A compact starter kit with your favorite
Contents
1. R19 eis 324k 33pF 4 R22 105K VCE SV VCC 5V VCE SV VCC 5V VCC 33V c28 LD3 88K7 D er D r ITOnF Wr R8 470 RG3 MB1 PWM4 RESET RG4 PWM5 C4 10uF RF7 GPIO RF6 VSENSE RFS AN10 USB D P USB D N RF2 AN7 RH7 AN15 RH6 AN14 Ui RH2 RH3 RE1 REO RGO RG1 RG2 RG3 MCLR REA PIC18F87J50 GND CLKO RA6 OSC2 VCCcore Vcap CLKI RA7 OSC1 RF7 VCC RF6 RB7 RFS RCS RF4 D RC4 RF3 D RC3 RF2 RC2 RH7 R37 RH6 RJ6 PIC18F87J50 RJ2 GPIO RJ3 GPIO RBO INTO RB1 INT1 RB2 MB2_INT2 RB3 MB1_INT3 RB4 GPIO RB5 GPIO RB6 PGC OSC2 OSC1 RB7 PGD RC5 SPI1 MOSI RC4 SPI1 MISO RC3 SPI1_SCK RC2 PWM1 2 82233 D oS 2 DODO OA GND GND RH5 AN13 RH4 AN12 RA3 GPIO RA1 MB2_AN1 RAO MB1_ANO RAS GPIO RA4 GPIO RC1 PWM2 RCO GPIO RC6 UARTi TX RC7 UARTi RX RJ4 GPIO RJ5 STAT clicker 2 for PIC18F schematic RJ7 GPIO RJ6 GPIO RD4 LD1 VCC 33V vcc sv RAO MB1 ANO S AN pwm El RG3 MB2. 36 58 mm 1440 mils ES n E O nlooooooo O e e O A a O A Ba Dl0O000000 Dj 000000 DJ 0000000000000000000090900 2 54 mm 2 67 mm 100 mils 105 mils 2 03 mm 80 mils 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 translated 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 MikroElektronika 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 manu
3. MISO RC4 O MOSI RC5 RD5 SDA MOSI RC5 RD5 SDA e Power and Charge indication LEDs 3 3V 2 M e z GND on RESET butt m pg RH Je kj m i j LD2 E m USB mini B connector lace be JI E dsckacsl e fem e jar o EG PIC18F87 50 SE ae a SDI RC4 PWM selection jumper EI S pa SL Li Polymer battery connector I kasi I E n Tm N y z alt EE ia e mikroProg programmer connector E 2 Li m r E RJ5 STAT PWR EN VCC BAT VCC BAT 2 2uF d CNL BATT CONN LDO3V3 VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V c 10uF C33 100nF 100nF 100nF 100nF 100nF 10uF LDO3V3 VCC 3 3V VCC 3 3V VCC 3 3V LDO3V3 R16 10K JS202011AQN T L AA E RE6 FAULT C22 Eug VCC USB Gi 22uF VCC USB TE TE LDO3V3 PWR EN R17 1M VCC 3 3V RH1 GPIO RHO GPIO RE2 GPIO RE3 GPIO RE4 LD2 RES SENSEL RE6 FAULT RE7 GPIO RDO MB2_RST RD1 MB2 CS RD3 MB1 CS RD6 I2C2 SCL RJ1 GPIO RH2 GPIO RH3 T3 RE1 GPIO REO GPIO RGO PWM3 RG1 UART2 TX RG2 UART2 RX PWR EN VCC 3 3V VCC 3 3V
4. MOSI Spo 2 LL RDS I2C2 SDA VCC 33V e vcc 33v ke LL VCC BAT VCC BAT R10 m 1M RES SENSEL Bu DMP230SU Cp 100K op m 100K veus n RF6 VSENSE Ca R14 D ac 100k sm D USB MNIB 1 Power supply Figure 1 1 Connecting USB power supply Battery power supply You can also power the board using a Li Polymer battery via on board battery connector On board battery charger circuit enables you to charge the battery over USB connection LED diode RED will indicate when battery is charging Charging current is 300mA and charging voltage is 4 2V DC Figure 1 2 Connecting Li Polymer battery USB power supply You can supply power to the board with a Mini B USB cable o CR E aaa ss provided in the package On board voltage regulators provide see eee the appropriate voltage levels to each component on the board Power LED GREEN will indicate the presence of power supply NOTE Some click boards need more current than the USB connection can supply For 3 3V clicks the upper limit is 750 mA for 5V clicks it s 500 mA In those cases you would need to use the battery as the power supply or the vsys pin on the side of the board LDO3V3 LDO3V3 VCC 3 33V VCC 33V VCC 33V LDO3V3 SW1 LDO3V3 VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V AVCC VCC 3 3V AA E JS202011AQN FP1 R15 R16 I as en 3 C7 C8 c9 C10 Cii C12 C33 2K2 22uF 1uF 10nF 1uF A RIS STAT ale
