HVC vs. HVCA: Material Science & Tech Evolution Deep Dive

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HVC vs. HVCA: Material Science & Tech Evolution Deep Dive

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Abstract

High voltage ceramic capacitors, as core components in modern high voltage systems, are widely used in critical fields such as medical imaging (CT/DR), industrial static electricity (spraying/dust removal), high voltage power supplies, new energy (EV charging), and scientific research (particle accelerators). However, as equipment evolves towards miniaturization, higher frequencies, higher power density, and higher reliability, traditional high voltage capacitor technology faces challenges such as the contradiction between dielectric constant and withstand voltage, the trade-off between temperature stability and capacitance density, environmental compliance issues, and long-term reliability problems caused by partial discharge.

This paper aims to deeply analyze how HVC Capacitor effectively solves these industry pain points through innovative nanomaterial science, its unique Internal Dual-Chip Stacking Technology, and rigorous Solid Copper Terminal Process. We will conduct a in-depth comparison with the industry's traditional benchmark, HVCA (Dean Technology), revealing the technical ceiling of its "brand operator" model. This white paper will provide detailed technical insights and highly competitive alternative solutions for high-end equipment manufacturers and engineers who pursue high performance, high reliability, environmental compliance, and long-term economic benefits, helping them achieve the excellent engineering goal of "install-and-forget".

1. Introduction: Supply Chain Restructuring and the Demise of the "Original Manufacturer Illusion"

High voltage ceramic capacitors play an indispensable role in modern industrial and technological fields. For a long time, procurement managers tended to choose European and American brands (such as HVCA), believing this represented quality assurance. However, with the discontinuation of the Murata DHS series and increased supply chain transparency, an industry truth has emerged.

1.1 HVCA (Dean Technology)'s "Porter" Model

After in-depth industry research, we found that HVCA's NX series (ultra-high voltage) and JX series (customized) screw-terminal capacitors essentially adopt a "global procurement + brand labeling"trading model.

R&D Hollowing Out: Its core capability lies in distribution, not underlying manufacturing. This means that when customer demands exceed the scope of standard products (such as ultra-high voltage above 50kV), they cannot provide solutions and are limited by the capabilities of their contract manufacturers.
  • Cost and Lead Time Black Hole: Products shipped from Chinese contract manufacturers, after cross-border logistics and brand markups, often end up costing 300% of the ex-factory price, with lead times typically extending to 16-24 weeks.

1.2 HVC Capacitor: Returning to the Essence of Manufacturing

  • HVC Capacitor is a source factory with full-process manufacturing capabilities.
  • Technological Sovereignty: We master all core processes, from ceramic powder formulation, green body forming, high-temperature sintering, to electrode silvering and epoxy encapsulation.
  • 150kV Dominance: HVCA's product line typically stops at 50kV, while HVC, with its profound manufacturing heritage, can easily mass-produce ultra-high voltage capacitors of 60kV, 80kV, 100kV, and even 150kV. **This "we have what others don't" capability proves who the true technological leader is.

2. Core Technology Deep Dive: How HVC Breaks Through Physical Limits

Facing the failure bottlenecks of high voltage ceramic capacitors, HVC chose a difficult but thorough path of innovation, completely restructuring from microscopic materials to macroscopic structures.

2.1 Structural Engineering Innovation: Internal Dual-Chip Stacking

This is HVC's most dominant technical barrier, distinguishing it from HVCA.

  • Traditional Bottleneck (HVCA): Traditional contract manufacturing processes, when producing capacitors above 40kV, simply increase the thickness of a single ceramic block to improve withstand voltage. However, the thicker the ceramic, the more difficult it is to control the temperature gradient during sintering, which easily leads to microscopic pores and cracks internally, resulting in severe Partial Discharge (PD).
  • HVC Solution: Introduction of semiconductor packaging-grade internal dual-chip/multi-chip series technology.
  • Principle: Two or more precise thin ceramic chips are stacked in series internally. According to the voltage division principle, each chip only bears 1/2 or 1/N of the total voltage.
  • Result: This enables HVC to mass-produce "monster-grade" specifications like 50kV 8000pF (N4700), whose withstand voltage margin and surge withstand capability far exceed HVCA's single-block ceramic solution.

