Technical Abstract
Technical Overview: This document maps EBG/Miba HV thick film resistor series to their searchable PDF suffixes from Miba Resistors' 2025 Series PDFs, and provides HVC HVR (GFP/GXP/GHP, BSP/BOP) cross-reference codes for inquiries. Official part numbers, electrical limits, and mechanical interfaces are subject to HVC sales confirmation with the corresponding row in the EBG datasheet.
1. EBG (Miba Resistors) HV Thick Film Product Line Overview
To facilitate BOM cleaning and dual-source evaluation, the table below summarizes each product family by original manufacturer PDF filename/series. Specific voltage/power limits are per the corresponding PDF and order line items.
| Product Family | Miba 2025 PDF (Example) | Engineering Notes |
| FBX / FEP / FSX | 11_Miba_Resistors_Series_FBX_FEP_FSX_2025.pdf | Flat chip; form factor codes 1/2…8/5 are searchable suffixes in PDF body |
| FPX / FLX | 12_Miba_Resistors_Series_FPX_FLX_2025.pdf | Flat power series; same 8-code form factor system |
| MTX 967 | 10_Miba_Resistors_Series_MTX_967_2025.pdf | Multi-coating / low TCR flat; config codes like 967.15.15 in PDF body |
| SGT / SGP/OGP / SSP/OSP | 01_…SGT…; 02_…SGP_OGP…; 04_…SSP_OSP… | Cylindrical metal oxide thick film; suffix = tube length code (mm) |
| OSX/SSX/SOX / PHV | 05_…OSX…; 06_…PHV… | Extended tube / encapsulated Smart Grid sub-families, do not mix spectra |
| MTX 968, 969, 969 W, 2000 | 07/08/09/01…MTX… | High-spec cylindrical / divider family; decimal config codes in body |
| ESP | 01_Miba_Resistors_Series_ESP_… | Pulse-specific family; ESP-62/14, ESP-62/20 in PDF |
2. HVC and EBG Process Alignment (Pre-Requisites for Selection)
HVC HVR series uses the same 96% Al₂O₃ ceramic substrate + RuO₂ thick film paste + ~850°C firing window as EBG/Miba. Non-inductive spiral cutting and mainstream coating systems ensure electrical consistency for medical imaging and industrial HV power supply applications. The table below outlines an 8-dimension alignment framework for project review (details subject to sample validation reports).
| Dimension | EBG / Miba | HVC HVR | Notes |
| Resistor Paste | RuO₂ metal oxide thick film | Ruthenium-based thick film | Material system aligned |
| Ceramic Substrate | 96% Al₂O₃ | 96% Al₂O₃ | Thermal-mechanical interface identical |
| Firing Window | ~850°C | ~850°C | Comparable interfacial reaction |
| Inductance Control | Non-inductive cut | Non-inductive cut | Parasitic inductance at same level |
| Flat Package Family | FBX/FEP/FSX, FPX/FLX, MTX 967 | HVRGFP, HVRGXP, GHP custom | Suffix maps to PDF; do not invent codes |
| Cylindrical Family | SGT/SGP/OGP/… | HVR-BSP (φ7), HVR-BOP (φ3.5) | Tube length mm aligns with PDF suffix; use 7×L notation |
| Quality Docs | IATF 16949 / ISO 9001 | ISO 9001 + internal benchmarking | Medical/automotive: supplement per AVL |
| Engineering Contact | Europe HQ | Shenzhen (Chinese engineering interface) | Suitable for Asia-Pacific prototyping and expedited requests |
2.1 Risk Note on Suffix Guessing
If a BOM contains composite codes that cannot be found in the PDF body text (e.g. historically miswritten flat codes like "10.25", cylindrical "SGT-45", or ESP "-19"), go back to the latest PDF or manufacturer sales to verify the order line before mapping to HVC inquiry codes below. This prevents certification documents from being inconsistent with the actual part.
