The Performance of JAC580 11KW FREQUENCY INVERTER, FREQUENCY CONVERTER, AC DRIVE
Support the vector control for various motors
1. Support the asynchronous motor and the vector control for an synchronous motor.
2. Support the vector control for permanent magnet synchronous motor without absolute position feedbacks.
3. Support various encoders,differential encoder,open collector encoder and rotary encoder.
The newest non-speed sensor vector control
1.The non-speed sensor vector control can do locked-rotor movement and it can output 150% rated moment of force at 0.5Hz.
2.The non-speed sensor vector control can reduce the sensitivity of motor parameter and improve the current applicability.
3. It can be used for winding control,load distribution under various motors dragging one load and other occasion.
Characteristics of high starting torque and superior responsiveness
1.The 150% starting torque can be provided at 0.5Hz ( without the vector control for sensor ) , while 180% torque at zero speed (with the vector control for sensor) can be provided at 0 Hz.
2.Without the vector control for sensor, the torque is <20 ms. With the vector control for sensor, the torque is <5 ms
The Technical Specification of JAC580 11KW FREQUENCY INVERTER, FREQUENCY CONVERTER, AC DRIVE
Item |
Specification |
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Standard functions |
Maximum frequency |
Vector contro: 0~300Hz; V/F control: 0~3200Hz |
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Carrier frequency |
0.5kHz~16kHz The carrier frequency is automatically adjusted based on the load features. |
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Input frequency resolution |
Digital setting: 0.01Hz Analog setting: maximum frequency x 0.025% |
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Control mode |
• Sensorless flux vector control (SFVC) • Closed-loop vector control (CLVC) • Voltage/Frequency (V/F) control |
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Starting torque |
• G type: 0.5 Hz/150% (SFVC); 0 Hz/180% (CLVC) • P type: 0.5 Hz/100% |
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Basic functions |
Speed range |
1:100 (SFVC) |
1:1000 (CLVC) |
Constant-speed accuracy |
± 0.5% (SFVC) |
± 0.02% (CLVC) |
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Torque control accuracy. |
± 5% (CLVC) |
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Overload capacity |
• G type: 60s for 150% of the rated current, 3s for 180% of the rated current • P type: 60s for 120% of the rated current, 3s for 150% of the rated current |
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Torque boost |
•Fixed boost • Customized boost 0.1%–30.0% |
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V/F curve |
• Straight-line V/F curve • Multi-point V/F curve •N-power V/F curve (1.2-power, 1.4-power, 1.6-power, ,1.8-power, square) |
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V/F separation |
Two types: complete separation; half separation |
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Acceleration /deceleration curve |
•Straight-line ramp • S-curve ramp Four groups of acceleration/deceleration time with the range of 0.0–6500.0s |
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DC braking. |
DC braking frequency: 0.00Hz~maximum frequency Braking time: 0.0s~36.0s Braking action current value: 0.0%–100.0% |
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JOG control |
JOG frequency range: 0.00–50.00 Hz JOG acceleration/deceleration time: 0.0–6500.0s |
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Simple PLC and multi-speed operation |
It implements up to 16 speeds via the simple PLC function or combination of DI terminal states. |
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Onboard PID |
It realizes process-controlled closed loop control system easily. |
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Automatic voltage regulation (AVR) |
It can keep constant output voltage automatically when the mains voltage changes. |
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Overvoltage/ Overcurrent stall contro |
The current and voltage are limited automatically during the running process so as to avoid frequent tripping due to overvoltage/overcurrent. |
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Quick current limiting |
Maximize overcurrent failure and protect the frequency converter in normal operation |
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Torque limit and control |
It can limit the torque automatically and prevent frequent over current tripping during the running process. Torque control can be implemented in the CLVC mode. |
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Individualized functions |
High performance |
Control of asynchronous motor and synchronous motor are implemented through the high-performance current vector control technology. |
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Power dip ride through |
The load feedback energy compensates the voltage reduction so that the AC drive can continue to run for a short time. |
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Rapid current limit |
It helps to avoid frequent overcurrent faults of the AC drive. |
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Timing control |
Time range: 0.0–6500.0 minutes |
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Multi-motor switchover |
Four motors can be switched over via four groups of motor parameters. |
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Bus support |
Support field bus: Modbus |
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Motor overheat protection |
The optional I/O extension card enables AI3 to receive the motor temperature sensor input (PT100, PT1000) so as to realize motor overheat protection. |
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Multiple encoder types |
Support difference, open collector and rotary transformer |
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Operation |
Command source |
Operation panel, control terminal and serial communication port are given Switch in various methods |
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Frequency source |
Various frequency sources: digital reference, analog voltage reference, analog current reference, pulse reference and serial port reference. The switching can be conducted in various methods |
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Auxiliary frequency source |
10 kinds of auxiliary frequency source. The auxiliary frequency jog and frequency synthesis can be achieved flexibly |
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Input terminal |
Standards: 7 digital input terminals, among which one support maximum high-speed pulse input of 100kHz 2 analog input terminals, among which one only supports voltage input of 0 ~10V and the other supports voltage input of 0 ~10V or current input of 4 ~20mA Expansion capability: 3 digital input terminals 1 analog input terminal, which supports voltage input of -10V ~10V and supports PT100/PT1000 |
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Operation |
Output terminal |
Standards: 1 high-speed pulse output terminal (The open collector type is optional), supporting 0~100kHz square signal output 1 digital output terminal 1 relay output terminal 1 analog output terminal, supporting current outpout of 0~20mA or voltage output of 0~10V Expansion capability: 1 digital output terminal 1 relay output terminal 1 analog output terminal, supporting current output of 0~20mA or voltage output of 0~10V |
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Display and keyboard operation |
LED display |
Display the parameter |
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Key lock and function selection |
Realize partial or all key lock and define the action range of some keys to prevent misoperation |
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Protection function |
Short circuit test of electrified motor, input/output default phase protection, overcurrent protection, overvoltage protection, undervoltage protection, overheat protection, overload protection, etc. |
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Options |
IO expansion card, differential input PG card, OC input PG card and rotary transformer PG card. |
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Environment |
Service site |
Indoor, free from direct sunshine, no dust, corrosive gas, combustible gas, oil fog, water vapor, drip or salt, etc. |
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Altitude |
Less than 1,000m |
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Ambient temperature |
-10℃~ +40℃ (Please use the equipment by derating at ambient temperature of 40℃~50 ℃) |
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Humidity |
Less than 95%RH, no water condensation |
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Vibration |
Less than 5.9m/s2(0.6g) |
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Storage temperature |
-20℃~ +60℃ |
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IP grade |
IP20 |
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Pollution level |
PD2 |
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Power distribution system |
TN , TT |
This VFD can be used for constant torque loads (such as hard starting: Air compressors, HVAC units) and variable torque loads (such as pumps, fans, etc). It can be used as a motor speed control and a phase converter. The input for this VFD is 1 or 3 phases as you like. You can control the different speed . Many customers bought this VFD from us to use for: Lathes, Mills, Car Hoists, Pumps and Conveyors,