ADNS-5030 datasheet by Avago Technologies

ADNS-5030 Frequently Asked Questions (FAQs)

• What is the recommended PCB layout and layer stackup for optimal performance of the ADNS-5030?
  Broadcom provides a recommended PCB layout and layer stackup in the ADNS-5030 application note (AN2153). It's essential to follow these guidelines to minimize noise and ensure optimal sensor performance.
• How do I calibrate the ADNS-5030 for my specific application?
  Calibration involves adjusting the sensor's gain, offset, and other parameters to optimize performance for your specific use case. Broadcom provides a calibration guide (AN2154) that outlines the steps and tools needed for calibration.
• What is the maximum operating temperature range for the ADNS-5030?
  The ADNS-5030 is specified to operate from -20°C to 70°C. However, it's essential to note that the sensor's performance may degrade at extreme temperatures, and additional thermal management may be required for high-temperature applications.
• Can I use the ADNS-5030 with a non-standard LED wavelength or intensity?
  While the ADNS-5030 is optimized for use with a 850nm LED, it can be used with other wavelengths. However, the sensor's performance may vary, and additional calibration may be required. It's recommended to consult with Broadcom or a qualified optical engineer for custom LED configurations.
• How do I handle noise and interference in my ADNS-5030-based design?
  Noise and interference can be mitigated by following proper PCB design and layout guidelines, using shielding, and implementing noise filtering techniques. Broadcom provides guidance on noise reduction in the ADNS-5030 application note (AN2153).