3. Complete Cross Reference Table (PDF Suffix → HVC Inquiry Code)
2.1 FBX / FEP / FSX Series (Miba Flat Resistor PDF)
* "Max. continuous operating voltage" corresponds to Max. continuous operating voltage in the PDF (+25°C, clean air). "Dimensions" are the A×B (mm) listed in the PDF.
FBX
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
FBX 1/2 | 0.50 W | 3 kV | 12.90×3.40 | HVRGFP 1/2 |
FBX 5/5 | 0.65 W | 4.5 kV | 17.15×3.40 | HVRGFP 5/5 |
FBX 6/5 | 1.20 W | 5 kV | 20.00×5.08 | HVRGFP 6/5 |
FBX 8/5 | 1.60 W | 6 kV | 25.60×5.30 | HVRGFP 8/5 |
FBX 3 | 3.00 W | 9 kV | 38.30×6.60 | HVRGFP 3 |
FBX 4 | 4.00 W | 11.5 kV | 51.00×6.60 | HVRGFP 4 |
FBX 2/2 | 5.00 W | 16.5 kV | 51.00×12.90 | HVRGFP 2/2 |
FEP
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
FEP 1/2 | 0.50 W | 3 kV | 12.90×3.40 | HVRGFP 1/2 |
FEP 5/5 | 0.65 W | 4.5 kV | 17.15×3.40 | HVRGFP 5/5 |
FEP 6/5 | 1.20 W | 5 kV | 20.00×5.08 | HVRGFP 6/5 |
FEP 8/5 | 1.60 W | 6 kV | 25.60×5.30 | HVRGFP 8/5 |
FEP 3 | 3.00 W | 9 kV | 38.30×6.60 | HVRGFP 3 |
FEP 4 | 4.00 W | 11.5 kV | 51.00×6.60 | HVRGFP 4 |
FEP 2/2 | 5.00 W | 16.5 kV | 51.00×12.90 | HVRGFP 2/2 |
FSX
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
FSX 1/2 | 0.50 W | 4 kV | 13.60×4.50 | HVRGFP 1/2 |
FSX 5/5 | 0.65 W | 6 kV | 17.85×4.50 | HVRGFP 5/5 |
FSX 6/5 | 1.20 W | 6.5 kV | 20.5×6.00 | HVRGFP 6/5 |
FSX 8/5 | 1.60 W | 8 kV | 25.90×6.30 | HVRGFP 8/5 |
FSX 3 | 3.00 W | 12 kV | 38.70×7.50 | HVRGFP 3 |
FSX 4 | 4.00 W | 15 kV | 51.30×7.50 | HVRGFP 4 |
FSX 2/2 | 5.00 W | 22 kV | 51.30×14.20 | HVRGFP 2/2 |
2.2 FPX / FLX Series (Miba Flat Resistor PDF)
* "Max. continuous operating voltage" corresponds to Max. continuous operating voltage in the PDF (+25°C, clean air). "Dimensions" are the A×B (mm) listed in the PDF.
FPX
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
FPX 1/2 | 1.50 W | 3 kV | 12.90×3.40 | HVRGXP 1/2 |
FPX 8/5 | 2.50 W | 6 kV | 25.60×5.30 | HVRGXP 8/5 |
FPX 3 | 4.00 W | 9 kV | 38.30×6.60 | HVRGXP 3 |
FPX 4 | 5.00 W | 11.5 kV | 51.00×6.60 | HVRGXP 4 |
FPX 2/2 | 7.50 W | 16.5 kV | 51.00×12.90 | HVRGXP 2/2 |
FLX
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
FLX 1/2 | 1.50 W | 3 kV | 12.90×3.40 | HVRGXP 1/2 |
FLX 8/5 | 2.50 W | 5 kV | 25.60×5.30 | HVRGXP 8/5 |
FLX 3 | 4.00 W | 8 kV | 38.30×6.60 | HVRGXP 3 |
FLX 4 | 5.00 W | 11.5 kV | 51.00×6.60 | HVRGXP 4 |
FLX 2/2 | 7.50 W | 16.5 kV | 51.00×12.90 | HVRGXP 2/2 |
2.3 MTX 967 Series (Configuration Codes in PDF)
* "Max. continuous operating voltage" corresponds to Max. continuous operating voltage in the PDF (+25°C, clean air). "Dimensions" are the A×B (mm) listed in the PDF.
