


Vishay / Dale
CSC11B0110K0GPA
Why Choose Us?
Professional Platform
B2B & B2C purchasingDelivery at full speed
1-2 days deliveryWide variety
Original manufacturers365 days guarantee
Responsible qualityTech Specifications
CSC11B0110K0GPA Description
CSC11B0110K0GPA Description
The CSC11B0110K0GPA from Vishay Dale is a high-performance 10-resistor bussed network designed for precision applications. With a 10kΩ resistance per element and a tight ±2% tolerance, this through-hole component ensures reliable signal conditioning and voltage division in compact circuits. Its 11-pin SIP configuration and 1.090" x 0.098" (27.69mm x 2.49mm) footprint make it suitable for space-constrained designs, while the 250mW power rating per resistor delivers robust thermal handling. The ±100ppm/°C temperature coefficient and ±50ppm/°C resistor-ratio drift ensure stability across operating temperatures, critical for industrial and automotive environments.
CSC11B0110K0GPA Features
- Bussed Circuit Type: Simplifies PCB layout by connecting resistors in a common-node configuration.
- High Power Handling: 250mW per element mitigates heat dissipation challenges.
- Low Drift: ±50ppm/°C ratio drift enhances long-term accuracy in precision circuits.
- Wide Compatibility: MSL 1 (Unlimited) moisture sensitivity and REACH compliance ensure reliability in harsh conditions.
- Through-Hole Mounting: Robust mechanical stability for industrial-grade assemblies.
- Active Product Status: Guaranteed availability for long-term projects.
CSC11B0110K0GPA Applications
Ideal for:
- Voltage Dividers: Stable performance in sensor interfaces and ADC reference circuits.
- Pull-Up/Down Networks: Reliable logic level conditioning in microcontrollers and FPGAs.
- Industrial Controls: Resists thermal drift in PLCs and motor drivers.
- Automotive Electronics: Withstands vibration and temperature swings in ECU designs.
- Test Equipment: Precision resistance networks for calibration and measurement systems.
Conclusion of CSC11B0110K0GPA
The CSC11B0110K0GPA excels in precision, power handling, and environmental resilience, distinguishing it from generic resistor arrays. Its bussed architecture reduces component count, while low drift and tight tolerance cater to demanding applications. Engineers seeking a cost-effective, high-reliability solution for analog signal processing or power distribution will find this model indispensable. Vishay Dale’s reputation for quality further ensures its suitability for mission-critical designs.



.png)













.png?x-oss-process=image/format,webp/resize,h_32)










