Easy Altivar ATV610 Variable Frequency Drive Inverter VFD 4kW-160KW
Price:
$1000-$3000
MOQ:
1
Delivery Time:
3-5Workday
Product Description
Easy Altivar ATV610 Inverter - Standard-load General-purpose Frequency Converter
This inverter is designed for three-phase asynchronous motors and permanent magnet motors, specifically optimized for pump and fan applications in water supply and drainage, oil and gas, building management, and energy plant sectors.
Key Features
On-Demand Manufacturing Capabilities
- Extended power range for asynchronous motors up to 315 kW
- New permanent magnet motor control from 0.75 kW to 160 kW
- Integrated EMC filter and DC reactor for anti-interference and harmonic suppression
- Optimized I/O ports with expansion options for flexible automation integration
- Built-in Modbus communication with optional Profibus DP
Simple and Easy to Use
- Compact design for simplified integration and reduced enclosure size
- Quick Start function for efficient installation, wiring and operation
- User-friendly graphic display terminal with 9-20 integrated languages
- Configuration copying between drives via keypad
- 22.5mm diameter quick-mount system for cabinet door integration
- Color-coded control circuit terminals to prevent misuse
- 7 pre-programmed function blocks covering 90% of pump and fan applications
- Concise start menu with most commonly used parameters
Model Specifications
| Model | Rated Power (Standard Load) | Rated Power (Heavy Load) | Rated Current (Standard Load) | Rated Current (Heavy Load) | Application Scenarios |
|---|---|---|---|---|---|
| ATV610U40N4 | 4kW | 3kW | 9.3A (4kHz) | 7.2A (4kHz) | Light-load conditions such as small fans and micro water pumps |
| ATV610D18N4 | 18.5kW | 15kW | 39.2A (4kHz) | 31.7A (4kHz) | Medium-sized compressors, conveyor belts, etc. |
| ATV610D30N4 | 30kW | / | / | / | General scenarios such as medium-sized water pumps and fans |
| ATV610D37N4 | 37kW | 30kW | 74.5A (4kHz) | 59.6A (4kHz) | Large fans, industrial water pumps, etc. |
| ATV610D55N4 | 55kW | / | 106A | / | High-power compressors, heavy-duty conveyor belts |
| ATV610D75N4 | 75kW | 55kW | 145A (2.5kHz) | 106A (2.5kHz) | Large industrial pumps, centralized fans |
| ATV610D90N4 | 90kW | / | 173A | / | High-power fans, heavy-duty industrial pumps |
| ATV610C16N4 | 160kW | 132kW | 302A (2.5kHz) | 250A (2.5kHz) | Large energy plant fans, pumps in the oil and gas sector |
Technical Parameters
| Parameter Category | Specific Parameters |
|---|---|
| Power Supply Parameters | Rated supply voltage: 380 - 460V AC (fluctuation range -15%~+10%); Supply frequency: 50 - 60Hz (fluctuation ±5%); Network phase: 3-phase |
| Output Parameters | Output voltage ≤ supply voltage; Output frequency: 0.0001 - 500Hz; Switching frequency: 1 - 8kHz (2 - 12kHz for some models), adjustable; Frequency resolution: 0.1Hz on display, 0.012/50Hz for analog input |
| Control & Communication | Control modes: Standard constant torque, optimized torque, standard variable torque; Preset speeds: 16; Communication protocols: Standard Modbus serial, supports Profibus DP V1 (optional); Communication interfaces: 2-wire RS485, 1 RJ45 (for remote graphic terminal); Address range: 1 - 247 (Modbus) |
| I/O Ports | Analog inputs: 3 (configurable for 0 - 10V DC or 0 - 20mA current, some support temperature/water level sensors); Digital inputs: 6 (DI5 and DI6 can be set as pulse inputs, 0 - 30kHz); Relay outputs: 3 (minimum switching current 5mA/24V DC) |
| Protection & Environment | Protection class: IP20; Operating temperature: -15 - 45℃ (no derating), 45 - 60℃ (derating required); Circuit boards with protective coating, busbars with plating treatment; Installation method: Cabinet mounting, vertical installation (±10° deviation allowed) |
| Structure & Cooling | Cooling method: Forced convection cooling; Physical features: Compact design, weight ranges from 4 - 82kg depending on model; Remote display terminal supports 22mm quick-mounting |
