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FRENIC-NewVP
A reliable model with high operability and a long lifespan design after import
Product details
- Standard specification (3-phase 400V)
- Standard specification (3-phase 400V)
- Standard specification (3-phase 400V)
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| The standard applicable motor refers to Fuji Electric's 4-pole standard motor. When selecting, in addition to paying attention to kW, it should also be ensured that the rated output current of the frequency converter is ≥ the rated current of the motor. | |
| The rated capacity calculated at a rated output voltage of 440V. | |
| * 3) Cannot output voltage higher than the power supply voltage. | |
| When the carrier frequency (function code F26) is set to exceed the following values, the carrier frequency needs to be reduced. | |
| HND... Model 0009 and below: 8kHz, 0013 and above, 0059 and below: 10kHz, 0072 and above, 0168 and below: 6kHz, 0203 and above: 4kHz | |
| ND…4kHz | |
| When the ND specification is used, if the ambient temperature is higher than 40 ° C (104 ° F), it is necessary to reduce the rated current recorded in this book by 2%/° C (2%/1.8 ° F). | |
| * 5) Refers to the estimated value when connected to a power supply with% X=5% when the power supply capacity is 500kVA (10 times the capacity of the frequency converter when the capacity exceeds 50kVA). | |
| * 6) Refers to the capacity with a DC reactor (DCR). | |
| * 7) Refers to the average braking torque value of the motor unit. (varies according to motor efficiency.) | |
| * 8) Phase to phase imbalance rate [%]=(maximum voltage [V] - minimum voltage [V])/3-phase average voltage [V] × 67 (refer to IEC61800-3). ) | |
| If used with an imbalance rate of 2-3%, please use an AC reactor (ACR: optional). |
|
|
| The standard applicable motor refers to Fuji Electric's 4-pole standard motor. When selecting, in addition to paying attention to kW, it should also be ensured that the rated output current of the frequency converter is ≥ the rated current of the motor. | |
| The rated capacity calculated at a rated output voltage of 440V. | |
| * 3) Cannot output voltage higher than the power supply voltage. | |
| When the carrier frequency (function code F26) is set to exceed the following values, the carrier frequency needs to be reduced. | |
| HND... Model 0009 and below: 8kHz, 0013 and above, 0059 and below: 10kHz, 0072 and above, 0168 and below: 6kHz, 0203 and above: 4kHz | |
| ND…4kHz | |
| When the ND specification is used, if the ambient temperature is above 40 ° C (104 ° F), the rated current recorded in this book needs to be reduced by 2%/° C (2%/1.8 ° F). | |
| * 5) Refers to the estimated value when connected to a power supply with% X=5% when the power supply capacity is 500kVA (10 times the capacity of the frequency converter when the capacity exceeds 50kVA). | |
| * 6) Refers to the capacity with a DC reactor (DCR). | |
| * 7) Refers to the average braking torque value of the motor unit. (varies according to motor efficiency.) | |
| * 8) Phase to phase imbalance rate [%]=(maximum voltage [V] - minimum voltage [V])/3-phase average voltage [V] × 67 (refer to IEC61800-3). ) | |
| If used with an imbalance rate of 2-3%, please use an AC reactor (ACR: optional). |
|
|
| The standard applicable motor refers to Fuji Electric's 4-pole standard motor. When selecting, in addition to paying attention to kW, it should also be ensured that the rated output current of the frequency converter is ≥ the rated current of the motor. | |
| The rated capacity calculated at a rated output voltage of 440V. | |
| * 3) Cannot output voltage higher than the power supply voltage. | |
| When the carrier frequency (function code F26) is set to exceed the following values, the carrier frequency needs to be reduced. | |
| HND... Model 0009 and below: 8kHz, 0013 and above, 0059 and below: 10kHz, 0072 and above, 0168 and below: 6kHz, 0203 and above: 4kHz | |
| ND…4kHz | |
| When the ND specification is used, if the ambient temperature is higher than 40 ° C (104 ° F), it is necessary to reduce the rated current recorded in this book by 2%/° C (2%/1.8 ° F). | |
| * 5) Refers to the estimated value when connected to a power supply with% X=5% when the power supply capacity is 500kVA (10 times the capacity of the frequency converter when the capacity exceeds 50kVA). | |
