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ISL97671AIRZ-T
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ISL97671AIRZ-T Description
The ISL97671AIRZ-T is a high-precision, low-noise, dual-channel analog-to-digital converter (ADC) manufactured by Renesas Electronics Corporation. It is designed to provide high-resolution conversion with low power consumption, making it suitable for a wide range of applications.
Description:
The ISL97671AIRZ-T is a 16-bit, dual-channel ADC with a maximum sampling rate of 10Msps per channel. It features a low input noise of 2.2nV/√Hz and a high signal-to-noise ratio (SNR) of up to 94dB. The device is available in a 40-pin TQFN package.
Features:
- High resolution: 16-bit conversion with no missing codes.
- Low power consumption: 185mW per channel at 10Msps.
- Low input noise: 2.2nV/√Hz.
- High signal-to-noise ratio: up to 94dB.
- Dual-channel architecture: two independent ADC channels.
- Wide input voltage range: supports ±10V, ±5V, and 0-5V input ranges.
- Programmable gain amplifier (PGA): provides input signal amplification with eight selectable gains.
- On-chip track-and-hold amplifier: allows for accurate conversion of high-speed signals.
- SPI and I2C digital interfaces: for easy integration with microcontrollers and other digital systems.
- Low latency: 12.5µs minimum conversion time per channel.
Applications:
- Medical equipment: for precise measurement and monitoring of vital signs.
- Industrial control systems: for accurate sensing and control of process variables.
- Test and measurement equipment: for high-resolution signal analysis.
- Audio applications: for high-quality audio signal conversion.
- Power management systems: for accurate measurement and control of power parameters.
- Automotive applications: for precise sensing and control of vehicle systems.
The ISL97671AIRZ-T is a versatile and high-performance ADC that can be used in a wide range of applications where high-resolution conversion and low power consumption are critical. Its dual-channel architecture, low input noise, and high signal-to-noise ratio make it an excellent choice for demanding signal acquisition applications.





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