Boards & Programmer
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ARM Microcontroller Board
STM32F401CCU6 Minimum System Board Microcomputer STM32 ARM Core Board
This is STM32F401CCU6 Minimum System STM32 ARM Core Board. This board is a low-cost Minimum System Development Board for ARM Microcontroller STM32F401CCU6.
Board is suitable for learners that want to learn the STM32 microcontroller with ARM Cortex-M4 32-bit core.
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ARM Microcontroller Board
STM32F103CBT6 Maple Mini STM32 ARM Core Development Board
This is STM32F103CBT6 Minimum System STM32 ARM Core Board. This board is a low-cost Minimum System Development Board for ARM Microcontroller STM32F103CBT6.
Board is suitable for learners that want to learn the STM32 microcontroller with ARM Cortex-M3 32-bit core.
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ARM Microcontroller Board
STM32F030F4P6 core board development board core ARM CORTEX-M0
This STM32F030F4P6 core board development board core ARM CORTEX-M0 board is a Minimum System Board STM32F030F4P6 (Cortex-M0). The MCU target is STM32F030F4P6 which is provided by ST. It is a 32-bit ARM Cortex -M0 CPU, frequency up to 48 MHz, high-speed built-in memories. As a minimum ready-to-run system, this board integrates micro USB power supply interface, ISP / SWD interface programming / debugging startup mode selection and so on to take you to the ARM Cortex world easily.
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Programmers
ULINK2 USB JTAG Emulator ARM Programmer and Debugger
ULINK2 Keil Debug Adapter connects user PC’s USB port to your target system (via JTAG, SWD, or OCDS) and allows you to program and debug embedded programs on target hardware. ULINK2 can be used for on-chip debugging (using on-chip JTAG, SWD, or SWV) and flash memory programming (using user-configurable flash programming algorithms).
Using the ULINK2 adapter together with the Keil µ Vision IDE/Debugger, users can easily create, download, and test embedded applications on target hardware.
By using ULINK2, you can examine memory and registers, single-step through programs then insert multiple breakpoints, run programs in real-time and program Flash Memory.
Breakpoints RAM: Unlimited ROM Breakpoints (ARM7 / 9): 2 max ROM Breakpoints (Cortex-M3): 6 max Execution breakpoints (Set While Executing): yes Access Breakpoints (ARM7 / 9): 2 max (R / W Only, With Value) Access Breakpoints (Cortex-M3): 4 max (With Value) Trace History: no Real-Time Agent: yes JTAG clock : <= 10MHz JTAG RTCK support (Return Clock): yes Memory R / W (Bytes / sec): 28K Flash R / W (Bytes / sec): 25K Single-Step (Fast) (Instructions / sec): 50 SUPPORTED DEVICES: Actel (ARM7/ARM9/Cortex Family) COREMP7, Cortex-M1
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Programmers
ST LINK V2 in-circuit Debugger / Programmer for STM8 and STM32
The ST-LINK/V2 is an in-circuit debugger and programmer for the STM8 and STM32 microcontroller families. The single wire interface module (SWIM) and JTAG/serial wire debugging (SWD) interfaces are used to communicate with any STM8 or STM32 microcontroller located on an application board.
Much similar in architecture for debugging, the ST-LINK/V2 and the ST-LINK/V2-ISOL share the same features like digital isolation between the PC and the target application board this allows to withstands voltages of up to 1000 Vrms.
Specifically the debugger incorporates the use of USB full-speed interface to communicate with the ST Visual Develop (STVD) or ST Visual Program (STVP) software for STM8 application, and use of the USB full-speed interface to communicate with Atollic®, IAR™, Keil®or TASKING integrated development environments for STM32 applications.
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Programmers
USB ASP AVR Programmer for ATMEL Processors
The USB ASP AVR Programming Device for ATMEL processors is a USB in-circuit programmer for Atmel AVR controllers. USB ASP AVR Programming Device for ATMEL Processors simply consists of an ATMega88 or an ATMega8 and a couple of passive components. The programmer uses a firmware-only USB driver; no special USB controller is needed.
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Programmers
ST Link V2 Programmer For STM8 and STM32
ST-Link V2 Programmer For STM8 and STM32 is fully consistent with the official version, support for automatic upgrades, support the full range STM32 SWD (only 4pins including SWCLK, SWDIO, and power) and a full range STM8 SWIM (only 4pins including SWIM, Reset and power) download and debug.
Use this device to send program code to the 32-bit STM32 ARM Cortex or 8-bit STM8 microcontrollers. The header for this ST-Link v2 programmer contains connections for 5V, 3.3V, SWCLK, SWDIO, SWIM, Reset (RST/NRST) and GND. The connector on the opposite side of this device is a USB connector and is intended to be plugged into the computer.
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Programmers
SPI BIOS FLASH Non-Dismantling Test Program Clip SOP8 24C 93C 25LF
This is an SPI BIOS FLASH Non-Dismantling Test Program IC programming clip that is perfect for reading or writing EEPROMs. This clip allows for in-circuit programming of SOP8 chips.
Now you can program SOP8 chips without having to remove them from the circuit board, just clip to the chip and use one of the two breakout adapter boards to connect to your programmer.
The ISP cable is wired 1:1 so will support any programmer that has a ZIF/DIL socket and supports ISP/ICSP Mode
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Programmers
PICKIT3.5 KIT3.5 Programmer Simulator
PICkit 3.5+ In-Circuit Debugger/Programmer compatible to Microchip uses in-circuit debugging logic incorporated into each chip with Flash memory to provide a low-cost hardware debugger and programmer. The PICkit3.5+ allows debugging and programming of PIC and dsPIC Flash microcontrollers using the powerful graphical user interface of the MPLAB Integrated Development Environment (IDE)This is an upgrade from the Pickit 3 programmer with the programming to go feature.SKU: n/a -
Programmers
PICkit3 Debugger Programmer Emulator Controller Development Board
This is PICkit3 Debugger Programmer Emulator Controller Development board w/ Pinout diagram to ease the customer. The USB connection is more stable than ICD2.
