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ERV DC Series

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ERV DC Series

24-Hour, Efficient Ventilation for Large Spaces

24-hour continuous ventilation enables the constant circulation of fresh air. Energy Recovery Ventilator is efficient and energy-saving. Suitable for large spaces.
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Specs

FV-80ZY1

Photo of FV-80ZY1

FV-1HZY1

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FV-1KZY1

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FV-2KZY1

Photo of FV-2KZY1

All maintenance can be performed through a single inspection hole

Straight air supply/exhaust system used for easier installation

FV-80ZY1 FV-1HZY1 FV-1KZY1 FV-2KZY1
Air Volume (CMH) High 800 1500 1000 2000
Low 480 900 600 1200
Static Pressure (Pa) High 150 130 150 130
Low 54 48 54 48
Temperature exchange efficiency (%) High Cooling 63 63 65 65
Heating 83 83 82 82
Low Cooling 73 73 73 73
Heating 85 85 85 85
Enthalpy exchange efficiency (%) High Cooling 63.5 63.5 63 63
Heating 73 73 74 74
Low Cooling 68 68 69 69
Heating 75 75 76 76
Power Consumption (W) High 470 940 550 1100
Low 212 430 235 490
Noise Level (dB[A]) High 45 49 46 51
Low 35 41.5 36 43.5
Applicable Duct Diameter (mm) φ250 φ250 φ250 φ250
Weight (kg) 60 116 64 139
Note Note1: The value in Specification table are representative characteristics value at 220V, 50Hz.
Note2: The input power and exchange efficiency are the values measured under the standard air volume.
Note3: The above specification are the values measured under the factory set.
Note4: The power indicated on the name plate is the maximum value under the static pressure of 0Pa.
Note5: The noise is measured 1.5m directly below the center of the energy recovery ventilator. The noise value of the product is measured in a full anechoic chamber. Under actual conditions, due the impact of ambient sound, the noise value will be greater than the target value. The noise rises by about 1 dB(A) under reverse installation.
Note6: The air volume in normal ventilation mode is basically the same as the air volume in energy recovery mode.
Note7: The energy recovery efficiency test should be performed according to the method specified in Appendix 4 of JIS B 8628 (2003). The test environmental conditions should be subject to the winter and summer conditions specified in Table1 and Table2 of JIS B 8628 (2017). Other test methods should be subject to JIS B 8628 (2003).
Note1: The value in Specification table are representative characteristics value at 220V, 50Hz.
Note2: The input power and exchange efficiency are the values measured under the standard air volume.
Note3: The above specification are the values measured under the factory set.
Note4: The power indicated on the name plate is the maximum value under the static pressure of 0Pa.
Note5: The noise is measured 1.5m directly below the center of the energy recovery ventilator. The noise value of the product is measured in a full anechoic chamber. Under actual conditions, due the impact of ambient sound, the noise value will be greater than the target value. The noise rises by about 1 dB(A) under reverse installation.
Note6: The air volume in normal ventilation mode is basically the same as the air volume in energy recovery mode.
Note7: The energy recovery efficiency test should be performed according to the method specified in Appendix 4 of JIS B 8628 (2003). The test environmental conditions should be subject to the winter and summer conditions specified in Table1 and Table2 of JIS B 8628 (2017). Other test methods should be subject to JIS B 8628 (2003).
Note1: The value in Specification table are representative characteristics value at 220V, 50Hz.
Note2: The input power and exchange efficiency are the values measured under the standard air volume.
Note3: The above specification are the values measured under the factory set.
Note4: The power indicated on the name plate is the maximum value under the static pressure of 0Pa.
Note5: The noise is measured 1.5m directly below the center of the energy recovery ventilator. The noise value of the product is measured in a full anechoic chamber. Under actual conditions, due the impact of ambient sound, the noise value will be greater than the target value. The noise rises by about 1 dB(A) under reverse installation.
Note6: The air volume in normal ventilation mode is basically the same as the air volume in energy recovery mode.
Note7: The energy recovery efficiency test should be performed according to the method specified in Appendix 4 of JIS B 8628 (2003). The test environmental conditions should be subject to the winter and summer conditions specified in Table1 and Table2 of JIS B 8628 (2017). Other test methods should be subject to JIS B 8628 (2003).
Note1: The value in Specification table are representative characteristics value at 220V, 50Hz.
Note2: The input power and exchange efficiency are the values measured under the standard air volume.
Note3: The above specification are the values measured under the factory set.
Note4: The power indicated on the name plate is the maximum value under the static pressure of 0Pa.
Note5: The noise is measured 1.5m directly below the center of the energy recovery ventilator. The noise value of the product is measured in a full anechoic chamber. Under actual conditions, due the impact of ambient sound, the noise value will be greater than the target value. The noise rises by about 1 dB(A) under reverse installation.
Note6: The air volume in normal ventilation mode is basically the same as the air volume in energy recovery mode.
Note7: The energy recovery efficiency test should be performed according to the method specified in Appendix 4 of JIS B 8628 (2003). The test environmental conditions should be subject to the winter and summer conditions specified in Table1 and Table2 of JIS B 8628 (2017). Other test methods should be subject to JIS B 8628 (2003).