2.2 Connection Process Upgrade: Solid Copper Terminals vs. Traditional Iron Caps/Silver Paste

In high voltage, high current, and mechanical installation scenarios, the terminal process determines the ultimate reliability of the component.

  • HVCA's Hidden Dangers: Mostly uses iron caps (poor conductivity, prone to rust) or directly sinters silver paste onto the ceramic surface. The silver paste layer has low mechanical strength and is highly prone to terminal detachment or stripped threads during high-torque installation.
  • HVC's Copper Terminal Process: All screw-terminal capacitors come standard with customized Solid Copper Terminals.
  • Thermal Performance: Copper's thermal conductivity is 5 times that of iron, allowing rapid heat dissipation from inside the chip.
  • Mechanical Performance: Coupled with a unique anchoring process, HVC capacitors can withstand an installation torque of 4.5 Nm, perfectly adapting to modern production line electric tool installation, completely significantly reducing "head-dropping" accidents (terminal detachment).

2.3 Dielectric Material Revolution: True N4700 (Class I) vs. Generic Formulas

Material is the soul of a capacitor. Some of HVCA's NX series, to reduce costs, often mix Class II materials like Y5U or Z5U.

  • HVC's Persistence: Our independently developed N4700 (Class I) strontium titanate-based formula, through nanoscale powder modification, achieves a perfect balance between dielectric constant and loss.
  • Ultra-low Loss: $ an delta < 0.2%$ (at 1kHz), reducing self-heating by 60% and extending lifetime by 2 times in high-frequency pulse applications (e.g., CT machines).
  • Environmental Compliance: Entire series is lead-free, compliant with RoHS/REACH standards.

3. Precise Benchmarking: HVCA JX/NX Full Series Replacement Solutions

HVC has developed a Pin-to-Pin perfect replacement strategy for HVCA's two main high-end series – NX (ultra-high voltage) and JX (customized).

3.1 Replacing NX Series: 30kV-40kV Ultra-High Voltage Precision Type

  • Target Applications: Medical CT X-ray tubes, X-Ray generators, smart grids. Benchmarking against Murata DHS series.
HVCA ModelHVC ReplacementSpecificationKey Upgrades
NX5T3M202K40KVHVCT8G-40KV-DL-202K40kV / 2000pFN4700 + Dual-chip technology, 50% higher withstand voltage margin
NX5T3M102K40KVHVCT8G-40KV-DL-102K40kV / 1000pFSolid copper terminals, loss tangent <0.2%
NX5T3M501K40KVHVCT8G-40KV-DL-501K40kV / 500pFOptimized for high-frequency pulses, 8°C lower temperature rise
NX5T3M472K30KVHVCT8G-30KV-DL-472K30kV / 4700pFPin-to-Pin compatible, 100% PD tested
NX5T3M222K30KVHVCT8G-30KV-DL-222K30kV / 2200pFOptimized creepage distance design

3.2 Replacing JX Series: 10kV-20kV High Capacitance/Custom Type

  • Target Applications: High voltage power supply filtering, voltage multiplier circuits, Marx generators.
HVCA ModelHVC ReplacementSpecificationKey Upgrades
JX5T3M802K10KVHVCT8G-10KV-E-802K10kV / 8000pFY5T (Class II) material, higher capacitance
JX5T3M103K10KVHVCT8G-10KV-E-103K10kV / 10000pFLow ESR design, strong ripple resistance
JX5T3M222K15KVHVCT8G-15KV-E-222K15kV / 2200pFPassed double 85 test (85℃/85% humidity)
JX5T3M472K20KVHVCT8G-20KV-E-472K20kV / 4700pFSolid copper terminals, rust resistant

4. Industry Endorsement: The Choice and Verification of Top Giants

HVC's technical confidence is not empty talk but stems from the rigorous verification of top global customers. Our products have covered markets in South America, North America, Asia, and Russia.

