FRENIC-Lift

- A braking circuit is built in the AC Drives of all the capacities.
- Built-in PG feedback circuit is standard equipment.
- An optional keypad is available.
- Overload capacity: 200% for 10s
- Current response: 5 times greater than previous models (compared with the)
- Reduction of torque ripple realizes low vibration.
- Reduced roll-back during starting up.
Motor capacity (kW) |
2.2 | 4.0 | 5.5 | 7.5 | 11 | 15 | 18.5 | 22 | 30 | 37 | 45 |
---|---|---|---|---|---|---|---|---|---|---|---|
Three-phase 400V |
N.A. | ● | ● | ● | ● | ● | ● | ● | ● | ● | ● |
Three-phase 200V |
N.A. | ● | ● | ● | ● | ● | ● | N.A. | |||
Single-phase 200V |
● | N.A. |
- Current response (ACR): 500Hz
- Speed control accuracy: ±0.01%
- 200% of rated current for 10s
(Overload begins from 80% continuous operation with a carrier frequency of 10kHz.)
- A single AC Drive can control an induction motor (open/closed loop control) and a synchronous motor (the optional PG interface card is required).
- FRENIC-Lift AC Drives are available in a series with capacities ranging from 4.0 to 45kW for three-phase 400V model.
5.5 to 22kW for three-phase 200V model.
2.2kW for single-phase 200V model.
- Applicable to the inputs by open collector/complementary output as a standard specification (Encoder power supply is switchable between +12V and +15V.)
- Applicable to the inputs from the 5V line driver as an option
- Applicable to Sin/Cos, Serial interface (EnDat2.1) and Parallel interface (4-bit gray code, UVM 3-bit code)
- DC bus capacitor life: 7 years
- Electrolytic capacitor life on the printed circuit boards: 7 years
- Cooling fan life: 5 years
- Life warning signal
- Recording and display of cumulative operating time
- Recording and display of cumulative operations
- EC Directives (CE Marking) (EN61800-3)
- Safety standards (EN954-1)
- Sink/source switchable
- RS-485 communications (Modbus RTU) is adopted as standard equipment.
- CAN Bus is adopted as (optional)
- DCP3 communication (-EA version)
- EN12015 and EN12016 compliance by adding external EMC filter and DCR.
- AC Drive support loader software is provided.
- A multi-function keypad (with backlit LCD) makes it possible to copy or edit the function code data.
Three-phase 200V series
(*1) | Fuji Electric’s 4-pole standard motor is used as an example of a applicable motor rating. |
(*2) | The rated capacity shows the case where the output voltage is 220V. |
(*3) | Voltages exceeding the power supply voltage cannot be output. |
(*4) | The rated current shows the case where the carrier frequency is 10kHz, ambient temperature is 45℃ or under, and the root mean squared current in cycle operation is 80% of the AC Drive’s rated current. (or 16kHz at 40% ED) |
(*5) | Voltage imbalance [%] = (Max. voltage [V] – Min. voltage [V] / 3-phase average voltage [V] × 67 (See IEC61800-3). |
(*6) | Calculations were made based on a power supply capacity of 500 kVA (if the inverter capacity exceeds 50 kVA, the power supply capacity is 10 times the AC Drive capacity) and a connected power supply %X = 5%. |
(*7) | The AC Drive is equipped with a DC reactor (OCR). |
(*8) | These permissible fluctuations are tor the main power and the auxiliary control power input. |
(*9) | A box (□) in the above table replaces C, E, A or J depending on the shipping destination. A box (■) in the above table replaces A for the AC Drive without a CAN port. |
Single-phase 200V
(*1) | Fuji’s 4-pole standard motor | ||||||
(*2) | Rated capacity is calculated by regarding the output rated voltage as 220V. | ||||||
(*3) | Output voltage cannot exceed the power supply voltage. | ||||||
(*4) | It is a value in the condition of the career frequency 10kHz and the ambient temperature 45°C. Select the inverter capacity such that the square average current in cycle operation is 80% or less of the rated current of an inverter. |
