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".
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.
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.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.
This is HVC's most dominant technical barrier, distinguishing it from HVCA.
In high voltage, high current, and mechanical installation scenarios, the terminal process determines the ultimate reliability of the component.
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 has developed a Pin-to-Pin perfect replacement strategy for HVCA's two main high-end series – NX (ultra-high voltage) and JX (customized).
| HVCA Model | HVC Replacement | Specification | Key Upgrades |
|---|---|---|---|
| NX5T3M202K40KV | HVCT8G-40KV-DL-202K | 40kV / 2000pF | N4700 + Dual-chip technology, 50% higher withstand voltage margin |
| NX5T3M102K40KV | HVCT8G-40KV-DL-102K | 40kV / 1000pF | Solid copper terminals, loss tangent <0.2% |
| NX5T3M501K40KV | HVCT8G-40KV-DL-501K | 40kV / 500pF | Optimized for high-frequency pulses, 8°C lower temperature rise |
| NX5T3M472K30KV | HVCT8G-30KV-DL-472K | 30kV / 4700pF | Pin-to-Pin compatible, 100% PD tested |
| NX5T3M222K30KV | HVCT8G-30KV-DL-222K | 30kV / 2200pF | Optimized creepage distance design |
| HVCA Model | HVC Replacement | Specification | Key Upgrades |
|---|---|---|---|
| JX5T3M802K10KV | HVCT8G-10KV-E-802K | 10kV / 8000pF | Y5T (Class II) material, higher capacitance |
| JX5T3M103K10KV | HVCT8G-10KV-E-103K | 10kV / 10000pF | Low ESR design, strong ripple resistance |
| JX5T3M222K15KV | HVCT8G-15KV-E-222K | 15kV / 2200pF | Passed double 85 test (85℃/85% humidity) |
| JX5T3M472K20KV | HVCT8G-20KV-E-472K | 20kV / 4700pF | Solid copper terminals, rust resistant |
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.
Below is the complete model cross-reference table for HVCA high-voltage ceramic capacitors, sourced from the official hv-caps.com website.
* 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 Number | HVC Equivalent | Voltage/Capacitance | Tolerance | Dimensions (D×H×T×Ls×d) |
|---|---|---|---|---|
| TY2Y5P101M6KV | HVC-6KV-DL06-F5-101K | 6kV / 100pF | ±20% | D8×H11×T7×Ls10ר0.6mm |
| CK1SL201K6KV | HVC-6KV-DL08-F10-221K | 6kV / 200pF | ±10% | D14×H17×T5×Ls10ר0.7mm |
| TY2Y5P331M6KV | HVC-6KV-DL10-F10-331K | 6kV / 330pF | ±20% | D9×H12×T7×Ls10ר0.6mm |
| TY2Y5P471M6KV | HVC-6KV-DL11-F10-471K | 6kV / 470pF | ±20% | D10×H13×T7×Ls10ר0.6mm |
| TY4Y5P101M10KV | HVC-10KV-DL07-F10-101K | 10kV / 100pF | ±20% | D9×H12×T9×Ls10ר0.7mm |
