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Summary of Contents for mikroElektronika EasyPIC V7 connectivity
- Page 1 EasyPIC connectivity microcontrollers supported Supports 3.3V and 5V devices Easily add extra boards Four connectors for each port Fast USB 2.0 programmer and The ultimate PIC® board Dual Power Supply mikroBUS sockets Amazing Connectivity In-Circuit Debugger ™...
- Page 2 To our valued customers From the day one, we in mikroElektronika gave ourselves the highest possible goals in pursuit of excellence. That same day, the idea of EasyPIC development board was born. And we all grew together with EasyPIC ™...
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Page 3: Table Of Contents
Introduction Connectivity mikroBUS sockets ....... . ™ Introduction ........Input/Output Group . -
Page 4: Introduction
Introduction EasyPIC is an old friend. It has been with us for six generations. Many of ™ us made our first steps in embedded world with EasyPIC . Today it has ™ thousands of users: students, hobbyists, enthusiasts and professionals. It’s used in many schools and other educational intitutions across the globe. -
Page 5: It's Good To Know
Package contains 19122011 www.mikroe.com Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners. Unauthorised copying, hiring, renting, public performance and broadcasting of this DVD prohibited. -
Page 6: Dual Power Supply
Dual power supply Board contains switching power supply that creates stable voltage and current levels necessary powering each part of the board. Power supply section contains two power regulators: MC34063A, which generates VCC-5V, and MC33269DT3.3 which creates VCC-3.3V power supply, thus making the board capable of supporting both 5V and 3.3V microcontrollers. - Page 7 Smart engineering of EasyPIC v7 development Power supply: via DC connector or screw terminals ™ board allowed us to support both 3.3V and 5V (7V to 23V AC or 9V to 32V DC), microcontrollers on a single board, which is or via USB cable (5V DC) more then 250 devices.
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Page 8: Supported Microcontrollers
Supported DATA BUS M1X3 RA5-DIP40 SKT4 SKT1 MCLR-RE3 RB7-MCU microcontrollers 100nF 100nF RB6-MCU RA7-MCU VCC-MCU for PIC16F724/727 MCLR-RA5 RA6-MCU VCC-MCU VCC-MCU 100nF RA4-DIP40 RB7-MCU M1X3 100nF RA5-DIP40 RB6-MCU RA4-DIP40 VCC-MCU 10uF DIP SKT 18B for PIC18F44J10, PIC18F45J10 VCC-MCU Board contains eight DIP sockets: DIP40, DIP28, DIP18A, DIP18B, DIP20, DIP14, SKT5 M1X3 DIP8 and support for PIC10F MCUs. - Page 9 How to properly place your microcontroller into the DIP socket? Figure 4-3: Place both ends of microcontroller on Figure 4-4: with both fingers, evenly distribute Figure 4-5: Properly placed microcontroller will the socket so the pins are aligned correctly the force and press the chip into the socket. have equally leveled pins.
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Page 10: On-Board Programmer
On-board programmer What is mikroProg ™ mikroProg is a fast USB 2.0 programmer with mikroICD hardware ™ ™ In-Circuit Debugger. Smart engineering allows mikroProg ™ to support all PIC10, PIC12, PIC16, PIC18, devices in a single programmer! It supports over 250 microcontrollers from Microchip®. Outstanding performance and easy operation are among it's top features. - Page 11 VCC-3.3 VCC-3.3 VCC-5V VCC-MCU VCC-BRD LD38 LD39 LD40 LINK ACTIVE DATA VCC-USB M2X3 MCLR-RE3 MCU-VPP MCLR-RA5 FERRITE MCLR-RA3 M2X3 RB6-MCU MCU-PGC RA1-MUX MCU-VPP BOARD-PGC MCU-PGC 100nF M2X3 MCU-PGD M2X4 BOARD-VPP BOARD-PGC RB7-MCU MCU-PGD BOARD-PGD RA0-MUX BOARD-PGD M2X3 M2X4 DATA BUS CN28 #RST VCC-BRD...
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Page 12: Installing Programmer Drivers
Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners. Unauthorised copying, hiring, renting, public performance and broadcasting of this DVD prohibited. -
Page 13: Programming Software
After downloading, extract the package and double click the Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners. Unauthorised copying, hiring, renting, public performance executable setup file, to start installation. -
Page 14: Mikroicd ™ - In Circuit Debugger
™ tools on the market. Supported Compilers All MikroElektronika compilers, mikroC , mikroBasic ™ ™ mikroPascal for PIC®, dsPIC® and PIC32® natively support ™... - Page 15 ™ Here is a short overview of which debugging commands are supported in mikroElektronika compilers. You can see what each command does, and what are their shortcuts when you are in debugging mode. It will give you some general picture of what your debugger can do.