4.1 Siemens Healthineers - Brazil Factory

  • Challenge: The X-ray machine voltage multiplier circuit originally used HVCA products, facing a technical bottleneck of 20kV 3300pF high capacitance. HVCA's original solution was expensive and had unstable lead times.
  • HVC Solution: Provided a 20kV 3300pF (Y5T) customized solution.
  • Result: Leveraging HVC's Y5T dielectric advantage, successfully achieved high capacitance within a limited volume, reduced costs by 35%, and shortened lead times to 4 weeks, becoming a core secondary supplier.

4.2 GE Healthcare - CT X-ray Tube Assembly

  • Challenge: After Murata's discontinuation, there was an urgent need to find a screw-terminal capacitor replacement. HVCA samples were tested, and terminal strength was found to be insufficient, easily damaged during high-torque installation.
  • HVC Solution: HVCT8G Series (Solid Copper Terminals).
  • Result: HVC's copper terminals passed GE's extremely rigorous internal mechanical torque tests and 18-month aging tests, being recognized as a qualified successor to Murata DHS.

4.3 Simco-ION (Static Control) - Suzhou Factory

  • Challenge: High-frequency circuits required extremely low-loss non-standard capacitors (JB series). HVCA experienced supply disruptions during the pandemic and could not cooperate on cost reduction.
  • HVC Solution: Reverse-engineered and replicated SL/UJ dielectric capacitors.
  • Result: Loss tangent $<0.1%$, perfectly solved the high-frequency heating problem, and established a long-term stable supply relationship.

4.4 Russian Industrial Customer - Precision Power Supply

  • Challenge: The customer originally used HVCA's special specification 8kV 2700pF, requiring extremely high capacitance accuracy and temperature resistance, and faced HVCA supply interruptions due to geopolitical factors.
  • HVC Solution: Customized development based on the N4700 (Class I) patented formula.
  • Result: Successfully passed the customer's rigorous extreme cold environment tests, not only replacing the original model but also ensuring supply security with the advantage of being a source factory.

5. HVCA Full Series Model Cross-Reference Table

Below is the complete model cross-reference table for HVCA high-voltage ceramic capacitors, sourced from the official hv-caps.com website.

A. HV Ceramic Disc Capacitors - 19 Models

* Header Description: HVCA Part Number | Rated Voltage(kVDC) | Capacitance(pF) | Tolerance(±%) | D1(mm) Diameter | H1(mm) Height | T1(mm) Thickness | Ls3(mm) Lead Pitch | d4(mm) Lead Diameter | HVC Equivalent