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
MTX 967.3.25 | 1 W | 8 kV | 25.4×3.8 | HVRGHP4.25 |
MTX 967.3.38 | 1.5 W | 10 kV | 38×3.8 | HVRGHP4.38 |
MTX 967.5.13 | 1 W | 5 kV | 12.7×5.0 | HVRGHP5.13 |
MTX 967.5.51 | 2 W | 20 kV | 50.8×5.0 | HVRGHP5.51 |
MTX 967.10.25 | 2 W | 10 kV | 25.4×10.0 | HVRGHP10.25 |
MTX 967.10.51 | 3 W | 30 kV | 50.8×10.0 | HVRGHP10.51 |
MTX 967.15.38 | 3 W | 15 kV | 38×15.0 | HVRGHP15.38 |
MTX 967.15.51 | 4.5 W | 30 kV | 50.8×15.0 | HVRGHP15.51 |
MTX 967.15.76 | 5.5 W | 35 kV | 76.2×15.0 | HVRGHP15.76 |
MTX 967.25.99 | 10 W | 35 kV | 101.6×24.0 | HVRGHP24.102 |
3.1 SGT Series (±25 ppm, Miba Cylindrical PDF)
* Cylindrical resistors: Power ratings are per the PDF test conditions. Voltage ratings use the standard "Max. kV / Max. continuous operating voltage" column (not the "S" boosted-voltage column, unless noted). Dimensions are φ×body length (mm, B×A metric column).
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
SGT-26 | 1.0 W | 4 kV | φ8.2×26.9 | HVR-BSP27 |
SGT-32 | 1.25 W | 5 kV | φ8.2×33.0 | HVR-BSP33 |
SGT-39 | 1.5 W | 6 kV | φ8.2×39.5 | HVR-BSP40 |
SGT-52 | 2.0 W | 10 kV | φ8.2×52.1 | HVR-BSP52 |
SGT-78 | 3.0 W | 15 kV | φ8.2×77.7 | HVR-BSP78 |
SGT-103 | 4.0 W | 20 kV | φ8.2×102.9 | HVR-BSP103 |
SGT-124 | 5.0 W | 25 kV | φ8.2×123.7 | HVR-BSP124 |
SGT-154 | 6.0 W | 30 kV | φ8.2×153.7 | HVR-BSP154 |
3.2 SGP / OGP Series
* Cylindrical resistors: Power ratings are per the PDF test conditions. Voltage ratings use the standard "Max. kV / Max. continuous operating voltage" column (not the "S" boosted-voltage column, unless noted). Dimensions are φ×body length (mm, B×A metric column).
SGP (φ8.2 mm)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
SGP-20 | 2.5 W | 3 kV | φ8.2×20.2 | HVR-BSP20 |
SGP-26 | 3.7 W | 4 kV | φ8.2×26.9 | HVR-BSP27 |
SGP-32 | 4.5 W | 5 kV | φ8.2×33.0 | HVR-BSP33 |
SGP-39 | 5.2 W | 8 kV | φ8.2×39.5 | HVR-BSP40 |
SGP-52 | 7.5 W | 10 kV | φ8.2×52.1 | HVR-BSP52 |
SGP-78 | 11 W | 15 kV | φ8.2×77.7 | HVR-BSP78 |
SGP-103 | 12 W | 20 kV | φ8.2×102.9 | HVR-BSP103 |
SGP-124 | 15 W | 25 kV | φ8.2×123.7 | HVR-BSP124 |
SGP-148 | 30 W | 45 kV | φ16×148 | HVR-BSP148 |
SGP-154 | 20 W | 30 kV | φ8.2×153.7 | HVR-BSP154 |
OGP (φ3.5 mm thin body)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
OGP-13 | 1.0 W | 1.5 kV | φ4.2×13.3 | HVR-BOP-3.5×13 |
OGP-20 | 1.5 W | 2 kV | φ4.2×19.7 | HVR-BOP-3.5×20 |
OGP-26 | 1.9 W | 4 kV | φ4.2×26.2 | HVR-BOP-3.5×26 |
OGP-30 | 2.5 W | 5 kV | φ4.2×32.3 | HVR-BOP-3.5×30 |
OGP-39 | 3.0 W | 6 kV | φ4.2×39.4 | HVR-BOP-3.5×39 |
OGP-52 | 3.3 W | 10 kV | φ4.2×49.5 | HVR-BOP-3.5×52 |
3.3 SSP / OSP Series
* Cylindrical resistors: Power ratings are per the PDF test conditions. Voltage ratings use the standard "Max. kV / Max. continuous operating voltage" column (not the "S" boosted-voltage column, unless noted). Dimensions are φ×body length (mm, B×A metric column).
