| Applications at a Glance | |
|---|---|
| Applications at a Glance - nr. 101 | Seismic Instruments for Oil Exploration, Earthquake and Tsunami Detection Need Precision Resistors in their Analog Circuits |
| Applications at a Glance - nr. 102 | What do Precision Resistors, Advanced Medical Applications, and the Baby Boom Generation All Have in Common? |
| Applications at a Glance - nr. 103 | Precision Resistors for Energy, Transportation, and High-Temperature Applications |
| Applications at a Glance - nr. 104 | What Do Alternative Energy, Precision Resistors, and MacGyver Have in Common? |
| Applications at a Glance - nr. 105 | Discrete Resistors vs. Networks: Making the Right Choice! |
| Applications at a Glance - nr. 106 | What Kind of Commercial-off-the-Shelf (COTS) Precision Resistor Should I use for a 4-20 mA Current Loop? |
| Applications at a Glance - nr. 107 | How Precision Resistors Enable Quick, Easy, and Cost-Effective Shunt Calibration of Strain Gage Sensors |
| Applications at a Glance - nr. 108 | 10 Case Studies Show How Precision Current Sense Vishay Foil Resistors Improve the Flexibility, Longevity, and Safety of Li-ion Batteries |
| Applications at a Glance - nr. 109 | Reducing Black Swan Events Involving Lithium-ion Batteries |
| Applications at a Glance - nr. 110 | What Do Aircraft “Growing Pains,” Strain Gages, and Precision Resistors Have in Common? |
| Consolidated Specifications Datasheet | |
|---|---|
| Tape and Reel Specifications | Specifications for Surface Mount and Through-Hole/Radial Resistors |
| Case Study | |
|---|---|
| VFR Case Study | Developing a Multi-Channel DAC for High-End Audio Applications - Totaldac |
| VFR Case Study | Upgrading High-Pass Alignment Filter for Audio Systems - Verity Audio & Engineering |
| VFR Case Study | Developing a Multi-channel 24-bit ADC for Down Hole Seismic Applications - Texas Microelectronics Corporation |
| VFR Case Study | Thermoresistive Characterization of Composite Materials |
| VFR Case Study | Measurement accuracy and stability over time and temperature |
| VFR Case Study | Thermal Pressure Measurement of Fluids |
| VFR Case Study | Highly stable, low-noise current source for laser diode |
| VFR Case Study | Wheatstone-Bridge Calibration Scale Adjustments Based on Precision Resistor Shunt Measurements |
| VFR Case Study | Precision active current probe for power amplifier diagnosis |
| VFR Case Study | High-Precision Programmable Resistance Decade Box for Calibration Laboratories and Industrial Applications |
| VFR Case Study | Control and Data Acquisition for Cable Relaxation Testing (CREEP) |
| VFR Case Study | Precision Resistors in High-Stability MEMS and Quartz Accelerometers for Inertial Navigation Systems |
| VFR Case Study | Digital Multimeter (DMM) Calibration, DIY |
| VFR Case Study | High-Accuracy Digital Multimeters |
| VFR Case Study | High-Accuracy LHC Beam Screen Heaters for Particle Accelerators, CERN |
| VFR Case Study | Precision Bulk Metal® Z-Foil Current Sense Resistors in the Analysis and Improvement of Lithium-Ion Battery Efficiency and Lifetimes |
| VFR Case Study | Precision Current Sensing for µCurrent Multimeter Current Adapter |
| VFR Case Study | Secondary resistance standards in quantum resistance measurements |
| VFR Case Study | Switched (Stepped) Attenuator Passive Volume Control |
| VFR Case Study | Low-Noise Laser Current Driver |
| VFR Case Study | High-Precision Resistance Transfer Standard |
| VFR Case Study | Temperature Stability and Repeatability of High-Precision Trimming Resistors |
| VFR Case Study | High-Stability, Low-Noise Current Driver |
| VFR Case Study | Re-designed Vacuum-Tube PreAmps Take Audio to the Next Level |
| VFR Case Study | Strain Measurement Experiment: No Bias at Zero Mechanical Load |
| Case Study | Improving Long-Term Stability of Batemika UT-ONE Thermometer Readouts with Hermetically-Sealed High Precision Resistors |
| Facts at a Glance | |
|---|---|
| Facts at a Glance - nr. 050 | The Invention and Evolution of The World’s Most Precise Resistor, The Legacy of Dr. Felix Zandman |
| Facts at a Glance - nr. 101 | Bulk Metal Foil Trimming Potentiometers - Accutrim |
| Facts at a Glance - nr. 102 | Precision Centers for Small Prototype Runs of Product Samples |
| Facts at a Glance - nr. 103 | Ultra-High-Precision Resistors to be used for Secondary Standards and Reference Resistors |
| Facts at a Glance - nr. 104 | Understanding the Risks of ESD |
| Facts at a Glance - nr. 105 | How to Select Resistors for Precision Applications |
| Facts at a Glance - nr. 106 | Selecting Resistors for Pre-Amp, Amplifier, and Other High-End Audio Applications |
| Facts at a Glance - nr. 107 | How Strain Gage Bridges Work with Hermetically Sealed Precision Resistors Based on Z-Foil |
| Facts at a Glance - nr. 108 | Component Selection and Layout Strategies for Avoiding Thermal EMF Noise |
| Facts at a Glance - nr. 109 | What Kind of Trimmer is Best for My Precision Application? |
