3RLAB High Voltage Resistor Replacement FAQ: HVC HVR Series Alternative Solutions

Introduction: When searching for high voltage resistor alternatives, procurement managers and R&D engineers often face a triple challenge: lead times, cost, and technical compatibility. This FAQ aims to show you how the HVC HVR series serves as a reliable alternative solution for 3RLAB products, helping you resolve supply bottlenecks and optimize your supply chain structure.

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Q1: Why should I consider an alternative brand for 3RLAB?

A: Most customers initiate replacement projects based on four key strategic considerations:

1. Alleviating Lead Time Crisis: Some special 3RLAB models have lead times up to 12–16 weeks, severely delaying project schedules. HVC shortens standard product lead times to in-stock or 3–4 weeks through optimized inventory management.
2. Reducing BOM Costs: Introducing HVC as a second supplier while maintaining equivalent electrical performance typically delivers significant cost savings, enhancing the market competitiveness of your final product.
3. Managing Obsolescence Risk (EOL Management): When original models reach End of Life, HVC provides continuous reproduction and supply support, extending the service life of your equipment.
4. Supply Chain Resilience: Establishing a “Dual-Source” strategy is an industry best practice for mitigating the risk of supply disruption from a single vendor.

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Q2: What are the core technical advantages of the HVC HVR series?

A: The HVC HVR series is not a simple imitation—it is an upgraded solution based on European Ruthenium Oxide thick film technology:

• Excellent high-frequency characteristics: Low parasitic inductance design delivers cleaner waveforms in high-frequency pulse applications.
• High voltage withstand capability: Uses 96% high-purity alumina substrate with superior thermal performance, supporting higher overload voltages than same-size competitors.
• Long-term stability: After 1,000-hour high-temperature load testing, resistance drift is significantly below industry standards.
• Flexible termination options: Supports tin-plated copper wire, threaded terminals, or custom PCB mounting leads.

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Q3: Practical Selection: How to achieve a seamless transition from 3RLAB to HVC?

A: To achieve a “Drop-in Replacement,” please refer to the following 9-point verification checklist:

1. Resistance: Confirm nominal value and allowable tolerance (e.g., 100MΩ ±1%).
2. Voltage Rating: Critical point. Verify both continuous working voltage (DC) and pulse voltage.
3. Power Rating: HVC product power must be ≥ original model (e.g., if 3RLAB is 2W, HVC recommends 2W or 3W).
4. Dimensions: Check length (L) and diameter (D) to ensure no interference with adjacent components.
5. Lead Pitch: For PCB mounting, lead pitch must be identical.
6. TCR (Temperature Coefficient): Precision applications require attention to whether 25 ppm or 50 ppm low-drift grade is needed.
7. VCR (Voltage Coefficient): Linearity of resistance value at high voltages.
8. Environmental Ratings: Operating temperature range (e.g., −55°C to +155°C).
9. Non-Inductive Requirement: Is the application in a high-frequency pulse circuit? If so, specify the Non-Inductive version.

Selection Example: If you are using 3RLAB HTE52 (100MΩ, 5W), the HVC recommended replacement is HVRBSP52. Both have identical dimensions, and the HVC version offers a 10% improvement in voltage margin.

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Q4: Which types of 3RLAB products can HVC replace?

A: HVC’s replacement solutions cover 3RLAB’s core product lines:

• Precision Axial: Corresponds to 3RLAB HTE/HS series. Used in voltage dividers and medical CT systems.
• High Power Tubular: Corresponds to 3RLAB UT series. Used in high-voltage power supplies and load banks.
• Flat/Chip: Corresponds to some surface-mount high voltage resistors.
• Pulse Rated: Designed for surge resistance, used in defibrillators or radar power supplies.

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Q5: If standard products don’t fully match my requirements, does HVC offer customization?

A: Yes, customization is one of HVC’s core competencies.

We understand the diversity of high-voltage application scenarios. If the standard HVR series cannot meet your specific requirements (such as non-standard resistance values, ultra-high precision, special dimensions, or termination styles), the HVC engineering team can provide a customized design solution within 48 hours and quickly produce samples.

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Q6: What should I do next?

A: Theory is no substitute for real-world testing. We recommend launching your replacement project with the following steps:

1. Compile your BOM: List the complete 3RLAB part numbers you need to replace.
2. Contact us: Send to [email protected].
3. Obtain samples: HVC provides free samples for electrical performance and installation testing.
4. Pilot run: Verify batch consistency and delivery speed.

Contact HVC technical team now to add a “double layer of protection” to your supply chain.

