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HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW

  • HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW
  • HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW
  • HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW
  • HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW
  • HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW
Place of Origin China
Brand Name COENG
Certification EC
Model Number HV500
Minimum Order Quantity 1
Packaging Details Carton, plywood case
Delivery Time 10-30working days
Payment Terms L/C, T/T, Western Union
Supply Ability 20000sets/year

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Product Details
Protection Grade IP20 Cooling Way Forced Air Cooling
Efficiency 5.5kW~22kW: ≥93%; Above 30kW: ≥95% Input Voltage 200V (-15%) ~240V (+10%) 3Phase , 380V (-15%) ~480V (+10%) 3Phase, 500V (-15%) ~690V (+10%) 3Phase
Input Frequency 50Hz/60Hz±5% Output Voltage 0V~Input Voltage
Output Frequency 0Hz~500Hz
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690V Single-Drive Inverter

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220V Single-Drive Inverter

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380V Single-Drive Inverter
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Product Description

   PERFORMANCE CHARACTERISTICS   

 

   Back-end quick debugging software   

 

Powerful and easy to use, with functions such as parameter setting, real-time oscilloscope, fault recording, event recording, etc.

 

   Excellent performance   

 

Suspending at zero speed;
Torque response 1-3ms;
Extremely low dynamic speed drop and dynamic speed drop equivalent;
Excellent robustness;
Accurate off-line/online motor model identification.

 

   Various needs satisfied   

 

Standard LCD panel to improve user experience;
Master-slave control function;
Expandable communication card, encoding disk card, voltage detection card.

 

   Ease of use   

 

External 24V DC input power supported;
A Built-in brake unit is possible to save installation control;
Book style design to support seamless side-by-side installation.

 

   Universality   

 

Several international standard certifications passed, conforming to RoHS directives;
V/F, OLVC and CLVC control supported;
Several communication protocols supported;
Asynchronous and permanent magnet synchronous motors supported.

 

   Durability   

 

Mechanical vibration level 3M3;
Independent air duct design;
Conformal coating automatic spraying;
Built-in dynamic junction temperature model to facilitate product safety application.

 

