Renesas' data converter portfolio features precision SAR and Delta-Sigma A/D converters, high-speed A/D converters with 8 to 16-bit resolutions and 40MSPS to 500MSPS sample rates, a wide selection of low-to-high resolution digital potentiometers (DCPs), and a wide range of precision voltage references in both Floating Gate Array™ (FGA™) and Band-Gap technology.

Data Converter Solutions for the Signal Chain

Renesas' broad analog-to-digital converter (ADC) portfolio covers high-speed ADCs for communications, instrumentation and infrastructure and precision ADCs for sensors, data acquisition and industrial process control. Our portfolio covers high-speed data converters, including those with JESD204B serial outputs, as well as high-precision data converters like Delta-Sigma and successive approximation register (SAR) ADCs.

FGA voltage reference ICs are not dependent on the voltage produced by a silicon junction. FGA technology produces extraordinary accurate and stable reference voltages.

Our wide selection of low-to-high resolution digital potentiometers are available in single dual and quad configurations. Compared to mechanical potentiometers, electronic potentiometers are more accurate, easier to adjust and they reduce manufacturing complexity.

Noise in the Signal Chain

Learn about how noise affects the performance of the signal chain and how to use Renesas' tools to help analyze noise that is present in semiconductor devices as well as noise due to signal processing in data converters.

Noise Estimating Calculators

Documentation & Downloads

Title Sort descending Other Languages Type Format File Size Date
User Guides & Manuals
8-Bit to 16-Bit, 40MSPS to 500MSPS ADC Evaluation System User Guide Manual PDF 1.02 MB
JESD204B Evaluation Platform User Guide Manual PDF 503 KB
Application Notes & White Papers
AN1385: LDMOS Transistor Bias Control in Basestation RF Power Amplifiers Using Intersilâ s ISL21400 Application Note PDF 283 KB
AN1715: Evaluation of Lower Resolution ADCs with Konverter Application Note PDF 433 KB