Part Details for AD-825 by Kyocera AVX Components
Overview of AD-825 by Kyocera AVX Components
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Part Details for AD-825
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Reference Designs related to AD-825
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CN0345 - Low Power, Multichannel Data Acquisition System with PGIA for Single-Ended and Differential Industrial-Level Signals
This circuit is a multichannel data acquisition signal chain consisting of a multiplexer, programmable gain stage, ADC driver, and a fully-differential PulSAR ADC. The channel switching and gain switching is synchronized to the conversion period of the ADC.
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CN0393 - Bank Isolated, 2-Channel, 16-Bit, 500 kSPS, Simultaneous Sampling Signal Chain Featuring μModule Data Acquisition System
This system has two bank isolated, simultaneous sampling, data acquisition channels, each utilizing the ADAQ7988, a 16-bit, 500 kSPS, μModule® data acquisition system. The ADAQ7988 provides exceptional performance while reducing board area and simplifying many design challenges associated with data acquisition signal chains.
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CN0385 - Isolated, Multichannel Data Acquisition System with PGIA for Single-Ended and Differential Industrial Level Signals
This circuit is an isolated multichannel data acquisition signal chain consisting of a multiplexer, programmable gain stage, ADC driver, and a fully differential, precision, successive approximation register (SAR) ADC. The channel switching and gain switching is synchronized to the conversion period of the ADC.
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CN0359 - Fully Automatic High Performance Conductivity Measurement System
The excitation square wave for the conductivity cell is generated by switching the ADG1419 between the +VEXC and −VEXC voltages using the PWM output of the ADuCM360 microcontroller. It is important that the square wave has a precise 50% duty cycle and a very low dc offset. Even small dc offsets can damage the cell over a period of time.
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CN0260 - Oversampled SAR ADC with PGA Achieving Greater Than 125 dB Dynamic Range
There are many applications that require wide dynamic range. Weigh scale systems typically use load cell bridge sensors with maximum full-scale outputs of 1 mV to 2 mV. Such systems may require resolutions on the order of 1,000,000 to 1, which, when referred to a 2 mV full-scale input, call for a high performance, low noise, high gain amplifier and a sigma-delta modulator. Similarly, chemical and blood analyses for medical applications often use photodiode sensors, producing very small currents that need to be accurately measured. Some applications, such as vibration monitoring systems, contain both ac and dc information, so the ability to accurately monitor both small and large signals is growing in importance. Sigma-delta ADCs implement this well in many cases but are limited when both ac and dc measurements are needed and fast gain switching is required.