Documents

Case Studies

Features

Energy-Efficient Ventilation Method Minimises the Energy Lost in Air Conditioning

By using ERV, ventilates while reusing (heat recovery) the coolness in the room that is wasted during ventilation. Approximately 75% of the heat energy can be recovered, reducing the air conditioning load and saving energy.
*Depending on model and conditions
By using ERV, ventilates while reusing (heat recovery) the coolness in the room that is wasted during ventilation. Approximately 75% of the heat energy can be recovered, reducing the air conditioning load and saving energy.
By exchanging heat between indoor air and outdoor air, deprive of heat.
By exchanging heat between indoor air and outdoor air, deprive of heat.

Energy Efficient

The fan adopted with DC (Direct Current) motor to reduce power consumption for energy saving. Temperature rise of DC motor is lower than AC (Alternating Current) motor that the retime of DC motor is comparatively longer.
Energy Efficient

Energy Saving by Reduce Air Conditioner Lord

Highly efficient energy recovery reduces energy loss during ventilation, saving energy.
(Example: FY-E15DZ1)
Energy Saving by Reduce Air Conditioner Lord

Filters Remove Dust and Pollen, Bringing Only Clean Air into the Room

People spend 90% of their lives indoors and take in approximately 18 kg of air per day. In this context, what is required is IAQ for healthier and more comfortable living.
People spend 90% of their lives indoors and take in approximately 18 kg of air per day. In this context, what is required is IAQ for healthier and more comfortable living.
Ventilation with open windows allows pollen and dust to enter the room together with the outside air. With ERV ventilation, pollen and dust in the outdoor air can be filtered out while the air is being supplied.
Ventilation with open windows allows pollen and dust to enter the room together with the outside air. With ERV ventilation, pollen and dust in the outdoor air can be filtered out while the air is being supplied.

Unified Control with Commercial Air Conditioners

ERV can connect with commercial air conditioner and operates together, prevents forgetting to turn off the power.
*Method of connection depends on the models.
Unified Control with Commercial Air Conditioners

Highly Secure Fuse

A thermal safety fuse ensures that no accidents occur, even when there is a spike in current.
Highly Secure Fuse

Adjustable Airflow as Required

The air speed can be adjusted to HIGH or LOW according to the conditions of use.
*1-4 among High and 1-4 among Low can be selected at the time of construction according to the building’s ventilation requirements.
Adjustable Airflow as Required

Introduction to ERV Case Studies

Panasonic supplies and installs a wide range of products in various types of residential and commercial buildings such as shops, restaurants, hotels, offices, clinics, and public buildings, helping create cleaner and more comfortable environments all over the world.
Introduction to ERV Case Studies