| * 6) Refers to the capacity with a DC reactor (DCR). | |
| * 7) Refers to the average braking torque value of the motor unit. (varies according to motor efficiency.) | |
| * 8) Phase to phase imbalance rate [%]=(maximum voltage [V] - minimum voltage [V])/3-phase average voltage [V] × 67 (refer to IEC61800-3). ) | |
| If used with an imbalance rate of 2-3%, please use an AC reactor (ACR: optional). |
| (Note 1) | The input side (primary side) of the frequency converter has wiring protection function, therefore, please install the recommended wiring circuit breaker (MCCB) or residual current circuit breaker (ELCB) (with overcurrent protection function) on each frequency converter. Do not use circuit breakers with recommended rated current or higher. |
| (Note 2) | MCCB or ELCB is used to separate the frequency converter from another power source, therefore, please install the recommended electromagnetic contactor (MC) on each frequency converter as needed. In addition, when installing coils such as MC or solenoid near the frequency converter, please connect the surge absorber in parallel. |
| (Note 3) | Inverter models above 0059 are equipped with R0 and T0 terminals. Even if the main power supply of the frequency converter is cut off, if you still want to maintain the total alarm signal when the protection function is activated or want the operation panel to always display, please connect this terminal to the power supply. Even without inputting power to this terminal, the frequency converter can still operate after inputting power to L1/R, L2/S, and L3/T. |
| (Note 4) | Usually no connection is required. Used in combination with high power factor power regeneration PWM converters (RHC series). (For models above 0203) |
| (Note 5) | When connecting the DC reactor (DCR) (optional), please remove the short-circuit rod between the main circuit terminals P1-P (+) of the inverter before connecting it. Models 0139 (ND specification), 0618 (HND specification), and 0203 and above must be connected. When the capacity of the power transformer is above 500kVA and is more than 10 times the rated capacity of the frequency converter, and when there is a semiconductor load in the same power system, please use a DC reactor (optional accessory). |
| (Note 6) | Inverter models below 0072 have built-in brake transistors, which can be directly connected to brake resistors between P (+) - DB. |
| (Note 7) | When connecting the braking resistor to the (400V) series frequency converter of model 0085 or above, it is necessary to use it together with the braking device (optional accessory). Connect the brake device (optional accessory) between P (+) and N (-). The auxiliary terminals [1] and [2] have polarity. Please connect according to this diagram. |
| (Note 8) | Terminal for motor grounding. To suppress interference from the frequency converter, it is recommended to ground the motor through this terminal. |
| (Note 9) | The control signal line uses twisted pair or shielded wire. The shielded wire must be grounded, but when there is significant external interference, connecting it to the CM may suppress the impact of the interference. Please try to separate it from the main circuit wiring and do not put it in the same cable tray. (Recommended distance of 10 (cm) (3.9 inches) or more. )When crossing, please try to make it perpendicular to the main circuit wiring. |
| (Note 10) | The functions recorded in terminals X1 to X5 (digital input), Y1 to Y3 (transistor output), Y5A/C to 30A/B/C (contact output), and FM1 to FM2 (analog and pulse output) represent the functions that the product comes with when it leaves the factory. |
| (Note 11) | Inverter models above 0203 are equipped with power voltage switching connectors (CN UX) and power switching connectors (CN R, CN W). |
| (Note 12) | For the toggle switch on the control board. These switches can be used to change the specifications of the input/output signals of the frequency converter. |
| (Note 13) | Trip the wiring circuit breaker (MCCB) or electromagnetic contactor (MC) through the auxiliary contact of the thermal relay (manual return). |
| (Note 14) |
 and Separation and insulation. |
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