Converter IP Cores

Charge Redistribution DAC Fs=160MHz 12b
from Teledyne DALSA

The CRDAC12b is a 12-bit charge-redistribution DAC. The DAC is especially suited to discrete-time applications, where the output signal is sampled, but also works well in continuous-time applications. The DAC has been optimized for high speed and low area. It has been designed for applications where... [See More]

  • Type: Converter
  • Gain: 72
High Resolution Low Latency Sigma Delta ADC, 114 dB DR
from Teledyne DALSA

The LLSDADC1024fs is a high-resolution sigma-delta analog-to-digital converter. The latency is only one effective data output period (40ns at fCLK=50MHz), which makes the converter ideally suited for application in closed-loop digital control systems. The low latency is enabled by feedback of the... [See More]

  • Type: Converter
  • Gain: 114
High Resolution Sigma-Delta DAC, High Bandwidth
from Teledyne DALSA

The SDCRDAC24bHBW is a 24-bit sigma-delta charge-redistribution digital-to-analog converter (DAC). It is designed to have high absolute accuracy, low noise and low power consumption, and it is robust against temperature variations. This makes the DAC ideally suited for high-performance audio as well... [See More]

  • Type: Converter
  • Gain: 64
High Resolution Sigma-Delta DAC, Rad Hard
from Teledyne DALSA

The SDCRDAC24b is a silicon-proven 24-bit sigma-delta charge-redistribution digital-to-analog converter (DAC). It is designed to have high absolute accuracy, low flicker noise, and low power consumption, and is robust against temperature variations and radiation. This makes the DAC ideally suited... [See More]

  • Type: Converter
  • Gain: 60
Low Latency Sigma Delta ADC, 100dB DR
from Teledyne DALSA

The LLSDADC100dB is a low power variant of our high-resolution sigma-delta analog-to-digital converter family. It achieves a dynamic range of more than 100 dB, at a power consumption of only 1.6 mW. The latency of the ADC is only one clock cycle (40 ns at 25 MHz), which makes the converter ideally... [See More]

  • Type: Converter
  • Gain: 100
Low Power Successive-Approximation ADC 10 MS/s 12b
from Teledyne DALSA

This silicon-proven IP design describes a general purpose Analog to Digital Converter (ADC) for low-power applications. The converter is a charge-redistribution successive-approximation type converter. The key feature of this ADC is its low power consumption. This is achieved by using an... [See More]

  • Type: Converter
  • Gain: 80
Low Power Successive-Approximation ADC 37.5 MS/s 12b
from Teledyne DALSA

This IP describes a general purpose Analog to Digital Converter (ADC) for low-power applications. The converter is a charge-redistribution successive-approximation type converter, and it is suitable to operate in a time-interleaved ADC to enable higher sample-rates. As an example, this ADC is... [See More]

  • Type: Converter
  • Gain: 62 to 70