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®
CLEAN • FRESH • AIR
OPERATION AND
INSTALLATION MANUAL
Contains
ControlAir 15
IMPORTANT - PLEASE READ THIS
For Models:
MANUAL BEFORE INSTALLING UNIT
95MAX
155MAX
CAUTION
Before installation, careful consideration must be given to
200MAX
how this system will operate if connected to any other piece
of mechanical equipment, i.e. a forced air furnace or air
handler, operating at a higher static. After installation, the
MAXTOP
compatibility of the two pieces of equipment must be
confirmed by measu
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INTRODUCTION Table of Contents HRV - Aluminum Core Introduction................................................................... 2 A Heat Recovery Ventilator (HRV) is designed to Warranty ....................................................................... 2 provide fresh air into a building while exhausting an ERV Questions & Answers .......................................... 3 equal amount of stale air. During the winter months, the incoming cold fresh air is warmed by Climate Map .....
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ERV Questions & Answers What is the difference between an HRV and damp situation. In fact, about 2/3 of the energy and an ERV? used by the air conditioner system is to remove The core in an HRV (Heat Recovery Ventilator) moisture. Therefore, when ventilating in the summer, transfers heat from one air stream to the other. This is less moisture brought into the home means less work called sensible heat. The term ERV (Energy Recovery for the air conditioner, and energy savings for you. Ventilator)
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Model 95MAX PERFORMANCE HVI CERTIFIED ENGINEERING DATA Net supply airflow in cfm (L/s) against external static pressure THERMALLY CONDUCTIVE, PATENTED ALUMINUM CORE E.S.P cfm L/s The cross-flow heat recovery core transfers heat between the two @ 0.1” (25 Pa) 89 (42) airstreams. It is easily removed for cleaning or service. @ 0.2” (50 Pa) 78 (37) MOTORS AND BLOWERS - Each air stream has one centrifugal @ 0.3” (75 Pa) 64 (30) blower driven by a common PSC motor. 5 speed fan operation. 120 VAC, .8
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Model 155MAX PERFORMANCE ENGINEERING DATA HVI CERTIFIED Net supply airflow in cfm (L/s) against external static pressure THERMALLY CONDUCTIVE, PATENTED ALUMINUM CORE E.S.P cfm L/s The cross-flow heat recovery core transfers heat between the two @ 0.1” (25 Pa) 169 (80) airstreams. It is easily removed for cleaning or service. @ 0.2” (50 Pa) 161 (76) MOTORS AND BLOWERS - Each air stream has one centrifugal blower driven by a common PSC motor. 5 speed fan operation. @ 0.3” (75 Pa) 150 (71) 120 VA
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Model 200MAX ENGINEERING DATA PERFORMANCE HVI CERTIFIED THERMALLY CONDUCTIVE, PATENTED ALUMINUM CORE Net supply airflow in cfm (L/s) against external static pressure The cross-flow heat recovery core transfers heat between the two E.S.P cfm L/s airstreams. It is easily removed for cleaning or service. @ 0.1” (25 Pa) 232 (109) MOTORS AND BLOWERS - Each air stream has one centrifugal @ 0.2” (50 Pa) 223 (105) blower driven by a common PSC motor. 5 speed fan operation. @ 0.3” (75 Pa) 215 (102) 120
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Model MAXTOP ENGINEERING DATA PERFORMANCE HVI CERTIFIED THERMALLY CONDUCTIVE, PATENTED ALUMINUM CORE Net supply airflow in cfm (L/s) against external static pressure E.S.P cfm L/s The cross-flow heat recovery core transfers heat between the two @ 0.1” (25 Pa) 196 (93) airstreams. It is easily removed for cleaning or service. @ 0.2” (50 Pa) 188 (89) MOTORS AND BLOWERS - Each air stream has one centrifugal blower driven by a common PSC motor. 5 speed fan operation. @ 0.3” (75 Pa) 178 (84) 120 V
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Model 195DCS ENGINEERING DATA PERFORMANCE HVI CERTIFIED THERMALLY CONDUCTIVE, PATENTED ALUMINUM CORE Net supply airflow in cfm (L/s) against external static pressure The cross-flow heat recovery core transfers heat between the two E.S.P cfm L/s airstreams. The two cores are arranged for highly efficient counter @ 0.1” (25 Pa) 203 (96) current airflow. @ 0.2” (50 Pa) 191 (90) MOTORS AND BLOWERS - Each air stream has one centrifugal @ 0.3” (75 Pa) 182 (86) blower driven by a common PSC motor. 5
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Model 300DCS ENGINEERING DATA PERFORMANCE THERMALLY CONDUCTIVE, PATENTED ALUMINUM CORE HVI CERTIFIED The cross-flow heat recovery core transfers heat between the two Net supply airflow in cfm (L/s) against external static pressure E.S.P cfm L/s airstreams The two cores are arranged for highly efficient counter @ 0.1” (25 Pa) 265 (125) current airflow. @ 0.2” (50 Pa) 260 (123) MOTORS AND BLOWERS - Each air stream has one centrifugal blower driven by a common PSC motor. 5 speed fan operation.
