Comprehensive Experimental Platform for Optoelectronic Technology Application Development

Comprehensive Experimental Platform for Optoelectronic Technology Application Development

1、 Product Introduction

MXY8001Comprehensive Experimental Platform for Optoelectronic Technology Application DevelopmentIt is an experimental platform designed for the needs of guide rail optical experiments in universities. The instrument consists of optical guide rails, digital instruments and electronic component platforms, principles and applications of line/area array CCD cameras, data acquisition input and output ports, and data acquisition software for line/area array CCD cameras. The instrument is equipped with various power interfaces and 0-200V high-voltage adjustable power supply and 0-12V low-voltage adjustable power supply, which can provide power for students to build various experimental circuits. Students can use the platform to independently build various optical systems, photoelectric sensor conversion and processing circuits, complete various application development and design related to photoelectric technology, improve students' brain and hands-on ability and innovation awareness from all aspects, and help universities cultivate talents in photoelectric technology.

1. Optical guide rail

The distance of optical components can be adjusted by using the guide rail slider, and combined with electronic components, geometric optics, physical optics, photoelectric detection and control systems can be built, and various experimental systems can be completed by combining with the data acquisition system inside the instrument.

2. Digital instrument and electronic component platform

platform provisionTwo digital voltmeters (four and a half digits), two digital ammeters (four and a half digits), and one automatic range changing digital luxmeter can be used in circuits to measure various circuit parameters. This platform is also equipped with various resistors, capacitors, adjustable potentiometers, diodes, transistors, integrated operational amplifiers, optocouplers, and field programmable logic devices (CPLDs).

3. Principle and Application of Line/Area CCD Camera and Data Acquisition Input/Output Ports

Install wired cables on the platform panel/The principle and application of the area array CCD camera, as well as the data acquisition input/output ports, form a complete data acquisition system with the data acquisition card of the line array CCD camera and the data acquisition card of the area array CCD image sensor inside the platform. The system is connected to a computer through a USB bus to complete the development and design of various measurement, vibration, scanning, and image acquisition and processing software functions. The output port provides digital driving signals and analog output signals for line/area array cameras. Students can observe these signals through an oscilloscope to understand the working principle and application of line/area array CCDs, and then develop and design them through CPLD to improve their brainpower.

4. Computer functional software

The platform is equipped with various functional software, including linear arrayCCD size measurement, angle measurement, displacement measurement, barcode recognition, image scanning software, array CCD edge and contour detection, object size measurement, point operation of images, geometric transformation of images, image acquisition and parameter setting, projection and subtraction image analysis, image filtering and enhancement, morphological processing, rotation and scaling, color recognition and transformation and other image processing software. Not only does it provide DEMO demonstration software, but it also offers SDK software development kits for students to conduct secondary development.

Overall dimensions:700mm (length) x 400mm (width) x 150mm (height) Weight: 9.5 kg

IIinstructional objective

1Understand and master the principles and applications of various optical components and their experiments;

2Understand and master the working principles, conversion circuits, and processing circuits of various photoelectric sensors;

3Understand and master linear arraysCCDThe principle and its application;

4Understand and master the arrayCCDThe principle and its application;

5UnderstandCPLDApplication development technology;

6Cultivate students' ability to use their brains and hands, as well as their innovative consciousness;

IIICan complete the following experimental tasks:

Experimental Study on the Principles and Characteristics of Optoelectronic Sensor Devices

1Characteristics and measurement of photoresistors;

2Voltage current characteristic experiment of photoresistor;

3Conversion circuit of photoresistor;

4Time response characteristics of photoresistors;

5Measurement of Light Sensitivity of Photodiodes;

6Measurement of volt ampere characteristics of photodiodes;

7Measurement of time response characteristics of photodiodes;

8Characteristic parameters of silicon photovoltaic cells under different bias statesAnd its measurement；

9Measure the time response of silicon photovoltaic cells under reverse bias;

10Measurement of the sensitivity of phototransistors to light;

11Measurement of volt ampere characteristics of phototransistors;

12Measurement of time response of phototransistors;

13Measurement of spectral characteristics of phototransistors;

14Measurement of current transmission ratio of optocouplers;

15Measurement of volt ampere characteristics of optocoupler devices;

16Measurement of time corresponding to optoelectronic coupling devices;

17Basic principle experiment of pyroelectric devices;

18Testing experiment on spectral response of pyroelectric devices;

19ThePSDMeasurement of displacement sensor characteristic parameters;

Experiment on Optoelectronic Detection Technology

1Linear arrayCCDPrinciples and driving experiments;

2Linear arrayCCDDimensional measurement experiment;

3Grating and Moir é fringe experiments;

Secondary development experiment

1、52Microcontroller programming experiment;

2、52Single chip microcontroller circuit design experiment;

3Based on52Design experiment of digital clock for microcontroller;

4 Platform supporting documents and materials

1Experimental guidebook1Ben;

2、Software: Platform software and hardware user manuals, etc;

3Experimental video disc1Set up

Note: Customers are responsible for configuring their own computers and oscilloscopes.