In the fields of power electronics and high-voltage engineering, the supply chain stability of passive components often determines the lifecycle of entire equipment. In 2018, Murata Manufacturing Co., Ltd., a global giant in passive components, officially announced the discontinuation of its High Voltage Ceramic Capacitors product line. This strategic adjustment primarily affected core series such as DHS, DHR, DHK, DHB, and DHC, covering a voltage range from 2kV to 50kV.
For global manufacturers of high-end medical imaging equipment (CT/X-Ray), industrial non-destructive testing (NDT), high-power lasers, and high-voltage power supplies, Murata's exit was undoubtedly a "grey rhino" event for the supply chain. Finding an alternative that achieves Pin-to-Pin compatibility in electrical performance, mechanical dimensions, safety certifications, and long-term reliability became an urgent priority for engineering and procurement departments.
Murata's discontinuation was not a sudden event but based on a shift in its global strategic focus. With the explosion of the electric vehicle (EV) and 5G communication markets, the demand for MLCCs (Multilayer Ceramic Capacitors) has grown exponentially. In contrast, high-voltage through-hole ceramic capacitors, while technically demanding, have relatively vertical application areas (primarily concentrated in medical and industrial high-voltage sources), belonging to a typical "high-tech, low-turnover" market. To optimize its production capacity structure, Murata decided to divest this non-core business.
This discontinuation primarily impacted manufacturers of the following long-lifecycle equipment:
These devices typically require stringent certifications such as FDA, UL, and CE. Replacing critical components means a lengthy re-validation cycle. Therefore, the "in-situ replacement capability" of alternatives is crucial.
Since 2018, HVC Capacitor has established a dedicated Replacement Engineering Dept to provide seamless solutions for global customers.
In ceramic capacitors, the dielectric material determines the soul of the product. Murata's high-voltage products were classic because they used a special strontium titanate-based material. Many low-end alternatives on the market use inexpensive Y5T or Y5U (Class II) dielectrics, which, while capable of achieving high capacitance values, suffer from extremely high dielectric loss (Dissipation Factor) under high frequency and high voltage, easily leading to capacitor heating and breakdown.
HVC insists on using N4700 (Class I) ceramic formulation, which is equivalent to or even superior to Murata's. According to test data from HVC laboratories and third-party authoritative institutions, N4700 material offers three major physical advantages:
Murata's original product line typically topped out at 50kV. HVC, through special internal series construction and unique encapsulation processes, has successfully extended the voltage withstand boundary of ceramic capacitors to 100kV and even higher.
This capability allows HVC not only to replace Murata's existing 20kV, 30kV, 40kV products but also to provide technical support for next-generation ultra-high voltage industrial CT (160kV+) and pulsed power systems, a domain unattainable by the original manufacturer's products.
HVC's alternative solutions cover two main categories: lead-type (DHR series) and bolt-type (DHS series), ensuring dual compatibility in mechanical dimensions and electrical performance.
Murata's DHS series (e.g., DHS4E4G202KT2B) is a core component of medical CT machines. HVC adopts the same "doorknob" structural design.
Murata's DHR series is widely used in various small to medium power high-voltage modules.
