The BVZ current sensing precision resistor series from Isabellenhütte offers 2-terminal surface-mount connection technology for current sensing applications. These resistors are ideally suited for mounting on DBC/IMS substrate. Developed with a high application temperature range of -65° to +170°, they offer power rating up to 13W and resistance values between 0.525mΩ and 3mΩ. The BVZ series from Isabellenhütte offers excellent long term stability.
- Current sensing resistor
- Surface-mount 4026 chip size
- Resistance values from 0.000525Ω to 0.003Ω
- TCR from <60 ppm/°C
- Application temperature range from -65°C to +170°C
- Tolerances of ±1.0%, ±2.0% and ±5.0% available
- Excellent long term stability
- Power rating up to 13W at +70°C
- Max. solder temperature of up to 350°C/20 min. (with hydrogen under vacuum)
- Inductance of <3nH
- Stability of <0.5% (TK=100°C) / <1.0% (TK=130°C) (at rated power, deviation after 2000h)
Typical applications for the BVZ current sensing precision resistor series include:
- High current applications for the automotive market
- Current sensor for power hybrid applications
- Frequency converters and power modules
Isabellenhütte BVZ Series Specification Table
Product Ordering Code | Resistance Value | Tolerance | TCR | Power rating (P70°C) | Power rating (P100°C) | Material Type |
---|---|---|---|---|---|---|
BVZ-Z-R000525 | 0.525mΩ | ±1% / ±5% | <±320 ppm/°C | 13W | 8W | ZERANIN®30 |
BVZ-M-R00077 | 0.77mΩ | ±1% / ±5% | <±230 ppm/°C | 10W | 8W | MANGANIN® |
BVZ-I-R001 | 1mΩ | ±1% / ±5% | <±150 ppm/°C | 7W | 5W | ISAOHM® |
BVZ-I-R0015 | 1.5mΩ | ±1% / ±5% | <±110 ppm/°C | 6W | 4W | ISAOHM® |
BVZ-I-R0024 | 2.4mΩ | ±1% / ±5% | <±60 ppm/°C | 5W | 3W | ISAOHM® |
BVZ-I-R003 | 3mΩ | ±1% / ±5% | <±60 ppm/°C | 5W | 3W | ISAOHM® |
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.