Engineer's Must-Read: HVC as a Caddock High Voltage Resistor Alternative — In-Depth Technical FAQ

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Engineer's Must-Read: HVC as a Caddock High Voltage Resistor Alternative — In-Depth Technical FAQ

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(Engineering FAQ: HVC High Voltage Resistors as Caddock Alternatives)

Abstract

As demand grows for diversified electronic component supply chains, HVC (High Voltage Components) high-voltage thick film resistors are becoming the preferred alternative to Caddock products. This document compiles 12 key engineering questions and provides a comprehensive analysis from electrical compatibility and performance benchmarking to supply chain strategy. All data is based on laboratory measurements and industry application cases, helping R&D engineers and purchasing managers achieve low-risk replacement.

1. Electrical and Mechanical Compatibility

Q1: Can HVC resistors directly replace Caddock MG/TF/TG series in terms of electrical parameters?

A: Yes, they are fully compatible.

HVC strictly benchmarks key parameters against mainstream Caddock series during the design phase:

  • Resistance range: Covers 100Ω to 100GΩ.
  • Operating voltage: Up to 40kV (axial) / 100kV (rod).
  • Key metrics: Using a ruthenium-based thick film process, HVC's voltage coefficient (low VCR) and temperature coefficient (±25 to ±50 ppm/°C) match Caddock. In about 95% of high-voltage divider and precision medical applications, direct replacement is possible without circuit redesign.

Q2: Are there differences in package dimensions? Can they achieve drop-in replacement?

A: HVC achieves true pin-to-pin compatibility.

Package options match Caddock, with lead spacing tolerances within ±0.1mm.

  • Example: HVC MG715 (PF series) uses the same 19.05mm length and 3.56mm diameter as Caddock MG715.
  • Improvement: Optimized termination; measured end-electrode adhesion improves by about 15% in high-voltage arcing tests.

Q3: Do high-frequency characteristics meet RF and pulse application requirements?

A: Yes, HVC offers non-inductive design options.

For RF and fast-pulse applications, internal structure is optimized to reduce parasitics:

  • Structure: Archimedean spiral trimming or planar non-inductive printing.
  • Measured performance: At 100MHz, HVC non-inductive parts match Caddock impedance behavior for RF attenuators, radar power supplies, and high-voltage switching circuits.

2. Performance Benchmark and Advantages

Q4: What about long-term load stability (load life stability)?

A: HVC exceeds typical industry requirements.

After 1000 hours of 85°C / 85% RH accelerated aging:

  • HVC HVR series: Average resistance drift < 0.25%.
  • Industry expectation: Often < 1.0%.
  • Principle: High-density glass glaze and nanoscale grain-boundary engineering reduce moisture-induced film degradation.

Q5: What are the advantages in pulse handling?

A: HVC emphasizes surge-resistant design.

Micron-scale functional particles in the paste increase thermal diffusion rate by about 40%.

  • Data: In X-ray generators and laser drive supplies, HVC parts tolerate short (e.g. 10µs) surges at about rated power, improving life under repetitive discharge.

Q6: What is TCR consistency?

A: Laser trimming supports batch consistency.

Standard TCR grades align with Caddock:

  • Precision: ±25 ppm/°C (benchmarking Caddock TF)
  • Standard: ±50 ppm/°C (benchmarking Caddock MG/TG)
  • Data: From −55°C to +155°C, TCR linearity suits precision instruments.

3. Quick Selection Guide for Popular Models

0.5W – 1W Precision Instrument Grade

Caddock ModelPowerVoltage RatingResistance RangeDimensions (mm)HVC Alternative ModelMatch Rating
MG6500.5W600V200Ω–5MΩ7.95×2.39HVR-BOP-3.5×8-5M00-F-25-600✅ Perfect Match
MG6600.6W1kV400Ω–10MΩ12.70×2.39HVR-BOP-3.5×13-10M0-F-25-1k✅ Perfect Match
MG6800.8W2kV600Ω–20MΩ19.05×2.39HVR-BOP-3.5×19-20M0-F-25-2k✅ Perfect Match
MG7101.0W4kV800Ω–50MΩ25.40×2.39HVR-BOP-3.5×25-50M0-F-25-4k✅ Perfect Match

1W – 3W Medium Power Supply Grade

Caddock ModelPowerVoltage RatingResistance RangeDimensions (mm)HVC Alternative ModelMatch Rating
MG7151.0W2kV400Ω–50MΩ19.05×3.56HVR-BSP-7×19-50M0-F-25-2k✅ Perfect Match
MG7202.0W6kV1kΩ–150MΩ38.10×3.56HVR-BSP-7×38-150M-F-25-6k✅ Perfect Match
MG7303.0W6kV500Ω–250MΩ38.10×6.10HVR-BSP-7×38-250M-F-25-6k-HD✅ High Power Density

5W – 15W High Voltage Load Grade

Caddock ModelPowerVoltage RatingResistance RangeDimensions (mm)HVC Alternative ModelMatch Rating
MG7455.0W15kV1kΩ–500MΩ76.20×6.10HVR-BSP-7×76-500M-F-25-15k✅ Performance Upgrade
MG81010.0W25kV1kΩ–1.25GΩ127.0×8.00HVR-BSP-7×127-1G25-F-25-25k✅ High Redundancy
MG81515.0W30kV1kΩ–2GΩ152.4×8.89HVR-BSP-7×152-2G00-F-25-30k✅ High Redundancy

