18675837. SYSTEMS AND METHODS FOR BREAKDOWN VOLTAGE CORRECTION IN GEIGER-MODE AVALANCHE PHOTODIODE (APD) FOCAL PLANE ARRAYS (FPA) simplified abstract (LG INNOTEK CO., LTD.)

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SYSTEMS AND METHODS FOR BREAKDOWN VOLTAGE CORRECTION IN GEIGER-MODE AVALANCHE PHOTODIODE (APD) FOCAL PLANE ARRAYS (FPA)

Organization Name

LG INNOTEK CO., LTD.

Inventor(s)

Harold Hwang of Princeton NJ (US)

Matthew T. O'grady of Newtown PA (US)

Brian Edward Piccione of Yardley PA (US)

Mark Itzler of Princeton NJ (US)

SYSTEMS AND METHODS FOR BREAKDOWN VOLTAGE CORRECTION IN GEIGER-MODE AVALANCHE PHOTODIODE (APD) FOCAL PLANE ARRAYS (FPA) - A simplified explanation of the abstract

This abstract first appeared for US patent application 18675837 titled 'SYSTEMS AND METHODS FOR BREAKDOWN VOLTAGE CORRECTION IN GEIGER-MODE AVALANCHE PHOTODIODE (APD) FOCAL PLANE ARRAYS (FPA)

The patent application describes an apparatus with a pixelated photodiode array (PDA) that includes radiation detectors, memory to store bias voltages, and a readout integrated circuit (ROIC) to adjust bias voltages based on stored values.

  • Each pixel in the PDA has a radiation detector, memory for bias voltages, and an ROIC for adjustments.
  • The ROIC reads stored bias voltages and adjusts them based on differences with breakdown voltages.
  • The apparatus aims to optimize the performance of each pixel in the PDA for better radiation detection.
  • By adjusting bias voltages based on breakdown voltages, the apparatus can enhance the sensitivity and accuracy of radiation detection.
  • This innovation improves the overall efficiency and effectiveness of the PDA in detecting radiation sources.

Potential Applications: - Medical imaging devices - Security scanners - Scientific research equipment

Problems Solved: - Enhancing the sensitivity and accuracy of radiation detection - Optimizing the performance of pixelated photodiode arrays

Benefits: - Improved radiation detection capabilities - Enhanced accuracy in identifying radiation sources - Increased efficiency in radiation detection processes

Commercial Applications: Title: "Enhancing Radiation Detection with Pixelated Photodiode Arrays" This technology can be utilized in medical imaging devices, security scanners, and scientific research equipment, improving the accuracy and efficiency of radiation detection processes. The market implications include increased demand for more reliable and sensitive radiation detection systems in various industries.

Questions about the technology: 1. How does adjusting bias voltages based on breakdown voltages improve radiation detection? 2. What are the potential limitations of using pixelated photodiode arrays in radiation detection applications?


Original Abstract Submitted

An apparatus includes a pixelated photodiode array (PDA). Each pixel in the PDA includes a radiation detector, a memory configured to store a negative bias voltage for the PDA and a nominal breakdown voltage for each pixel in the PDA, and a read out integrated circuit (ROIC) communicatively coupled to the PDA and the memory. The ROIC is configured to read, from the memory, the negative bias voltage for the PDA and the nominal breakdown voltage for each pixel in the PDA, determine a difference between the negative bias voltage for the PDA and the nominal breakdown voltage for each pixel in the PDA, and adjust an arm/disarm bias voltage for each pixel in the PDA based on the difference between the negative bias voltage for the PDA and the nominal breakdown voltage for each pixel in the PDA.

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