131N8413
Wake Industrial LLC is not an authorized distributor of this product.
MPN: FC-302P15KT7E21H2BGCXXXSXXXXAXBXCXXXXDX
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
The 131N8413 is a three-phase drive with a voltage range of 525-690 VAC and an enclosure type classified as IP21/Type 1. Manufactured by Danfoss as part of their VLT FC 302 Automation Drives, it boasts a rated power of 11 kW at 525-550V. It includes an integrated RFI filter and a brake chopper.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
The Danfoss 131N8413 Frequency Converter is designed for efficient motor and drive control. It features a compact interface with integrated keypad and display. The model ensures precise control, parameter access and real time status monitoring through its local control panel.
The local control panel (LCP) of this 131N8413 frequency converter is positioned on the front. It combines both display and keypad that enable users to control the drive and motor, program parameters, and view operational data, status and warnings. The converter supports four programmable digital inputs with a provision to expand to six. These inputs are located on terminal numbers 18, 19, 27, 29, 32 and 33. They can be configured for PNP or NPN logic with a voltage range of 0 – 24 V DC. For analog signal handling, the unit includes two analog inputs on terminals 53 and 54. These support voltage or current modes selectable via switches A53 and A54. In voltage mode, the input range is from - 10 V to + 10 V and is scalable. The input resistance in voltage mode is approximately 10 kΩ with a maximum voltage of ± 20 V. In current mode, the input range is 0/4 to 20 mA with an input resistance of approximately 200 Ω and a maximum current capacity of 30 mA. The resolution for analog inputs is 10 bit with sign and the maximum error in accuracy is 0.5 % of full scale.
The 131N8413 frequency converter features back channel cooling. This system directs heat sink cooling air through a duct that expels around 90 % of the generated heat via the back channel. This enhances thermal management and minimizes heat buildup inside control panels. The cooling air can be redirected outside the enclosure to maintain optimal working conditions.
Frequently Asked Questions about 131N8413:
Q: How does the 131N8413 Frequency Converter facilitate on-site parameter configuration and real-time motor status access?
A: It includes a front-mounted Local Control Panel (LCP) with an integrated display and keypad. This interface allows users to program parameters and monitor status, alarms, and operational data locally.
Q: How does the 131N8413 Frequency Converter handle multiple control signals in complex logic-driven systems?
A: It supports four programmable digital inputs with expansion to six via terminals 18, 19, 27, 29, 32, and 33. These inputs accept 0–24 V DC signals and are configurable for both PNP and NPN logic types.
Q: How flexible is the analog input configuration on the 131N8413 Frequency Converter for signal scaling and source compatibility?
A: It features two analog inputs at terminals 53 and 54, selectable for current or voltage modes via DIP switches. Voltage mode supports ±10 V input at 10 kΩ, while current mode supports 0/4–20 mA at 200 Ω input resistance.
Q: How accurately does the 131N8413 Frequency Converter process analog control signals in high-precision applications?
A: Its analog inputs operate with 10-bit resolution and include sign handling for bidirectional signals. The maximum accuracy deviation is 0.5% of full scale, ensuring consistent response to signal fluctuations.
Q: How does the 131N8413 Frequency Converter manage thermal load inside enclosures during continuous-duty operation?
A: It uses a back-channel cooling system that expels up to 90% of heat through a separate duct. This minimizes internal panel heating and allows cooling air to be directed outside the enclosure.