HVCA Part NumberHVC EquivalentVoltage/CapacitanceToleranceDimensions (D×H×T×Ls×d)
TY2Y5P101M6KVHVC-6KV-DL06-F5-101K6kV / 100pF±20%D8×H11×T7×Ls10ר0.6mm
CK1SL201K6KVHVC-6KV-DL08-F10-221K6kV / 200pF±10%D14×H17×T5×Ls10ר0.7mm
TY2Y5P331M6KVHVC-6KV-DL10-F10-331K6kV / 330pF±20%D9×H12×T7×Ls10ר0.6mm
TY2Y5P471M6KVHVC-6KV-DL11-F10-471K6kV / 470pF±20%D10×H13×T7×Ls10ר0.6mm
TY4Y5P101M10KVHVC-10KV-DL07-F10-101K10kV / 100pF±20%D9×H12×T9×Ls10ר0.7mm
TY2Y5P331M10KVHVC-10KV-DL10-F10-331K10kV / 330pF±20%D10×H13×T8×Ls10ר0.6mm
TY4Y5P471M10KVHVC-10KV-DL12-F10-471K10kV / 470pF±20%D12×H15×T9×Ls10ר0.7mm
TY2BxN681M10KVHVC-10KV-DL15-F10-681K10kV / 680pF±20%D20×H23×T8×Ls10ר0.6mm
TY2BxN102M10KVHVC-10KV-DL16-F10-102K10kV / 1000pF±20%D23×H27×T8.5×Ls10ר0.7mm
TY4BxN101M15KVHVC-15KV-DL07-F10-101K15kV / 100pF±20%D12×H16×T11×Ls12.5ר0.7mm
TY2BxN331M15KVHVC-15KV-DL12-F10-331K15kV / 330pF±20%D19×H22×T11×Ls12.5ר0.7mm
NY2Y5P471M15KVHVC-15KV-DL14-F10-471K15kV / 470pF±20%D14×H18×T9×Ls12.5ר0.7mm
TY4BxN681M15KVHVC-15KV-DL16-F10-681K15kV / 680pF±20%D27×H31×T11×Ls12.5ר0.7mm
TY2Y5P102M15KVHVC-15KV-DL18-F12.5-102K15kV / 1000pF±20%D18.5×H21.5×T9×Ls12.5ר0.7mm
TY4Y5P101M20KVHVC-20KV-DL08-F10-101K20kV / 100pF±20%D10×H14×T14×Ls12.5ר0.8mm
TY3Y5P201•20KVHVC-20KV-DL12-F10-221K20kV / 200pF±20%D11×H15×T15×Ls15ר0.8mm
TY4BxN331M20KVHVC-20KV-DL13-F10-331K20kV / 330pF±20%D22×H26×T14×Ls12.5ר0.8mm
TY4Y5P471M20KVHVC-20KV-DL14-F10-471K20kV / 470pF±20%D17×H21×T14×Ls12.5ר0.8mm
TY4Y5P102M20KVHVC-20KV-DL21-F12.5-102K20kV / 1000pF±20%D22×H26×T14×Ls12.5ר0.8mm

B. HV Ceramic Doorknob Capacitors - 78 Models

* Header Description*: HVCA Part Number | Rated Voltage(kVDC) | Capacitance(pF) | Tolerance(±%) | D(mm) Diameter | H(mm) Height | L(mm) Length | Terminal Type | HVC Equivalent