PICKIT3.5, begin to support Win7 system. Full patch design, patch through the reflow soldering processing, more stable quality. PIC developing data, C language development tool manual. A lot of PIC basic experiment program code; ICD2 PICKIT3 etc application specification.
The MPLAB PICkit 3 allows debugging and programming of PIC and dsPIC Flash microcontrollers at a most affordable price point using the powerful graphical user interface of the MPLAB Integrated Development Environment (IDE). The MPLAB PICkit 3 is connected to the design engineers PC using a full-speed USB interface and can connect to the target via a Microchip debug (RJ-11) connector (compatible with MPLAB ICD 2, MPLAB ICD 3 and MPLAB REAL ICE).
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Development Board
Wemos D1 Mini – IOT ESP8266 Based Development Board
This is Wemos D1 Mini WIFI Internet Of Things Development Board Based ESP8266, it is a mini WIFI board based on ESP-8266EX. 11 digital input/output pins, all pins have interrupt/PWM/I2C/one-wire supported(except D0) 1 analog input(3.3V max input) and a Micro USB connection
The Wemos D1 Mini is a great board to develop WiFi based IoT Projects. It uses the popular ESP8266 Module for its IoT operations. Can be easily programmed through USB and requires no additional programmer.
Use this tried and tested hardware platform to build your IoT Projects without having to worry about hardware design and fabrication. This board lets you jumpstart your IoT Development by letting you concentrate all your time and effort on software development.
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Development Board
LoRa RA-02 433Mhz SX1278 Long Range Wireless Module
This LoRa 433MHz module designed by AI-THINKER, which based on the chip SX1278. The SX1278 RF module is mainly used for long-range spread spectrum communication. It can resist Minimize current consumption. Thanks to SEMTECH’s patented LoRa ™ modulation technology, the SX1278 has a high sensitivity of -148 dBm with a power output of +20 dBm, a long transmission distance and high reliability. At the same time, compared with the traditional modulation technology, LoRa™ Modulation technology in anti-blocking and selection also has obvious advantages, to solve the traditional design can not take into account the distance, interference and power consumption.
LoRa Modules are long range low power RF Modules. Great for IoT applications to send sensor data to the cloud over long ranges.Developed by Ai-Thinker, the manufacturer of the ESP8266 and ESP32 wifi modules, this Ra-02 LoRa (Long-range Radio) module will take your IoT projects the distance with communication over a long-range spread spectrum. This form of wireless communication results in a larger bandwidth, increasing interference resistance, minimizing current consumption, and increasing security.This module uses SX1278 IC from SEMTECH and works on a 433MHz frequency. Frequency hopping—which gives you that sweet balance of quality signal transmission will cover a range of 420-450 MHz. This long range wireless capability is packed into a small (17 x 16mm) package and delivered without an antenna.With the LoRa Ra-02, you don’t have to compromise in the balance of range, interference immunity, or energy consumption. The technology behind this IC means that it’s perfect for those projects requiring range and strength.SKU: n/a -
Development Board
LoRa RA-01 433Mhz SX1278 Long Range Wireless Module
Developed by Ai-Thinker company, the manufacturer of the ESP32S, this Ra-01 LoRa (Long-range Radio) module will take your IoT projects the distance with communication over a long-range spread spectrum. This form of wireless communication results in a larger bandwidth, increasing interference resistance, minimizing current consumption, and increasing security.This module uses SX1278 IC and works on a 433MHz frequency. Frequency hopping—which gives you that sweet balance of quality signal transmission—will cover a range of 420-450MHz. This long range wireless capability is packed into a small (17 x 16mm) package.With the LoRa Ra-01, you don’t have to compromise in the balance of range, interference immunity, or energy consumption. The technology behind this IC means that it’s perfect for those projects requiring range and strength.SKU: n/a -
Development Board
ATtiny85 USB Development Board
The ATtiny85 based mini development board is similar to the Arduino, but cheaper and smaller (of course a bit less powerful). With a whole host of shields to extend its functionality and the ability to use the familiar Arduino IDE, this ATTINY85 USB Development Board is a great way to jump into microcontroller electronics.
ATtiny85 based microcontroller development board come with the USB interface. Coding is similar to Arduino, and it uses the familiar Arduino IDE for development. This is a digispark clone.
It has 6 port with several functions. Depending on the programming (with Arduino IDE) can it have 6 digital I/O, 4 analog inputs or 3 PWM outputs. It can be powered by a USB port or an external power supply of 6-35V DC.
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Development Board
WeMos ESP8266 D1 R2 V2.1.0 WiFi Development Board
This is WeMos ESP8266 D1 R2 V2.1.0 WiFi Development Board. The WeMos D1 is an ESP8266 WiFi based board that uses the Arduino layout with an operating voltage of 3.3V.
the board is controlled by the ESP8266 chip (a 32-Bit processor) and has a larger flash memory compared to an Arduino Uno. It consists of 11 digital I/O pins and 1 analog (input) pin. the board can be connected using a Micro-B type USB cable.
The D1 R2 is a WiFi capable ESP8266EX based development board in the form of the Arduino UNO board format.This board is compatible with theArduino IDEand withNodeMCU.
The D1 R2 also features an onboard switching power supply which allows you to power the board from a power supply up to 12V.
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