| TY2Y5P331M10KV | HVC-10KV-DL10-F10-331K | 10kV / 330pF | ±20% | D10×H13×T8×Ls10ר0.6mm |
| TY4Y5P471M10KV | HVC-10KV-DL12-F10-471K | 10kV / 470pF | ±20% | D12×H15×T9×Ls10ר0.7mm |
| TY2BxN681M10KV | HVC-10KV-DL15-F10-681K | 10kV / 680pF | ±20% | D20×H23×T8×Ls10ר0.6mm |
| TY2BxN102M10KV | HVC-10KV-DL16-F10-102K | 10kV / 1000pF | ±20% | D23×H27×T8.5×Ls10ר0.7mm |
| TY4BxN101M15KV | HVC-15KV-DL07-F10-101K | 15kV / 100pF | ±20% | D12×H16×T11×Ls12.5ר0.7mm |
| TY2BxN331M15KV | HVC-15KV-DL12-F10-331K | 15kV / 330pF | ±20% | D19×H22×T11×Ls12.5ר0.7mm |
| NY2Y5P471M15KV | HVC-15KV-DL14-F10-471K | 15kV / 470pF | ±20% | D14×H18×T9×Ls12.5ר0.7mm |
| TY4BxN681M15KV | HVC-15KV-DL16-F10-681K | 15kV / 680pF | ±20% | D27×H31×T11×Ls12.5ר0.7mm |
| TY2Y5P102M15KV | HVC-15KV-DL18-F12.5-102K | 15kV / 1000pF | ±20% | D18.5×H21.5×T9×Ls12.5ר0.7mm |
| TY4Y5P101M20KV | HVC-20KV-DL08-F10-101K | 20kV / 100pF | ±20% | D10×H14×T14×Ls12.5ר0.8mm |
| TY3Y5P201•20KV | HVC-20KV-DL12-F10-221K | 20kV / 200pF | ±20% | D11×H15×T15×Ls15ר0.8mm |
| TY4BxN331M20KV | HVC-20KV-DL13-F10-331K | 20kV / 330pF | ±20% | D22×H26×T14×Ls12.5ר0.8mm |
| TY4Y5P471M20KV | HVC-20KV-DL14-F10-471K | 20kV / 470pF | ±20% | D17×H21×T14×Ls12.5ר0.8mm |
| TY4Y5P102M20KV | HVC-20KV-DL21-F12.5-102K | 20kV / 1000pF | ±20% | D22×H26×T14×Ls12.5ר0.8mm |
* 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 Number | HVC Equivalent | Voltage/Capacitance | Tolerance | Dimensions (D×H×L) | Terminal Type |
|---|---|---|---|---|---|
| JX5T3M561K10KV | HVCT8G-10KV-DL30-561K | 10kV / 560pF | ±10% | D20×H12×L16mm | M4x4 |
| JX5T3M122K10KV | HVCT8G-10KV-DL30-122K | 10kV / 1200pF | ±10% | D24×H12×L16mm | M4x4 |
| JX5T3M282K10KV | HVCT8G-10KV-DL40-282K | 10kV / 2800pF | ±10% | D38×H12×L16mm | M4x4 |
| JX5T3M502K10KV | HVCT8G-10KV-DL50-502M | 10kV / 5000pF | ±10% | D52×H12×L16mm | M5x4 |
| JX5T3M802K10KV | HVCT8G-10KV-DL60-802M | 10kV / 8000pF | ±10% | D58×H12×L16mm | M5x4 |
| NX5T3M561K10KV | HVCT8G-10KV-DL30-561K | 10kV / 560pF | ±10% | D20×H12×L16mm | M4x4 |
| NX5T3M122K10KV | HVCT8G-10KV-DL30-122K | 10kV / 1200pF | ±10% | D24×H12×L16mm | M4x4 |
| NX5T3M282K10KV | HVCT8G-10KV-DL40-282K | 10kV / 2800pF | ±10% | D38×H12×L16mm | M4x4 |
| NX5T3M502K10KV | HVCT8G-10KV-DL50-502M | 10kV / 5000pF | ±10% | D52×H12×L16mm | M5x4 |
| NX5T3M802K10KV | HVCT8G-10KV-DL60-802M | 10kV / 8000pF | ±10% | D58×H12×L16mm | M5x4 |
| JX5T3M371K15KV | HVCT8G-15KV-DL30-371K | 15kV / 370pF | ±10% | D20×H14×L18mm | M4x4 |
| JX5T3M112K15KV | HVCT8G-15KV-DL30-112K | 15kV / 1100pF | ±10% | D30×H14×L18mm | M4x4 |