SSP
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
SSP-20 | 4.0 W | 0.8 kV | φ8.2×20.2 | HVR-BSP20 |
SSP-26 | 6.0 W | 2 kV | φ8.2×26.9 | HVR-BSP27 |
SSP-32 | 8.0 W | 4.5 kV | φ8.2×33.0 | HVR-BSP33 |
SSP-39 | 10.0 W | 4.5 kV | φ8.2×39.5 | HVR-BSP40 |
SSP-52 | 12.5 W | 6 kV | φ8.2×52.1 | HVR-BSP52 |
SSP-148 | 40.0 W | 6 kV | φ16×148 | HVR-BSP148 |
OSP
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
OSP-10 | 2.0 W | 1 kV | φ4.2×10.9 | HVR-BSP10 |
OSP-13 | 2.4 W | 1 kV | φ4.2×13.7 | HVR-BSP13 |
OSP-20 | 3.0 W | 1 kV | φ4.2×19.7 | HVR-BOP20 |
3.4 OSX / SSX / SOX Series
* Cylindrical resistors: Power ratings are per the PDF test conditions. Voltage ratings use the standard "Max. kV / Max. continuous operating voltage" column (not the "S" boosted-voltage column, unless noted). Dimensions are φ×body length (mm, B×A metric column).
OSX (φ4 mm body)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
OSX-10 | 0.80 W | 1.5 kV | φ4.0×10.8 | HVR-BSP10 |
OSX-13 | 1.0 W | 1.5 kV | φ4.0×13.4 | HVR-BSP13 |
OSX-20 | 1.50 W | 3 kV | φ4.0×19.7 | HVR-BOP20 |
OSX-26 | 1.95 W | 4 kV | φ4.0×26.0 | HVR-BSP27 |
OSX-30 | 2.30 W | 6 kV | φ4.0×32.4 | HVR-BOP32 |
OSX-39 | 3.10 W | 6 kV | φ4.0×39.4 | HVR-BSP40 |
SSX (φ8.2 mm)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
SSX-20 | 2.30 W | 5 kV | φ8.2×20.2 | HVR-BSP20 |
SSX-26 | 3.90 W | 7.5 kV | φ8.2×27.2 | HVR-BSP27 |
SSX-32 | 4.20 W | 8.5 kV | φ8.2×33.0 | HVR-BSP33 |
SSX-39 | 4.60 W | 11 kV | φ8.2×39.5 | HVR-BSP40 |
SSX-52 | 7.80 W | 16 kV | φ8.2×52.0 | HVR-BSP52 |
SSX-78 | 11.70 W | 24 kV | φ8.2×77.6 | HVR-BSP78 |
SSX-103 | 12.50 W | 32 kV | φ8.2×103.2 | HVR-BSP103 |
SSX-124 | 15.50 W | 40 kV | φ8.2×123.7 | HVR-BSP124 |
SSX-154 | 19.40 W | 48 kV | φ8.2×153.7 | HVR-BSP154 |
SOX (φ8.6 mm)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
SOX-20 | 1.20 W | 5 kV | φ8.6×21.3 | HVR-BSP20 |
SOX-26 | 1.60 W | 7.5 kV | φ8.6×27.5 | HVR-BSP27 |
SOX-39 | 2.50 W | 11 kV | φ8.6×40.2 | HVR-BSP40 |
SOX-52 | 3.40 W | 16 kV | φ8.6×52.5 | HVR-BSP52 |
SOX-78 | 5.00 W | 24 kV | φ8.6×78.7 | HVR-BSP78 |
SOX-103 | 6.50 W | 32 kV | φ8.6×104.1 | HVR-BSP103 |
SOX-124 | 8.20 W | 40 kV | φ8.6×124.2 | HVR-BSP124 |
SOX-154 | 10.60 W | 48 kV | φ8.6×154.5 | HVR-BSP154 |
3.5 PHV Series (Encapsulated Family)
* Cylindrical resistors: Power ratings are per the PDF test conditions. Voltage ratings use the standard "Max. kV / Max. continuous operating voltage" column (not the "S" boosted-voltage column, unless noted). Dimensions are φ×body length (mm, B×A metric column).
