Military
Selection of ‘EEE’ approved surface-mount current sensing resistors by Isabellenhütte and ultra-precision resistors from Vishay Foil Resistors
Selection of Military grade surface mount, high voltage chip resistors from Ohmcraft.
Cissoid’s range of semiconductors designed especially for high temperature applications and harsh environments.
‘EEE’ approved pressure sensors from Emerson Paine™.
Robust and accurate general purpose load cells from Lord Sensing Stellar Technology.
Thermocouple foil temperature sensors by RdF.
- Surface platinum RTD temperature sensor
- Temperature range -200°C to +260°C
- Time constant of <0.3s on metal surfaces
- 100 ±0.12Ω or 1000 ±1.2Ω at 0°C (International Class B)
- Long term stability <0.05°C per 5 years
- 4 Wire configuration
- NP0 (C0G) Chip ceramic capacitor with negative TC
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kH (or 1MHz)
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- MLCC Capacitor for RF and Microwave communication
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 5.10-4 at 1Vrms and 1MHz for values ≤ 1000pF and under 5.10-4 at 1Vrms and 1KHz for values > 1000pF
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- MLCC high power, low capacitance variation with voltage capacitors
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kHz (or 1MHz)
- Insulation resistance under 20000 MOhm or 500 Ohm-Farad at 25°C under 500V
- Dielectric strength test performed per method 103 of EIA 198-2-E
- High Temperature, ultra stable MLCC Capacitor
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kHz (or 1MHz)
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- High Temperature MLCC Capacitor
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor up to 0.025
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Ultra stable ceramic capacitor
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kHz (or 1MHz)
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Ultra stable ceramic capacitor
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kHz (or 1MHz)
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Stable ceramic capacitor
- High quality and reliability, suitable for safety-critical industries
- Dissipation factor up to 0.025 at 1kHz for C over 1nF, and up to 0.025 at 1MHz for C up to 1nF
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Stable ceramic capacitor
- High quality and reliability, suitable for safety-critical industries
- Dissipation factor up to 0.025 at 1kHz for C over 1nF, and up to 0.025 at 1MHz for C up to 1nF
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Low inductance capacitors for high energy transfer
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 2.5% at 1KHz
- Insulation resistance of 20°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less
- Stable ceramic capacitor
- Better voltage behaviour compared to X7R dielectric
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor up to 0.025 at 1kHz for C over 1nF, and up to 0.025 at 1MHz for C up to 1nF
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Ultra stable ceramic capacitor
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kHz (or 1MHz)
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Stable ceramic capacitor
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor up to 0.025 at 1kHz for C over 1nF, and up to 0.025 at 1MHz for C up to 1nF
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Non magnetic NP0 (Type 1) MLCC Capacitors
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor under 10.10-4 at 1Vrms and 1kHz (or 1MHz)
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E
- Non magnetic X7R (Type 2) MLCC Capacitors
- Highest quality and reliability, suitable for safety-critical industries
- Dissipation factor maximum of 2.5% at 1Vrms and 1kHz for Un between 16V and 25V and maximum 1% at 1Vrms and 1kHz for Un between 25V and 50V
- Insulation resistance of 25°C/Un 105 MΩ or 1000 Ohm-Farad whichever is less and 125°C/Un 104 MΩ or 100 Ohm-Farad whichever is less
- Dielectric strength test performed per method 103 of EIA 198-2-E