OUT OF STOCK !!! New version available here.
PICPLC16 is a system designed for controlling industrial systems and machines. 16 inputs with optocouplers and 16 relays (up to 10A) can satisfy many industrial needs. PICPLC16 can serve as remote control system by means of RS485 communication.
Each relay has its own varistor so that the spark does not damage the contacts. When boxed, the system may be used in moist and dusty environment.
The PICPLC16 is industrial development board for Microchip PIC microcontrollers. Ita allows PIC microcontrollers to be interfaced with external circuits and a broad range of peripheral devices, allowing user to concetrate on software development.
NOTE: LCD, GLCD, and DS1820 are not included in the price !!!
Jumpers for enabling and disabling USB programmer on board.
RS-485 communication for connecting multiple devices into a network.
RS-232 communication for connecting to PC or another device.
Screw terminal for easier connection with the external peripherals.
Two part power supply screw terminal.
Every port can be set to pull-up or pull-down resistors.
Selectable relay power supply.
16 input lines with optocouplers (fast HP2630 optocouplers with Smitth trigger).
PIC18F452 is the microcontroller powering the PICPLC16. 32KB of memory, 40 pins, ADC ...
Each Relay have LED for optical signalization.
All pins are marked from both sides of the board.
PS/2 connector for PC keyboard.
EasyPIC3 development system is a full-featured development board for the Microchip PIC microcontrollers. It was designed to allow students or engineers to easily exercise and explore the capabilities of the PIC microcontrollers. It allows the PIC microcontroller to be interfaced with external circuits to a broad range of the peripheral devices, allowing the user to concentrate just on the software. Figure on the left illustrates the first contact with the development system. On a silkscreen there are marks beside every component. These marks describe connection to microcontroller, operation modes, and some other useful notes. As a result, need for additional schematics is minimized, because all information are already on the board.
USB 2.0 on-board programmer - PICFlash2: You will get the USB programmer which doesn't use boot loader or any similar way of programming. The whole PIC memory and all pins are available to you. If you do use boot loader, you have to leave some RAM memory for this propose, and it is generally not a such good idea if you program in Pascal, C or Basic. Also if you use low-level programming (5 VDC instead 12.5 VDC), note that you lose RB6 pin. PICFlash2 have voltage pump and generate 12.5 VDC so you have all pins for your project. Aside from that, you will have state-of-the-art fast USB PIC In-System programmer for your future projects.
A beginner? Worry not. Easy-to-learn BASIC syntax, advanced compiler features, built-in routines, and many practical examples we have provided allow a quick start in programming PIC. [more]
Comprehensive, stand-alone Pascal compiler for PIC MCUs. Develop your applications in intuitive and friendly Pascal environment, using many advanced features and practical examples. [more]
All the power and flexibility provided by ANSI C, with the most advanced IDE on the market. A perfect match. Plenty practical examples and a comprehensive documentation. [more]
7seg displays in multiplex mode.
AD conversion and displaying on LCD.
AD conversion and displaying on LED
diodes in binary form.
AD conversion and send conversion result via USART.
Timer 0 and time measuring.
Measuring temperature with DS1820
and displaying on LCD.
Examples for SPI communication.
Examples for CAN communication.
Examples for Sound generation.
Sending and receiving data over Ethernet.
Relay activating on each second.
Measuring temperature with DS1820 and displaying on 7seg displays in multiplex mode.
Interrupt upon port B state change.
Detection of button pressed on portB.
Printing text on LCD.
Diodes blinking on port B.
Display text and images on Graphic LCD.
Examples for I2C communication.
Examples for RS485 communication.
Examples for sending and receiving data using Manchester Code.
Examples for Sinusoid generation.
One relay activating on each second.
Measuring temperature with DS1820
and sending data to the PC via serial
communication.
Sending data to the PC via serial
communication.
Creating delay with timer 0.
Creating delay with timer 1.
Creating delay with timer 2.
Sending data from PS/2 keyboard.
One-wire communication with temperature sensor.
Read date and time from PCF8583 RTC Real Time Clock.
Examples for reading and writing data to MMC or CF cards.
Reading the input and activating appropriate relay.
Drawings for all dev.system parts are simple and clear.
PICPLC16 development system.
USB cable.
Printed Board Schematic
CD with software, drivers, board schematic and examples in C, BASIC and Pascal.
The Box is very resistant to shock and transport damage.
PICPLC16 comes with printed board schematic.
Real-Time clock (RTC) is a electronic clock that keeps track of the current time even when the MCU is turned off. [more]
AD converters are used virtually everywhere where an analog signal has to be processed, stored, or transported in digital form.[more]
DAC is the interface between the abstract digital world and the analog real life. [more]
CAN was specifically designed to be robust in electromagnetically noisy environments and can utilize a differential balanced line. [more]
CAN 2 Board with SPI interface for all MCU which have SPI communication. [more]
The IrDA defines physical specs. protocol standards for the short range exchange of data over infrared light. [more]
Easy way to use Compact flash in your design and data acquisition. Record and analyze the information received by the microcontroller on compact flash cards. [more]
MMC card is used as storage media for a portable device, in a form that can easily be removed for access by a PC. [more]
Connect Accel. board to the development system, load an example and it's all set to start the measuring. [more]
Irda2 serve as wireless RS232 communication between two Microcontrollers. [more]
Keypad can also be integrated as part of prototype that contains a calculator-style arrangement of buttons. [more]
EEPROM is typically used to store prototype configuration parameters. [more]
All credit card and personal details are kept secure, and our customer list is not disclosed to any third party. Most shipments are sent within 48 hours of your order.
$149.00 USD
PICPLC16 Development System Out of stock !!!
$15.00 USD
2x16 LCD and DS1820 temperature sensor
$17.00 USD
Graphic LCD 128x64 dots
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