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AC830 Series Four-quadrant Inverter
- High-performance control platform
- Suitable for various types of loads
- Excellent four-quadrant feedback capability
- High precision and fast response
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EmailAC830 Series Four-quadrant Inverter Overview
AC830 series four-quadrant inverter cabinet belongs to VEICHI's four-quadrant frequency conversion speed regulation product technology platform. It adopts ARM+FPGA dual control architecture, ultra-efficient and energy-saving drive. The AFE active rectification feedback scheme is adopted to effectively reduce the harmonic content on the grid side. Perfect without harmonics, full drive and full control, compatible with the drive control of asynchronous motors, synchronous motors, and high-speed motors.
AC830 series four-quadrant inverter features
1. Excellent control performance.
2. Convenient debugging method.
3. Multiple fault handling and protection.
High-performance control platform
The AFE active rectification feedback scheme is adopted to reduce the harmonics on the grid side. It can realize high-speed and high-precision loop control operation to ensure the excellent dynamic response capability and control accuracy of the drive system.
Various control methods
VF control, open loop vector and closed loop vector.
Suitable for various types of loads
Asynchronous motors, synchronous motors, reluctance motors and high-speed motors.
High precision and fast response
Speed accuracy: ±0.01% of rated synchronous speed
Torque response: ≤5ms.
Excellent four-quadrant feedback capability
Active rectification four-quadrant inverter is equipped with LCL PWM filter unit, which can effectively reduce the harmonic content on the grid side.
Debug host computer adapted to working conditions
1. The VCSoft software has a friendly interface and is easy to use without any system expertise.
2. The debugging engineer operates through the graphical interface and menu. Simple configuration, parameter setting, fault detection, system maintenance and service of complex systems can be completed in a short time.
3. The trend record of up to 8 signals can be completed, which simplifies the diagnosis and optimization of the inverter.
4. The high-speed data recorder inside the VCU controller can be accessed, and the information of the 50 observed objects before and after the failure will be completely restored. It can help debugging engineers locate faults efficiently and optimize the process control process of the production line.
Convenient and fast multi-function keyboard
Comprehensive multiple protection
Functional safety protection
The STO-Safe Torque Off function can be configured. Through hardware circuit detection, the IGBT drive pulse is blocked to disconnect the motor power supply, to prevent the motor from accidentally starting, and to ensure the safety of personnel and equipment.
Inverter protection
Short circuit, overcurrent, overvoltage, undervoltage, phase loss, overheating, overload, encoder disconnection, etc. up to 30 kinds of setting protection.
Motor protection
Support PT100 temperature detection protection.
Fault classification and classification management
According to the fault situation, combined with many years of application experience, the fault management is classified and classified to reduce the number of fault downtimes.
Complete troubleshooting information
The Application of AC830 Series Four-quadrant Inverter
It is widely used in metallurgy, petroleum, mining, shipbuilding, power supply and other industries.
Specifications
| Input voltage | 400V system: 380~460Vac, 690V system: 525~690Vac |
|---|---|
| Output voltage | 400V system: 0~415Vac, 690V system: 0~690Vac |
| Overload capacity | Light overload: 110% allowed for 1 minute every 5 minutes Heavy overload: 150% every 5 minutes allowed for 1 minute |
| Work efficiency | ≥97% |
| Grid side power factor | ≥0.99(adjustable) |
| Total harmonic content THD | THDI﹤5%(rated power);THDU﹤5%,(Rsc>20) |
| Output frequency | 0Hz~300Hz |
|---|---|
| Carrier frequency | 400V system: 45~75kW, default 3.2kHz 400V system: 90~355kW, default 2kHz 690V system: 45~560kW, default 1.5kHz Increasing the carrier frequency requires derating |
| Control method | Frequency Control (V/F), Encoder Vector Control (FVC), Encoderless Vector Control (SVC) |
| Speed ratio | V/F control: 1:50 SVC control: 1:200 FVC control: 1:1000 |
| Speed accuracy | SVC control: 5% rated slip of asynchronous machine, 0.2% rated speed of synchronous machine FVC control: ±0.01% rated speed |
| Torque Response | SVC control: ≤5ms FVC control: ≤5ms |
| Starting torque | SVC control: 0.5Hz/150% TN FVC control: 0Hz/200% TN |
| Protective function | Short circuit, overcurrent, overvoltage, undervoltage, phase loss, overheating, overload, encoder disconnection, etc. |
|---|---|
| Standard function | V/F control, vector control function, voltage automatic adjustment function, step speed frequency setting, forward and reverse rotation control, slip compensation, torque compensation, PID control |
| Operating temperature | ﹣10℃~+40℃, when the temperature exceeds 40℃, derating is required The ambient temperature is derated by 1% for every 1°C increase, and the maximum operating ambient temperature is 50°C |
|---|---|
| Working humidity | 5%RH~95%RH, no condensation |
| Storage temperature | -40℃~70℃ |
| Storage humidity | 5%RH~95%RH, no condensation |
| Protection class | Cabinet: IP20 |
| Noise | ≤85dB(A) |
| Installation height | Below 1000m altitude: 100% full load (no derating) Above 1000m altitude: derate by 1% for every 100m rise, the maximum altitude is 4000m |
| Vibration performance | Standard: Test Fc in IEC 60068-2-6 Sinusoidal vibration: 10Hz~57Hz, 0.075mm Sinusoidal vibration: 57Hz~150Hz, 10m/s2 |
|---|---|
| Impact performance | Standard: Test Ea in IEC 60068-2-27:2008 Half-sine pulse: 50m/s2, time 30ms |
| Cooling method | Forced air cooling AF |
Downloads
| File Name | Type | Language | File Type | Update | Download |
|---|
Sep 22, 2023
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