Description
The SM2010 high ohmic chip resistor series from Ohmcraft® offers a resistance range from 10kΩ up to 50GΩ all in a 2010 chip size package. By utilising their patented Micropen® precision printing technology, they are able to provide a superior precision, thick-film surface-mount resistor. SM2010 resistor offer very low noise, ultra-high stability with tolerances down to ±0.1% (between 10kΩ and 10MΩ), TCR as low as ±25 ppm/°C (between 1MΩ and 100MΩ) and VCR down to 1 ppm/V.
- 2-terminal high ohmic surface-mount resistor
- Available in any resistance between 10kΩ and 50GΩ
- Utilises patented Micropen® precision printing technology
- Ultra-high stability
- Very low noise
- 2010 chip size
- Tolerances as low as ±0.1% (between 10kΩ and 10MΩ)
- TCR as low as ±25 ppm/°C (from +25°C up to +75°C, between 1MΩ and 100MΩ)
- Maximum voltage rating of 300V
- Maximum power rating of 1W
- Temperature range from -55°C up to +150°C
Ohmcraft’s SM2010 high ohmic surface-mount resistors are available with the following terminations:
- T – Solderable wraparound matte Tin (Sn99.9) on Nickel barrier (RoHS Compliant)
- B – Solderable wraparound Tin Lead (Sn63Pb37) solder over Nickel barrier (Not RoHS Compliant)
- Z – Solderable single surface Tin (Sn99.9) on Nickel barrier (RoHS Compliant)
- S – Solderable single surface Tin Lead (Sn63Pb37) flip-chip (Not RoHS Compliant)
- G – Wire-bondable Gold (Au) (RoHS Compliant)
Please see the SM series datasheet under the Technical Library tab for other available chip sizes and standard products.
For custom configurations or requirements, please contact us.
Exxelia Ohmcraft SM2010 Specifications Table
Attributes | Value |
---|---|
Resistance value | 10kΩ to 50GΩ |
Tolerance | ±0.1% / ±0.25% / ±0.5% / ±1% / ±2% / ±5% / ±10% / ±20% |
TCR | ±25 ppm/°C / ±50 ppm/°C / ±100 ppm/°C / ±200 ppm/°C |
Temperature range | -55°C to +150°C |
Power rating | 1W |
Voltage rating | 300V |
Short time overload | ΔR 0.1% max |
Load Life | ΔR 0.1% max |
Thermal shock | ΔR 0.1% max |
Resistance to soldering heat | ΔR 0.05% max |