Audited Supplier
High-performance Transducer, Three Phase Transducer, General Transducer, Single-phase Transducer, High Frequency Converter Transducer
Triple
Vector Control Transducer
High Carrier Frequency PWM Control
Current
Low Voltage Variable-Frequency Drive
AC-DC-AC Variable-Frequency Drive
Current Variable-Frequency Drive
Simple Type, Elevator Special, Textile Special, Constant Torque Universal Type
Black/Grey
Yx9000
18 Months
Vector Control
Approval
Acceptable
3-5 Wokrdays Within 200PCS
Plastic/Metal
Carton Box/Plywood
45kw Below Built-in Brake Unit
Bui;T-in
Yuanshin
Carton Box/Plywood
Plastic/Metal
China
8504409990
Product Description
Factory Cheap Price Three Phase 380V 18.5KW/25HP Variable-Frequency Drive
YX9000 series variable frequency drive, 1 phase 200V/220V/230V/240V,3 phase 240V/415V/480V, RS485 communication mode and IP 20 enclosure rating. The frequency drive inverter is widely used in motor control in industrial fields such as machine tools, pharmaceuticals, chemicals, metallurgy, steel, printing, textiles, and petroleum.
- The LED display of the vfd inverter 3 phase can display the set frequency, output voltage, output current, etc.
- With an IP20 shell protection level, the 3 phase variable frequency drive can be forced air-cooled to stabilize the internal temperature and protect parts from damage.
- The installation methods of the frequency drive inverter include wall-mounted and floor-standing. The installation method can be adjusted according to the actual situation
- The PLC operation, multi-speed operation, and normal operation of the variable frequency inverter can be used for external swing frequency operation
- Classic layout control panel, simple and easy to use, high security performance.
- Built-in brake units and EMC filters, external adding brake resistors, AC reactors, DC chocks ect can make sure the variable speed drive work steady.
| Basics | Model | YX9000 series |
| Power capacity | 18.5KW/25HP | |
| Color | Black in standard, other colors in optional | |
| Control mode | Vector control | |
| I/O Features | Input voltage | 1 phase 220V(range:176V-264V); 3 phase 380V(range:304V-456V); 3 phase 415V(range:323V-528V); 3 phase 220V(range:176V-264V) |
| Output voltage | 0-input voltage | |
| Input frequency | 50/60Hz | |
| Output frequency | 0-500Hz | |
| Rated output current | 39A | |
| Over load capacity | 150% of rated current for 1 minute, 180% of rated current for 3 seconds | |
| Control Feature | Communication | RS485 |
| Speed regulation | 1:100 | |
| Start torque | 150% of rating torque at 1 Hz | |
| Speed control accuracy | ≤±0.5% of rating synchronous speed | |
| Frequency precision | Digital setting: max frequency x± 0.01%; Analog setting: max frequency x± 0.2% | |
| Frequency resolution | Analog setting: 0.1% of max frequency; Digital setting: 0.01Hz | |
| Torque boost | Automatic torque boost, manual torque boost 0.1%~30.0% | |
| Interior PID controller | Be convenient to make closed-loop system | |
| Automatic energy save running | Optimize V/F curve automatically based on the load to realize power save running | |
| Automatic voltage regulation (AVR) | Can keep constant output voltage when power source voltage varies. | |
| Automatic current limiting | Limit running current automatically to avoid frequent over-current which will cause trip | |
| Environment | Enclosure rating | |
| Temperature | -10ºC~ +40ºC; VFD will be derated if ambient temperature exceed 40ºC; each rise 1ºC, the derate will be 5% | |
| Humidity | 5%-95%, without condensation | |
| Altitude | ≤1000m; VFD will be derated if above 1000m | |
| Impingement and oscillation | Normal running:<5.9m/s2 (0.6g); Transportation:<15m/s2 (1.5g) | |
| Store environment |
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How to connect the frequency inverters?
usually there is two ways for connecting the motors, before you connection, please make sure you use Star connection or Delta connection, you can see the connection diagram as left picture.
usually there is two ways for connecting the motors, before you connection, please make sure you use Star connection or Delta connection, you can see the connection diagram as left picture.
How to Check the IGBT failure?
1. Use the diode position of the multimeter, the red pen to point the three-phase output terminals (U, V, W), the black pen point "+", measure whether the three-phase bridge on the inverter part is normal or not, and the multimeter shown about 0.4V is Normal, short circuit or open circuit means damage, as shown in left picture.
How to check the IGBT failure?
2. Use the multimeter diode position, the red pen point "-", and the black pens point the three-phase input terminals (U, V, W). Measure whether the three-phase lower bridge of the rectifier part is normal or not. The multimeter showing about 0.4V is Normal, short circuit or open circuit shows damage, as shown in left picture.
2. Use the multimeter diode position, the red pen point "-", and the black pens point the three-phase input terminals (U, V, W). Measure whether the three-phase lower bridge of the rectifier part is normal or not. The multimeter showing about 0.4V is Normal, short circuit or open circuit shows damage, as shown in left picture.
