|Electronics containing complex, code-based integrated circuits (ICs) are prone to lock-ups. GreenPAK makes it easy to implement a fully customizable reset circuit that can detect lock-ups, sense under/over-voltage, and take user input to trigger a hard reset signal to the locked-up IC.|
Learn how to create a voice-activated Smart Home controller using a SLG46620V GreenPAK device, an HC06 Bluetooth module, and a few relays. It involves creating a simple Android App and interfacing with a Bluetooth node, which is connected to several smart electrical outlets. We will use this design to control four electrical devices: a red light, a blue light, a white light, and a fan. Each of these devices can either be ON or OFF.
|Stepper motors are among the most widely used actuators for high precision motion. They are used in routing systems, 3D printers, robots, etc. For similar applications, servo motors were used in the past; but today, compared to stepper motors, they have higher costs and complexity because of the additional components needed to make them (position sensors and error amplifiers etc.). This is why today, the ideal choice is often a stepper motor because it’s simpler to control it and it has good accuracy, good torque, moderate speed, and a low cost.|
|The aim of this app note is to create a parking assistant device using a Silego GreenPAK configurable Mixed-Signal IC and the SHARP GP2Y0A60SZLF distance measuring sensor. Many modern vehicles come with this feature, but the techniques described in this app note will allow anyone to create their own removable parking assistant device.|