| JX5T3M192K15KV | HVCT8G-15KV-DL40-192K | 15kV / 1900pF | ±10% | D38×H14×L18mm | M4x4 |
| JX5T3M342K15KV | HVCT8G-15KV-E30-342M | 15kV / 3400pF | ±10% | D52×H14×L18mm | M5x4 |
| JX5T3M532K15KV | HVCT8G-15KV-DL60-532M | 15kV / 5300pF | ±10% | D58×H14×L18mm | M5x4 |
| NX5T3M371K15KV | HVCT8G-15KV-DL30-371K | 15kV / 370pF | ±10% | D20×H14×L18mm | M4x4 |
| NX5T3M112K15KV | HVCT8G-15KV-DL30-112K | 15kV / 1100pF | ±10% | D30×H14×L18mm | M4x4 |
| NX5T3M192K15KV | HVCT8G-15KV-DL40-192K | 15kV / 1900pF | ±10% | D38×H14×L18mm | M4x4 |
| NX5T3M342K15KV | HVCT8G-15KV-E30-342M | 15kV / 3400pF | ±10% | D52×H14×L18mm | M5x4 |
| NX5T3M532K15KV | HVCT8G-15KV-DL60-532M | 15kV / 5300pF | ±10% | D58×H14×L18mm | M5x4 |
| NX5Y5P251K15KV | HVCT8G-15KV-DL30-251K | 15kV / 250pF | ±10% | D20×H15×L19mm | M4x4 |
| NX5Y5P501K15KV | HVCT8G-15KV-DL30-501K | 15kV / 500pF | ±10% | D24×H15×L19mm | M4x4 |
| NX5Y5P102K15KV | HVCT8G-15KV-DL30-102K | 15kV / 1000pF | ±10% | D36×H15×L19mm | M4x4 |
| JX5T3M281K20KV | HVCT8G-20KV-DL30-281K | 20kV / 280pF | ±10% | D20×H20×L24mm | M4x5 |
| JX5T3M881K20KV | HVCT8G-20KV-DL30-881K | 20kV / 880pF | ±10% | D30×H20×L24mm | M4x5 |
| JX5T3M142K20KV | HVCT8G-20KV-DL40-142K | 20kV / 1400pF | ±10% | D38×H20×L24mm | M4x5 |
| JX5T3M252K20KV | HVCT8G-20KV-DL50-252K | 20kV / 2500pF | ±10% | D52×H20×L24mm | M5x5 |
| JX5T3M402K20KV | HVCT8G-20KV-DL50-402K | 20kV / 4000pF | ±10% | D58×H20×L24mm | M5x5 |
| NX5T3M281K20KV | HVCT8G-20KV-DL30-281K | 20kV / 280pF | ±10% | D20×H20×L24mm | M4x5 |
| NX5T3M881K20KV | HVCT8G-20KV-DL30-881K | 20kV / 880pF | ±10% | D30×H20×L24mm | M4x5 |
| NX5T3M142K20KV | HVCT8G-20KV-DL40-142K | 20kV / 1400pF | ±10% | D38×H20×L24mm | M4x5 |
| NX5T3M252K20KV | HVCT8G-20KV-DL50-252K | 20kV / 2500pF | ±10% | D52×H20×L24mm | M5x5 |
| NX5T3M402K20KV | HVCT8G-20KV-DL50-402K | 20kV / 4000pF | ±10% | D58×H20×L24mm | M5x5 |
| NX5Y5P501K20KV | HVCT8G-20KV-DL30-501K | 20kV / 500pF | ±10% | D30×H18×L22mm | M4x4 |
| NX5Y5P102K20KV | HVCT8G-20KV-DL30-102K | 20kV / 1000pF | ±10% | D40×H18×L22mm | M4x4 |
| JX5T3M191K30KV | HVCT8G-30KV-DL30-191K | 30kV / 190pF | ±10% | D20×H24×L28mm | M4x5 |
| JX5T3M591K30KV | HVCT8G-30KV-DL30-591K | 30kV / 590pF | ±10% | D30×H24×L28mm | M4x5 |
| JX5T3M941K30KV | HVCT8G-30KV-DL40-941K | 30kV / 940pF | ±10% | D38×H24×L28mm | M4x5 |
| JX5T3M172K30KV | HVCT8G-30KV-DL50-172K | 30kV / 1700pF | ±10% | D52×H24×L28mm | M5x5 |
| JX5T3M272K30KV | HVCT8G-30KV-DL55-272K | 30kV / 2700pF | ±10% | D58×H24×L28mm | M5x5 |
| NX5T3M191K30KV | HVCT8G-30KV-DL30-191K | 30kV / 190pF | ±10% | D20×H24×L28mm | M4x5 |
