The VLP current sensing precision resistor series from Isabellenhütte offers a 2-terminal surface-mount connection technology for current sensing and other power applications. Developed with a small chip size of 1020, resistance values available are 0.003Ω, 0.005Ω and 0.006Ω, with a 2W permanent power rating at +130°C. The VLP series from Isabellenhütte offers excellent long term stability and high pulse power rating.
- Current sensing precision resistor
- Long sided terminal surface-mount design in a 1020 chip size
- Resistance values of 0.003Ω, 0.005Ω and 0.006Ω
- Tolerances of ±1%, ±2% and ±5%
- TCR of <±50 ppm/°C (+20°C to +60°C)
- Power rating of 2W (at +130°C)
- Constant current up to 26A (0.003Ω)
- Temperature range from -65°C to +170°C
- Inductance of <1nH
- Stability of <0.5% (TK=100°C) / <0.7% (TK=130°C) (at rated power, deviation after 2000h)
- Dielectric withstanding voltage of 200V AC/DC
- AEC-Q200 qualified
Typical applications for the VLP current sensing precision resistor series include:
- Current sensor for power hybrid applications
- Control systems for the automotive market
- Frequency converters, power modules and switch mode power supplies
Isabellenhütte VLP Series Specification Table
Attributes | Values |
---|---|
Resistance value * | 3mΩ / 5mΩ / 6mΩ |
Tolerance * | ±1% / ±2% / ±5% |
TCR | ±50ppm/°C (+22°C to +60°C) |
Temperature range | -65°C to +170°C |
Power rating | 2W |
Internal heat resistance | <20°C/W (Rthi) |
Dielectric withstanding voltage | 200V AC/DC |
Inductance | <1nH |
Stability (deviation after 2000hrs) According to ESCC Generic Specification | <0.5% (Tᴋ = 110°C) / <0.7% (Tᴋ = 140°C) Tᴋ = Terminal Temperature |
* Please contact us or see Ordering Info tab for further details
Isabellenhütte is one of the world’s leading suppliers of high-quality precision and power resistors. They produce these low-resistance resistors for a variety of applications such as the ones above. Isabellenhütte & Rhopoint Components are your ideal partners when it comes to achieving the best possible measurement results in the smallest spaces. Please visit www.isabellenhuette.de for more information.