Best PIC Microcontrollers In Sytem Programming

PIC In System Programming - PIC microcontrollers, like most modern microcontrollers, can be programmed in system (or in circuit – ICSP) rather than in a socket programmer. 

This has advantages in development and in production, for example, to use different firmware for different versions or to speed up production. 

The major benefit though is field upgrades.PIC microcontrollers are a very useful and versatile tool for use in many electronic projects. They are very inexpensive and easy to find. They are also very powerful and many are capable of speeds up to 64 MIPS using the internal oscillator block, about 16 times faster than most comparable AVR microcontrollers. 
PICs are also easy to program, however getting the project set up can some times be tricky. These instructions will walk through the process of setting up the 
software, creating a new project, and programming some very simple functions to test the configuration and ensure everything is working. They are designed to be 
very open ended; after the project is created and the basics are finished the reader is encouraged to explore all the features and extras not covered in these 
instructions. Also you will find that these instructions will start out walking through step by step, but as the instructions near the end the reader is 
encouraged to explore other ways of accomplishing the tasks and make the project their own.

1. Programmer PIC K150

Support the most popular programming PIC chips, read, encryption and other features.

No external power supply,communication and power is only a USB cable to print complete, without any cable.

PICSTARTPLUS much faster rate than programming.

Can easily read the contents of the chip program area.

Automatic programming verification.

Comprehensive information prompts, allowing users to understand the working state.

With 40pin ZIF programming of the seat, can be directly programmed in 8-pin to 40 pin PIC microcontroller chip 

can be programmed using ICSP online or add conversion blocks.

8 pin 40 pin-board outside the chip can be downloaded directly online ICSP output.

Compatible with Windows98 and Windows2000/NT, Windows XP / Windows 7 and other operating systems.

Specifications:

Original box: No

Color board: blue

Item size: 90*46*10mm

Net weight: 103g

Package weight: 112g

Package included:

1 x Programmer

1 x High quality USB cable

1 x ICSP cable

2. PX-200 OEM-PICkit2 USB Flash PIC ISP In-System Programmer

PX-200 OEM-PICkit2 USB Flash PIC In-System Programmer . ICSP device (programmer) for PIC microcontroller.

Specification:

- Supports PICs:

PIC10Fxx, PIC12F5xx, PIC16F50x/5x, PIC12F615/ HV615, PIC16F7x/ 7xx, PIC12F62x/63x/67x/68x, PIC16F84x/8xA/8xx/8xxA, PIC16F6xx, PIC16F9xx, PIC18x, 

PIC18xx, PIC18x PIC18F8xxx, PIC18F9xJ6x, PIC18F4xxx, PIC18F2xJxx/4xJxx, PIC24FJ6xGA0xx, PIC24FJ9xGA0xx, PIC24FJ128GA0xx

- Interface: USB

- Does not require additional power supply.

- There are 3 LED indicators for Power, Target, Busy

- Compatible with Windows operating system (98, ME, XP)

3. USB ICSP PIC Programmer

Usb pic programmer is designed to program popular Flash PIC Microcontroller which includes most of the PIC family. Besides 8-bit, it can also program 16-bit and 

32-bit PIC MCU. On board ICSP (In Circuit Serial Programming) connector offers flexible methods to load program. USB port is commonly available and widely used 

on Laptop and Desktop PC, thus is very convenient to use UIC00B. It offers reliable, high speed programming and free windows interface software

ARM Cortex M0 Microcontroller Learning Module Nu LB Nano130 32Bit

ARM Cortex-M : Modular Embedded Systems Design (FREE!) - Learning board for Nano130 microcontroller. This microcontroller is a 32-bit microcontroller that has been integrated with ARM Cortex-M0 with low power consumption.

The Nu-LB-Nano130 board can be used for learning media using the Nano130 microcontroller by displaying information via the LCD, data storage or serial 
communication to a PC.
Specifications:
- Power supply: 5VDC
- Has a series of I / O for LCD panels, 7 Segments, LEDs, RGB LEDs, Potentiometers, Switches, EEPROM, Flash Data, etc.
- Already integrated with Nu-Link-Me so no need for an external programmer/debugger.
- ISP programming (via bootloader) can only be used via Serial port (DB-9).
- Can be programmed using the C programming language and using IAR, Keil, or CooCox CoIDE compilers.
- Get the latest information and exchange opinions on the use of this product through the Nuvoton-M0 forum.
Datasheets:
http://download.nuvoton.com/NuvotonMOSS/DownloadService/Member/DocumentsInfo.aspx?tp_GUID=UG0220121210173033

