ATV61/ATV71 90kW-2400kW Cabinet Mounted Frequency Inverters Engineering Type
High-performance engineering-type cabinet-mounted frequency inverters designed for industrial applications requiring robust power handling and advanced control capabilities.
- Customized configurations and customer-specific accessories available beyond standard options
- Excellent ventilation performance with standard axial flow fan + natural cooling channel + optional forced fan cooling
- Multiple protection class options (IP23 and IP54 compact types, IP54 dual-channel cooling type, IP54 cabinet-mounted quick-install kit type)
- Main switch with fast fuses standard on all types except quick-install kit type
- Inherits all technical performances of the ATV71 and ATV61 series
| Model Series | ATV61/ATV71 Engineering-Type Cabinet-Mounted Frequency Inverters |
| Power Range | 90 - 2400kW (ATV61: 2.2kW - 800kW; ATV71: 1.3kW - 630kW) |
| Voltage Rating | 380V - 690V |
| Basic Cabinet Composition | Sarel6000 cabinet + ATV61/71 main unit + main switch + fast fuses + IP65 terminal display kit |
| Braking Function | Maximum braking capacity up to 750kW |
| Protection Class Options | IP23, IP54 Compact Type, IP54 Dual-Channel Cooling Type, IP54 Cabinet-Mounted Quick-Install Kit Type |
| Ventilation & Cooling | Standard: Axial flow fan + natural cooling channel; Optional: Forced fan cooling |
| Core Functions | Chinese operation panel, built-in EMC filter, multiple free macro configurations, excellent brake control logic, positioning based on limit switch management, comprehensive PID regulation, torque control/master-slave control/load sharing, 5 motor control modes |
| Standard Configuration | Main switch (except Quick-Install Kit Type), fast fuses, multiple basic options |
| Optional Configuration | Input reactor (optional for models above 110kW), forced fan cooling |
| Warranty Period | 18 months |
Compatible with three-phase asynchronous motors from 0.75kW to 800kW, primarily featuring 380V voltage specifications.
| Power | Basic Model (Chinese Panel, with Reactor) | Derivative Models (Simplified Panel/Without Reactor) |
|---|---|---|
| 0.75kW | ATV61H075N4 | ATV61H075N4Z |
| 1.5kW | ATV61HU15N4 | ATV61HU15N4Z |
| 2.2kW | ATV61HU22N4 | ATV61HU22N4Z |
| 3.0kW | ATV61HU30N4 | ATV61HU30N4Z |
| 4.0kW | ATV61HU40N4 | ATV61HU40N4Z |
| 5.5kW | ATV61HU55N4 | ATV61HU55N4Z |
| 7.5kW | ATV61HU75N4 | ATV61HU75N4Z |
| 11kW | ATV61HD11N4 | ATV61HD11N4Z |
| 15kW | ATV61HD15N4 | ATV61HD15N4Z |
| 18.5kW | ATV61HD18N4 | ATV61HD18N4Z |
| 22kW | ATV61HD22N4 | ATV61HD22N4Z |
| 90kW | ATV61HD90N4 | ATV61HD90N4D (Without Reactor) |
| 110kW | ATV61HC11N4 | ATV61HC11N4D (Without Reactor) |
| 132kW | ATV61HC13N4 | ATV61HC13N4D (Without Reactor) |
| 160kW | ATV61HC16N4 | ATV61HC16N4D (Without Reactor) |
| 220kW | ATV61HC22N4 | ATV61HC22N4D (Without Reactor) |
| 250kW | ATV61HC25N4 | ATV61HC25N4D (Without Reactor) |
Wider power range from 0.37kW to 2000kW, including standard air-cooled models, water-cooled models, and high-power enhanced models.
| Power | Standard Model | Derivative/Related Models |
|---|---|---|
| 0.75kW | ATV71H075N4 | - |
| 1.5kW | ATV71HU15N4 | - |
| 2.2kW | ATV71HU22N4 | - |
| 3kW | ATV71HU30N4 | - |
| 4kW | ATV71HU40N4 | - |
| 5.5kW | ATV71HU55N4 | - |
| 7.5kW | ATV71HU75N4 | - |
| 11kW | ATV71HD11N4 | - |
| 15kW | ATV71HD15N4 | - |
| 18.5kW | ATV71HD18N4 | ATV71HD18N4Z |
| 22kW | ATV71HD22N4 | ATV71HD22N4Z |
| 30kW | ATV71HD30N4 | ATV71HD30N4Z |
| 37kW | ATV71HD37N4 | ATV71HD37N4Z |
| 45kW | ATV71HD45N4 | - |
| 55kW | ATV71HD55N4 | ATV71HD55N4Z |
| 75kW | ATV71HD75N4 | ATV71HD75N4Z |
| 90kW | ATV71HD90N4 | ATV71HD90Y |
| 110kW | ATV71HC11N4 | - |
| 132kW | ATV71HC13N4 | - |
| 160kW | ATV71HC16N4 | - |
| 200kW | ATV71HC20N4 | - |
| 250kW | ATV71HC25N4 | - |
| 315kW | ATV71HC31N4 | - |
| 400kW | ATV71HC40N4 | - |
| 500kW | ATV71HC50N4 | - |
- Water-Cooled Model (ATV71Q): 90kW - 500kW (380V - 480V); 119kW - 630kW (500V - 690V)
- High-Power Enhanced Model (ATV71 Plus): 90kW - 2000kW (380V - 690V), suitable for ultra-high-power industrial scenarios
This common problem in heavy-load scenarios requires checking frequency parameter settings and reference signals. Verify "high speed" parameters and analog input terminal compatibility with signal sources. For CLI display indicating current limit protection, inspect for mechanical issues and adjust current limit parameters accordingly.
This is typically a false alarm caused by transient power instability. Use delayed contact to disconnect PWR input for 30 seconds during startup or assign a logic input terminal as fault reset function. Always test motor cable insulation before resetting.
For overcurrent during acceleration/deceleration, extend timing parameters. For constant speed overcurrent, check output cables and load distribution. Overload faults may require reducing braking parameters or verifying grid voltage and motor compatibility.
Verify reference channel selection in Menu 1.6, check terminal resistance measurements, confirm preset speed function status, and validate multi-channel switching logic if applicable.
Confirm Modbus protocol selection, align communication parameters with PLC settings, inspect cable routing to avoid interference, reduce baud rate if unstable, and check terminal connections and cable integrity.
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