user's guide to - Olivier Fournet
Contents
1. Page 13 Page 14 DISCLAIMER All the products owned by MikroElektronika are protected by copyright law and international copyright treaty Therefore this manual is to be treated as any other copyright material No part of this manual including product and software described herein may be reproduced stored in a retrieval system translated2. for PIC y Best solution for fast and simple development of MikroElektronika applications using 28 and 40 pin PIC devices DEVELOPMENT TOOLS COMPILERS BOOKS OUR WAILUIED CUSTOMERS want to express my thanks to you for being interested in our products and for having confidence Mikroelektronika primary alm of our company Is to design and produce high quality electronic products and to constantly improve the performance thereof in order to better suit your needs Nebojsa Matic General Manager The Microchip Atmel NXP and CYPRESS name logo and products names are trademarks of Microchip Atmel NXP and CYPRESS Inc in the U S A and other countries Table of Contents Introduction to Ready for PIC Key features System Specification 1 Power Supply Voltage supply selector 2 Programming MCU 3 USB UART module 4 Board schematic 5 Board dimensions Page 3 cu A 10 11 VA Ready for PIC is a compact development tool for device development based on PIC microcontrollers Board is equipped with MCU that is placed in DIPAO socket Instead of socket you can solder one for microcontrollers in package To program PIC16F887 MCU you can use preinstaled or external programmer For easy access to MCU pins there are four 2x5 male headers that are marked with name of the MCU pin for which they are attached USB connector e E 2 we 2x5 male header ape fe PROTO board section RAS
3. E m USB UART module HW REV 1 11 2888488883 AC DC connector Power supply selector PIC16F887 in DIP40 socket 2x5 male header for mikroProg RESET button RDO ROL Ro2 E BL k B nad aiso fe 5 905 LY ROS 013 Ro RAF 060000000000 0600000000000 0600000000000 0600000000000 0600000000000 0600000000000 BEES OIGITAL 1 0 tzo fel 5 ICU RC RC2 RC3 00 01 wm ORDER TO USE MIKROPR ol CUL THE COPPER BETWEEN TH PADS e AND SOLDER M2X5 CONNECTOR connector 7 23 or 9 32V DC HL ir UODO Og MUUL E 85 gna 63 E e O E 25mA depends of placed MCU and attached devices BE 1 0 x Gan HW REY 1 11 0060060000000 DE ODEO OG U O U CHL 000000000000 6060000000000 LE E E AENA A 2460000000000 gi 00000000000 0x0 0000060000000 0609000000000 Ze 4 4600000000000 AC 0000 000000 i Amp PIA 0000000000000 OS COMMICIOS PROTO AREA _ 767g 0 15 Ibs 140 x 82mm 5 51 x 3 22 e M MIKROPROG CONNECTOR S MURORROR CE Li Lu Dan 1 E kai 5 REg RE Bco BI rd acs a 3 REE Ran ih x ARM SL Pas GAD H SH wer Supply To power up Ready for PIC board connect it with power supply source via AC DC connector or v
4. MCLR on rest of the board E GND RD L7 ADS 2e ROS RD4 RC acs E RCA Re MIKROPROS Figure 2 2 Solder 2x5 male header When soldering process is finished you can use external programer mikroProg for PIC dsPIC and PIC32 for MCU programing To place mikroProg s IDC10 connector properly make sure that knob and incision are placed towards inner side of the board Figure 4 3 Figure 2 3 Connecting external programmer Development tool can communicate with USB devices via USB UART module This module comes in form of chip which is interface between serial UART on MCU and USB device Figure 3 1 Connecting USB cable with USB UART module When data transfer via USB UART module is active a LEDs marked with Rx and Tx will flicker A Board schematic REG1 VCC 3 3 VCC 5V VCC FTDI VCC FTD VCC VCC 5V VIN 6 VCC 5V E dou 2 R2 C5 C6 D1 U3 1 E2 jc ZN MBRS140T3 D MC33269DT3 3 100nF 10uF 100nF VCC FTDIO ITXD 10uF 10uF BE FP1 IDTRA OSCIII LD1 CN FERRITE TEST AC DC VCC USB IRTS D U N USBDM IRXD NCH LED IGND cBus INC I DSR OVCC FTDI IDCD Teu Nil ICBUS4 3V3OUT ICBUS2 USBDM Bar ICBUS3 USBDPI USBDP GND J1 OVCC 5V OVCC OVCC 3 3 222 22 4x1N4007 ae E VCC 3 3 VCC5 DIP28
5. PORTB ADRI MCLR MCU 1 re lo 40 RB7 MCU_ MCLR MCU 1 lo a RB1 i mre 0 BS RAT RA Pa wo BRET 4 e laz rea 4 HEN a eure O Pru MN O REO Me 579 BN mm du E RDO e O o RD2 9 32 OSCc Wo e 20 ovcc mcu RDS Me oc PB R lo 30 RD7 roo 1 lo lo 18 RC7 RX Rs Mes c B6 wc RD1 Te H B um Res mm o o 25 R roz 17 e o 24 9 11 0592MHz eo Rb6 180 4 25 5 cu z iia zw uL d E o VCC 5 Board dimensions 4 Tolerance 0 3mm E ge f ES PROTO area raster 2 54mm 0 10 AS ES 7 Nm gir As So E 5 N e m e N 88 13mm 3 47 Ac atc Ready for PIC zu m USB UART ET a RB RB5 3 3U RB4 mn gt RB3 Cc RB2 N o RB1 m et e E c E 3 PORTC E 5 3 lt 1 CN RC2 0000 m Rc se A 9 e E j L z MIKROPROG 5008 8 RD2 CONNECTOR E 0 0 0 9 66555 5 ER E AND SOLDER AN M2X5 CONNECTOR A N m m cc TU gt