ODROID-SHOW2 with 2.2 inch 320x240 TFT LCD

ODROID-SHOW2 with 2.2 inch 320x240 TFT LCD - ODROID-SHOW2 is arduino compatible which allows to view what is being processed by ODROID via 2.2 inch TFT LCD. We can display colorful text or images 
via USB interface.
The design on the ODROID-SHOW2 is suitable to be combined with the ODROID-U3.
Specifications:
Power Supply : 3.7 VDC - 5.5 VDC
Interface : USB to UART via on-board CP2104
MCU : ATmega328P at 16Mhz
LCD : 2.2inch 240 x 320 TFT-LCD (8Mhz SPI interface)
LCD Voltage : 3.45 V from CP2104 on-chip voltage regulator
Power Consumption : 60mA @ 5Volt
Sales Package:
– ODROID-Show2 Board with 2.2inch TFT LCD Module
– 4 x 20mm PCB spacers (Plastic)
– 4 x 11mm PCB spacers (Metal)
– 4 x 10mm PCB spacers (Plastic)
– 1 x USB2.0 Type A to Micro-size Type B Cable

MyCobot Pro 320 Pi 1 Kg Payload 6 DOF Cobot Collaborative Robot

 

MyCobot Pro 320 Pi 1 Kg Payload 6 DOF Cobot Collaborative Robot - MyCobot Pro 320 Pi is an ARM robot with 6 degrees of freedom (6 DOF) that uses a Raspberry Pi mini pc board as its main controller. 

This robot uses the Debian/Ubuntu operating system and already supports ROS and Roboflow for software development.

MyCobot Pro 320 Pi is very suitable for use as learning robotics, especially ARM robots for hobbyists and academic practitioners for research purposes.
In addition, this robot also works within a 320mm radius with a maximum load of 1kg, so it is very suitable for industrial use to help improve production processes.
This robot can be programmed using Python, C++, C#, and Javascript programming languages. In addition, MyCobot Pro 320 Pi can also be programmed visually using  Myblockly so it is very user friendly for school children who are starting to learn visual programming.

Feature :

Using a Raspberry Pi controller that has the largest community in the world
Easy to use
Fully Support Open Source Software such as ROS/Movelt and RoboFlow
Has a Nice and Compact Design
Have 6 Degrees of Freedom
Can be programmed in script or visual

Specifications:

Model : MyCobot 320-Pi
Power Supply: 24V 5A
Board: Raspberry Pi 4B 64-bit 1.5GHz Quad-core
Connectivity: Bluetooth and Wireless
USB : 2x USB 3.0 and 2x USB 2.0
HDMI Ports: 2x microHDMI
IO Port : 8
Emergency Stop Button : Yes
Communication : Type-C
BUS RTU Model : Ethernet
Programming Platform : Debian/Ubuntu
ROS/Python : Built-in
Blockly Visual Programming : Built-in
Payload: 1kg
Working Range : 320mm
Repeatability : +- 0.5mm
DOF : 6
Joints Range : J1 +/- 170°, J2 +/- 160°, J3 +/- 160°, J4 +/- 160°, J5 +/- 170°, J6 +/- 175°
Operating Temperature : 0 ~ 50°C

MyAGV Mecanum Wheels Lidar High Precision Camera Car Kit

MyAGV Mecanum Wheels Lidar High Precision Camera Car Kit - MyAGV is a car-shaped robot equipped with a camera with a high level of precision and also equipped with Lidar so that it can be used for location mapping purposes.

In addition, this robot also uses mechanical wheels so that it has high navigational mobility in all directions up to 360 degrees. Besides being able to be used for mapping, MyAGV can be combined with the ARM myCobot Pi robot to produce more complex functional robots, for example, such as moving goods from one point to another by utilizing the camera and Lidar. MyAGV supports Robot Operating System (ROS) simulation and can be programmed in Python and C++ programming languages. In addition, this robot also supports the Raspberry Pi and Arduino platforms. Feature : Omnidirectional Wheel AGV Equipped with Lidar for Navigation and Mapping Needs Built-in High Precision Camera Can be Combined with ARM robot myCobot Pi Specifications: Model : myAGV Charging Voltage : 24V 1A Controller : Raspberry Pi 4B Built-in Camera : 5M Pixels Motor : Hall Encoder Motor Motor RPM : 220 rpm/min Moving Speed ​​: 0.9 m/s Wheel Model : Mekanum Lidar: 360 degree omnidirectional Range : 8m Robot Dimension : 300x205x145 mm