| Facts at a Glance - nr. 110 | From Purchased Tolerance to End-of-Life Tolerance: You May be Buying Tighter Tolerance Precision Resistors Than You Really Need |
| Facts at a Glance - nr. 111 | Introducing the New Bulk Metal Foil Resistors Demo Kit |
| Facts at a Glance - nr. 112 | TCR (Temperature Coefficient of Resistance) and PCR (Power Coefficient of Resistance) Improvements for High-Temperature Use |
| Facts at a Glance - nr. 113 | Linearity and Noise Capabilities of Ultra-High-Precision Bulk Metal® Foil Resistors |
| Facts at a Glance - nr. 114 | Bulk Metal® Foil Resistors Introduces New Generation of Power Current Sense Resistor |
| Facts at a Glance - nr. 115 | Solving Data Transmission Problems Using Vishay Foil Resistors Based on the New Z and Z1 Bulk Metal® Foil Technologies |
| Facts at a Glance - nr. 116 | What is “long-term” stability and what are its limitations? |
| Facts at a Glance - nr. 117 | Mirror, Mirror: What is the Trade-Off Between Price, Cost, and Risk, When Selecting a Precision Resistor? |
| Facts at a Glance - nr. 118 | “Mind the Gap”: High Precision Bulk Metal® Foil Resistors, Their Imposters and Impersonators |
| Facts at a Glance - nr. 119 | Obsolescence, Counterfeiting and COTS: understanding the consequences |
| Facts at a Glance - nr. 120 | Precision Resistors (EEE-INST-002 and COTS) for More Electric Aircraft (MEA) and Fly by Wire (FBW): From the Drawing Board to Reality |
| Facts at a Glance - nr. 121 | Reading Between the Lines in Resistor Datasheets |
| Facts at a Glance - nr. 122 | When Small Isn’t Better in Precision Resistor Applications |
| General Information | |
|---|---|
| General Information | Map of Global Contacts for VPG Foil Resistors |
| General Information | Customer Returns Policy |
| Product Change Notification | |
|---|---|
| Marking of R1 indicator on Voltage Divider Resistors | PCN-VFR-001-2013, Rev 0 |
| Mold Compound Change for Molded Surface Mount Resistors | PCN-VFR-001-2014, Rev 1 |
| PCN-VFR-003-2015 Rev 0 | Performance Specification Correction for SMR EEE Products |
| PCN-VFR-002-2016 | Trimming potentiometer model 1202LB1 obsolescence |
| PCN-VFR-001-2017 | Cancellation of Marking of Flip Chip Type Products |
| PCN-VFR-002-2018 Rev 0 | Alternative Bonding Material for VFCP/VFCD series resistors |
| Promotional Material | |
|---|---|
| VPG Foil Resistors | VPG Foil Resistors - a strong family of premier the Product Line comprising the three Power Brands Vishay Foil Resistors, Alpha Electronics and Powertron |
| VPG Foil Resistors - Japanese | VPG Foil Resistors - a strong family of premier the Product Line comprising the three Power Brands Vishay Foil Resistors, Alpha Electronics and Powertron |
| VPG Foil Resistors - Simplified Chinese | VPG Foil Resistors - a strong family of premier the Product Line comprising the three Power Brands Vishay Foil Resistors, Alpha Electronics and Powertron |
| Contributed Article | electronique.biz: Choisir la bonne technologie derésistancesanssetromper |
| Article of Interest | MEM 426: Aerospace Charcroft Electronics - Discovering the Solutions (featuring Bulk Metal® Foil resistors) |
| 10 Technical Reasons | Why to Choose Foil Resistors for Your Circuit |
| Design and Selector Guide for High-Precision Resistors | Full Portfolio Overview |
| General Info | Bulk Metal® Foil Technology Product Life Cycle |
| Product Overview | Bulk Metal® Foil High-Precision Resistors |
| RTD Simulators | Perfecting Ultra High Precision Calibration |
| Market Solutions | Qualified High-Precision Resistors for Avionics, Military and Space (AMS) |
| Product Training Module | |
|---|---|
| Product Training Module | High Temperature Resistors |
| Product Training Module | Advantages of Precision Resistance Networks for use in Sensitive Applications |
| Product Training Module | Precision Resistors - There is more to resistor precision than meets the eye |
| Technical Note | |
|---|---|
| Technical Note | ESD Sensitivity of Precision Chip Resistors |
| Technical Note | Resistance Trimmers |
| Technical Note | Resistor Sensitivity to Electrostatic Discharge (ESD) |
| Technical Note - nr. 102 | Guide for Choosing Resistors that are Exposed to Different Stresses |
| Technical Note - nr. 103 | Recommended Soldering Profiles |
| Technical Note - nr. 104 | Predicting Drift in Foil Resistors |
| Technical Note - nr. 105 | The Effects of Short-Time Overload on Resistive Elements in Precision Resistors |
| Technical Note - nr. 106 | Ultra High-Precision Bulk Metal® Z-Foil Resistors with TCR as Low as ±0.2 ppm/ºC and Power Coefficient of 0±5 ppm at Rated Power |
| Technical Note - nr. 107 | Pulse Load Capability of Precision Chip Resistors |
| Technical Note - nr. 108 | Non-Linearity of Resistance/Temperature Characteristic: Its Influence on Performance of Precision Resistors |
| Technical Note - nr. 109 | Advantages of Precision Resistance Networks for Use in Sensitive Applications |
| Technical Note - nr. 110 | Study of Foil Resistors Under Exposure to High-Temperature, Moisture, and Humidity |
| Technical Note - nr. 111 | Interpretation of TCR Specifications for Precision Resistors |
