mW Maximum Average 1.25 W Peak Power Operating Temperature 14 to 122 F Operating Humidity 5-95% RH Non-Condensing Sample Method Diffusion Or Flow—through Measurement Range 0 to 2000 ppm 50-100 ml/min Sensitivity <20 ppm Resolution 1 ppm Analog Output 0-5 VDC Communications I2C

One Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE256-01-CO2Sensor-1C.doc Page 1 of 1

OE256-02 Duct Mounted CO2 Sensor

Description

The OE256-02 Duct Mounted CO2 Sensor is used in conjunction with the VCM-X Con- troller (OE332-23-VCMX) to monitor and control CO2 levels in the building environment. It can be configured via its address switch to be either a Supply Air CO2 Sen- sor or Return Air CO2 Sensor as required.

Some typical applications are: • Demand Control Ventilation • Controlling ventilation in a building where the occupancy varies frequently

• Controlling ventilation based on CO2 levels to ensure excess outdoor air is not causing energy waste • To ensure good air distribution throughout building zones

The OE256-02 is used for monitoring duct CO2 levels and is designed for permanent duct mounting in the Supply or Return Air duct. It utilizes an aspiration box to accurately capture CO2 levels in the Supply or Return Air duct. It connects to the VCM-X by using a modular prefabricated cable with RJ-45 connectors. It can be daisy chained with the Orion Modular Room Temperature Sensor or Digital Room Temperature Sen- sor for applications requiring both a room CO2 sensor and room temperature sensor.

The OE256-02 CO2 Sensor uses non- dispersive infrared (NDIR) technology and has a measurement range of 0-2000 ppm.

Mounting

The OE256-02 CO2 Sensor is housed in an aspiration box. The sensor has an integral mounting sub-base mounting plate with modular phone jacks for connecting it to the VCM-X and another Digital or Modular Room Temperature Sensor. A conduit clamp is provided to help seal the opening where the sensor cabling penetrates the aspiration box housing. The sensor and 1 aspiration box assembly is mounted to the ductwork by first cutting a 1 /4” diameter hole in the duct wall for insertion of the aspiration tube. The aspiration tube is then inserted into the hole. The aspiration box sensor assembly is then secured to the ductwork by inserting (4) supplied sheet metal screws through (4) mounting holes in the aspiration box base and securing the assembly by screwing it to the ductwork using a manual or powered screw driver to tighten the screws.

Technical Data OE256-02 Duct Mounted CO2 Sensor Input Power 12-34 VDC Power Consumption 30 mW Maximum Average 1.25 W Peak Power Operating Temperature 14° to 122° F Operating Humidity 5-95% RH Non-Condensing Sample Method Flow-Through Measurement Range 0 to 2000 ppm 50-100 ml/min Sensitivity <±20 ppm Resolution ±1 ppm Accuracy ±50 ppm @ 1000 ppm or 2% Communications I2C measured value One Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE256-02-DuctMtdCO2Sensor-1A.doc Page 1 of 1

OE256-05 Wall Mounted E-BUS CO2 Sensor

2.80 0.96 Description

The Wall Mounted E-BUS CO2 Sensor (Orion Part No. OE256-05; AAON Part No. V09310) is used in conjunction with the VCB-X Controller (Orion Part No. OE335-23-VCB-X; AAON Part No. V04740) to monitor and control CO2 levels in the building environment.

Some typical applications are: 4.54  Demand Ventilation Control  Controlling ventilation in a building where the occupancy varies frequently

 Controlling ventilation based on CO2 levels to ensure excess outside air is not causing energy waste

 To ensure good air distribution throughout build- 0.80 ing zones

The OE256-05 is used for monitoring room CO2 levels and is designed for permanent wall mounting in the conditioned space. It connects to the VCB-X using an E-BUS cable. It can be daisy chained with the 217-02 E-BUS Digital Room Temperature Sensor for applications requiring both a room CO2 sensor and room temperature sensor.

The OE256-05 CO2 Sensor uses non-dispersive infrared (NDIR) technology. The CO2 Sensor’s accuracy is  50 ppm @1000 ppm or 2% of the measured value and has a measurement range of 0-2000 ppm. Mounting

The OE256-05 CO2 Sensor utilizes a sub-base mounting plate with either terminal blocks or E-BUS connection, providing for quick and easy mounting and wiring. The wall-mounted sensor’s sub-base is compatible with standard junction boxes. A locking screw secures the assembly to the wall.