HVCA Part NumberHVC EquivalentVoltage/CapacitanceToleranceDimensions (D×H×L)Terminal Type
JX5T3M561K10KVHVCT8G-10KV-DL30-561K10kV / 560pF±10%D20×H12×L16mmM4x4
JX5T3M122K10KVHVCT8G-10KV-DL30-122K10kV / 1200pF±10%D24×H12×L16mmM4x4
JX5T3M282K10KVHVCT8G-10KV-DL40-282K10kV / 2800pF±10%D38×H12×L16mmM4x4
JX5T3M502K10KVHVCT8G-10KV-DL50-502M10kV / 5000pF±10%D52×H12×L16mmM5x4
JX5T3M802K10KVHVCT8G-10KV-DL60-802M10kV / 8000pF±10%D58×H12×L16mmM5x4
NX5T3M561K10KVHVCT8G-10KV-DL30-561K10kV / 560pF±10%D20×H12×L16mmM4x4
NX5T3M122K10KVHVCT8G-10KV-DL30-122K10kV / 1200pF±10%D24×H12×L16mmM4x4
NX5T3M282K10KVHVCT8G-10KV-DL40-282K10kV / 2800pF±10%D38×H12×L16mmM4x4
NX5T3M502K10KVHVCT8G-10KV-DL50-502M10kV / 5000pF±10%D52×H12×L16mmM5x4
NX5T3M802K10KVHVCT8G-10KV-DL60-802M10kV / 8000pF±10%D58×H12×L16mmM5x4
JX5T3M371K15KVHVCT8G-15KV-DL30-371K15kV / 370pF±10%D20×H14×L18mmM4x4
JX5T3M112K15KVHVCT8G-15KV-DL30-112K15kV / 1100pF±10%D30×H14×L18mmM4x4
JX5T3M192K15KVHVCT8G-15KV-DL40-192K15kV / 1900pF±10%D38×H14×L18mmM4x4
JX5T3M342K15KVHVCT8G-15KV-E30-342M15kV / 3400pF±10%D52×H14×L18mmM5x4
JX5T3M532K15KVHVCT8G-15KV-DL60-532M15kV / 5300pF±10%D58×H14×L18mmM5x4
NX5T3M371K15KVHVCT8G-15KV-DL30-371K15kV / 370pF±10%D20×H14×L18mmM4x4
NX5T3M112K15KVHVCT8G-15KV-DL30-112K15kV / 1100pF±10%D30×H14×L18mmM4x4
NX5T3M192K15KVHVCT8G-15KV-DL40-192K15kV / 1900pF±10%D38×H14×L18mmM4x4
NX5T3M342K15KVHVCT8G-15KV-E30-342M15kV / 3400pF±10%D52×H14×L18mmM5x4
NX5T3M532K15KVHVCT8G-15KV-DL60-532M15kV / 5300pF±10%D58×H14×L18mmM5x4
NX5Y5P251K15KVHVCT8G-15KV-DL30-251K15kV / 250pF±10%D20×H15×L19mmM4x4
NX5Y5P501K15KVHVCT8G-15KV-DL30-501K15kV / 500pF±10%D24×H15×L19mmM4x4
NX5Y5P102K15KVHVCT8G-15KV-DL30-102K15kV / 1000pF±10%D36×H15×L19mmM4x4
JX5T3M281K20KVHVCT8G-20KV-DL30-281K20kV / 280pF±10%D20×H20×L24mmM4x5
JX5T3M881K20KVHVCT8G-20KV-DL30-881K20kV / 880pF±10%D30×H20×L24mmM4x5
JX5T3M142K20KVHVCT8G-20KV-DL40-142K20kV / 1400pF±10%D38×H20×L24mmM4x5
JX5T3M252K20KVHVCT8G-20KV-DL50-252K20kV / 2500pF±10%D52×H20×L24mmM5x5
JX5T3M402K20KVHVCT8G-20KV-DL50-402K20kV / 4000pF±10%D58×H20×L24mmM5x5
NX5T3M281K20KVHVCT8G-20KV-DL30-281K20kV / 280pF±10%D20×H20×L24mmM4x5
NX5T3M881K20KVHVCT8G-20KV-DL30-881K20kV / 880pF±10%D30×H20×L24mmM4x5
NX5T3M142K20KVHVCT8G-20KV-DL40-142K20kV / 1400pF±10%D38×H20×L24mmM4x5
NX5T3M252K20KVHVCT8G-20KV-DL50-252K20kV / 2500pF±10%D52×H20×L24mmM5x5
NX5T3M402K20KVHVCT8G-20KV-DL50-402K20kV / 4000pF±10%D58×H20×L24mmM5x5