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® Model 200ERV CLEAN • FRESH • AIR PERFORMANCE ENGINEERING DATA Net supply airflow in cfm (L/s) against external static pressure LATENT RECOVERY/MOISTURE TRANSFER CORE E.S.P cfm L/s The cross-flow energy recovery core transfers heat and water @ 0.1” (25 Pa) 214 (101) vapour between the two airstreams. It is easily removed for cleaning or service. @ 0.2” (50 Pa) 206 (97) MOTORS AND BLOWERS - Each air stream has one centrifugal @ 0.3” (75 Pa) 193 (91) blower driven by a common PSC motor. 5 speed
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® Model 200ERVD CLEAN • FRESH • AIR ENGINEERING DATA PERFORMANCE LATENT RECOVERY/MOISTURE TRANSFER CORE Net supply airflow in cfm (L/s) against external static pressure The cross-flow energy recovery core transfers heat and water vapour E.S.P cfm L/s between the two airstreams. It is easily removed for cleaning or service. @ 0.1” (25 Pa) 214 (101) MOTORS AND BLOWERS - Each air stream has one centrifugal @ 0.2” (50 Pa) 206 (97) blower driven by a common PSC motor. 5 speed fan operation. High s
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FUNCTION & CONTROL Operating the ControlAir 15 Self Test Plugging in the HRV/ERV energizes the unit. A self test Each time the HRV/ERV is powered/energized the self test function will automatically initiate. During the self function will be performed every time the HRV/ERV is energized (refer to “Self Test” for more details). After test the HRV/ERV will cycle through all the speeds available (1-5), test the damper motor operation and will the self test has completed successfully the HRV/ERV
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To select mode of operation for ControlAir 15 Press and hold the fan selection button on the Control Pad. After 5 seconds the control will begin to cycle each mode holding each for 2 seconds. Release the button when the desired mode of operation is reached. Modes of Operation LED Indication OFF No LED’s illuminated HRV/ERV is off, no controls will initiate operation. Standby / On Steady Green LED and Yellow LED to indicate speed HRV/ERV will run at speed selected in ventilation mode. Standby
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ControlAir 15 OPTIONAL REMOTE CONTROLS PROGRAMMABLE VENTILATION CONTROLLER (PVC) NEW! AIR SENTRY™ AIR QUALITY SENSOR LOCATION: Hallway, kitchen, office LOCATION: Kitchen, basement, & work place (connect 1/unit only) work place (connect 1/unit only). • Advanced digital remote. • Digital Air Quality Monitor.
• Digital dehumidistat. • Status light indicates fan speed. • Full fan speed control. • Increases ventilation to remove • AIR SENTRY™ Air Quality Sensor built-in. odours and contamina
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USING THE DEHUMIDISTAT Some models have a built-in dehumidistat (an exceeds the set point on the control. Once the optional remote wall mount dehumidistat can be humidity in the house is reduced, the HRV/ERV installed, see Optional Remote Controls), to will revert back to its previous setting.The control harmful, excess humidity during the dehumidistat should be set to off for all seasons heating season. The dehumidistat operates in except the heating season. % of RH (relative humidity) with
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¤ HEAT RECOVERY VENTILATORS (HRVs) ¤ HEAT RECOVERY VENTILATORS (HRVs) DIMENSIONS 95MAX inches (mm) 18.5" Hanging (470 mm) straps (4) knockout for Threaded side mounting of inserts (4) EXHAUST return port at corners 6" round collar converted to oval 18.5" (470 mm) EXHAUST Stale Air SUPPLY to outside Fresh air 5" round collar Removably from outside Heat Recovery 5" round collar Core EXHAUST Return air from building SUPPLY Fresh air minimum Choice of port location to building 18 inches (459 mm
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INSTALLATION Location The HRV/ERV must be located in a heated space where it will Connecting Appliances to the HRV/ERV be possible to conveniently service the unit. Typically the It is not recommended that any of the following appliances be HRV/ERV would be located in the mechanical room or an connected to the HRV/ERV: area close to the outside wall where the weatherhoods will be • clothes dryer mounted. If a basement area is not convenient or does not • range top exist, a utility or laundry roo
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INSTALLING AIR DUCTS A well designed and installed ducting system will allow the To minimize air flow restriction, the flexible insulated duct that connects the two outside weatherhoods to the HRV/ERV HRV/ERV to operate at its maximum efficiency. should be stretched tightly and be as short as possible. Always try to keep duct runs as short and straight as possible. See Installation Diagrams for various installation options. Twisting or folding the duct will severely restrict air flow. See below
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SUPPLY AIR DUCTING Dampers and Grilles In homes without a forced air furnace, fresh air should be The use of balancing dampers and/or adjustable grilles to supplied to all bedrooms and living areas, excluding balance the flow rates into various rooms is recommended. bathrooms, kitchen and utility areas. It should be supplied We suggest TECHGRILLE™ air diffusers. from high wall or ceiling locations. Grilles that diffuse the air comfortably such as the Techgrille™ are recommended. • The TECHGRIL