| NX5T3M591K30KV | HVCT8G-30KV-DL30-591K | 30kV / 590pF | ±10% | D30×H24×L28mm | M4x5 |
| NX5T3M941K30KV | HVCT8G-30KV-DL40-941K | 30kV / 940pF | ±10% | D38×H24×L28mm | M4x5 |
| NX5T3M172K30KV | HVCT8G-30KV-DL50-172K | 30kV / 1700pF | ±10% | D52×H24×L28mm | M5x5 |
| NX5T3M272K30KV | HVCT8G-30KV-DL55-272K | 30kV / 2700pF | ±10% | D58×H24×L28mm | M5x5 |
| NX5Y5P501K30KV | HVCT8G-30KV-DL30-501K | 30kV / 500pF | ±10% | D36×H22×L26mm | M4x4 |
| JX5T3M141K40KV | HVCT8G-40KV-DL30-141K | 40kV / 140pF | ±10% | D20×H32×L36mm | M4x6 |
| JX5T3M441K40KV | HVCT8G-40KV-DL30-441K | 40kV / 440pF | ±10% | D30×H32×L36mm | M4x6 |
| JX5T3M701K40KV | HVCT8G-40KV-DL40-701K | 40kV / 700pF | ±10% | D38×H32×L36mm | M4x6 |
| JX5T3M132K40KV | HVCT8G-40KV-DL50-132K | 40kV / 1300pF | ±10% | D52×H32×L36mm | M5x6 |
| JX5T3M202K40KV | HVCT8G-40KV-DL60-202K | 40kV / 2000pF | ±10% | D58×H32×L36mm | M5x6 |
| NX5T3M141K40KV | HVCT8G-40KV-DL30-141K | 40kV / 140pF | ±10% | D20×H32×L36mm | M4x6 |
| NX5T3M441K40KV | HVCT8G-40KV-DL30-441K | 40kV / 440pF | ±10% | D30×H32×L36mm | M4x6 |
| NX5T3M701K40KV | HVCT8G-40KV-DL40-701K | 40kV / 700pF | ±10% | D38×H32×L36mm | M4x6 |
| NX5T3M132K40KV | HVCT8G-40KV-DL50-132K | 40kV / 1300pF | ±10% | D52×H32×L36mm | M5x6 |
| NX5T3M202K40KV | HVCT8G-40KV-DL60-202K | 40kV / 2000pF | ±10% | D58×H32×L36mm | M5x6 |
| NX5Y5P501K40KV | HVCT8G-30KV-DL30-501K | 40kV / 500pF | ±10% | D40×H28×L32mm | M4x4 |
| JX5T3M101K50KV | HVCT8G-50KV-DL30-101K | 50kV / 100pF | ±10% | D20×H35×L39mm | M4x6 |
| JX5T3M201K50KV | HVCT8G-50KV-DL30-201K | 50kV / 200pF | ±10% | D24×H35×L39mm | M4x6 |
| JX5T3M401K50KV | HVCT8G-50KV-DL30-401K | 50kV / 400pF | ±10% | D30×H35×L39mm | M4x6 |
| JX5T3M561K50KV | HVCT8G-50KV-DL40-561K | 50kV / 560pF | ±10% | D38×H35×L39mm | M4x6 |
| JX5T3M172K50KV | HVCT8G-50KV-DL55-172K | 50kV / 1700pF | ±10% | D58×H35×L39mm | M5x6 |
| NX5T3M101K50KV | HVCT8G-50KV-DL30-101K | 50kV / 100pF | ±10% | D20×H35×L39mm | M4x6 |
| NX5T3M201K50KV | HVCT8G-50KV-DL30-201K | 50kV / 200pF | ±10% | D24×H35×L39mm | M4x6 |
| NX5T3M401K50KV | HVCT8G-50KV-DL30-401K | 50kV / 400pF | ±10% | D30×H35×L39mm | M4x6 |
| NX5T3M561K50KV | HVCT8G-50KV-DL40-561K | 50kV / 560pF | ±10% | D38×H35×L39mm | M4x6 |
| NX5T3M172K50KV | HVCT8G-50KV-DL55-172K | 50kV / 1700pF | ±10% | D58×H35×L39mm | M5x6 |
| NX5Y5P501K50KV | HVCT8G-50KV-DL40-501K | 50kV / 500pF | ±10% | D52×H35×L39mm | M5x5 |
* Note: The following is a more comprehensive list of HVCA high-voltage ceramic capacitor models, arranged by series group.