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
PHV-39 | 5.2 W | 12.8 kV | φ8.2×39.5 | HVR-BSP40 + Encapsulation / Structural Engineering |
PHV-52 | 7.2 W | 16 kV | φ8.2×52.1 | HVR-BSP52 + Encapsulation / Structural Engineering |
PHV-78 | 11 W | 24 kV | φ8.2×77.7 | HVR-BSP78 + Encapsulation / Structural Engineering |
PHV-103 | 12 W | 32 kV | φ8.2×102.9 | HVR-BSP103 + Encapsulation / Structural Engineering |
PHV-200 | 25 W | 60 kV | φ8.2×192.0 | HVR-BSP200 + Encapsulation / Structural Engineering |
3.6 MTX 968 / 969 / 969 W / MTX 2000
* Cylindrical resistors: Power ratings are per the PDF test conditions. Voltage ratings use the standard "Max. kV / Max. continuous operating voltage" column (not the "S" boosted-voltage column, unless noted). Dimensions are φ×body length (mm, B×A metric column).
MTX 968
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
MTX 968.2 | 3.8 W | 9 kV | φ8×27 | HVR-BSP Divider / High-spec sample(MTX 968.2); see PDF divider ratio sample |
MTX 968.3 | 5 W | 12 kV | φ8×37 | HVR-BSP Divider / High-spec sample(MTX 968.3); see PDF divider ratio sample |
MTX 968.5 | 7.5 W | 18 kV | φ8×52 | HVR-BSP Divider / High-spec sample(MTX 968.5); see PDF divider ratio sample |
MTX 968.7 | 10 W | 24 kV | φ8×78 | HVR-BSP Divider / High-spec sample(MTX 968.7); see PDF divider ratio sample |
MTX 968.10 | 12.5 W | 36 kV | φ8×103 | HVR-BSP Divider / High-spec sample(MTX 968.10); see PDF divider ratio sample |
MTX 968.12 | 15 W | 42 kV | φ8×128 | HVR-BSP Divider / High-spec sample(MTX 968.12); see PDF divider ratio sample |
MTX 968.15 | 17 W | 54 kV | φ8×153 | HVR-BSP Divider / High-spec sample(MTX 968.15); see PDF divider ratio sample |
MTX 969
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
MTX 969.11 | 11 W | 24 kV | φ13.5×81 | HVR-BSP + End cap structure sample(MTX 969.11) |
MTX 969.23 | 23 W | 48 kV | φ13.5×156 | HVR-BSP + End cap structure sample(MTX 969.23) |
MTX 969.54 | 54 W | 48 kV | φ30.5×160 | HVR-BSP + End cap structure sample(MTX 969.54) |
MTX 969.71 | 71 W | 64 kV | φ30.5×210 | HVR-BSP + End cap structure sample(MTX 969.71) |
MTX 969.105 | 105 W | 96 kV | φ30.5×308 | HVR-BSP + End cap structure sample(MTX 969.105) |
MTX 969 W (Water-Cooled)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
MTX 969 W-S | 500 W max. | 5 kV | L≈117 (water-cooled) | Cooling curve / power curve → water-cooled engineering proposal |
MTX 969 W | 1000 W max. | 7 kV | L≈195 (water-cooled) | Cooling curve / power curve → water-cooled engineering proposal |
MTX 969 W-L | 1700 W max. | 10 kV | L≈337 (water-cooled) | Cooling curve / power curve → water-cooled engineering proposal |
MTX 2000 (Divider Network, PDF 2022 rev)
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
MTX 2000.23 | 10 W | 40 kV | φ13.5×156 | HVR-BSP + Divider ratio spec(MTX 2000.23); custom divider network sample |
MTX 2000.105 | 50 W | 80 kV | φ30.5×308 | HVR-BSP + Divider ratio spec(MTX 2000.105); custom divider network sample |
3.7 ESP Series (High Pulse)
ESP is a pulse-energy series. Do not interpret 62/14 as millimeter body length. Original manufacturer part numbers and pulse parameters must be provided.
