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Output Chokes

Modern power electronics demand more than just voltage regulation — they require robust inductive filtering that ensures system stability, suppresses switching noise, and protects sensitive components. Output Chokes serve as a critical interface between power supplies and load systems, addressing key operational pain points in high-frequency, high-current applications. 

Rated System Voltage

400 V / 480 V / 690 V AC

Operating Frequency Range

10 kHz to 100 kHz

Inductance Tolerance

±10% (measured at rated current and switching frequency)

Core Material

Ferrite / Amorphous metal / Powdered iron

Insulation Class

Class F or H (155°C / 180°C thermal endurance depending on application)
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Product Description

Power conversion systems often suffer from residual ripple and noise due to high-frequency switching. This leads to signal distortion and degraded performance in sensitive load circuits. Output Chokes offer high inductance with low core losses, which attenuates ripple voltage effectively and stabilizes DC output. Buyers benefit from cleaner signals, lower EMI, and reduced need for additional filtering downstream. 

Maximum Hot Spot Temperature

140°C continuous, 160°C short-duration (forced or natural cooled)

Rated Load Current

Up to 1000 A RMS (customizable based on converter rating)

Core Loss Density

≤ 250 mW/cm³ at 50 kHz, depending on core material

Dielectric Withstand Voltage

2.5 kV AC for 1 minute between winding and core

Magnetic Flux Density (Bmax)

≤ 0.25 T at rated current to avoid core saturation at high frequency

Short Circuit Thermal Withstand

2 x Irms for 1 second (per IEC 60076-6 standards)

Ripple Current Handling

Up to 40% peak-to-peak of rated current without inductance collapse

Winding Configuration

Copper foil or Litz wire, optimized for skin and proximity effect at high frequencies

Mounting Configuration

Horizontal or vertical mount with shock-isolated brackets for vibration zones

Acoustic Noise Level

≤ 60 dB at 1 meter under full load, minimized by distributed gap core design

Technical Advantages

Load fluctuations—like inrush currents, short circuits, or back EMF—can cause voltage spikes and current surges. These conditions damage switching devices or cause control loop instability. Our Output Chokes provide current smoothing and transient suppression, offering low saturation flux density and optimized thermal profiles. This ensures safe decoupling between converter and load, even under dynamic operating conditions. 

Switching elements in inverters and SMPS experience repetitive electrical stress due to steep output current slopes (di/dt). Output Chokes with high di/dt handling capability and low leakage inductance limit current transients, thus extending the service life of semiconductors. Buyers reduce unplanned downtimes and improve inverter MTBF (Mean Time Between Failures). 

 

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Industry Applications

DC-DC Converters

Smooths pulsating output current, providing continuous conduction mode operation and reducing electromagnetic interference in telecom and data center converters. 

Inverter-Based Solar Systems

Filters high-frequency inverter switching noise, ensuring cleaner DC output to batteries or AC interface through isolation transformers in PV systems. 

Uninterruptible Power Supplies (UPS)

Dampens output voltage transients during load switching, stabilizing power delivery to critical loads during battery-to-line transition periods. 

Battery Energy Storage Systems (BESS)

Limits inrush and ripple currents during charge/discharge cycles, preserving battery lifespan and protecting DC bus in modular systems. 

Electric Vehicle (EV) Chargers

Controls high-frequency ripple and switching noise, reducing harmonic distortion and ensuring compliance with EMC standards in onboard or offboard chargers. 

Industrial Automation Equipment

Isolates switching transients from sensitive control electronics, improving noise immunity in PLCs, servo controllers, and robotics power interfaces. 

Output Chokes

Ensure Thermal Reliability Under Continuous Load

Continuous high current operation leads to core saturation and overheating in poorly designed inductors. Our Output Chokes use high thermal class insulation systems and low-loss magnetic materials, ensuring stable inductance at elevated temperatures and excellent heat dissipation. Buyers get longer thermal life and minimal drift over time. 

With switching frequencies ranging from 10 kHz to 100 kHz, high-speed converters require magnetics that can maintain performance without core saturation. Our Output Chokes are engineered with frequency-optimized ferrite or amorphous cores, enabling low core losses at high frequencies. This improves overall power conversion efficiency and reduces filter size. 

Output Chokes

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Having Doubts? Our FAQ

Check all our Frequently Asked Question

How does Frigate ensure the Output Choke maintains inductance under full-load current conditions?

Frigate uses magnetic cores with high saturation flux density to maintain stable inductance even at peak load currents. The chokes are designed with precise air gap control to prevent magnetic collapse. Advanced simulations validate core behavior under thermal and electrical stress. This ensures inductance does not drop, avoiding ripple increase or current distortion. 

What materials does Frigate use for Output Chokes in high-frequency switching applications?

Frigate selects ferrite or amorphous metal cores based on the target switching frequency and thermal limits. Ferrite offers low core loss at moderate frequencies, while amorphous cores work better above 50 kHz. The material choice is driven by efficiency, EMI suppression, and thermal stability. Each choke is tested for loss behavior across frequency range. 

How does Frigate design Output Chokes for compact enclosures or space-limited applications?

Frigate uses multi-layer winding techniques and high-permeability cores to reduce physical footprint while maintaining required inductance. Thermal management is addressed through custom core shapes and heat dissipation paths. Low-profile terminations and mounting options are provided for easy integration. These designs meet electrical specs without compromising on space or safety. 

What steps does Frigate take to control leakage inductance in Output Chokes?

Frigate controls leakage inductance by optimizing winding geometry, coil spacing, and interleaving layers. This improves coupling and reduces stray fields, which is important in EMI-sensitive circuits. Simulation tools are used during design to predict magnetic field distribution. Final designs are tested for parasitics before approval. 

 

How does Frigate validate long-term reliability of Output Chokes in industrial environments?

Frigate performs thermal aging, high-potential insulation, and vibration testing on Output Chokes used in harsh environments. Materials used conform to Class H or Class F insulation standards. Windings are vacuum impregnated to improve mechanical strength and resist moisture. These tests ensure long operational life under cyclic thermal and electrical loads. 

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LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Operations Office

9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ

Other Locations

  • Bhilai
  • Chennai
  • Texas, USA
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Output Chokes

Need reliable wires and cables for your next project? Get in touch with us today, and we’ll help you find exactly what you need!

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Output Chokes

Need reliable Machining for your next project? Get in touch with us today, and we’ll help you find exactly what you need!

Get Latest Price

Get Price Form