5. OSC1 ES FP1 8MHz C5 C6 Cl C2 22pF 22pF 100nF 2 2UF V VCC 33V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 3V C7 Ce C9 C10 C11 C12 C33 OuF 100nF 100nF 100nF 100nF 100nF 10uF Figure 7 2 USB module connection schematic E AN RA1 RST RDO S RD1 SCK RC3 ISO RC4 OSI RC5 3 3V RGO RE7 PWM VSYS HDR1 RA2 AN2 RANI pican 14 BS A E Rezi TZ AI RH2 GPIO EEN An f RC4 SPI1_ MISO VCC 3 3V VCC 3 3V i 0 RH2 x aj E 6 RG0 7 RG3 MCLR i VCCcore Vcap RH1 GPIO RHO GPIO RD5 I2C2 SDA RJO GPIO 79 77 76 75 74 73 72 71 69 68 67 66 65 64 PIC18F87J50 CLKI RA7 OSC1 VCC GND EB CLKO RAG OSC H 8 54 SI las RB2 MB2_INT2 RB3 MB1_INT3 NS 54 RB4 GPIO RB5 GPIO OSC2 j RESET X1 8MHz AN RAO RB7 E d RC4 SPI1_MISO 44 rg RGS SPIL_SCK N RC3 R9 RO C6 e RST RD2 CS RD3 RB2 INT RC7 RX R7 RJ6 CS 22pF RC6 TX RD6 SCL RD5 SDA AVEC IHd 00nF 2 2uF VCC 3 3V FPL C1 C2 SCK RC3 MISO RC4 MOSI RCS 3 3V RA3 GPIO RA1 MB2_AN1 RAO MB1_ANO RA5 GPIO Pads HDR1 Pads HDR2 Figure 8 1 Connecting pads schematic Most microcontroller pins are available for further connectivity via two 1x26 rows of connection pads on both sides of the clicker 2 for PICL8F
6. 1_PWM4 S AN RD2 MB1_RST RB3 MBI INT3 fa RST INT 5 fa RST RD3 MBI_CS IS ce Rx s RG2 UART2_RX IS ce RC3 SPI1 SCH I sek TI RGI UART2 TX IS scx RC4 SPIL MISO IS miso sa El RD6 I2C2 SCL RCA SPII_MISO IS miso RC5 SPI1 MOST um spat RD5 12C2 SDA RC5 SPIL MOST B Most fm 3 3V sv N Im 3 3V im c GND B O RE7 GPIO RGO PWM3 x vk VCC 33V 8MHz RESET mo c 4 22pF Sa mo 2 2uF RB6 PGC RB7 PGD RESET R2 2K2 2K2 Nw TI vccaav B veces ee FP2 o RE2 GPIO FERRITE USB D_N l Ji USB D P al ze d d 8 Rs n A 3 1M 3 ij g Zz NR vsys vec sv e HOR1 HDR2 nece A e RA2 AN2 E RHS ANIS ER MB2_PWM RH4 ANI2 gt RCI PWM2 RB2 MB2 INTZ RH6 AN14 el lus LRC2 EWML RC7 UARTI R RH7 ANIS TRG4 PWM5 RC6 UARTI SEAN L LRGO PWMS RD6 2C2 SCL RFS ANIO x T Rr0 GPIO RDS 2C2 SDA RB0 INTO RA4 GPIO RBLINTI CIR RB2 MB2 INT2 INT RI6 GPIO RE3 MBI INT3 2 L RM GPIO RA3 GPIO 2 RBS GPIO REO GPIO CC RB4 GPIO RH2 GPIO meo RE1 GPIO 2 L REES RHI GPIO gt 2 LL RAS GPIO RCO GPIO NEEN RE3 GPIO CIE RF7 GPIO gt S T RCZ UARTI RX SCHELL SCK T RCS UARTI TX RC SPIL MISO LIRE ScL RCS SPII
7. B 2 PWR EN 10uF 100nF 100nF 100nF 100nF 100nF 10uF ci C2 C18 100nF 2 2uF 1 Aree 100nF ke p e VsYS VSYS DMP2305U VSYS U2 leis ezo LTC3586 VCC BAT VCC BAT a MF HDR1 HDR2 VCC BAT VCC BAT VCC BAT PWR EN PWR EN RE5 SENSEL 5 1 VSYS VCC USB C34 DMP2305U R12 AN Pwo Li 3 3uH VCC 33V VCC 3 3V 100K 2 2uF RE6 FAULT c21 R13 R20 R19 100K C22 324K T33pF RF6 VSENSE INT T C23 Jp 10pF n 100K R22 109K VCC USB FP2 pn VCC 5V VCC 5V VCC 5V WEEN MELEN VCC 3 3V FERRITE aie abe ezo eo lez C28 SCK TX VCC USB gt LDO3V3 88K7 Ei TZ m ac LD3 SDI SCL VCC USB N SDO SDA vcc33v A Vccaav C31 C32 R27 R8 16K9 470 22uF TOuF Figure 1 3 Power supply schematic 12 MIPS 8 bit nanoWatt ore 48MHz Program Counter The clicker 2 for PIC18F development tool comes with the PIC18F87J50 device This 8 bit low power high performance microcontroller is rich with on chip peripherals and features 128 KB of program memory and 3094 bytes of RAM It has Data Adee as Decode 1 Se integrated full speed USB 2 0 support Instruction f Data es 4 SS aay Flash i Up to 12 MIPS operation Ex Up to 128KB RAM Bey Up to 3 9K 8 bit architecture 7 n vrec EN 7 ees 128 KB of program memory MEM 3 904 bytes of RAM ES es 65 1 0 pins es ua Co