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Cross Reference Tables

Cross Reference Table 1

Part Number	Power (W)	Working Voltage (kV)	Length A (mm)	Diameter B (mm)	Lead Diameter C (mm)	HVC Alternative Model
HTE15	0.7	2.5	15	5	0.8	HVRBOP15
HTE19	1.0	3.5	19	5	0.8	HVRBOP19
HTE25	1.2	5.5	25.4	5	0.8	HVRBOP25
HTE24	2.0	5.5	24	8	1.0	HVRBSP24
HTE39	3.0	10.0	39	8	1.0	HVRBSP39
HTE52	5.0	15.0	52	8	1.0	HVRBSP52
HTE76	7.5	22.5	76	8	1.0	HVRBSP76
HTE102	10	32.0	102	9	1.0	HVRBSP102
HTE127	12	40.0	127	9	1.0	HVRBSP127
HTE152	15	48.0	152	9	1.0	HVRBSP152
HS15	0.2	2	15	5	0.8	HVRBOP15
HS19	0.3	2.5	19	5	0.8	HVRBOP19
HS25	0.5	4.5	25.4	5	0.8	HVRBOP25
HS24	1.5	4	24	8	1	HVRBSP24
HS39	2.5	10	39	8	1	HVRBSP39
HS52	3.0	15	52	8	1	HVRBSP52
HS76	4.5	22.5	76	8	1	HVRBSP76
HS102	6	32	102	9	1	HVRBSP102
HS117	7	35	117	9	1	HVRBSP117
HS127	7.5	37	127	9	1	HVRBSP127
HS137	8	40	137	9	1	HVRBSP137
HS152	9	48	152	9	1	HVRBSP152
HS202	13.5	64	202	10	1	HVRBSP202
UR1	0.5	2	15	5	0.8	HVRBOP15
UR1.7	0.7	5	25.4	5	0.8	HVRBOP25
UR2	1	5	24	8	1	HVRBSP24
UR2.5	1.5	10	39	8	1	HVRBSP39
UR3	2	12	52	8	1	HVRBSP52
LTC 6-001	1	0.8	39	8	1	HVRBSP39
LTC 6-002	2	1.2	39	8	1	HVRBSP39
LTC 6-005	5	2	39	8	1	HVRBSP39
LTC 6-010	10	2.5	39	8	1	HVRBSP39
LTC 6-020	20	3	39	8	1	HVRBSP39
LTC 6-050	50	5	39	8	1	HVRBSP39
LTC 6-100	100	6	39	8	1	HVRBSP39
LTC10-001	1	1	52	8	1	HVRBSP52
LTC10-002	2	1.3	52	8	1	HVRBSP52
LTC10-005	5	2.2	52	8	1	HVRBSP52
LTC10-010	10	3	52	8	1	HVRBSP52
LTC10-020	20	3.5	52	8	1	HVRBSP52
LTC10-050	50	7	52	8	1	HVRBSP52
LTC10-100	100	10	52	8	1	HVRBSP52
LTC10-150	150	10	52	8	1	HVRBSP52
LTC15-002	2	1.7	76	8	1	HVRBSP76
LTC15-010	10	3.5	76	8	1	HVRBSP76
LTC15-020	20	4.5	76	8	1	HVRBSP76
LTC15-050	50	8	76	8	1	HVRBSP76
LTC15-100	100	12	76	8	1	HVRBSP76
LTC15-200	200	15	76	8	1	HVRBSP76

Cross Reference Table 2

Part Number	Power (W)	Working Voltage (kV)	Length L (mm)	Width B (mm)	OD ø (mm)	ID D (mm)	Thread G	HVC Alternative Model
UT 35	35	30	110	33	32	18	M6	HVRPFS110
UT 50	50	48	160	33	32	18	M6	HVRPFS160
UT 70	70	65	210	33	32	18	M6	HVRPFS210
UT 100	100	100	310	33	32	18	M6	HVRPFS310
UT 150	150	100	310	45	42	21	M6	HVRPFS310

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Contact & Technical Support

If you are looking for replacements for 3RLAB discontinued series, or have any requirements for high voltage resistor selection or customization, HVC’s replacement engineering team is ready to support you at any time.

• Business Inquiry Email: [email protected]
• Official Website: https://hv-caps.com/High_Voltage_Resistors_Replacement_EBG_Ohmite/2025/1211/49327.html

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

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Disclaimer: 3RLAB® is a registered trademark of its respective owners. This document is intended for technical comparison and replacement selection reference only and does not imply any affiliation between HVC and the brand.