Foreign powerful, simple and portable oscilloscope design (schematic diagram, PCB, program source code, etc.)

Foreign powerful, simple and portable oscilloscope design (schematic diagram, PCB, program source code, etc.)

Schematic PCB

Oscilloscope source code based on stm32f4

A good source code for stm32f4 oscilloscope, which can use 3-channel ADC to measure waveforms and display the waveforms on the screen and also display the amplitude.

Schematic PCB

TDS water quality test pen schematic diagram, PCB and BOM

If you are interested, you can take a look or download the schematic diagram and BOM table of the tds detection pen.

Schematic PCB

Based on ST ST25RU3993 unmanned convenience store ultra-high frequency UHF RFID reader solution

Schematic PCB

Kalman filter version of balancing car source code

Schematic PCB

JLINKV9 schematic diagram

jlink-v9.5 schematic diagram, you can directly learn the JLINK principle

Schematic PCB

Pulse electronic blood pressure monitor based on STM32 (schematic + program)

Pulse electronic blood pressure monitor based on STM32 (schematic + program)

Schematic PCB

Schematic diagram of RTL8306 switch

Schematic diagram and pcb of RTL8306 switch, where the schematic diagram is orcad and the pcb is ad10.

Schematic PCB

High efficiency digital power solution source code

Schematic PCB

Principle and design analysis of four-wing ornithopter (bionic bird) (including open source code)

This video records the entire process of the author and his team building a low-cost ornithopter. The video explains in detail the mechanical structure design, power transmission, wing flapping angle control, electronic system design and selection of the ornithopter. At the same time, the author has open sourced all design-related schematics, PCB, source code and other materials for reference by interested enthusiasts.

Schematic PCB

20 ink screen daisy chain gameplay

Created a daisy chain through the serial port

Schematic PCB

Xenon lamp ballast

There is a risk of electric shock and fire with this project! Light bulbs are essential devices in our lives. Incandescent and fluorescent light bulbs are typical light bulbs for household lighting fixtures. For industrial and public purposes such as street lighting, large indoor lighting, sports field lighting and any outdoor activities, apart from these bulbs, HID (High Intensity Discharge) lamps are also widely used. Typical HID lamps used for this purpose are high pressure sodium, metal halide, and mercury lamps. The last one has been banned in 2021 by the Minamata Convention on Mercury. Fixtures with incandescent and fluorescent bulbs, long used for home lighting, became obsolete within 10 years of the widespread adoption of LED lights, and currently offer only replacement bulbs. Low-wattage HID lamps are also gradually being replaced by LED lamps. High-wattage HID lamps still dominate the mainstream of large-scale lighting because the advantages of LED lamps at this level are smaller. Like many LED geeks, I built an LED fixture because it was rare, but when it became commonplace it stopped being fun. On the other hand, my nostalgia for the disappearance of glass tubes from our lives increased and I started collecting HID lamps as a light bulb geek. However, having only light bulbs makes no sense. In order to light a HID lamp, a lamp ballast rated for each bulb is required. Therefore, I designed and built an electronic HID ballast that can light a variety of HID lamps.

Schematic PCB

LPCXpresso43S67 development board

The LPCXpresso family provides a powerful and flexible development system for NXP Cortex-M microcontrollers. The LPCXpresso43S67 board was developed by NXP to enable evaluation and prototyping of the LPC4300 series MCUs, featuring the LPC43S67 in a 100-pin BGA package. LPCXpresso™ is a low-cost development platform provided by NXP that supports NXP's Arm-based microcontrollers. The platform includes a simplified Eclipse-based IDE and low-cost target boards with a JTAG debugger. LPCXpresso is an end-to-end solution that supports embedded engineers developing applications from initial evaluation to final production.

Schematic PCB

MPC5777C BMSS and engine control development board

Schematic PCB

PCT2075DP Arduino expansion board with temperature sensor function

The PCT2075DP Arduino Shield has most temperature sensor functionality on a board compatible with the Arduino R3 pinout. The graphical interface allows the user to easily explore the different functions of the temperature sensor. In addition, users can find embedded drivers and demo applications as reference code to get started quickly.

Schematic PCB

NHS3100 Starter Kit for Treatment Adherence

Schematic PCB

Hitex LPC4350 Evaluation Board

The Hitex LPC4350 evaluation board allows you to quickly and easily evaluate the LPC4300 series of microcontrollers. The microcontroller, board, and feature set make it a great starting point for your next Cortex-M4 project. The LPC4350 is assembled to demonstrate the LPC4300 functionality, providing optimized dual-core performance, large internal memory and advanced peripherals. NOTE: It is the same as the Hitex LPC1850 evaluation board, but uses LPC4350 components instead of the LPC1850.

Schematic PCB

LPCXpresso board for LPC1769 with CMSIS DAP hardware debugger

The LPCXpresso™ development platform, pioneered by NXP and Embedded Artists, includes a low-cost LPCXpresso target board so you can get your design up and running quickly. The LPCXpresso™ Development Board is designed for easy, fast prototyping and evaluation, and can be used with the LPCXpresso IDE or other popular partner toolchains. LPCXpresso™ is an end-to-end solution that supports embedded engineers throughout the application development process from initial evaluation to final production.

Schematic PCB

LPCXpresso54114 circuit board

The LPCXpresso family of circuit boards provides a powerful and flexible development system for NXP Cortex-M microcontrollers. The LPCXpresso54114 circuit board was developed by NXP to support the evaluation and prototyping of the LPC54110 series MCU. Its low power consumption feature can help you easily start your project design. LPCXpresso™ is a low-cost development platform provided by NXP that supports NXP's Arm-based microcontrollers. The platform includes a simplified Eclipse-based IDE and low-cost target boards with a JTAG debugger. LPCXpresso is an end-to-end solution that supports embedded engineers developing applications from initial evaluation to final production.

Schematic PCB

LPCXpresso4367 development board

The LPCXpresso family of boards provides a powerful and flexible development system for NXP Cortex-M microcontrollers. The LPCXpresso4367 board was developed by NXP to enable evaluation and prototyping of the LPC4300 series MCUs, featuring the LPC4367 in a 100-pin BGA package. LPCXpresso™ is a low-cost development platform provided by NXP that supports NXP's Arm-based microcontrollers. The platform includes a simplified Eclipse-based IDE and low-cost target boards with a JTAG debugger. LPCXpresso is an end-to-end solution that supports embedded engineers through every step of application development, from initial evaluation to final production.

Schematic PCB