8. CLICKER 29 all the inventions waiting to happen A compact starter kit with your favorite microcontroller and two mikroBUS sockets DEVELOPMENT TOOLS COMPILERS BOOKS TO OUR MUA SO as want to express my thanks to you for being interested in our products and for having confidence in MikroElektronika The primary aim 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 PIC and Windows logos and product names are trademarks of Microchip Technology and Microsoft in the U S A and other countries Table of contents Introduction to clicker 2 for PIC18F Key features 1 Power supply 2 PIC18F87 50 microcontroller Key microcontroller features 3 Programming the microcontroller 3 1 Programming with mikroBootloader step 1 Connecting clicker 2 for PIC18F Step 2 Browsing for HEX file Step 3 Selecting HEX file step 4 Uploading HEX file step 5 Finish upload LD O NU 10 IT 11 12 12 13 14 3 2 Programming with mikroProg programmer mikroProg Suite for PIC software 4 Buttons and LEDs 5 Power management and battery charger 6 Oscillators 7 USB connection 8 Pads 9 Pinout 9 1 mikroBUS pinout 10 click boards are plug and play 11 Dimensions 15 16 18 20 21 23 25 26 27 28 30 clicker 2 for PIC18F is a compa
9. Ds can be used for visual indication of the logic state on two pins RD4 and RE4 An active LED indicates that a logic high 1 is present on the pin Pressing any of the two buttons can change the logic state of the microcontroller pins RD7 and RH3 from logic high 1 to log ic low 0 In addition to the onboard ON OFF Figure 4 1 Switch two pads EXT and PSW allow you to Two LEDs two buttons connect your own external switch and a reset button M 9 A pve NW 6 A A VCC 3 3V R3 id 10K RESET JE VCC 3 3V 2K2 Ti t C3 Ui 100nF PIC18F87J50 LZ VCC 3 3V VCC 3 3V VCC 3 3V VCC 3 V VCC 3 3V VCC 3 3V VCC 3 3V SES 4 La C7 C8 C9 C10 Cii C12 C33 5 6 RCO RB2 10uF 100nF 100nF 100nF 100nF int 10uF J RC RB3 s RC2 REA RESET 9 s dm NG PIC 18F87 5 0 CND AVCC VCC 3 3V GND CLKO RAG OSC2 o 17 E VCCcore Vcap CLKI RA7 OSC1 8 1 XI VCC 14 47 RB7 8MHz C4 RCS pr 5 C6 ci c2 RCA 2 DE l00nF 2 2uF 10uF RC3 Ee RC2 gt gt RI7 RJ6 R1 R2 ho Wa KK T2 T3 VCC 3 3V VCC 3 3V gt IH lr RD4 LD1 RD7 T2 RH3 T3 RE4 LD2 Figure 4 2 Other modules connection schematic clicker 2 for PIC18F features LTC 3586 2 a highly integrated power management and battery charger IC that includes a current limited switching PowerPath manager LTC 3586 also enables battery charging over a USB connection Wl Hie Figure 5 1 br 3 power z management L