| EBG / Miba Model |
Power |
Max. Continuous Voltage DC* |
Dimensions (mm) |
HVC Replacement Model |
ESP-62/14 | High pulse (see PDF) | 1 kV DC (catalog) | 62×15 (bodyר, see PDF) | HVR-BSP Pulse-grade engineering inquiry |
ESP-62/20 | High pulse (see PDF) | 1 kV DC (catalog) | 62×21 (bodyר, see PDF) | HVR-BSP Pulse-grade engineering inquiry |
4. Selection Decision Tree (Back to PDF Searchable Suffixes)
The paths below help you trace back from application requirements to series names and suffixes searchable in Miba 2025 PDF body text. They do not replace original manufacturer ordering code rules.
4.1 Flat Resistors
Need flat chip?
├─ Standard/eco coat flat (FBX/FEP/FSX) → form factor: 1/2, 2/2, 3, 4, 5/5, 6/5, 8/5
├─ Power flat (FPX/FLX) → same 8-code system
└─ MTX 967 low TCR / multi-coat → MTX 967 + PDF config code (967.15.15 / 967.3.25 etc.)
4.2 Cylindrical Resistors
Need metal oxide cylindrical?
├─ ±25 ppm precision → SGT-26/32/39/52/78/103/124/154
├─ ±80 ppm standard φ7 → SGP family (PDF suffix)
├─ φ3.5 thin body → OGP family (PDF suffix)
├─ ±50 ppm medium precision → SSP / OSP (PDF suffix, two independent sets)
├─ Extended tube → OSX / SSX / SOX (do not mix suffixes across families)
├─ Encapsulated Smart Grid → PHV (PDF suffix)
├─ 968/969/969W/2000 → include full order number and config code
└─ Pulse low-resistance → ESP-62/14, ESP-62/20 (do not decode compound codes)
5. Proven Replacement Cases
HVC HV thick film resistors have been qualified for volume production as second-source or direct replacement for EBG/Miba by the following international medical imaging equipment manufacturers:
| Region | Customer | Application | EBG Series Replaced |
| Nordic (Finland) | Planmeca Oy | Dental CBCT / X-ray HV PSU divider | SGT, SGP, FBX |
| China | Haining Jingyi Electronics (iRay Technology, SH688301) | X-ray tube HV PSU core components | SGP, SSP, FPX |
| Israel | Multiple medical X-ray manufacturers | Portable X-ray / Industrial NDT | SGT, FBX |
| Europe / USA | Spellman / Hitek Power and others | HV PSU module dividers and load resistors | MTX 968, SGT, PHV |
If you are looking for an EBG / Miba HV thick film resistor replacement, or have custom requirements, the HVC replacement engineering team is ready to help. We will provide a replacement proposal and free test samples within 48 hours (subject to project evaluation).
Copyright: © HVC Capacitor. All rights reserved. Reproduction or commercial use without permission is prohibited.
Disclaimer: Technical data in this document is for reference only. Refer to the latest datasheet for official specifications. EBG / Miba are registered trademarks of Miba AG. This document is for technical compatibility reference only.