Swift™ Analog to Digital Converter Solutions
Omni Design offers a family of award winning, high-speed, ultra low-power Swift™ analog to digital converters. Used for applications such as 5G, wireless and wireline communications, automotive ethernet, LiDAR, RADAR and image sensors in advanced process nodes from 28nm to advanced FinFET at several foundries.
High-performance Solutions
Our high-performance analog to digital converter (ADC) solutions are based on our Swift™ technology offering performance with energy efficient operation:
- 6 to 14 bits resolution
- 5Msps to 100+Gsps sample rates
- Configurable as I/Q ADCs or multi-channel ADCs
- Built-in internal calibration
- Easily integrates with Omni Design’s bandgap reference, voltage regulators and input buffers – see all our technology solutions
- Available in advanced FinFET nodes to 28nm
Technology Overview
High-speed analog to digital converter solutions (ADCs) are a critical bridge between advanced digital signal processing operations and the sensing elements used in advanced data center and AI communications, direct-IF conversion of signals in RF systems, 2D & 3D imaging, and advanced computing systems. Omni Designs excels at achieving state of the art figures of merit for conversion efficiency. Further, Omni Design’ Swift™ data converters have small footprints and are available in a variety of processes enabling the data economy with our state of the art technology.
All calibration is built in and runs in the background to compensate for both static and dynamic conditions. Additionally, all ADC’s have integrated buffers to simplify interfacing and ensure compatibility with the overall system performance.
Optional digital down converters (DDC) are available to increase system compatibility.
High performance communication systems are very sensitive to spurious frequency components and distortion in spectral characteristics. Omni Design minimize these effects, delivering higher system capacity and performance in customer systems.
The ADC’s are available as individual IP blocks, matched IQ pairs, comprehensive data acquisition sub-systems with integrated AFEs and digital logic or chiplets, and can be efficiently arrayed for large number of input channels.