10. MCU Type PIC18FJ y eer A History Window o Attach USB HID device or resetif attached a Waiting MCU response Connected Choose Browse Opened C Project clicker2 for PIC18FJ hex HEX file for HEX Start Begin bootloader loading Bootloading progress bar _____________________ C Project PIC_dicker hex F LED Blinking LedBlinking hex Figure 3 5 Begin uploading Figure 3 6 Progress bar 01 To start HEX file bootloading click the O Progress bar enables you to monitor HEX file uploading Begin uploading button Page 13 step 5 Finish upload CD mikroElektronika USB HID Bootloader v2 3 0 0 ES CH mikroBlektronka USB HID Bootloader v2 3 0 0 En Wait for USB link Wait for USB link e MCU Type Connect I Connect History Window to MCU Restarting MCU Connect Ix o re RR m ene eC to MCU Opened C Project clicker2 for PIC18FJ hex a Uploading Flash Erase Choose Browse Flash Write HEX file for HEX Completed successfully Disconnected Reset Start Begin Reset device to reenter bootloader mode bootloader uploading Bootloading progress bar C Project PIC_cicker hex Uploading program completed successfully Choose HEX file j v Show details Start d bootloader uploading Bootloading progress bar C Project PIC_dicker hex Figure 3 7 Restarting MCU Figure 3 8 mikroBootloader ready for n
11. UTTE and battery charger IC Board is equipped with 8MHz crystal oscillator X1 circuit that provides external clock waveform to the microcontroller CLKO and CLKI pins This base frequency is suitable for further clock Figure 6 1 multipliers and ideal for generation of BMHz crystal oscillator necessary USB clock which ensures proper module X1 operation of bootloader and your custom USB based applications VCC 3 3V ui O RH2 3V RH3 J RE1 REO a RGO RGI 100nF RG2 RG3_ RG PIC18F87J50 RG4 GND J CLKO RA6 OSC2 VCC 3 3V VCCcore Vcap CLKI RA7 OSC1 FP1 RF7 RF6 RF5 C2 RF4 D RF3 D 2 2uF RF2 RH7 RH6 Figure 6 2 Crystal NOTE The use of crystal in all other schematics is implied even if oscillator it is purposely left out because of the schematics clarity schematic 7 USB connection PIC18F87 50 microcontrollers has an integrated USB module which enables you to implement USB communication functionality to your clicker 2 board Connection with target USB host is done over a Mini B USB connector which is positioned next to the battery connector 4 e 1 p 1 _ 1 k Yx ME gt M l as e Y I Ze k E A P eS A Zeg Figure 7 1 Connecting USB cable to clicker 2 Page 23 VCC 3 3V PIC18F87J50 VCC USB FP2 R24 10K FERRITE Ui RE2 GPIO PIC18F87J50 USB MNIB CLKO RA6 OSC2 AVCC VCC 3 3V CLKI RA7
12. ady to program new devices mikroProg Suite is updated regularly at least four times a year SO your programmer will be more and more powerful with each new release CONFIG MCU INFO 4 Ma Ma Hala 4 4 4 W 4 ut Wi WI watchdog Timer Postscaler ree Save J External Address Bus shift address shifting Enabled BAA External Memory Bus Disabled Pisa 8 ss Width 16 Bit External Bus mode Y Load Sawe CODE Sute Pus p Y Load Save DATA CODE au VAT i Options E Figure 3 10 Main window of mikroProg Suite for PIC programming software Page 16 i ala 7 NOTE Before attaching the programming connector you have to solder the provided 1x5 male header to the programming pads HD1 VCC 3 3V AVCC VCC 3 3V FP1 U1 PIC18F87J50 C2 F 2 2uF e SQ RJ2 RJ3 RBO RB1 RB2 RB3 RB4 RES RB6 PGC PIC18F87 50 J uo OSC2 CLKO RA6 OSC2 Osa A CLKI RA7 OSC1 49 VCCcore Vcap N NES RB7 PGD RF6 RB7 RF5 RC5 RF4 D RC4 10uF RF3 D RC3 RF2 RC2 RH7 RJ7 RH6 RJ6 RESET VCC 3 3V HD1 RB6 PGC Figure 3 11 mikroProg connection schematic The board also contains a reset button and a pair of buttons and LEDs as well as an ON OFF switch The Re set button is used to manually reset the microcontroller it generates a low voltage level on the microcontrol ler s reset pin LE
