FRENIC-Ace (E3)

Standard Specifications | Three-phase 200V

Fuji's 4-pole standard motor When selecting an inverter, in addition to considering the kWs of the inverter, make sure that the output current rating is larger than the motor current rating.

The rated capacity is for 200V series: 220V rating.

Output voltage cannot exceed the power supply voltage.

If the carrier frequency (function code F26) is set to a value higher than the value shown below, it must be reduced.
HHD capacity 0.1～3.7kW：8kHz capacity 5.5～22kW ：10kHz
HND capacity 0.1～3.7kW：4kHz capacity 5.5～18.5kW：10kHz capacity 22kW：6kHz

These values are calculated on assumption that the inverter is connected to a power supply with a capacity of 500 kVA (or 10 times the inverter capacity when the
inverter capacity exceeds 50 kVA) and %X is 5%.

Required when a DC reactor (DCR) is used.

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Voltage unbalance(%) =Max. voltage (V) - Min. voltage (V) / Three-phase average voltage (V) ×67 (IEC 61800-3)
If this value is 2 to 3%, use an optional AC reactor (ACR).

For capacities of 2.2 and 3.7kW, set F80=4. Additionally, if the ambient temperature is 40°C or higher, the rated current must be reduced by 1%/°C.

Fuji's 4-pole standard motor When selecting an inverter, in addition to considering the kWs of the inverter, make sure that the output current rating is larger than the motor current rating.

The rated capacity is for 200V series: 220V rating.

Output voltage cannot exceed the power supply voltage.

If the carrier frequency (function code F26) is set to a value higher than the value shown below, it must be reduced.
HHD capacity 0.1～3.7kW：8kHz capacity 5.5～22kW ：10kHz
HND capacity 0.1～3.7kW：4kHz capacity 5.5～18.5kW：10kHz capacity 22kW：6kHz

These values are calculated on assumption that the inverter is connected to a power supply with a capacity of 500 kVA (or 10 times the inverter capacity when the inverter capacity exceeds 50 kVA) and %X is 5%.

Required when a DC reactor (DCR) is used.

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Voltage unbalance(%) =Max. voltage (V) - Min. voltage (V) / Three-phase average voltage (V) ×67 (IEC 61800-3)
If this value is 2 to 3%, use an optional AC reactor (ACR).

For capacities of 2.2 and 3.7kW, set F80=4. Additionally, if the ambient temperature is 40°C or higher, the rated current must be reduced by 1%/°C.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

It is not possible to output a voltage higher than the power supply voltage.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

It is not possible to output a voltage higher than the power supply voltage.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

It is not possible to output a voltage higher than the power supply voltage.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

It is not possible to output a voltage higher than the power supply voltage.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

It is not possible to output a voltage higher than the power supply voltage.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

It is not possible to output a voltage higher than the power supply voltage.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Fuji's 4-pole standard motor When selecting an inverter, in addition to considering the kWs of the inverter, make sure that the output current rating is larger than the motor current rating.

The rated capacity is for 200V series: 220V rating.

Output voltage cannot exceed the power supply voltage.

If the carrier frequency (function code F26) is set to a value higher than the value shown below, it must be reduced.
HHD capacity 0.1～3.7kW：8kHz capacity 5.5～22kW ：10kHz
HND capacity 0.1～3.7kW：4kHz capacity 5.5～18.5kW：10kHz capacity 22kW：6kHz

These values are calculated on assumption that the inverter is connected to a power supply with a capacity of 500 kVA (or 10 times the inverter capacity when the inverter capacity exceeds 50 kVA) and %X is 5%.

Required when a DC reactor (DCR) is used.

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Voltage unbalance(%) =Max. voltage (V) - Min. voltage (V) / Three-phase average voltage (V) ×67 (IEC 61800-3)
If this value is 2 to 3%, use an optional AC reactor (ACR).

For capacities of 2.2 and 3.7kW, set F80=4. Additionally, if the ambient temperature is 40°C or higher, the rated current must be reduced by 1%/°C.

Fuji's 4-pole standard motor When selecting an inverter, in addition to considering the kWs of the inverter, make sure that the output current rating is larger than the motor current rating.

The rated capacity is for 200V series: 220V rating.

Output voltage cannot exceed the power supply voltage.

If the carrier frequency (function code F26) is set to a value higher than the value shown below, it must be reduced.
HHD capacity 0.1～3.7kW：8kHz capacity 5.5～22kW ：10kHz
HND capacity 0.1～3.7kW：4kHz capacity 5.5～18.5kW：10kHz capacity 22kW：6kHz

These values are calculated on assumption that the inverter is connected to a power supply with a capacity of 500 kVA (or 10 times the inverter capacity when the inverter capacity exceeds 50 kVA) and %X is 5%.

Required when a DC reactor (DCR) is used.

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Voltage unbalance(%) =Max. voltage (V) - Min. voltage (V) / Three-phase average voltage (V) ×67 (IEC 61800-3)
If this value is 2 to 3%, use an optional AC reactor (ACR).

For capacities of 2.2 and 3.7kW, set F80=4. Additionally, if the ambient temperature is 40°C or higher, the rated current must be reduced by 1%/°C.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.

Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

The rated capacity indicates 220 V for the 200V series, and 440 V for the 400V series.

Setting the carrier frequency (F26) to the following value or above requires current derating.
HHD spec. of types FRN0001E3□-2G to FRN0020E3□-2G；8 kHz, FRN0030E3□-2Gto FRN0115E3□-2G; 10 kHz
HND spec. of types FRN0001E3□-2G to FRN0020E3□-2G；4 kHz, FRN0030E3□-2G to FRN0088E3□-2G; 10 kHz,
FRN0115E3□-2G; 6 kHz

This indicates the estimated value if the power supply capacity is 500 kVA (10 times inverter capacity if inverter capacity exceeds 50 kVA), and the motor is connected to a power supply of %X = 5%.

This indicates the capacity when the motor is equipped with a DC reactor (DCR).

This is the average braking torque when performing individual operation. (This will vary based on the motor efficiency.)

Interphase unbalance ratio [%] = (Max. voltage [V] - min. voltage [V]/Three-phase average voltage [V] x 67 (see IEC/EN 61800-3). If using the motor with an unbalance ratio of 2 to 3%, use an
AC reactor (ACR: option).

For FRN0012/0020E3S-2G, FRN0012/0020E3N-2G HND specifications, If the ambient temperature is 40ºC or higher, the output current must be derated by 1%/ºC.