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Parts by Number Top

Part # Distributor Manufacturer Product Category Description
MCP3911 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The MCP3911 is a 2.7V to 3.6V dual channel Analog Front End (AFE) containing two synchronous sampling Delta-Sigma Analog-to-Digital Converters (ADC), two PGAs, phase delay compensation block, internal voltage reference, modulator output block, and highspeed 20 MHz SPI compatible serial interface...
MCP3553 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided are required for high accuracy applications. The fully differential analog inputs make it compatible with a wide variety of sensor and measurement applications. The MCP355X devices operate from -40 °C to +125 °C and are available in the space-saving 8-pin MSOP and SOIC packages. 22-bit ADC...
MCP3550-50 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided accuracy applications. The fully differential analog inputs make it compatible with a wide variety of sensor and measurement applications. The MCP355X devices operate from -40 °C to +125 °C and are available in the space-saving 8-pin MSOP and SOIC packages. 22-bit ADC with automatic internal offset...

Conduct Research Top

  • Improving ADC Resolution by Oversampling and Averaging
    employ a higher resolution off-chip ADC. However, there are techniques that can be used to achieve higher resolution measurements and SNR. This application note describes utilizing oversampling and averaging to increase the resolution and SNR of analog-to-digital conversions.
  • Achieving Higher ADC Resolution Using Oversampling
    AN1152 Achieving Higher ADC Resolution Using Oversampling THEORY OF OPERATION Author: Jayanth Murthy Madapura Microchip Technology Inc. As previously mentioned, ADCs transform analog signals into digital sample values. Analog signal amplitude is quantized into digital code words with a INTRODUCTION

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