Technical Data OE256-05 – CO2 Sensor Input Power 12-34 VDC Power Consumption 30 mW Maximum Average 1.25 W Peak Power Operating Temperature 14 to 122 F Operating Humidity 5-95% RH Non-Condensing Sample Method Diffusion Or Flow—through Measurement Range 0 to 2000 ppm 50-100 ml/min Sensitivity <20 ppm Resolution 1 ppm Analog Output 0-5 VDC Communications E-BUS

One Year Warranty WattMaster reserves the right to change specifications without notice

Form: AAON-OE256-05—EBUS-CO2Sensor-1A.doc Page 1 of 1

OE256-07 E-BUS Duct Mounted CO2 Sensor

with Remote Pickup Description 4.12" The E-BUS Duct Mounted E-BUS CO2 Sensor 3.31" with Remote Pickup (Orion Part No. OE256-07; 2.81” 2.55” AAON Part No. V09320) is used in conjunction BRASS BARB with the VCB-X Controller (Orion Part No. OE335- HINGED FITTINGS FOR 23-VCB-X; AAON Part No. V04740) to monitor COVER 0.170 I.D. TUBING and control Return Air CO2 levels in the building environment.

Some typical applications are: 5.00" 4.06"  Demand Control Ventilation  Controlling ventilation in a building where the occupancy varies frequently

 Controlling ventilation based on CO2 SENSOR levels to ensure excess outdoor air is not HOUSING causing energy waste  To ensure good air distribution throughout 13.00" E-BUS CONNECTOR building zones APPROX. FEMALE END

The OE256-07 is used for monitoring duct CO2 3 1 432 levels and is designed for permanent mounting in 3M the Return Air duct. It utilizes an aspiration box to accurately capture CO2 levels in the duct. It con- CO2 SENSOR, HOUSING AND CABLE ASSEMBLY BRASS BARB nects to the VCB-X by using an E-BUS cable with FITTINGS FOR E-BUS connectors. 0.170 I.D. TUBING

The OE256-07 CO2 Sensor uses non-dispersive infrared (NDIR) technology and has a measurement range of 0-2000 ppm.

0.55” Mounting 8.25" CO2 PICKUP TUBE (PROVIDED WITH SENSOR) The OE256-07 CO2 Sensor is housed in an aspiration box. A conduit clamp is provided to help seal

"WATTMASTER EBUS" "WATTMASTER EBUS" 3M

EBC-10F EBC-10F 3M 432 1

the opening where the sensor cabling penetrates 432 1 the aspiration box housing. The sensor has a Jack E-BUS connector for connecting it to the provided 120.00” APPROX. EBC E-BUS cable. The EBC E-BUS Cable con- E-BUS CONNECTOR EXTENSION CABLE WITH MALE ENDS (PROVIDED WITH SENSOR) nects to the VCB-X Controller or E-BUS Hub or Adapter Board and then to the VCB-X Controller. The sensor and aspiration box assembly is mounted and secured to the ductwork with the (2) supplied sheet metal screws. The remote pickup 120.00” APPROX. tube assembly is mounted separately to the duct- 0.170 I.D. FIRE RATED TUBING (PROVIDED WITH SENSOR) 1 work by first cutting a 1 /4” diameter hole in the ductwork wall. The remote pickup tube is then inserted into the hole. The remote pickup tube is then secured to the ductwork by inserting (2) supplied sheet metal screws through the (2) mounting holes in the remote pickup tube mounting plate and securing the remote pickup tube assembly by screwing it to the ductwork using a manual or powered screw driver to tighten the screws. Using the supplied 10 ft. long tubing, connect the remote pickup tube to the aspiration box assembly, cutting the tubing to fit.

Technical Data OE256-07 E-BUS Duct Mounted CO2 Sensor with Remote Pickup Input Power 12-34 VDC Power Consumption 30 mW Maximum Average 1.25 W Peak Power Operating Temperature 14 to 122F Operating Humidity 5-95% RH Non-Condensing Sample Method Flow-Through Measurement Range 0 to 2000 ppm 50-100 ml/min Sensitivity <20 ppm Resolution 1 ppm Accuracy 50 ppm @ 1000 ppm or Communications E-BUS 2% measured value One Year Warranty WattMaster reserves the right to change specifications without notice

Form: AAON-OE256-07-EBUS-DUCT-CO2-1B.doc Page 1 of 1 OE275-01 – Suction Pressure Transducer (For Units With Digital Compressor)

Not Used Description + Excitation Common (Red) The OE275-01 Suction Pressure Trans- (Black) ducer is used to monitor the suction line pressure of a DX coil when the HVAC unit is equipped with a digital compressor. The 1.28 Suction Pressure transducer is used in applications requiring tight control of the suction pressure in order to maintain coil - Output (White) efficiency during varying coil load condi- Top View tions. The Suction Pressure Transducer monitors the suction pressure at the coil and this information is used to load/unload or stage compressors to maintain the suction pressure at the DX coil within a pre- determined optimum operating range. 2.18

The OE275-01 Suction Pressure Trans- ducer metal wetted parts are made from 0.50 stainless steel and Haynes 214 alloy. The Suction Pressure Transducer is weather 0.63 1/4” SAE Female Schrader Fitting resistant. Connection to the pressure 1.06 source is accomplished by screwing the 1/4” SAE female Schrader fitting on the Suction Pressure Transducer onto a 1/4” Front View Schrader male valve fitting (by others) that is welded into the suction line. The Suction Line Transducer provides a 0.5 to 4.5 VDC Transducer Cable output in response to a 0 to 250 PSIG Assembly - 6 Ft. Length pressure. Transducer accuracy is ± 0.25% of the full scale of the transducer.