To facilitate quick selection for engineers, HVC has established a comprehensive database. Below is a selection of frequently replaced models:
| Murata Original Model (Discontinued) | Specifications (Voltage/Capacitance) | HVC Alternative Model | HVC Specifications (N4700 Dielectric) | Engineering Notes |
|---|---|---|---|---|
| DHS4E4G202KT2B | 40kV / 2000pF | HVCT8G-40KV-DL60-202K | 40kV 2000pF N4700 | Diameter 60mm, dedicated for CT machine oil tanks |
| DHS4E4C112KH2B | 15kV / 1100pF | HVCT8G-15KV-DL30-112K | 15kV 1100pF N4700 | Diameter 30mm, suitable for Philips models |
| DHS4E4F471KH2B | 30kV / 470pF | HVCT8G-30KV-DL60-471K | 30kV 470pF N4700 | Low loss, high-frequency pulse applications |
| DHS4E4G701KL2B | 40kV / 700pF | HVCT8G-40KV-DL38-701K | 40kV 700pF N4700 | Diameter 38mm, high-voltage multiplier circuit |
| DHSF44D482ZT2B | 20kV / 4800pF | HVCT8G-20KV-E60-482K | 20kV 4800pF Z5U | Large capacitance filtering applications |
| Murata Original Model (Discontinued) | Specifications (Voltage/Capacitance) | HVC Alternative Model | HVC Specifications Details | Engineering Notes |
|---|---|---|---|---|
| DHR4E4C102K2FB | 15kV / 1000pF | HVC-15KV-DL18-F12.5-102K | 15kV 1000pF N4700 | 12.5mm pitch, epoxy encapsulated |
| DHR4E4A102K2BB | 10kV / 1000pF | HVC-10KV-DL15-F10-102K | 10kV 1000pF N4700 | 10mm pitch, standard product |
| DHRB34A102M2BB | 10kV / 1000pF | HVC-10KV-DP15-F10-102K | 10kV 1000pF Y5P | Y5P dielectric, economical alternative |
| DHRB34C471M3FB | 15kV / 470pF | HVC-15KV-DP13-F9.5-471K | 15kV 470pF Y5P | 9.5mm pitch, safety compliant |
| DHR4E4B471K2BB | 12kV / 470pF | HVC-12KV-DL14-F9.5-471K | 12kV 470pF N4700 | Preferred for high-reliability applications |
Note: In HVC models, DL stands for N4700 material, DP for Y5P material, and E for Z5U material; F value represents lead pitch.
To ensure reliability after replacing Murata, HVC implements QA processes even more stringent than industry standards:
HVC's alternative solutions have been validated and mass-produced by numerous Fortune 500 companies worldwide:
For Murata End-of-Life (EOL) items, inquiry for HVC's Part Number and datasheet/quotation/sample:
| Murata Part Number | Capacitance | Voltage | Dielectric | Status | HVC Alternative Item |
|---|---|---|---|---|---|
| DHR4E4C221K2BB | 220pF | 15kVDC | ZM | EOL | HVC-15KV-DL11-F9.5-221K |
| DHRB34C101M2BB | 100pF | 15kVDC | B | EOL | HVC-15KV-DP07-F9.5-101K |
| DHR4E4B101K2BB | 100pF | 12kVDC | ZM | EOL | HVC-15KV-DL07-F9.5-101K |
| DHR4E4C471K2BB | 470pF | 15kVDC | ZM | EOL | HVC-15KV-DL14-F9.5-471K |
| DHRB34C102M2FB | 1000pF | 15kVDC | B | EOL | HVC-15KV-DP18-F12.5-102K |
| DHR4E4C102K2FB | 1000pF | 15kVDC | ZM | EOL | HVC-15KV-DL18-F12.5-102K |
| DHRB34A102M2BB | 1000pF | 10kVDC | B | EOL | HVC-10KV-DP15-F10-102K |
| DHR4E4A102K2BB | 1000pF | 10kVDC | ZM | EOL | HVC-10KV-DL15-F10-102K |
| DHRB34B102K2BB | 1000pF | 12kVDC | ZM | EOL | HVC-12KV-DL16-F9.5-102K |
| DHRB34C471M3FB | 470pF | 15kVDC | ZM | EOL | HVC-15KV-DP13-F9.5-471K |
| DHR4E4B471K2BB | 470pF | 12kVDC | B | EOL | HVC-12KV-DL14-F9.5-471K |
| DHR4E4C101K2BB | 100pF | 15kVDC | ZM | EOL | HVC-15KV-DL07-F10-101K |
| DHRB34A101M2BB | 100pF | 10kVDC | B | EOL | HVC-10KV-DL07-F10-101K |