13. al 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 TRADEMARKS The MikroElektronika name and logo mikroC mikroBasic mikroPascal Visual TFT Visual GLCD mikroProg Ready MINI mikroBUS EasyPIC EasyAVR Easy8051 click boards and mikromedia 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 Copyright 2014 MikroElektronika All Rights Reserved O O If you want to learn more about our products please visit our web site at www mikroe com If you are experiencing some problems with any of our products or just need additional information please place your ticket at www mikroe com support If you have any questions comments or business proposals do not hesitate to contact us at office mikroe com
14. board They are designed to match additional Shields such as Battery Boost shield Gaming PROTO shield and others elt Emm Q 80 Cae m B RG3 PWM RB3 INT RG2 RX RG1 TX RD6 SCL RD5 SDA Reset pin RST rents ek VSYS System power supply al Reference Ground GND eNo R lue1 2 GND Reference Ground Riera MH RAZ lo cra a a nus IS Som SI RHA PWM lines EF i RH6 Analog Lines ES y RH7 fe EIS d RF2 3 St RFS Iz lt il kx S 3 AN RAO RG3 PWM RGO RE7 PWM wa nE RST RD2 RB3 INT RST RDO RB2 INT Q s 3 CS RD3 RG2 RX CS RD1 RC7 RX Digital 1 0 lines SCK RC3 Reimx sckica RCS TX gt MISO RC4 RD6 SCL MISO RC4 RD6 SCL y 1 MOSI RC5 RD5 SDA MOSI RC5 RD5 SDA i Digital 1 0 lines 3 3V 1 M 1 f 730 GND y RX RC7 a ai 1 MA y LDA J UARTI Lines C 7x ncc Ca Ro 1 SCK T RC4 SDI SPI1 Lines 2C2 Lines TX Mo d i RC5 SDO 3 3V power supply 3 2V 3 3V 3 3V power supply Reference Ground GND P GND Reference Ground E amp E R10 pie R13 Digital lines Bl Analog Lines Interrupt Lines Mi SPI Lines I2C Lines Mi UART lines PWM lines 9 1 mikroBUS pinouts clicker 2 for PICL8FJ employs a solution to optimize the use of available pins and MCU I Os The PWM SEL jumper Figure 9 2 enables two modes of use for the second available PWM line ED The default position of the jumper is for applications when you re not using the PWM line o
15. ct dev kit with two mikroBUS sockets for click board connectivity You can use it to quickly build your own gadgets with unique functionalities and features It carries the PIC18F87 50 a 8 bit microcontroller two indication LEDs two general purpose buttons a reset button an on off switch a li polymer battery connector a USB Mini B connector and two mikroBUS sockets A mikroProg connector and a 2x26 pinout for interfacing with external electronics are also provided The mikroBUS connector consists of two 1x8 female headers with SPI IC UART RST PWM Analog and Interrupt lines as well as 3 3V 5V and GND power lines clicker 2 for PICL8F board can be powered over a USB cable AN RAO RST RD2 CS RD3 SCK RC3 MISO RC4 MOSI RCS Remp cu Y iiim mikro SIZE RI BUS RG3 PWM RB3 INT RG2 RX RG1 TX RD6 SCL RD5 SDA Yin ii E HERE AN RA1 RGO RE7 PWM RB2 INT RC7 RX RC6 TX RD6 SCL RD5 SDA RST RDO CS RD1 SCK RC3 MISO RC4 MOSI RC5 3 3V 2 Wa LD2 BI C30 a RH3 E lt u 5V GND SDI RC4 O TOME E Sal ON OFF switch c7 n ree Pads for connecting external ON OFF switch mei 8 MHz crystal oscillator Ju GJ two 1x26 connection pads mikroBUS sockets 1 and 2 AN RAO OE AN RA1 RGO RE7 PWM Pushbuttons e RST RD2 RB3 INT RST RDO RB2 INT Additional LEDs e CS RD3 RG2 RX CS RD1 RC7 RX LTC3586 USB power manager IC MISO RCA pes