For easy wiring the OE275-01 Suction Pressure Transducer has a 3 pin Packard Suction Pressure connector that connects to a 6 foot long Transducer prefabricated cable. The cable is supplied with a 3 pin Packard Metripak 150 mating connector for attachment to the sensor on one end and has 3 color coded stripped wires on the other end for attachment to the digital compressor’s control board. The stripped wire ends can be spliced to other wires to extend the wiring length when required.

Technical Data OE275-01- Suction Pressure Transducer Operating Pressure Range -0 to 250 PSI Gauge Power Input 5 VDC Operating Temp -40°F to 185°F Signal Output 0.5 to 4.5 VDC Wetted Parts Construction Stainless Steel Electrical Cable Connection 3 Pin Packard Connector Sensor Construction Haynes 214 Alloy Electrical Cable Length 6 Feet Pressure Fitting Construction Stainless Steel Accuracy ± 0.25% of Full Scale Pressure Fitting Size 1/4” SAE Female Hysteresis ± 0.1% of Full Scale Schrader Fitting Non-repeatability ± 0.05% of Full Scale Weight 2.3 Ounces Response Time ± 0.05% of Full Scale Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE275-01-SuctionPressureTransducer-1E.doc Page 1 of 1 OE275-03-A Suction Pressure Sensor Kit With E-BUS Adapter Board

Not Used + Excitation Description Common (Red) (Black) The OE275-03-A Suction Pressure Sensor Kit with E-BUS Adapter is comprised of the OE275- 01 Suction Pressure Transducer, an E-BUS 1.28 Adapter Board, and a 3 foot EBC E-BUS cable. It is required for any VCB-X application with DX Cooling that requires Dehumidification. The Suction Pressure Transducer is used to meas- - Output ure suction pressure at the HVAC unit’s DX Top View (White) evaporator coil suction line. This suction line pressure is converted to saturated refrigerant temperature by the VCB-X Controller. This temperature is used by the VCB-X Controller to accurately control the compressors to provide optimum performance from the system during Dehumidification operation. 2.18

The Suction Pressure Transducer connects to the E-BUS Adapter Board’s V, SIG, and GND terminals through a cable. The cable is supplied 0.50 with a 3-pin Packard mating connector for attachment to the sensor on one end and has 3 color-coded stripped wires on the other end. 0.63 1/4” SAE Female Schrader Fitting The stripped wire ends can be spliced to other 1.06 wires to extend the wiring length when required. The EBC E-BUS Cable connects to the E-BUS Adapter Board. This cable must then connect to the VCB-X Controller directly or to a VCB-X Expansion Board connected to the VCB-X Con- troller.

The OE275-03-A Suction Pressure Transduc- er’s metal wetted parts are made from stainless steel and Haynes 214 alloy. The Suction Pres- sure Transducer is weather resistant. Connec- E-BUS Adapter Board tion to the pressure source is accomplished by screwing the 1/4” SAE female Schrader fitting on the Suction Pressure Transducer onto a 1/4” Schrader male valve fitting (by others) that is welded into the suction line. The Suction Line Transducer provides a 0.5 to 4.5 VDC output in response to a 0 to 250 PSIG pressure. Trans- ducer accuracy is  0.25% of the full scale of the transducer.

EBC E-BUS Cable

Technical Data OE275-03-A Suction Pressure Sensor Kit with E-BUS Adapter Operating Pressure Range -0 to 250 PSI Gauge Power Input 5 VDC Operating Temp -40F to 185F Signal Output 0.5 to 4.5 VDC Wetted Parts Construction Stainless Steel Electrical Cable Connection 3 Pin Packard Connector Sensor Construction Haynes 214 Alloy Electrical Cable Length 3 Feet Pressure Fitting Construction Stainless Steel Accuracy  0.25% of Full Scale Pressure Fitting Size 1/4” SAE Female Hysteresis  0.1% of Full Scale Schrader Fitting Non-repeatability  0.05% of Full Scale Weight 2.3 Ounces Response Time  0.05% of Full Scale Three Year Warranty WattMaster reserves the right to change specifications without notice

Form: ORION-OE275-03-A-SuctionPressureSensorKit-wE-BUS-Adapter-1B.doc Page 1 of 1