| DHRB34A151M2BB | 150pF | 10kVDC | B | EOL | HVC-10KV-DL08-F10-151K |
| DHRB44B102M1JBC03 | 1000pF | 12kVDC | B | EOL | HVC-10KV-DL08-F10-151K |
| DHRB34C151M2BB | 150pF | 15kVDC | B | EOL | HVC-15KV-DL09-F10-151K |
| DHR4E4B102K2BB | 1000pF | 12kVDC | ZM | EOL | HVC-15KV-DL18-F12.5-102K |
| DHR4E4A101K2BB | 100pF | 10kVDC | ZM | EOL | HVC-10KV-DL07-F10-101K |
| DHRB34B471M2BB | 470pF | 12kVDC | B | EOL | HVC-15KV-DL14-F10-471K |
| DHRB34A221M2BB | 220pF | 10kVDC | B | EOL | HVC-10KV-DL08-F10-221K |
| DHR4E4A151K2BB | 150pF | 10kVDC | ZM | EOL | HVC-10KV-DL08-F10-151K |
| DHR4E4C151K2BB | 150pF | 15kVDC | ZM | EOL | HVC-15KV-DL09-F10-151K |
| DHRB34B101M2BB | 100pF | 12kVDC | B | EOL | HVC-15KV-DL07-F10-101K |
| DHR4E4B151K2BB | 150pF | 12kVDC | ZM | EOL | HVC-15KV-DL09-F10-151K |
| DHR4E4B221K2BB | 220pF | 12kVDC | ZM | EOL | HVC-15KV-DL10-F10-221K |
| DHR4E4A331K2BB | 330pF | 10kVDC | ZM | EOL | HVC-10KV-DL08-F10-331K |
| DHRB34A331M2BB | 330pF | 10kVDC | B | EOL | HVC-10KV-DL08-F10-331K |
| DHRB34A681M2BB | 680pF | 10kVDC | B | EOL | HVC-10KV-DL15-F10-681K |
| DHR4E4B681K2BB | 680pF | 12kVDC | ZM | EOL | HVC-15KV-DL16-F10-681K |
| DHR4E4A221K2BB | 220pF | 10kVDC | ZM | EOL | HVC-10KV-DL08-F10-221K |
| DHRB34B102M2BB | 1000pF | 12kVDC | B | EOL | HVC-15KV-DL18-F12.5-102K |
| DHRB34C331M2BB | 330pF | 15kVDC | B | EOL | HVC-15KV-DL12-F10-331K |
| DHRB34A471M2BB | 470pF | 10kVDC | B | EOL | HVC-10KV-DL12-F10-471K |
| DHRB34C681M2BB | 680pF | 15kVDC | B | EOL | HVC-15KV-DL16-F10-681K |
| DHR4E4C331K2BB | 330pF | 15kVDC | ZM | EOL | HVC-15KV-DL12-F10-331K |
| DHR4E4C681K2BB | 680pF | 15kVDC | ZM | EOL | HVC-15KV-DL16-F10-681K |
| Murata Part Number | Capacitance | Voltage | Dielectric | Status | HVC Alternative Item |
|---|---|---|---|---|---|
| DHS4E4G441KH2B | 440pF | 40kVDC | N4700 | EOL | HVCT8G-40KV-DL30-441K |
| DHS4E4G701KL2B | 700pF | 40kVDC | N4700 | EOL | HVCT8G-40KV-DL45-701K |
| DHS4E4C192KL2B | 1900pF | 20kVDC | N4700 | EOL | HVCT8G-20KV-DL38-192K |
| DHS4E4F272KT2B | 2700pF | 30kVDC | N4700 | EOL | HVCT8G-30KV-DL60-272K |
| DHS4E4F941MLXB | 940pF | 30kVDC | N4700 | EOL | HVCT8G-30KV-DL38-941K |
| DHS4E4G202KT2B | 2000pF | 40kVDC | N4700 | EOL | HVCT8G-40KV-DL60-202K |
| DHSF44D482ZT2B | 4800pF | 20kVDC | N4700 | EOL | HVCT8G-20KV-E60-482K |
| DHSF44G571ZHXB | 570pF | 40kVDC | N4700 | EOL | HVCT8G-40KV-D30-571K |
| DHSF44G272ZTXB | 2700pF | 40kVDC | N4700 | EOL | HVCT8G-40KV-E60-272K |
While the discontinuation of Murata's high-voltage ceramic capacitors brought short-term turbulence to the global supply chain, it also provided an opportunity for equipment manufacturers to review supply chain security and optimize component selection.
If you are looking for alternatives to Murata's discontinued series, or have any needs regarding high-voltage capacitor selection or customization, HVC's replacement engineering team is ready to provide support.
We are committed to providing free sample testing and original manufacturer-level technical support for all replacement projects, jointly promoting the continuous development of high-voltage technology.
Contact: Sales Department
Phone: +86 13689553728
Tel: +86-755-61167757
Email: sales@hv-caps.com
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