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Page 16: Uart Via Rs-232
UART via RS-232 UART (universal asynchronous receiver/transmitter) is one of the most Enabling RS-232 common ways of exchanging data between the MCU and peripheral components. It is a serial protocol with separate transmit and receive lines, and can be used for full-duplex communication. -
Page 17: Uart Via Usb
In order to enable USB-UART communication, you must set J3 Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other and J4 jumpers in the USB-UART Mikroelektronika trademarks are the property of Mikroelektronika. USB-UART communication is being done through a All other tradmarks are the property of their respective owners. -
Page 18: Usb Connection
USB connection USB is the acronym for Universal Serial USB connector (CN4) which enables the target microcontroller. Bus. This is a very popular industry microcontrollers that support When communication lines are headers. Dedicated USB ON LED standard that defines cables, connectors communication to establish a connection routed from the microcontroller to the and protocols used for communication... -
Page 19: Mikrobus ™ Sockets
USB standard comes from it’s simplicity of usage and high and reliable data transfer rates. mikroBUS host connector ™ As we in mikroElektronika see it, Plug-and-Play mikroBUS pinout explained ™ devices with minimum settings are the future in embedded world too. - Page 20 ™ ™ ™ Click Boards are plug-n-play! ™ mikroElektronika’s portfolio of over 200 accessory boards is now enriched hardware configuration. Just plug and play. Visit the Click boards ™ webpage compatible Click Boards by an additional set of mikroBUS ™...
- Page 21 WiFi click GPS click RS485 click CAN SPI click Buzz click ™ ™ ™ ™ ™ Code Examples It easy to get your Click board ™ up and running. We provided the examples for mikroC ™ mikroBasic and mikroPascal ™ ™...
- Page 22 Input/Output Group One of the most distinctive features of EasyPIC ™ are it’s Input/Output PORT groups. They add so much to the connectivity potential of the board. Everything is groupped together It took us a while to realize that having PORT headers, PORT buttons and PORT LEDs next to each other, and groupped together, makes development easier, and the entire EasyPIC v7 cleaner and well organized.
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Page 23: Input/Output Group
2x5 headers (like CN10 and CN15 on Figure 10-4). These using push buttons. light source. When headers are all compatible with over 70 mikroElektronika Jumper J17 is available connecting LEDs, it is Figure 10-6: Button press accessory boards, and enable simple connection. There is... -
Page 24: Lcd 2X16 Characters
LCD 2x16 characters Liquid Crystal Displays or LCDs are cheap and popular way of representing information to the end user of some electronic device. Character LCDs can be used to represent standard and custom characters in the predefined number of fields. - Page 25 GLCD 128x64 Graphical Liquid Crystal Displays, or GLCDs are used to Display connector routed PORTB display monochromatic graphical content, such as text, images, (control lines) and PORTD (data lines) of the human-machine interfaces and other content. EasyPIC microcontroller sockets. Since PORTB is also ™...
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Page 26: Touchpanel Controller
Touchpanel controller Touchpanel is a glass panel whose surface is covered touchpanel controller and connector for 4-wire resistive with two layers of resistive material. When the screen touchpanels. It can very accurately register pressure at is pressed, the outer layer is pushed onto the inner layer a specific point, representing the touch coordinates in the and appropriate controllers can measure that pressure form of analog voltages, which can then be easily converted... -
Page 27: Digit 7-Seg Display
4 digit 7-seg display One seven segment digit consist of 7+1 which is used to enable the digit Enabling the display LEDs which are arranged in a specific to which the data is currently being formation which can be used to represent sent. -
Page 28: Ds1820 - Digital Temperature Sensor
DS1820 - Digital Temperature Sensor DS1820 is a digital tempera- of 750ms for the DS1820 to calculate sensors can be connected on the same ture sensor that uses 1-wire® temperature with 9-bit resolution. line. All slave devices by default have interface for it’s operation. -
Page 29: Lm35 - Analog Temperature Sensor
LM35 - Analog Temperature Sensor The LM35 is a low-cost precision obtain convenient Centigrade scaling. separate socket (TS2) for integrated-circuit temperature sensor, It has a linear +10.0 mV/°C scale factor the LM35 sensor in TO-92 whose output voltage is linearly and less than 60 μA current drain. -
Page 30: Adc Inputs
ADC inputs Digital signals have two discrete states, which are decoded as high and low, and interpreted as logic 1 and logic 0. Enabling ADC inputs Analog signals, on the other hand, are continuous, and can have any value within defined range. A/D converters are specialized circuits which can convert analog signals (voltages) into a digital representation, usually in form of an integer number. -
Page 31: I2C Eeprom
C EEPROM EEPROM is short for Electrically Erasable Programmable Read Only Memory. It is Enabling I C EEPROM usually a secondary storage memory in devices containing data that is retained even if the device looses power supply. EEPROMs come with parallel Figure 18-1: or serial interface to the master device. -
Page 32: Piezo Buzzer
Piezo Buzzer Piezoelectricity is the charge which accumulates a sequence of logic zeros and ones. Frequency of the square in certain solid materials in response to mechanical signal determines the pitch of the generated sound, and duty pressure, but also providing the charge to the cycle of the signal can be used to increase or decrease the piezoelectric material causes it to physically... -
Page 33: Additional Gnds
Additional GNDs EasyPIC v7 contains three GND pins located in three different sections of the board, ™ which allow you to easily connect oscilloscope GND reference when you monitor signals on microcontroller pins, or signals of on-board modules. GND is located between UART module and 4-digit 7-seg display. GND is located in the cross section between DIP18 and DIP14 sockets GND is located between PORTD I/O group and DIP28 socket. -
Page 34: What's Next
PIC applications. 19122011 www.mikroe.com Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners. Unauthorised copying, hiring, renting, public performance and broadcasting of this DVD prohibited. - Page 35 (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.
- Page 36 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 ticket at www.mikroe.com/esupport If you have any questions, comments or business proposals, do not hesitate to contact us at office@mikroe.com EasyPIC v7 User Manual...
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