NX5Y5P501K20KVHVCT8G-20KV-DL30-501K20kV / 500pF±10%D30×H18×L22mmM4x4
NX5Y5P102K20KVHVCT8G-20KV-DL30-102K20kV / 1000pF±10%D40×H18×L22mmM4x4
JX5T3M191K30KVHVCT8G-30KV-DL30-191K30kV / 190pF±10%D20×H24×L28mmM4x5
JX5T3M591K30KVHVCT8G-30KV-DL30-591K30kV / 590pF±10%D30×H24×L28mmM4x5
JX5T3M941K30KVHVCT8G-30KV-DL40-941K30kV / 940pF±10%D38×H24×L28mmM4x5
JX5T3M172K30KVHVCT8G-30KV-DL50-172K30kV / 1700pF±10%D52×H24×L28mmM5x5
JX5T3M272K30KVHVCT8G-30KV-DL55-272K30kV / 2700pF±10%D58×H24×L28mmM5x5
NX5T3M191K30KVHVCT8G-30KV-DL30-191K30kV / 190pF±10%D20×H24×L28mmM4x5
NX5T3M591K30KVHVCT8G-30KV-DL30-591K30kV / 590pF±10%D30×H24×L28mmM4x5
NX5T3M941K30KVHVCT8G-30KV-DL40-941K30kV / 940pF±10%D38×H24×L28mmM4x5
NX5T3M172K30KVHVCT8G-30KV-DL50-172K30kV / 1700pF±10%D52×H24×L28mmM5x5
NX5T3M272K30KVHVCT8G-30KV-DL55-272K30kV / 2700pF±10%D58×H24×L28mmM5x5
NX5Y5P501K30KVHVCT8G-30KV-DL30-501K30kV / 500pF±10%D36×H22×L26mmM4x4
JX5T3M141K40KVHVCT8G-40KV-DL30-141K40kV / 140pF±10%D20×H32×L36mmM4x6
JX5T3M441K40KVHVCT8G-40KV-DL30-441K40kV / 440pF±10%D30×H32×L36mmM4x6
JX5T3M701K40KVHVCT8G-40KV-DL40-701K40kV / 700pF±10%D38×H32×L36mmM4x6
JX5T3M132K40KVHVCT8G-40KV-DL50-132K40kV / 1300pF±10%D52×H32×L36mmM5x6
JX5T3M202K40KVHVCT8G-40KV-DL60-202K40kV / 2000pF±10%D58×H32×L36mmM5x6
NX5T3M141K40KVHVCT8G-40KV-DL30-141K40kV / 140pF±10%D20×H32×L36mmM4x6
NX5T3M441K40KVHVCT8G-40KV-DL30-441K40kV / 440pF±10%D30×H32×L36mmM4x6
NX5T3M701K40KVHVCT8G-40KV-DL40-701K40kV / 700pF±10%D38×H32×L36mmM4x6
NX5T3M132K40KVHVCT8G-40KV-DL50-132K40kV / 1300pF±10%D52×H32×L36mmM5x6
NX5T3M202K40KVHVCT8G-40KV-DL60-202K40kV / 2000pF±10%D58×H32×L36mmM5x6
NX5Y5P501K40KVHVCT8G-30KV-DL30-501K40kV / 500pF±10%D40×H28×L32mmM4x4
JX5T3M101K50KVHVCT8G-50KV-DL30-101K50kV / 100pF±10%D20×H35×L39mmM4x6
JX5T3M201K50KVHVCT8G-50KV-DL30-201K50kV / 200pF±10%D24×H35×L39mmM4x6
JX5T3M401K50KVHVCT8G-50KV-DL30-401K50kV / 400pF±10%D30×H35×L39mmM4x6
JX5T3M561K50KVHVCT8G-50KV-DL40-561K50kV / 560pF±10%D38×H35×L39mmM4x6
JX5T3M172K50KVHVCT8G-50KV-DL55-172K50kV / 1700pF±10%D58×H35×L39mmM5x6
NX5T3M101K50KVHVCT8G-50KV-DL30-101K50kV / 100pF±10%D20×H35×L39mmM4x6
NX5T3M201K50KVHVCT8G-50KV-DL30-201K50kV / 200pF±10%D24×H35×L39mmM4x6
NX5T3M401K50KVHVCT8G-50KV-DL30-401K50kV / 400pF±10%D30×H35×L39mmM4x6
NX5T3M561K50KVHVCT8G-50KV-DL40-561K50kV / 560pF±10%D38×H35×L39mmM4x6
NX5T3M172K50KVHVCT8G-50KV-DL55-172K50kV / 1700pF±10%D58×H35×L39mmM5x6
NX5Y5P501K50KVHVCT8G-50KV-DL40-501K50kV / 500pF±10%D52×H35×L39mmM5x5

