Research

  • 홈아이콘홈아이콘
  • Research
  • Front-End Circuit Design

Front-End Circuit Design

We thrive on designing integrated circuits at the Wafer-Chip Level. Our primary focus lies in analyzing the input signal characteristics of sensors, designing optimized signal readout circuits, system configuration circuits, and high-performance IP circuits tailored to the unique demands of the signals.

Innovating Sensor Application

Machine Vision System

Our system comprises hardware equipped with diverse imaging techniques suited to the specific tasks and software consisting of computer vision algorithms for analysis and decision-making. We aim to push the boundaries of machine vision technology, delivering advanced solutions that cater to the diverse needs of different industries, ultimately enhancing productivity, safety, and accuracy in various applications.

Our Focus:

  • Designing high-sensitivity optical detectors specialized for machine vision applications.
  • Creating readout circuits implementing imaging techniques such as binary and edge detection.
  • Optimizing the machine vision system for high-speed operations and low-power processing to reduce costs.
  • Enhancing object recognition accuracy to improve the overall performance and efficiency of the machine vision system.

IR Imaging Sensor System
(Revealing the Invisible Spectrum)

Our goals go beyond basic vision, unlocking the potential for night vision, thermal detection, and a host of advanced functionalities. We are dedicated to enabling high-performance IR Imaging by incorporating inherent sensitivity and noise compensation, ensuring a flawless.

Our Focus:

  • Developing low-noise readout circuitry tailored for IR detectors.
  • Designing compensation techniques to detect and calibrate input signal sensitivity.
  • Creating linear input-output readout circuitry to ensure signal reliability.
  • Innovating sensitivity adjustment techniques for variable distance control.

LiDAR Sensor System

We conduct research on developing efficient algorithms for reconstructing data, enabling high-speed operations, and achieving precise resolution for 3D image signal processing. Our ultimate goal is to design optimized LiDAR systems tailored for various industries.

Our Focus:

  • ROIC design optimized for various photodiodes depending on laser wavelength.
  • A Study on the Low Power, High Performance System of Direct ToF and Indirect ToF Method
  • Introducing new signal processing algorithms suitable for diverse applications.

Resistive Sensor System
(Overcoming Physical Boundaries)

Our research revolves around a thorough understanding of Resistive Sensor characteristics. Armed with this knowledge, we delve into cutting-edge circuit design research to interpret signals accurately and compensate for errors. Beyond this, our vision extends to developing Sensor interface circuits catering not only to single Resistive Sensors but also to the complexities of MEA (Micro Electrode Array) Sensors.

Our Focus:

  • Designing low-power readout circuits to rectify uneven sensor responses.
  • Crafting systems optimized for portable applications, ensuring unparalleled efficiency.