16. ext job 01 Click OK button after the uploading process is finished 02 Press Reset button on clicker 2 for PIC18F board and wait for 5 seconds Your program will run automatically Page 14 3 2 Programming with mikroProg programmer The microcontroller can be programmed with external mikroProg for PIC programmer and mikroProg Suite for PIC software The external programmer is connected to the development system via 1x5 connector Figure 3 9 mikroProg is a fast USB 2 0 programmer with hardware debugger support It supports PIC10 dsPIC30 33 PIC24 and PIC32 devices in a Single programmer It supports over 570 microcontrollers from Microchip Outstanding performance easy operation and elegant design are its key features ma You can also waa ls program it Haims nw programmer with ICD29 DoD or ICD39 if clicker 2 for dais s 90001 oe the wires like z gt 2 m programming o headers shown here S Figure 3 9 mikroProg connector mikroProg Suite for PIC software mikroProg programmer requires special programming software called mikroProg Suite for PIC This software is used for programming of ALL Microchip microcontroller families including PIC10 PIC12 PIC16 PIC18 dsPIC30 33 PIC24 and PIC32 Software has intuitive interface and SingleClick programming technology Just by downloading the latest version of mikroProg Suite your programmer is re
17. mparators DC ER Internal oscillator 8 MHz 32 Khz Sn E 2 UART 2 SPI 2 l C USB 2 0 DAC ADC etc E TUDO E HR Figure 3 1 PIC18F87J50 microcontroller The microcontroller can be programmed in three ways Using USB HID mikroBootloader Using external mikroProg for PIC18FJ programmer Using external ICD2 39 programmer 3 1 Programming with mikroBootloader You can program the microcontroller with a step 1 Connecting clicker 2 for PIC18F bootloader which is preprogrammed by default To transfer hex file from a PC to MCU you need CH mikroElektronika USB HID Bootloader v2 3 0 0 bootloader software mikroBootloader USB HID which can be downloaded from mikroBootioader Wait for ZA http www mikroe com downloads get 2156 ipsins 6 clicker 2 pic18fj bootloader zip Connect to MCU After the mikroBootloader software is downloaded e Choose Browse unzip it to desired location and start it HEX file for HEX Start Begin iim clicker 2 for PIC18FJ Bootloader bootloader uploading WinRAR ZIP archive Ji clicker 2 for PIC18FJ Bootloader gt k SC No files opened CE Figure 3 2 USB HID mikroBootloader window Bootloader tool for mikroElektron mikroElektronika b 1 A Firmware 01 To start connect the USB cable or if already connected press the File folder z Reset button on your clicker 2 for PIC18F Click the Connect S Cicer 2 for PICISFJ piere so use butt
