The PGD-E180 inverter stands out as a reliable and versatile high-performance vector control solution. Designed with advanced control modes like SVC, V/F control, and VC, it excels in delivering precise speed control, rapid torque response, and robust low-frequency output torque. Whether for demanding industrial applications or precision-driven operations, the PGD-E180 inverter sets a new standard for performance and reliability.
The PGD-E100 series inverter is a versatile, low-power solution tailored for general-purpose applications. With advanced control modes like SVC and V/F, it delivers stable performance and a wide range of functions. Combining exceptional value, a streamlined design, and a sleek appearance, the PGD-E100 is a reliable and cost-effective choice for diverse operational needs.
The PGD-E102 series inverter is a timeless low-power solution designed for simplicity and efficiency. Equipped with advanced SVC and V/F control, it ensures reliable performance while offering streamlined functionality. By focusing on the most frequently used configurations, it delivers exceptional value and cost-effectiveness, making it an ideal choice for practical applications.
The PGD-EM60 series inverter is a compact, low-power single-phase powerhouse designed for efficiency and simplicity. Featuring advanced SVC and V/F control, it ensures stable performance while streamlining functionality to meet essential user needs. Its core configuration covers the most frequently used features, with the flexibility to expand through additional I/O and communication interfaces, making it a perfect fit for versatile applications.
| Item | Specifications | ||
| Content |
Control Mode |
V/F control
Open-loop Vector Control (SVC) Vector Control (VC) (Not applicable to El00/E102/EM60 series) |
|
| Frequency Precision | Digital: 0.02%
Analog: 0.1% |
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| V/F Curve | Linear, square root, any V/F | ||
|
Overload Capacity |
G-type: 150% rated current for 60s; 180% rated current for 3s
P-type: 120% rated current for 60s; 150% rated current for 3s |
||
| Start Torque | G-type: 0.5Hz/150% (SVC); 0Hz/180% (VC) | ||
| Speed Adjustment Range | 1:100 (SVC) | 1:1000 (VC) | |
| Steady Speed Precision | 0.5% (SVC) | 0.02% (VC) | |
| Torque Precision | 5% (VC) | ||
| Torque Compensation | Manual torque compensation (0.10%-30.0%); Automatic torque compensation | ||
| Operating Mode | Key-board, terminal, RS485 communication | ||
|
Basic Type Function
|
Frequency Source |
14 main sources, 14 auxiliary sources. Easy switch between different modes.
Diversified input modes for every source: keyboard potentiometer, external analog, digital setting, pulse frequency, multi-speed, simple PLC, communication, computing results, etc. |
|
| Torque Source | 14 torque sources, including digital setting, external analog, pulse setting, multi-order, communication, computing results, etc. | ||
| Acceleration and Deceleration Time | 4 groups of lines (can be switched through the option terminals); S Curve 1, S Curve 2 | ||
| Emergency Stop | Interrupt the output instantaneously | ||
| Multi-speed | 16-shift speeds at most; can be switched by different combination of order terminals | ||
| Simple PLC | Continuous operation of 16-shift speeds; the acceleration/deceleration time, operating time and frequency source for every shift can be set separately | ||
| Inching Control | Inching frequency and inching acceleration/deceleration time can be set separately; Inching can be prioritized in process. | ||
| Rotating-speed Track | Track the start speed and operating speed of the inverter’s load | ||
| Length and Distance Control | Length and distance control through pulse inputs | ||
| Counting | Counting through pulse inputs | ||
| Swing Frequency | For winding machines in the textile industry | ||
| Internal PID | Closed-loop process control system is available | ||
| AYR | Ensure constant output in case of fluctuating grid voltage | ||
| DC Brake | Quick and stable parking is available | ||
| Slip Compensation | Compensate the slip deviation due to increased load | ||
| Hopping Frequency | Prevent resonance with the load | ||
| Droop Function | Balance the load rate of different motors which drive the same load | ||
| Timing | Automatic stop at a given time | ||