


Vishay / Dale
SOMC160327K0GEA
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SOMC160327K0GEA Description
SOMC160327K0GEA Description
The SOMC160327K0GEA from Vishay Dale is a high-performance 8-resistor network array designed for precision surface-mount applications. Packaged in a compact 16-SOIC (0.440" x 0.220") format with a 0.090" (2.29mm) profile, it offers 27kΩ resistance per element at a tight ±2% tolerance and a stable ±100ppm/°C temperature coefficient. The device operates at 160mW power per resistor, ensuring reliable performance in demanding circuits. Compliant with ROHS3 and rated MSL 1 (Unlimited), it is suitable for automated assembly and harsh environments. Its isolated circuit design enhances flexibility in complex PCB layouts.
SOMC160327K0GEA Features
- High Density Integration: Combines 8 isolated resistors in a space-saving 16-SOIC package.
- Precision Performance: ±2% tolerance and ±100ppm/°C TCR ensure stability across temperature variations.
- Robust Power Handling: 160mW per resistor supports moderate power dissipation needs.
- Industry-Standard Compliance: ROHS3, EAR99, and HTSUS 8533.21.0010 certified for global compatibility.
- Reliable Construction: Moisture-resistant (MSL 1) and tape-and-reel (TR) packaging for streamlined production.
SOMC160327K0GEA Applications
- Signal Conditioning: Ideal for voltage dividers, pull-up/pull-down networks, and ADC/DAC interfaces in industrial controls.
- Medical Electronics: Suitable for patient monitoring systems requiring stable, noise-resistant resistor arrays.
- Automotive Systems: Used in sensor calibration circuits and ECU signal processing due to its rugged design.
- Consumer Electronics: Optimizes portable devices (e.g., wearables) where space and precision are critical.
Conclusion of SOMC160327K0GEA
The SOMC160327K0GEA stands out for its compact footprint, precision, and versatility, making it a superior choice over discrete resistors in space-constrained designs. Its high reliability, compliance with environmental standards, and broad application range cater to industries from automotive to medical electronics. Engineers seeking a cost-effective, high-performance resistor network will find this model indispensable for modern circuit design.



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