| Model 1 | Model 2 | Model 3 | Model 4 |
|---|---|---|---|
| CK1NP02R0K3KV | CK1NP03R3K3KV | CK1NP05R0K3KV | CK1NP06R8K3KV |
| CK1NP0100K3KV | CK1NP0150K3KV | CK1NP0330K3KV | CK1NP0510K3KV |
| CK1NP0680K3KV | CK1NP0910K3KV | CK1NP0151K3KV | CK1NP02R0K6KV |
| CK1NP03R6K6KV | CK1NP05R0K6KV | CK1NP06R8K6KV | CK1NP0100K6KV |
| CK1NP0150K6KV | CK1NP0220K6KV | CK1NP0330K6KV | CK1NP0390K6KV |
| CK1NP0680K6KV | CK1NP0910K6KV | CK1NP0101K6KV | CK1NP0151K6KV |
| CK1SL100K3KV | CK1SL150K3KV | CK1SL220K3KV | CK1SL510K3KV |
| CK1SL680K3KV | CK1SL910K3KV | CK1SL151K3KV | CK1SL161K3KV |
| CK1SL221K3KV | CK1SL241K3KV | CK1SL301K3KV | CK1SL100K6KV |
| CK1SL150K6KV | CK1SL330K6KV | CK1SL390K6KV | CK1SL510K6KV |
| CK1SL680K6KV | CK1SL910K6KV | CK1SL151K6KV | CK1SL181K6KV |
| CK1SL201K6KV | CK1SL271K6KV | CK1SL301K6KV |
| Model 1 | Model 2 | Model 3 | Model 4 |
|---|---|---|---|
| CK2BxN471•8KV | CK2BxN102•10KV | CK2BxN202•10KV | CK2BxN681•15KV |
| CK2BxN821•15KV |
| Model 1 | Model 2 | Model 3 | Model 4 |
|---|---|---|---|
| TY1SL820K12KV | TY1SL910K12KV | TY1SL101K12KV | TY1SL121K12KV |
| TY1SL151K12KV | TY1SL181K12KV | TY1SL221K12KV | TY1SL100K15KV |
| TY1SL180K15KV | TY1SL220K15KV | TY1SL270K15KV | TY1SL300K15KV |
| TY1SL330K15KV | TY1SL470K15KV | TY1SL680K15KV | TY1SL820K15KV |
| TY1SL910K15KV | TY1SL101K15KV | TY1SL121K15KV | TY1SL151K15KV |
| TY1SL181K15KV | TY1SL221K15KV | TY1SL180K20KV | TY1SL220K20KV |
| TY1SL270K20KV | TY1SL300K20KV | TY1SL330K20KV | TY1SL470K20KV |
| TY1SL680K20KV | TY1SL820K20KV | TY1SL910K20KV | TY1SL101K20KV |
| TY1SL121K20KV | TY1SL151K20KV | TY1SL181K20KV | TY1SL221K20KV |
| Model 1 | Model 2 | Model 3 | Model 4 |
|---|---|---|---|
| TY2BxN101M3KV | TY2BxN151M3KV | TY2BxN221M3KV | TY2BxN331M3KV |
| TY2BxN471M3KV | TY2BxN561M3KV | TY2BxN681M3KV | TY2BxN821M3KV |
| TY2BxN102M3KV | TY2BxN152M3KV | TY2BxN222M3KV | TY2BxN242M3KV |
| TY2BxN272M3KV | TY2BxN332M3KV | TY2BxN472M3KV | TY2BxN101M4KV |
| TY2Y5U103M6KV | TY2Y5U331M8KV | TY2Y5U471M8KV | TY2Y5U561M8KV |
| TY2Y5U681M8KV | TY2Y5U821M8KV | TY2Y5U102M8KV | TY2Y5U152M8KV |