| Protection Functions | Motor side: Thermal protection, phase loss protection; Inverter side: Overheating, overcurrent, short circuit, DC bus overvoltage/undervoltage, supply phase loss, overspeed protection, etc.; Insulation resistance: >1MΩ (tested with 500V DC, 1 minute to ground) |
| Function Configuration | Acceleration/deceleration time: 0.01 - 9000 seconds, independently adjustable, supports S-curve, U-curve or custom curve; Pre-programmed function blocks: 7, covering 90% of pump and fan scenarios; Parameter copying: Achievable via keypad between multiple powered-on devices |
| Expansion Functions | Expansion slots: Slot A supports optional communication cards, logic/analog I/O expansion cards, relay output cards; Control circuit terminals: Color-coded to prevent misuse, specification 0.5 - 1.5mm² |
Industry Applications
Municipal Water Treatment Industry
The ATV610 precisely controls sewage lift pumps, backwash fans, and pressure boosting systems in water treatment plants, optimizing energy usage and extending equipment lifespan while maintaining operational efficiency.
Building HVAC Industry
Applied in central air conditioning systems for chilled water pumps and cooling water pumps, as well as ventilation systems in commercial and residential buildings, providing smooth start-stop operation and significant energy savings.
Petrochemical Industry
Controls oil transfer pumps, agitator motors in chemical reactors, and exhaust gas treatment fans, ensuring stable operation and compliance with environmental standards while reducing operating costs.
Power Industry
Manages boiler induced draft fans, forced draft fans in thermal power plants, and circulating water pumps, optimizing combustion efficiency and ensuring reliable operation of power generation systems.
Building Materials Industry
Controls spray drying tower fans in ceramic production, furnace cooling fans in glass manufacturing, and supporting systems in aluminum processing plants, reducing power consumption and equipment wear.
Frequently Asked Questions
When driving a permanent magnet motor, an "overcurrent" alarm occurs during startup. After eliminating motor wiring issues, what else could be the cause?
Most likely due to mismatched permanent magnet motor parameter configuration. Ensure the inverter's "Motor Type" is set to "Permanent Magnet Synchronous Motor" mode and accurately input rated power, current, speed, and field weakening coefficient from the motor nameplate.
When controlling a fan, noise increases significantly during low-speed operation with current fluctuations. How to solve this?
Optimize the V/F curve by selecting the dedicated "Fan/Pump" load type. Increase switching frequency to 6-8kHz (not exceeding 6kHz for models ≥55kW). Enable "Low-Speed Compensation" and increase output voltage below 20Hz to stabilize the motor magnetic field.
When communicating with a PLC via Modbus, parameter reading occasionally fails over 80 meters with shielded wiring. What could be the problem?
Verify communication parameters match exactly between inverter and PLC. Install 120Ω terminal resistors at both ends of the RS485 connection. Ensure shield grounding at one end only and route cables away from power sources to prevent electromagnetic interference.
For lift pumps in sewage treatment, how to set automatic speed adjustment using float level switches?
Connect level signals to DI1 (stop), DI2 (preset speed 1 - medium level), and DI3 (preset speed 2 - high level). Configure terminal functions accordingly and set acceleration/deceleration times to 10-15 seconds to prevent pump impact.
After six months of operation, an "overheating" alarm occurs despite normal room temperature and clear airflow. What is the reason?
Check internal cooling fan operation and motor load conditions. Clean heat sinks if dusty. Verify actual current readings - if approaching rated current, inspect for pipeline resistance increases from valve jamming or filter blockages.
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Company
Shanghai Fradwell Industrial Automation Co., Ltd.
Location
No. 168, Chengnan Road, Pudong New Area, 201399 Shanghai, China
Contact Person
Angelo Wu