Model HV500 Low Voltage Engineering Single-Drive Inverter
iInput/output
Power		 Input Uin 200V (-15%) ~240V (+10%) 3Phase , 380V (-15%) ~480V (+10%) 3Phase,
500V (-15%) ~690V (+10%) 3Phase
Input Frequency 50Hz/60Hz±5%
Unbalance Degree of Uin ≤3%
Output Uout 0V~Input Uin
Output Frequency 0Hz~500Hz
Power range 2.2kW~560kW
Control
Performance		 Motor Type Asynchronous / Synchronous
Control Method V/F, OLVC (Open-Loop Vector Control), CLVC (Close-Loop Vector Control)
Range of Speed Regulation 1:10 V/F, 1:100 OLVC, 1:1000 CLVC
Start Torque VF: 100% (0.5Hz), OLVC: 150% (0.5Hz), CLVC: 180% (0Hz)
Torque Precision ≤5%, Vector Control
Torque Pulsation ≤5%, Vector Control
Speed Regulation Precision OLVC 0.2%, CLVC 0.01%
Torque Response <5ms, Vector Control
Dynamic Speed Reduction OLVC<0.5%*s, CLVC<0.3%*s
Acceleration and Deceleration Time 0.0s~3200.0s, 0.0min~3200.0min
Torque Lifting 0.0%~30.0%
Overload Heavy Load Application 150% 1min/5min, Light Load Application 110% 1min/5min
V/F Curve Multiple ways: linear V/F curve, 5 kinds of torque reduction characteristic curve mode (2.0 power, 1.8 power, 1.6 power, 1.4 power, 1.2 power), user-defined VF curve
Input Frequency Accuracy Digital: 0.01Hz, Analog: 0.01Hz
Control
Performance		 Acceleration and Deceleration Curve Straight, S Curve
Multiple Speed-Steps Operation 16-Speed Steps Operation through control terminals
Automatic VoltageAdjustment (AVR) Keeping the output voltage constant automatically when the grid voltage changes within a certain range
Fixed Length Setted and Fixed Length Control
In-build PID It Can Easily Constructed Closed loop control system
Enhencement Function Free Function Block
iInput/output Set Frequency Keyboaed, UP/DOWN Terminals, Multiple Speed-Steps Operation, Terminals Pulsation, Com
Power
Analog Input Terminals AI1: 0V~10V/-10V~10V, AI2: 0V~10V/0(4) mA~20mA
Digital Input Terminals DI1-DI6, 6 programmable digital input terminals, optocoupler isolation, compatible with drain/source input
Digital Input/Output Terminals DIO1: Fast pulse output, normal input/output; DIO2: fast pulse input, normal input/output
Anolog Output Terminals 2 Strings 0V~10V/0 (4) mA~20mA
Relay Output 2Strings Contact Type FormC
Motor Temperature Detection Support PT100/PT1000/KTY84
STO Interface SIL3/PLe Safe torque shutdown function
Com Com Protocol Modbus RTU (Standard), Profibus,CANopen,profinet,Devicenet,ControlNet
profinet,Devicenet,ControlNet
t
Environment Altitude Without Derating Operation Within 2000m Altitude; 2000m~4000m, Each 100m lifting, Derating 1% (Current)
Operation Temperature -25℃~+40℃ (40℃~55℃ Derating)
Humidity 15%~95%, Without Condensation
Vibration 3M3, IEC60721-3-3
Storage Temperature -40℃~+70℃
Operation Place Indoor, Without direct sunlight, no flammable, corrosive gases, liquids and conductive particles
Accessory Encoding card, communication expansion card, voltage detection card
Protection Function Short circuit, over current, overload, over voltage, under voltage, phase loss, over temperature, external fault, etc.
Efficiency 5.5kW~22kW: ≥93%; Above 30kW: ≥95%
Installation Method Cabinet
Protection Degree IP20
Cooling Forced Air Cooling
 

 

HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW 0

HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW 1HV500 Low Voltage Engineering Single-Drive Inverter 220V 380V 690V 2.2kW~560kW 2

Here is an introduction to the functions of variable frequency drives (VFDs):

Functions of Variable Frequency Drives (VFDs)

  1. Speed Control

    • VFDs control the speed of electric motors by adjusting the frequency and voltage of the power supplied, allowing for precise speed regulation.

  2. Torque Control

    • They can manage the torque output of motors, enabling applications requiring consistent torque under varying load conditions.

  3. Energy Savings

    • By optimizing motor speed based on load requirements, VFDs significantly reduce energy consumption, especially in applications with variable loads.

  4. Soft Start

    • VFDs provide a soft start feature, allowing motors to gradually ramp up to full speed. This reduces mechanical stress and prolongs equipment life.

  5. Operational Flexibility

    • VFDs allow for easy adjustments to motor speed and direction, enhancing operational flexibility in various applications, such as conveyors and pumps.

  6. Improved Process Control

    • With precise speed control, VFDs enhance process control, leading to improved product quality and consistency in manufacturing processes.

  7. Reduced Wear and Tear

    • By minimizing abrupt starts and stops, VFDs reduce mechanical wear on components, extending the life of the motor and associated equipment.

  8. Remote Monitoring and Control

    • Many modern VFDs feature smart technology that enables remote monitoring and control, allowing for efficient management of motor operations.

  9. Protection Features

    • VFDs often include built-in protection against overloads, overcurrents, and overheating, ensuring safe operation of motors.

  10. Harmonic Mitigation

    • Some VFDs are designed to reduce harmonics generated during operation, improving overall power quality and reducing interference with other equipment.

Conclusion

Variable frequency drives play a crucial role in modern industrial applications, providing efficient control of motor operations while promoting energy savings and equipment longevity. Their versatility makes them essential for various sectors, including manufacturing, HVAC, and renewable energy systems.

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