| TY2Y5U222M8KV | TY2Y5U272M8KV | TY2Y5U332M8KV | TY2Y5U472M8KV |
| TY2Y5U682M8KV | TY2Y5U822M8KV | TY2Y5U103M8KV | TY2Y5U331M10KV |
| TY2Y5U471M10KV | TY2Y5U561M10KV | TY2Y5U681M10KV | TY2Y5U821M10KV |
| TY2Y5U102M10KV | TY2Y5U152M10KV | TY2Y5U222M10KV | TY2Y5U272M10KV |
| TY2Y5U332M10KV | TY2Y5U472M10KV | TY2Y5U682M10KV | TY2Y5U822M10KV |
| TY2Y5U331M12KV | TY2Y5U471M12KV | TY2Y5U561M12KV | TY2Y5U681M12KV |
| TY2Y5U821M12KV | TY2Y5U102M12KV | TY2Y5U152M12KV | TY2Y5U222M12KV |
| TY2Y5U272M12KV | TY2Y5U332M12KV | TY2Y5U472M12KV | TY2Y5U682M12KV |
| TY2Y5U822M12KV | TY2Y5U331M15KV | TY2Y5U471M15KV | TY2Y5U561M15KV |
| TY2Y5U681M15KV | TY2Y5U821M15KV | TY2Y5U102M15KV | TY2Y5U152M15KV |
| TY2Y5U222M15KV | TY2Y5U272M15KV | TY2Y5U332M15KV | TY2Y5U472M15KV |
| Model 1 | Model 2 | Model 3 | Model 4 |
|---|---|---|---|
| TY4Y5P221M12KV | TY4Y5P331M12KV | TY4Y5P471M12KV | TY4Y5P561M12KV |
| TY4Y5P681M12KV | TY4Y5P821M12KV | TY4Y5P102M12KV | TY4Y5P152M12KV |
| TY4Y5P222M12KV | TY4Y5P272M12KV | TY4Y5P332M12KV | TY4Y5P101M15KV |
| TY4Y5P151M15KV | TY4Y5P221M15KV | TY4Y5P331M15KV | TY4Y5P471M15KV |
| TY4Y5P561M15KV | TY4Y5P681M15KV | TY4Y5P821M15KV | TY4Y5P102M15KV |
| TY4Y5P152M15KV | TY4Y5P222M15KV | TY4Y5P101M20KV | TY4Y5P151M20KV |
| TY4Y5P221M20KV | TY4Y5P331M20KV | TY4Y5P471M20KV | TY4Y5P561M20KV |
| TY4Y5P681M20KV | TY4Y5P821M20KV | TY4Y5P102M20KV | TY4Y5P152M20KV |
| TY4Y5U331M3KV | TY4Y5U471M3KV | TY4Y5U561M3KV | TY4Y5U681M3KV |
| TY4Y5U821M3KV | TY4Y5U102M3KV | TY4Y5U152M3KV | TY4Y5U222M3KV |
| TY4Y5U272M3KV | TY4Y5U332M3KV | TY4Y5U472M3KV | TY4Y5U682M3KV |
| TY4Y5U822M3KV | TY4Y5U103M3KV | TY4Y5U331M4KV | TY4Y5U471M4KV |
| TY4Y5U561M4KV | TY4Y5U681M4KV | TY4Y5U821M4KV | TY4Y5U102M4KV |
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:For engineers pursuing excellence, HVC is not just an alternative part number, but a strategic partner for high voltage system performance upgrades.
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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