Abstract
In RF (Radio Frequency) power matching networks, medical MRI coils, and semiconductor plasma generators, ceramic capacitors are the "heart" components that handle high-frequency, high-current loads. However, facing a market dominated by European and American brands like HEC (High Energy Corp) and Vishay (Draloric), lead times of 16-30 weeks and single-source risks have become bottlenecks restricting high-end manufacturing.
This white paper details HVC Capacitor's HVCHF Series. Through proprietary ceramic dielectric formulations and optimized terminal structures, HVC has achieved Pin-to-Pin drop-in replacement for HEC HT Series and Vishay TOS Series. Test data shows HVC products excel in loss control (Tanδ < 0.06%) and temperature rise suppression (30% reduction), while offering an agile 4-6 week delivery experience.
Under high-frequency (13.56MHz / 27.12MHz) and high-voltage (>5kV) operating conditions, RF capacitors face two core challenges:
When RF current flows through a capacitor, dielectric loss and equivalent series resistance (ESR) are converted into heat. $$P_{loss} = I_{rms}^2 imes ESR + P_{dielectric}$$ If traditional capacitors have poor loss control, continuous operation at high power can lead to a sharp increase in device surface temperature, subsequently causing parameter drift or even thermal breakdown.
Standard lead times for HEC and Vishay typically remain above 20 weeks. For NPI (New Product Introduction) and MRO (Maintenance, Repair, and Operations) of semiconductor equipment, such waiting periods represent unacceptable costs.
HVC's Solution: Address the "heat" issue with Class I low-loss dielectrics and the "slowness" issue with an agile manufacturing system.
The HVC HVCHF Series is not merely a simple imitation, but rather based on deep material science optimization, employing a strict dielectric classification strategy:
Class I (NP0 / N750): Resonance Mainstay.
Class II (N4700): Coupling and DC Blocking.
To ensure customers do not need to modify busbars or brackets during installation, HVC strictly defines physical dimensions and thread standards.
The following table uses HEC and Vishay original part numbers as an index. Please find HVC's recommended alternative part number on the far right, based on the model you are currently using.
| Original HEC Part No. | Original Vishay (Draloric) Part No. | Specifications (Cap/Dielectric) | HVC Recommended Alternative Part No. |
|---|---|---|---|
| HT50V100KA | 7FAA100K... / TOS 020016...AC | 10 pF / NP0 | HVCHF-A-100K-7.5kV |
| HT50V250KA | 7FAA250K... / TOS 020016...AC | 25 pF / NP0 | HVCHF-A-250K-7.5kV |
| HT50U500KA | 7FAU500K... / TOS 020016...AL | 50 pF / N750 | HVCHF-A-500K-7.5kV |
| HT50U101KA | 7FAU101K... / TOS 020016...AL | 100 pF / N750 | HVCHF-A-101K-7.5kV |
| HT50U201KA | 7FAU201K... / TOS 020016...AL | 200 pF / N750 | HVCHF-A-201K-7.5kV |
| HH58R501KA | TOS 020016 500 K ... AQ | 500 pF / N4700 | HVCHF-A-DL-501K-7.5kV |
| HH58R102KA | TOS 020016 1000 K ... AQ | 1000 pF / N4700 | HVCHF-A-DL-102K-7.5kV |
| Original HEC Part No. | Original Vishay (Draloric) Part No. | Specifications (Cap/Dielectric) | HVC Recommended Alternative Part No. |
|---|---|---|---|
| HT57A100KA | BS030033 100 K ... AC | 10 pF / NP0 | HVCHF-B-100K-15kV |
| HT57A500KA | BS030033 500 K ... AC | 50 pF / NP0 | HVCHF-B-500K-15kV |
| HT57A101KA | BS030033 100 K ... AC | 100 pF / NP0 | HVCHF-B-101K-15kV |
| HT57U251KA | BS030033 250 K ... AL | 250 pF / N750 | HVCHF-B-251K-15kV |
| HT57U501KA | BS030033 500 K ... AL | 500 pF / N750 | HVCHF-B-501K-15kV |
| HT57R102KA | BS030033 1000 K ... AQ | 1000 pF / N4700 | HVCHF-B-DL-102K-15kV |
| HT57R202KA | BS030033 2000 K ... AQ | 2000 pF / N4700 | HVCHF-B-DL-202K-15kV |
Contact: Sales Department
Phone: +86 13689553728
Tel: +86-755-61167757
Email: sales@hv-caps.com
Add: 9B2, TianXiang Building, Tianan Cyber Park , Futian, Shenzhen, P. R. C