6. or transmitted in any form or by any means without the prior written permission of MikroElektronika The manual PDF edition can be printed for private or local use but not for distribution Any modification of this manual is prohibited MikroElektronika provides this manual as is without warranty of any kind either expressed or implied including but not limited to the implied warranties or conditions of merchantability or fitness for a particular purpose MikroElektronika shall assume no responsibility or liability for any errors omissions and inaccuracies that may appear in this manual In no event shall Mik roElektronika its directors officers employees or distributors be liable for any indirect specific incidental or consequential damages including damages for loss of business profits and business information business interruption or any other pecuniary loss arising out of the use of this manual or product even if MikroElektronika has been advised of the possibility of such damages MikroElektronika reserves the right to change information contained in this manual at any time without prior notice if necessary HIGH RISK ACTIVITIES The products of MikroElektronika are not fault tolerant nor designed manufactured or intended for use or resale as on line control equipment in hazardous environments requiring fail safe performance such as in the operation of nuclear facilities aircraft navigation or communication systems air traf
7. fic control di rect life support machines or weapons systems in which the failure of Software could lead directly to death personal injury or severe physical or environmental damage High Risk Activities MikroElektronika and its suppliers specifically disclaim any expressed or implied warranty of fitness for High Risk Activities TRADEMARKS The Mikroelektronika name and logo the Mikroelektronika logo mikroC mikroC PRO mikroBasic mikroBasic PRO mikroPascal mikroPascal PRO AVRflash PICflash dsPICprog 18FJprog PSOCprog AVRprog 8051prog ARMflash EasyPIC5 EasyPIC6 BigPIC5 BigPIC6 dsPIC PRO4 Easy8051B EasyARM EasyAVR5 EasyAVRE BigAVR2 EasydsPIC4A EasyPSoC4 EasyAVR Stamp LV18FJ LV24 33A LV32MX PIC32MX4 MultiMedia Board PICPLC16 PICPLC8 PICPLC4 SmartGSM GPRS UNI DS are trademarks of Mikroelektronika All other trademarks mentioned herein are property of their respective companies All other product and corporate names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies and are only used for identification or explanation and to the owners benefit with no intent to infringe Mikroelektronika 2011 All Rights Reserved Ready BOX edition If you want to learn more about our products please visit our website at www mikroe com If you are experiencing some problems with any of our products or just need additional information please place your ticke
8. ia screw terminal Figure 1 2 Power supply voltage can vary from 7 to 23V or 9 to 32V DC There s no need for voltage polarity orientation because Ready for PIC has diode bridge rectifier on board Figure 1 1 Connecting power supply via AC DC connector Figure 1 2 Power supply screw terminal Place jumper in 5V position in order to use MCU that use 5V power supply Place jumper in 3 3V position in order to use MCU that use 3 3V power supply Figure 1 3 5V power supply To use MCUs with different power supply voltages it is necessary to place jumper marked with SUPPLY SELECT in correct position If you use MCU with a 5V power supply place jumper J1 in 5V position Otherwise for 3 3V MCU place it in 3 3V position If you want to use external programer prior to bootloader on PIC16F887 or any other MCU you need to make few adjustments First you need to cut copper between pads for the external programmer Figure 2 1 By doing so it will be made separation between pins RB6 RB7 MCLR and VCC on MCU and from rest of the board After cut is made it s time to solder the 2x5 male Figure 2 1 Make a cut before 2x5 header is placed header to the pads CN5 Figure 2 2 Now it s time to place external programer s ICD10 connector on 2x5 male header Figure 2 3 After programming process is finished remove programer s connector and place jumpers over pins on 2x5 male header in order to use pins RB6 RB7 and
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