* Note: The following is a more comprehensive list of HVCA high-voltage ceramic capacitor models, arranged by series group.

CK1 Series (NP0/SL Dielectric)

Model 1Model 2Model 3Model 4
CK1NP02R0K3KVCK1NP03R3K3KVCK1NP05R0K3KVCK1NP06R8K3KV
CK1NP0100K3KVCK1NP0150K3KVCK1NP0330K3KVCK1NP0510K3KV
CK1NP0680K3KVCK1NP0910K3KVCK1NP0151K3KVCK1NP02R0K6KV
CK1NP03R6K6KVCK1NP05R0K6KVCK1NP06R8K6KVCK1NP0100K6KV
CK1NP0150K6KVCK1NP0220K6KVCK1NP0330K6KVCK1NP0390K6KV
CK1NP0680K6KVCK1NP0910K6KVCK1NP0101K6KVCK1NP0151K6KV
CK1SL100K3KVCK1SL150K3KVCK1SL220K3KVCK1SL510K3KV
CK1SL680K3KVCK1SL910K3KVCK1SL151K3KVCK1SL161K3KV
CK1SL221K3KVCK1SL241K3KVCK1SL301K3KVCK1SL100K6KV
CK1SL150K6KVCK1SL330K6KVCK1SL390K6KVCK1SL510K6KV
CK1SL680K6KVCK1SL910K6KVCK1SL151K6KVCK1SL181K6KV
CK1SL201K6KVCK1SL271K6KVCK1SL301K6KV

CK2 Series

Model 1Model 2Model 3Model 4
CK2BxN471•8KVCK2BxN102•10KVCK2BxN202•10KVCK2BxN681•15KV
CK2BxN821•15KV

TY1 Series (SL Dielectric)

Model 1Model 2Model 3Model 4
TY1SL820K12KVTY1SL910K12KVTY1SL101K12KVTY1SL121K12KV
TY1SL151K12KVTY1SL181K12KVTY1SL221K12KVTY1SL100K15KV
TY1SL180K15KVTY1SL220K15KVTY1SL270K15KVTY1SL300K15KV
TY1SL330K15KVTY1SL470K15KVTY1SL680K15KVTY1SL820K15KV
TY1SL910K15KVTY1SL101K15KVTY1SL121K15KVTY1SL151K15KV
TY1SL181K15KVTY1SL221K15KVTY1SL180K20KVTY1SL220K20KV
TY1SL270K20KVTY1SL300K20KVTY1SL330K20KVTY1SL470K20KV
TY1SL680K20KVTY1SL820K20KVTY1SL910K20KVTY1SL101K20KV
TY1SL121K20KVTY1SL151K20KVTY1SL181K20KVTY1SL221K20KV

TY2 Series (BxN/Y5U Dielectric)

Model 1Model 2Model 3Model 4
TY2BxN101M3KVTY2BxN151M3KVTY2BxN221M3KVTY2BxN331M3KV
TY2BxN471M3KVTY2BxN561M3KVTY2BxN681M3KVTY2BxN821M3KV
TY2BxN102M3KVTY2BxN152M3KVTY2BxN222M3KVTY2BxN242M3KV
TY2BxN272M3KVTY2BxN332M3KVTY2BxN472M3KVTY2BxN101M4KV
TY2Y5U103M6KVTY2Y5U331M8KVTY2Y5U471M8KVTY2Y5U561M8KV
TY2Y5U681M8KVTY2Y5U821M8KVTY2Y5U102M8KVTY2Y5U152M8KV
TY2Y5U222M8KVTY2Y5U272M8KVTY2Y5U332M8KVTY2Y5U472M8KV
TY2Y5U682M8KVTY2Y5U822M8KVTY2Y5U103M8KVTY2Y5U331M10KV
TY2Y5U471M10KVTY2Y5U561M10KVTY2Y5U681M10KVTY2Y5U821M10KV
TY2Y5U102M10KVTY2Y5U152M10KVTY2Y5U222M10KVTY2Y5U272M10KV
TY2Y5U332M10KVTY2Y5U472M10KVTY2Y5U682M10KVTY2Y5U822M10KV
TY2Y5U331M12KVTY2Y5U471M12KVTY2Y5U561M12KVTY2Y5U681M12KV
TY2Y5U821M12KVTY2Y5U102M12KVTY2Y5U152M12KVTY2Y5U222M12KV
TY2Y5U272M12KVTY2Y5U332M12KVTY2Y5U472M12KVTY2Y5U682M12KV
TY2Y5U822M12KVTY2Y5U331M15KVTY2Y5U471M15KVTY2Y5U561M15KV
TY2Y5U681M15KVTY2Y5U821M15KVTY2Y5U102M15KVTY2Y5U152M15KV
TY2Y5U222M15KVTY2Y5U272M15KVTY2Y5U332M15KVTY2Y5U472M15KV

