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Open Radiation Detector

https://www.electronics-lab.com/open-radiation-detector/

Quickly identify radioactive materials with a pocket-sized ion chamber. Built from standard parts for easy manufacture and low cost. by Carlos Garcia Saura: Nuclear radiation is invisible and can be harmful to life. The goal of this project is to provide a simple device that could prevent cases of radiation poisoning. Professional radiation meters can […]

Role Of Vision Processing With Artificial Neural Networks In Autonomous Driving

https://www.electronics-lab.com/role-vision-processing-artificial-neural-networks-autonomous-driving/

In next 10 years, the automotive industry will bring more change than we have seen in the last 50, due to technological advancement. One of the largest changes will be the move to autonomous vehicles, usually known as the self-driving car. Scientists from many universities are striving to implement vision processing with the artificial neural […]

PICKit 3 Mini

https://www.electronics-lab.com/pickit-3-mini/

Reviahh has published a new project, the PICKit 3 Mini: Previously, I made a Pickit 3 clone – (see previous blog post). It works well, but I have often wondered just how little of its circuitry was needed to program and debug the boards I make. For instance – I primarily use the newer 3.3V PIC32 […]

BeanDuino Attiny85 – super small Digispark clone

https://www.electronics-lab.com/beanduino-attiny85-super-small-digispark-clone/

The BeanDuino is an ATtiny85 based microcontroller development board similar to the Arduino line highly inspired by DigiSpark , BeanDuino is hardware compatible with Adafruit Trinket / Gemma. Specifications: Support for the Arduino IDE 1.0 and later (OS X, Windows, and Linux) Built-in USB 5 I/O pins (2 are used for USB only if your […]

10A 400V DC Intelligent Power Module (IPM)

https://www.electronics-lab.com/10a-400v-dc-intelligent-power-module-ipm/

10 Amp 400V DC Intelligent power module board has been designed using ON Semiconductors STK544UC62K. This Inverter IPM module includes the output stage of a 3-phase inverter, pre-drive circuits, bootstrap circuits, protection circuits, op-amp based current sense circuit, comparator circuit for fault/Over current output, Bus voltage output, onboard 5V DC regulator for op-amp circuit. This […]

10A 400V DC Intelligent Power Module (IPM)

https://www.electronics-lab.com/project/10a-400v-dc-intelligent-power-module-ipm/

This 10A -400V DC Intelligent power module board has been designed using ON Semiconductors STK544UC62K. This Inverter IPM module includes the output stage of a 3-phase inverter, pre-drive circuits, bootstrap circuits, protection circuits, op-amp based current sense circuit, comparator circuit for fault/Over current output, Bus voltage output, onboard 5V DC regulator for op-amp circuit. The […]

Attiny Programmer (using Arduino UNO)

https://www.electronics-lab.com/attiny-programmer-using-arduino-uno/

by CrtSuznik @ instructables.com: The Arduino UNO is small, but if you require your project to be in a small enclosure, the UNO might be way too big. You could try using a NANO or MINI, but if you really want to go small, you go tiny, Attiny to be precise. They are quite small, […]

Windows PC Lock/Unlock Using RFID

https://www.electronics-lab.com/windows-pc-lockunlock-using-rfid/

by kksjunior @ instructables.com: How often have you felt tired of typing in the password to unlock your PC/laptop every time it got locked? I’m used to locking it down quite a number of times, everyday, and nothing is more annoying than typing the password/pin over and over again, every-time I want to unlock it. […]

Teardown & Experiments with an Anritsu MS9710B 0.6-1.75um Optical Spectrum Analyzer

https://www.electronics-lab.com/teardown-experiments-anritsu-ms9710b-0-6-1-75um-optical-spectrum-analyzer/

Teardown & Experiments with an Anritsu MS9710B 0.6-1.75um Optical Spectrum Analyzer – [Link]

Researchers Developed Hybrid 3D Printing Method To Make Flexible Wearable Devices

https://www.electronics-lab.com/researchers-developed-hybrid-3d-printing-method-make-flexible-wearable-devices/

Wearable electronic devices that intend to track and measure the body’s movements must be soft enough to flex and stretch to accommodate every body-movement. But, integrating rigid electronics on skin-like flexible materials has proven to be challenging. Clearly, Such components cannot stretch like soft materials can, and this mismatch frequently causes wearable devices to fail. […]