This cyclic ADC, based on redundant-signed-digit (RSD) conversion, is optimized for power efficiency and high accuracy. It provides 16 bit resolution for sampling frequencies up to 13 kS/s for continuous input signals.
This single ended ADC is designed to convert input signals with input swing of 1.9 V. The resolution is configurable (12 bit, 16 bit). Reference voltages can be generated on-chip or applied from outside.
The ADC IP includes serial-to-parallel interface (optional), reference voltage generation and buffers and high-precision trimmed bandgap reference (optional).
Different on-chip sensors (ambient light, temperature) and sensor frontends (instrumentation amplifier) are available.
The ADC is silicon proven using the XFAB XH018 process. Measurement results and
samples are available.
Fraunhofer IIS provides a detailed documentation and support for the IP integration. Modifications, extensions and technology ports of the IP are available on request.
- Resolution: 16 bit
- Conversion rate: up to 13 kS/s
- Power consumption: 50 μW @ 2.4 V
- Integral non-linearity: +/- 6.4 LSB
- Supply voltage: 2.4 V – 3.6 V
- Operation clock: up to 200 kHz
- Input voltage range: 1.9 V
- Operating temperature -40 – 125°C
- Accelerated design service
- Design safety (first-time-right)
- Customer-specific flexible IPs
- Automated DfR and verification
- Seamless technology migration
- GDSII data
- Simulation model
- Integration and customizing support
Block Diagram of the 16 Bit 13 kS/s Cyclic ADC IP Core