TY4 Series (Y5P/Y5U Dielectric)

Model 1Model 2Model 3Model 4
TY4Y5P221M12KVTY4Y5P331M12KVTY4Y5P471M12KVTY4Y5P561M12KV
TY4Y5P681M12KVTY4Y5P821M12KVTY4Y5P102M12KVTY4Y5P152M12KV
TY4Y5P222M12KVTY4Y5P272M12KVTY4Y5P332M12KVTY4Y5P101M15KV
TY4Y5P151M15KVTY4Y5P221M15KVTY4Y5P331M15KVTY4Y5P471M15KV
TY4Y5P561M15KVTY4Y5P681M15KVTY4Y5P821M15KVTY4Y5P102M15KV
TY4Y5P152M15KVTY4Y5P222M15KVTY4Y5P101M20KVTY4Y5P151M20KV
TY4Y5P221M20KVTY4Y5P331M20KVTY4Y5P471M20KVTY4Y5P561M20KV
TY4Y5P681M20KVTY4Y5P821M20KVTY4Y5P102M20KVTY4Y5P152M20KV
TY4Y5U331M3KVTY4Y5U471M3KVTY4Y5U561M3KVTY4Y5U681M3KV
TY4Y5U821M3KVTY4Y5U102M3KVTY4Y5U152M3KVTY4Y5U222M3KV
TY4Y5U272M3KVTY4Y5U332M3KVTY4Y5U472M3KVTY4Y5U682M3KV
TY4Y5U822M3KVTY4Y5U103M3KVTY4Y5U331M4KVTY4Y5U471M4KV
TY4Y5U561M4KVTY4Y5U681M4KVTY4Y5U821M4KVTY4Y5U102M4KV
  • Note: A total of 312 HVCA standard models listed above, covering CK1, CK2, TY1, TY2, and TY4 series. For detailed parameters of specific models or HVC replacement solutions, please contact sales@hv-caps.com

5. Conclusion: Returning to the Essence of Manufacturing, Restructuring Supply Chain Security

In today's environment, where "cost reduction and efficiency improvement" and "supply chain security" are equally important, continuing to choose HVCA (Dean Technology) means you are paying for brand premium and bearing the technical ceiling limitations brought by the contract manufacturing model.

HVC Capacitor provides a new paradigm for global high-end manufacturing:
  • Technological Advancement: Using 150kV capability to "dimensionally reduce" and dominate the 50kV market, defining new standards with dual-chip technology.
  • Direct Channel: Direct sales from the source factory, significantly reducing intermediary markups, reducing costs by over 30%.
  • Proactive Service: Direct communication with original factory engineers, breaking the technical black box of traders, with standard lead times of 4-6 weeks.

For engineers pursuing excellence, HVC is not just an alternative part number, but a strategic partner for high voltage system performance upgrades.


Contact & Technical Support

If you are looking for replacements for discontinued HVCA series or have any needs regarding high voltage ceramic capacitor selection or customization, HVC's replacement engineering team is ready to assist you.

We commit to providing free sample testing and factory-level technical support for all replacement projects, jointly promoting the continuous development of high voltage technology.


Copyright Notice: This document is copyrighted by HVC Capacitor. Unauthorized reproduction or commercial use is prohibited. Brands mentioned herein, including Murata, HVCA, Dean Technology, GE, Siemens, Simco-ION, belong to their respective owners and are used for technical compatibility explanations only.
Disclaimer: Technical parameters in this document are for reference only. Specific specifications are subject to the latest datasheet.

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