18. n the 1x26 pinout on the right side of the board This keeps this PWM available through mikroBUS 2 Gi If you resolder the jumper into the second position it would turn the PWM line on mikroBUS 2 into a GPIO You would use this in scenarios where you already utilized the PWM through the 1x26 pinout which would make the PWM pin on mikroBUS 2 unusable Analog line RAO ital linac m RD2 Digital lines L pp3 SCK RC3 GRIL MISO RCA MOSI RCS 3 3V power supply 3 3V Reference ground GND Analog line RA1 Digital lines RPO RD1 SCK BC n MISO RC4 MOSI RC5 3 3V power supply 3 3V Reference ground GND MOSI RC5 RG3 PWM RB3 INT RG2 RX RG1 TX RD6 SCL RD5 SDA SV GND RGO RE7YPWM RB2 INT RC7 RX RC6 TX RD6 SCL RD5 SDA 5V N RG3 PWM line RB3 Interrupt line RGe RX T UART lines RG1 TX _ I2C2 lines DV 5V power supply GND Reference ground RGO PWM line RB2 Interrupt line ieee UART1 lines _ PC2 lines 5V 5V power supply RD5 Reference ground Figure 9 1 mikroBUS individual and shared lines Figure 9 2 PWM SEL jumper Up to now MikroElektronika has released more than 90 mikroBUS compatible click boards On the average one click board is released per week It is our intention to provide you with as many add on boards as possible so you will be able to expand your develo
19. on within 5s to enter the bootloader mode otherwise HID Bootloader v1 300 hex HEX File existing microcontroller program will execute step 2 E for HEX file step 3 Selecting HEX file Date modified Type mikroBootloader Device clicker2 for PICI8F Libraries E Wait for SEE e MCUType PIC18F PA a Music Connect History Window Ec to MCU Attach USB HID device or resetifattached a Ge Waiting MCU response Connected 24 Homegroup Choose Browse HEX file for HEX i Computer amp Local Disk C Start Begin E Local Disk D E bootloader uploading Bootloading progress bar No files opened Figure 3 3 Browse for HEX Figure 3 4 Selecting HEX 01 Click the Browse for HEX button and from a on Select HEX file using open dialog window pop up window Figure 3 4 choose the HEX file 02 Click the Open button which will be uploaded to MCU memory Page 12 step 4 Uploading HEX file mikroBootloader Device clicker2 for PICISF beier e MCU Type PICI8F USB link Connect p Disconneci History Window to MCU Attach USB HID device or resetif attached a Waiting MCU response Connected Choose Opened C Project clicker2 for PIC18FJ hex HEX file Uploading Flash Erase Start Stop bootloader uploading Flash Write Bootloading progress bar mikroBootloader Device die for PICI8FJ gt Wali er e
20. pment board with additional functionality Each board comes with a set of working example code Please visit the click boards webpage for the complete list of currently available boards A www mikroe com click 10 click boards are plug and play lt SS 2 Mo BS SS gt i Ge D AE ES INTE ESTE w5 2777 Z i LI i Figure 10 1 clicker 2 for PIC18F driving click boards an I d m cimi ei Be ipm Ea En i N Y PR A eee We car RICS EIA ie caa di 20 d cde HU ae te EE DI e r que ER V LPLAISPON SO He MS 1 3 i SE Ss NO av G GK 0 RFID click RELAY click 8x8 click Bluetooth click Thunder click e jo FO O zi fo t lie ee bae ECH PEEEREELERES siii ca i E leg E iz Aa 8B e GND Q ADR SEL ES C i9 ras rst R5 20 ez cola Mak Ra Fo ep SC D REIS LS 20 SEL COMM ITT i COGIT E e os LET be E Si C1 R4 RI NC NC v Cc EI KK 33ul NC NC NC GND cm B oS s Ug Spe FE pi 3y 133V WW 20 AN ADC SPIC Rr es Vs BarGraph click lick THERMO click SS EEPROM click ES Pressure click ef EG YAJA HAHA la b lt GNI 60 45 mm 81 15 mm 3195 mils 73 66 mm 2900 mils 63 5 mm 2500 mils fa Y idjoo00000000000000000000000 Dj 000000 CN 350 mils
Download Pdf Manuals
Related Search