EasyPIC5 Development System Part No.: MPMICRO-PIC-Devel- EasyPIC5 Overview EasyPIC5 is a development system that supports over 120 8-, 14-, 18-, 20-, 28- and 40-pin PIC MCUs. EasyPIC5 allows PIC microcontrollers to be interfaced with a wide range of peripheral modules. Very fast, on-board USB 2.0 programmer with a simplified driver installation. mikroicd is a hardware tool designed for testing and debugging programs on PIC microcontrollers. On-board seven-segment displays in multiplex mode connected to the MCU socket. EasyPIC5 includes an on-board Touch Screen Controller with a Touch Panel Connector. NOTE: Touch Screen, Pencil, DS1820, Serial Cable, LCD and GLCD are not included in the price! What's On-Board RS-232 communication with a PC or an MCU is performed via DB9 connector and MAX232 level converter. Temperature sensor DS1820 measures temperature from -55 C to 125 C. It is connected to the system via socket. 2 potentiometers are used for testing multiple A/D conversions. Inputs can be configured via the on-board jumpers. 4 seven-segment displays in multiplex mode. They can also be interfaced with the microcontroller. System can be configured by means of DIP switches. Each DIP switch configures one part of the system. The system supports MCUs in DIP8, DIP14, DIP18, DIP20, DIP28 and DIP40 packages. It comes with a PIC16F887. USB or external power supply source is selected by moving a jumper. Power supply switch turns the system on/off. All microcontroller pins are connected to the IDC10 connectors for further expansion.
36 LEDs (Light Emitting Diodes) are used to indicate the logic state of all microcontroller pins. 36 push buttons are used to excite microcontroller digital inputs. They are connected to all microcontroller pins. Very fast, on-board USB 2.0 programmer with mikroicd. There is no need for connecting the external programmer. LCD Contrast Potentiometer is used for adjusting LCD contrast. External power supply can be DC or AC. On-board jumper is used for selecting external power supply. Graphic LCD 128x64 is connected directly to the microcontroller pins. Voltage level to be applied when a button is pressed (GND or +5V) is selected via the on-board jumper. Reset circuit is used to reset the microcontroller. It is connected to the MCLR pin of the microcontroller. On-board jumpers are used for pull-up/pull-down port configuration. These jumpers are available for all pins. DIP switch is used to separate port pins from pull-up/pull-down resistors. LCD can be easily connected via the on-board connector that is also connected to MCU pins. Touch Screen can be connected to the board via Touch Screen Connector. There is also a Touch Screen Controller. Quartz Crystal is replaceable. The MCU pins can be configured via jumpers as I/O or OSC pins. MCU pins are marked on the back of the board. These marks give basic information on the pins. USB communication connector is available for microcontrollers with USB facilities. PS2 connector enables the development system to be directly connected to a PS/2 device such as keyboard or mouse. On-Board Programmer and In-Circuit Debugger
3 in 1 Development System - Development System + On-Board USB 2.0 programmer + On-Board mikroicd (In-Circuit Debugger): mikroicd is a highly effective tool for Real-Time debugging at hardware level. It enables you to execute mikroc, mikropascal and mikrobasic programs on a host PIC microcontroller and monitor variable values, Special Function Registers (SFRs), RAM and EEPROM memory modules while the program is running. There is also an ultra fast USB 2.0 programmer for MCU programming that now supports more PIC microcontrollers. Windows Certified Drivers Drivers for the on-board programmer are Microsoft Windows XP, Windows Vista and Windows 7 certified. The Windows certificate is a