ADS1605IPAPR datasheet by Texas Instruments

ADS1605IPAPR Frequently Asked Questions (FAQs)

• What is the recommended layout and routing for the ADS1605IPAPR?
  Texas Instruments provides a recommended layout and routing guide in the ADS1605IPAPR evaluation module documentation. It's essential to follow this guide to minimize noise, ensure signal integrity, and optimize performance.
• How do I properly terminate the differential analog input signals?
  The ADS1605IPAPR requires differential analog input signals to be terminated with a 100-ohm resistor to VCM (common-mode voltage) to ensure proper signal integrity and minimize reflections. This termination should be placed as close to the ADC input pins as possible.
• What is the optimal clock frequency for the ADS1605IPAPR?
  The ADS1605IPAPR can operate with clock frequencies up to 20 MHz. However, the optimal clock frequency depends on the specific application and noise requirements. A lower clock frequency can reduce noise and increase dynamic range, while a higher clock frequency can increase throughput.
• How do I handle the digital output data from the ADS1605IPAPR?
  The ADS1605IPAPR outputs 16-bit digital data in a serial format. The digital output data should be captured and processed by a microcontroller or FPGA. The data can be processed using a variety of methods, including SPI or parallel interfaces, depending on the specific application requirements.
• What is the power consumption of the ADS1605IPAPR, and how can I reduce it?
  The ADS1605IPAPR has a typical power consumption of 35 mW at 20 MHz clock frequency. Power consumption can be reduced by operating the ADC at a lower clock frequency, using the power-down mode, or implementing dynamic voltage scaling.