FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX
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-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX drive features a current of 80 amps, power loss of 25 watts, dimensions of 80 x 398 x 200 mm, and weighs 6 Kilograms. Part of the VLT AutomationDrive FC 302 series by Danfoss, it operates at a frequency of 50/60 Hz and conforms to EMC Level Class A standards.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
Danfoss is a global leader in power electronics and provide energy efficient solutions across industries. Their products include variable frequency drives, electric motors and industrial automation solutions.
The FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX frequency converter drive is suitable for systems operating at 550 V. It provides continuous kVA ratings of 18.1 kVA for high overload (HO) and 21.9 kVA for normal overload (NO). The built in torque limit function offers overload protection by limiting the torque, independent of the motor speed. This is controlled via the Torque Limit Motor Mode or Torque Limit Generator Mode with a configurable trip delay time. It also supports cables with a maximum cross section of 16 mm² for disconnects to ensure robust and safe electrical connections. The model is equipped with voltage limit protection which deactivates the inverter if the voltage exceeds preset levels thus protecting sensitive components like transistors and capacitors. The device can deliver a typical shaft output of 15 kW at normal overload conditions for demanding applications that require constant and precise motor control.
This VLT AutomationDrive FC 302 series frequency converter is equipped with several critical features to ensure optimal operation and motor protection. The device features a current limit function which can be adjusted within the defined current limit range. This helps protect the drive and motor from excessive current with an adjustable trip delay. The device can handle maximum continuous input currents of 17.2 A in HO mode and 20.9 A in NO mode. This high power capacity ensures reliability and versatility for a wide range of motor driven equipment. Overtemperature protection is also built in with temperature sensors providing real time monitoring. The drive will automatically react to prevent damage if critical temperature thresholds are reached.
Frequently Asked Questions about FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX:
Q: What is the resonance damping feature of the FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX frequency converter?
A: The resonance damping feature eliminates high-frequency motor resonance noise. The frequency damping can be either automatically or manually selected to optimize performance and reduce unwanted noise during operation.
Q: How does galvanic isolation protect the control terminals in the FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX?
A: The control and output relay terminals in this frequency converter are galvanically isolated from mains power. This isolation protects the controller circuitry from input current and meets protective extra-low voltage (PELV) requirements.
Q: How does the temperature-controlled fan system in the FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX improve efficiency?
A: The frequency converter uses temperature-controlled fans that are regulated by internal sensors. These fans are inactive during low load or standby modes, improving overall efficiency and extending the fan's lifespan.
Q: What is the purpose of the automatic motor adaptation feature in the FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX?
A: Automatic Motor Adaptation (AMA) measures the motor’s electrical characteristics to create an accurate electronic model. This procedure enhances energy optimization, ensuring the frequency converter delivers optimal performance without motor rotation or uncoupling.
Q: How does the FC-302P11KT5131F0428H2XGXXXXSXXXXAXBXCXXXXDX handle mains drop-out?
A: During a mains drop-out, the converter continues to run until the intermediate circuit voltage drops below a set threshold. The duration of this depends on the mains voltage and motor load before the drop-out.
