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Boost Converter Filter Inductor

Voltage ripple, switching losses, and thermals in high-frequency DC-DC systems limit power quality. Frigate’s Boost Converter Filter Inductors deliver stable inductance across wide load variations with low core loss. 

Inductance (L)

10μH-10mH (Optimized for boost topology calculations)

Current Rating (Irms)

5-200A (Continuous DC+AC ripple current)

Current Rating (Isat)

7.5-300A (20% inductance drop point)

Switching Frequency Handling

20kHz-500kHz (Low-loss at high-frequency operation)

Ripple Current Tolerance

±30% of Irms (Designed for PWM waveforms)
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Product Description

We offer designs from 10 μH to 10 mH that maintain shape under ripple-heavy conditions at 20–500 kHz. With high-flux cores and tight winding layouts, our inductors limit EMI and preserve thermal headroom in compact spaces. 

Transient Response Time

<10μs (For rapid load changes)

Frequency Range

DC-1MHz (Stable across operating spectrum)

DC Resistance (DCR)

0.001-0.1Ω (Minimizes conduction losses)

Core Material

High-flux powdered iron (Low core loss at high ΔB)

Tolerance (%)

±10% standard (±5% precision option)

Temperature Range

-40°C to +125°C (Full performance range)

Mounting Style

Through-hole or SMD (Vibration-resistant)

Termination Type

Heavy-duty pins or solder pads (Up to 200A)

Diode Compatibility

Schottky/SiC/GaN (Low Qrr for fast switching)

Certification Standards

AEC-Q200 Grade 1, UL Recognized, RoHS

Technical Advantages

Our filter inductors operate at switching frequencies up to 500 kHz without increased core temperature. Low DCR winding paths reduce conduction drop and support continuous ripple current up to 200 A. 

We use thermally stable insulation and offer termination options for surface or through-hole mountings. Units are qualified to AEC-Q200 Grade 1 and meet RoHS and UL material standards. 

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Industry Applications

EV Onboard Chargers

Delivers low-ripple DC in compact powertrain converters using GaN or SiC switching elements. 

Solar Inverters

Filters PV input ripple and stabilizes boost regulation across daily irradiance shifts. 

Battery Energy Storage Systems

Maintains DC bus smoothness in high-current, charge-discharge operations. 

Telecom Rectifiers

Supports continuous-duty power conversion with stable magnetic response over wide thermal swings. 

Industrial Drives

Reduces switching ripple during dynamic acceleration in variable-speed motor systems. 

Aerospace Power Modules

Enables lightweight, vibration-resistant magnetics for boost stages in flight power rails. 

Adaptable Magnetics for Critical Converter Nodes

Converter nodes vary in switching speed, load step response, and footprint. Frigate’s filter inductors support all topologies with design flexibility in size, shape, and inductance range. 

We offer optional V-groove windings for thermal relief and custom leads or solder pad terminations. Tighter tolerance variants are available for precision DC-link filtering. 

Boost Converter Filter Inductor

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Having Doubts? Our FAQ

Check all our Frequently Asked Question

How does Frigate minimize high-frequency ripple in boost converter filter inductors?

Frigate engineers its filter inductors with tight inductance tolerances and low core loss materials. This helps suppress output ripple generated at high PWM switching speeds. Coil geometry and interwinding spacing are selected to reduce parasitic capacitance. These inductors are tested with typical ripple current profiles found in boost converter applications to validate suppression efficiency. 

What makes Frigate’s filter inductors suitable for compact boost converter layouts?

Frigate uses high-flux core shapes that support high current density in small footprints. The coil winding layout is designed to optimize space while keeping thermal buildup low. These inductors integrate well into power-dense converter topologies, including vertical mount and planar module configurations. Mechanical stability is verified through shock and vibration tests. 

How does Frigate address thermal stress in continuous operation at elevated ambient temperatures?

Frigate selects thermally stable core materials and Class H insulation for extended high-temperature endurance. The copper fill ratio is controlled to reduce resistive losses under full load. Heat rise is modeled across worst-case airflow conditions, and every inductor design is validated through temperature cycling. This ensures stable operation at 110°C panel temperatures without derating. 

 

Can Frigate customize boost converter inductors for high ripple current handling?

Frigate offers filter inductors with optimized core gap and winding geometry for ripple-heavy duty cycles. Saturation testing is conducted under full ripple swing to ensure inductance retention. Custom designs include reinforced terminations and thermal shielding to manage prolonged stress. This makes them ideal for converters with steep voltage step-up requirements. 

How does Frigate ensure EMI compatibility in high-frequency boost converter applications?

Frigate designs its inductors with controlled stray field emissions and uses core materials that dampen HF ringing. The winding layout minimizes loop area, reducing noise injection into nearby traces. Each inductor undergoes conducted and radiated EMI assessment across the 150 kHz–30 MHz band. Results confirm compliance with key industrial converter EMI thresholds. 

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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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Boost Converter Filter Inductor

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!

Get Latest Price

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Boost Converter Filter Inductor

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