FC-202P5K5T4E55H5XGCXXXSXXXXAX
Wake Industrial LLC is not an authorized distributor of this product.
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
The FC-202P5K5T4E55H5XGCXXXSXXXXAX Adjustable Frequency Drive ensures precise motor control with a 0–590 Hz output frequency range and adjustable supply voltage (0–100%). Featuring Automatic Derating, it intelligently monitors operational parameters for efficiency. Its ramp times of 1–3600 seconds enable controlled acceleration and deceleration.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
The module FC-202P5K5T4E55H5XGCXXXSXXXXAX is a Adjustable Frequency Drive designed for precision motor control. It ensures efficiency, durability and adaptability in various industrial automation applications. It optimizes motor operation effectively with flexible torque characteristics and a broad frequency range.
This Danfoss FC-202P5K5T4E55H5XGCXXXSXXXXAX frequency drive supports both normal and high overload torque characteristics. In normal overload mode, it delivers a maximum of 110 % torque for 1 minute every 10 minutes. In high overload mode, it can reach 150/160 % torque for 1 minute every 10 minutes that ensures reliable start up and overload handling. The motor output of this drive features 0 – 100 % adjustable supply voltage and an extensive output frequency range of 0 – 590 Hz. This drive unit allows unlimited switching on output to ensure flexibility in operations. It supports ramp times between 1 and 3600 seconds that allows controlled acceleration and deceleration. These features enable smooth and efficient performance in various motor driven systems. This VLT FC 202 AQUA Drive is designed for demanding environments where stable and adaptable motor control is essential. It enhances motor efficiency and longevity with precise output adjustments and overload handling.
This FC-202P5K5T4E55H5XGCXXXSXXXXAX frequency drive is designed with an advanced Automatic Derating feature, which continuously monitors critical operational parameters to ensure optimal performance and prevent potential failures. It actively checks for key factors such as elevated temperatures on the control card or heatsink, excessive motor load, high DC link voltage and low motor speed. The drive intelligently adjusts the switching frequency to maintain efficiency and protect internal components when any of these parameters reach critical levels. This drive is also capable of forcing the Pulse Width Modulation (PWM) pattern to SFAVM (Space Vector Advanced Voltage Modulation).
Frequently Asked Questions about FC-202P5K5T4E55H5XGCXXXSXXXXAX:
Q: What modulation technology does the FC-202P5K5T4E55H5XGCXXXSXXXXAX use for optimized motor control?
A: This drive features SFAVM (Space Vector Advanced Voltage Modulation) PWM control. It enhances efficiency by reducing harmonic distortion and improving voltage utilization for better motor performance in demanding applications.
Q: How does the FC-202P5K5T4E55H5XGCXXXSXXXXAX frequency drive handle sudden load fluctuations?
A: This drive features normal and high overload torque modes to handle sudden load variations. It delivers 110% torque for 1 minute every 10 minutes in normal overload mode and up to 160% torque in high overload mode for stable performance.
Q: Does the FC-202P5K5T4E55H5XGCXXXSXXXXAX support precise motor speed control?
A: Yes, it offers an extensive output frequency range of 0–590 Hz and adjustable supply voltage (0–100%). These features enable precise speed regulation, ensuring smooth acceleration and deceleration for optimized motor performance.
Q: How does the FC-202P5K5T4E55H5XGCXXXSXXXXAX prevent overheating and system failure?
A: The Automatic Derating feature continuously monitors heat levels on the control card or heatsink, motor load, and DC link voltage. It dynamically adjusts switching frequency to maintain efficiency and protect internal components under critical conditions.
Q: Can the FC-202P5K5T4E55H5XGCXXXSXXXXAX frequency drive handle frequent start-stop cycles?
A: Yes, it allows unlimited switching on output without affecting operational stability. This ensures seamless performance in high-frequency start-stop applications where rapid response and adaptability are essential.