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(*5) | The power supply capacity is 500kVA (ten times the inverter capacity when the inverter capacity exceeds 50kVA), and the calculation value when connecting with the power supply of %X=5%. | ||||||
(*6) | Obtained when a DC Reactor is used. | ||||||
(*7) | An acceptable variation of the main power supply and the control power supply assistance input. | ||||||
(*8) | The admissible error of minimum resistance is ±5%. | ||||||
(*9) | Type List
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(*10) | The same AC power as the main power supply input is connected for the backup of the control circuit power source. | ||||||
(*11) | It is a value in the condition of the career frequency 10kHz and the ambient temperature 455°C. Use the inverter such that the square average current in battery operation is 80% or less of the rated current of an inverter. ![]() |
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(*12) | Braking time and duty cycle (%ED) are defined by cycle operation at the rated regenerative power as shown in the figure below. |
Three-phase 400V series
(*1) | Fuji Electric’s 4-pole standard motor is used as an example of a applicable motor rating. |
(*2) | The rated capacity shows the case where the output voltage is 220V. |
(*3) | Voltages exceeding the power supply voltage cannot be output. |
(*4) | The rated current shows the case where the carrier frequency is 10kHz, ambient temperature is 45℃ or under, and the root mean squared current in cycle operation is 80% of the AC Drive’s rated current. (or 16kHz at 40% ED) |
(*5) | Voltage imbalance [%] = (Max. voltage [V] – Min. voltage [V] / 3-phase average voltage [V] × 67 (See IEC61800-3). |
(*6) | Calculations were made based on a power supply capacity of 500 kVA (if the inverter capacity exceeds 50 kVA, the power supply capacity is 10 times the AC Drive capacity) and a connected power supply %X = 5%. |
(*7) | The AC Drive is equipped with a DC reactor (OCR). |
(*8) | These permissible fluctuations are tor the main power and the auxiliary control power input. |
(*9) | A box (□) in the above table replaces C, E, A or J depending on the shipping destination. A box (■) in the above table replaces A for the AC Drive without a CAN port. |
(*10) | 37kW or more. It is necessary to change the power supply switching the connector on the power supply printed board according to the power supply voltage. The same AC power as the main supply power input is needed for the auxiliary control power input for the control circuit, the fan and the contactor. The AC Drive will not operate if the power supply is not input to the auxilliary control power input. |
4.0kW (400V) & 2.2kW (1ph 200V)
5.5 to 11kW
15 to 22kW
30 to 45kW
Power supply voltage | Type | Dimensions (mm) | |||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
W | W1 | W2 | W3 | W4 | W5 | H | H1 | H2 | D | D1 | D2 | D3 | D4 | φA | φB | ||
Single-phase 200V | FRN2.2LM1S-7□■ | 150 | 136 | – | – | – | – | 260 | 246 | – | 165 | 133 | 32 | – | – | – | – |
Three-phase 200V | FRN5.5LM1S-2□■ | 220 | 196 | 63.5 | 46.5 | 46.5 | – | 260 | 238 | – | 215 | 118.5 | 96.5 | 136.7 | 21 | 34 | 42 |
FRN7.5LM1S-2□■ | |||||||||||||||||
FRN11LM1S-2□■ | |||||||||||||||||
FRN15LM1S-2□■ | 250 | 226 | 67 | 58 | 58 | 400 | 378 | 85 | 130 | 166.2 | 2 | ||||||
FRN18.5LM1S-2□■ | |||||||||||||||||
FRN22LM1S-2□■ | |||||||||||||||||
Three-phase 400V | FRN4.0LM1S-4□■ | 150 | 136 | – | – | – | 260 | 246 | 165 | 133 | 32 | – | – | – | – | ||
FRN5.5LM1S-4□■ | 220 | 196 | 63.5 | 46.5 | 46.5 | 260 | 238 | 215 | 118.5 | 96.5 | 136.7 | 21 | 34 | 42 | |||
FRN7.5LM1S-4□■ | |||||||||||||||||
FRN11LM1S-4□■ | |||||||||||||||||
FRN15LM1S-4□■ | 250 | 226 | 67 | 58 | 58 | 400 | 378 | 85 | 130 | 166.2 | 2 | ||||||
FRN18.5LM1S-4□■ | |||||||||||||||||
FRN22LM1S-4□■ | |||||||||||||||||
FRN30LM1S-4□■ | 320 | 240 | 304 | 310.2 | 8 | 10 | 550 615 |
530 595 |
12 | 255 270 |
115 | 140 155 |
4 | 6 | 10 | – | |
FRN37LM1S-4□■ | 355 | 275 | 339 | 345.2 | |||||||||||||
FRN45LM1S-4□■ |
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