proof that the programmer supports mentioned Windows operating systems and is immediately recognized by the system, which guarantees correct Plug and Play functionality. Driver certification provides users with a wide range of benefits such as stable functioning, the ability to install and delete drivers without rebooting and compatibility with future versions of Windows. Supported Microcontrollers The EasyPIC5 development system supports a wide range of microcontrollers including over 120 PIC microcontrollers. Newly released PIC microcontrollers will be supported by a new version of PICFlash software that is updated regularly. Here is a list of microcontrollers supported by the EasyPIC5 development system: PIC10 AND PIC12 MICROCONTROLLER FAMILY PIC10F200 PIC10F202 PIC10F204 PIC10F206 PIC10F220 PIC10F222 PIC12F508 PIC12F509 PIC12F510 PIC12F519 PIC12F609 PIC12F615 PIC12F629 PIC12F635 PIC12F675 PIC12F683 PIC16 MICROCONTROLLER FAMILY
PIC16F505 PIC16F506 PIC16F526 PIC16F54 PIC16F57 PIC16F59 PIC16F610 PIC16F616 PIC16F627A PIC16F628A PIC16F630 PIC16F631 PIC16F636 PIC16F648A PIC16F676 PIC16F677 PIC16F684 PIC16F685 PIC16F687 PIC16F688 PIC16F689 PIC16F690 PIC16F716 PIC16F72 PIC16F722 PIC16F723 PIC16F724 PIC16F726 PIC16F727 PIC16F73 PIC16F737 PIC16F74 PIC16F747 PIC16F76 PIC16F767 PIC16F77 PIC16F777 PIC16F785 PIC16F818 PIC16F819 PIC16F84A PIC16F87 PIC16F88 PIC16F882 PIC16F883 PIC16F884 PIC16F886 PIC16F887 PIC16F913 PIC16F914 PIC16F916 PIC16F917 PIC18 MICROCONTROLLER FAMILY PIC18F1220 PIC18F1230 PIC18F1320 PIC18F1330 PIC18F2220 PIC18F2221 PIC18F2320 PIC18F2321 PIC18F2331 PIC18F2410 PIC18F2420 PIC18F2423 PIC18F2431 PIC18F2450 PIC18F2455 PIC18F2458 PIC18F2480 PIC18F2510 PIC18F2515 PIC18F2520 PIC18F2523 PIC18F2525 PIC18F2550 PIC18F2553 PIC18F2580 PIC18F2585 PIC18F2610 PIC18F2620 PIC18F2680 PIC18F2682 PIC18F2685 PIC18F4220 PIC18F4221 PIC18F4320 PIC18F4321 PIC18F4331 PIC18F4410 PIC18F4420 PIC18F4423 PIC18F4431 PIC18F4450 PIC18F4455 PIC18F4458 PIC18F4480 PIC18F4510 PIC18F4515 PIC18F4520 PIC18F4523 PIC18F4525 PIC18F4550 PIC18F4553 PIC18F4580 PIC18F4585 PIC18F4610 PIC18F4620 PIC18F4680 PIC18F4682 PIC18F4685 PIC18F242 PIC18F248 PIC18F252 PIC18F258 PIC18F442 PIC18F448 PIC18F452 PIC18F458 Examples Examples provided with this development system will show you how to connect PIC microcontrollers to other peripheral components or devices and how to develope your prototype devices easily. Each example contains a detailed description of the relevant program including comments. All these examples can be downloaded from this page as well. 7seg displays in multiplex mode. A/D conversion and displaying conversion results on LCD. A/D conversion and displaying conversion results on LEDs in binary form. A/D conversion and sending conversion results via USART. Timer 0 and time measurement. Measuring temperature with DS1820 and displaying results on LCD. Examples of SPI communication. Examples of CAN communication. Examples of Sound generation. Sending and receiving data over Ethernet. Sending and receiving data over SPI Ethernet. Interrupt upon port B state change. Detection of button pressed on portb. Displaying text on LCD. Diodes blinking on port B.
Displaying text and images on Graphic LCD. Examples of I2C communication. Examples of RS485 communication. Examples of sending and receiving data using Manchester Code. Examples of Sinusoid generation. Examples for SPI Graphic LCD. Examples for SPI Port Expander. Sending and receiving data over SPI Ethernet. Touch Screen demonstration example. Measuring temperature with DS1820 and sending data to a PC via serial communication. Sending data to a 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. Reading date and time from PCF8583 Real Time Clock. Examples of reading and writing data to MMC or CF cards. Examples for Toshiba T6963 Graphic LCD.