4. HVC Part Numbering System

HVR-[Series]-[Tube Diameter × Tube Length]-[Resistance Value]-[Tolerance]-[Temp Coefficient]-[Voltage]
CodeMeaningExample
HVRHigh voltage resistor prefixHVR-BSP-7×19
BSP/BOPφ7mm / φ3.5mm ceramic tubeBSP-7×19, BOP-3.5×8
Resistance value5M00 = 5MΩ, 1G25 = 1.25GΩ10M0, 500M
ToleranceD = ±0.5%, F = ±1%, J = ±5%F
TCR25 = ±25ppm/°C, 50 = ±50ppm/°C25
Voltage600 = 600V, 2k = 2kV, 15k = 15kV6k

Ordering example: Replace MG715-10M-1% → HVR-BSP-7×19-10M0-F-25-2k

5. Typical Alternative Case Studies

Caddock P/NHVC AlternativeKey Technical Upgrades
MG715-10M-1%HVR-BSP-7×19-10M0-F-25-2k1:1 form-fit, ±25ppm low TCR drift
MG720-100M-1%HVR-BSP-7×38-100M-F-25-6kEnhanced pulse withstand, suitable for X-ray systems
MG810-1G-1%HVR-BSP-7×127-1G25-F-25-25kUltra-high resistance, research-grade stability

6. Supply Chain and Procurement Strategy

Q7: What are MOQ and lead time?

A: HVC offers more flexible supply than many Western brands.

  • MOQ: 50 pcs minimum (Caddock often requires ~1000), lowering NPI barriers.
  • Samples: Free engineering samples from 5 pcs during development.
  • Lead time: Typically 4–6 weeks; urgent builds can compress to about 2 weeks.

Q8: Is off-the-shelf inventory available?

A: Yes, with global stocking.

HVC maintains inventory in Shenzhen and major distribution hubs for common values (e.g. 10MΩ, 100MΩ, 1GΩ). Compared with Caddock's 12–16 week cycles, HVC can support regional direct supply.

7. Quality Certification and Industry Compliance

Q9: Do products meet medical and industrial requirements?

A: Yes.

  • Medical: Aligns with high-voltage insulation expectations of IEC 60601-1; used in defibrillators, CT scanners, and similar equipment.
  • Industrial: RoHS and REACH compliant.

Q10: What about the quality system?

A: Industrial/military-grade discipline.

  • Inspection: 100% DC withstand and short-time overload (STOL) testing.
  • Standards: Methods follow MIL-STD-202 and IEC 60115.
  • Traceability: Lots traceable to raw materials.

8. Typical Application Selection Guide

Q11: How to select parts for PV / energy-storage inverters?

A: Use HVC Power Film (PF) series.

For DC-link dividers, 100ppm/°C-class TCR and derating curves align with Caddock MG.

  • Anti-PID: Packaging materials are optimized for Anti-PID performance under 1500VDC-class bias.

Q12: What about extreme environments (e.g. downhole exploration)?

A: Use HVC high-temperature high-voltage series.

For oilfield logging and similar cases, extended temperature options reach +175°C and higher, with shock and vibration qualification for downhole reliability.

9. Popular Model Cross-Reference

For Caddock end-of-life or shortage situations, contact HVC for cross-referenced part numbers, datasheets, quotes, and samples.

Series Cross-Reference Guide

Caddock Original SeriesHVC Corresponding SeriesReplacement HighlightsTypical Applications
Type MG / MXHVC Power FilmHigh power density, axial leads, high voltage withstandHV power supplies, X-ray systems
Type TGHVC HV StickRod-style package, ultra-high resistance, non-inductive optionsMass spectrometry, HV probes
Type TFHVC PrecisionPrecision flat package, low TCRPrecision dividers, metrology
Type USGHVC Ultra-StableExcellent long-term stability (<50ppm/year)Research-grade analyzers

MG Series Quick Selection (Compatibility Notes)

0.5W – 1W Precision Instrument Grade

Caddock ModelPowerMax Working VoltageResistance RangeSize (L × D)HVC Replacement Note
MG6500.5W600V200Ω – 5MΩ7.95 × 2.39 mmFully compatible
MG6600.6W1,000V400Ω – 10MΩ12.70 × 2.39 mmFully compatible
MG6800.8W2,000V600Ω – 20MΩ19.05 × 2.39 mmFully compatible
MG7101.0W4,000V800Ω – 50MΩ25.40 × 2.39 mmFully compatible

1W – 3W Medium Power Supply Grade

Caddock ModelPowerMax Working VoltageResistance RangeSize (L × D)HVC Replacement Note
MG7151.0W2,000V400Ω – 50MΩ19.05 × 3.56 mmFully compatible
MG7202.0W6,000V1kΩ – 150MΩ38.10 × 3.56 mmFully compatible
MG7303.0W6,000V500Ω – 250MΩ38.10 × 6.10 mmRecommended alternative

5W – 15W High Voltage Load Grade

Caddock ModelPowerMax Working VoltageResistance RangeSize (L × D)HVC Replacement Note
MG7455.0W15kV1kΩ – 500MΩ76.20 × 6.10 mmFully compatible
MG81010.0W25kV1kΩ – 1.25GΩ127.0 × 8.00 mmLong-life build option
MG81515.0W30kV1kΩ – 2GΩ152.4 × 8.89 mmUltra-HV option

Typical Replacement Cases (Reference)

Caddock P/N (in use)HVC Recommended (Ref.)Key Technical Upgrades
TF020RHVC-PR-0.5W-1KStable ruthenium-based paste; flat package improves heat dissipation
TG931-10M-1%HVC-HVS-1W-10MOptimized VCR; improved linearity under high voltage
MG715-2M-1%HVC-PF-1.5W-2kVEnhanced pulse withstand for switched-mode applications
USG seriesHVC-US-3W-5kVDesigned for analyzers; extremely low annual drift

Contact & Technical Support

Start your cross-reference evaluation

For full HVR datasheets, samples, or model mapping:

© HVC. Caddock® is a trademark of Caddock Electronics, Inc. Technical comparison only; no affiliation implied.

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