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mikroElektronika EasyARM v6, User Manual

The mikroElektronika EasyARM v6 is a powerful development board for ARM-based microcontrollers. Featuring extensive capabilities and connectivity options, it is perfect for both beginners and advanced users. Download the user manual for free from our website to unlock the full potential of this versatile product.

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EasyARM v6

MikroElektronika

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Key features

1.   Power supply module

2.   AC/DC connector

3.   USB UART1 module

4.   USB UART2 module

5.   RS-232 module

6.   mikroARM board socket

7.   Serial EEPROM

8.   USB connector

9.   CAN module

10. Piezo buzzer

11.  I/O ports

12.  Jumpers used to select pull-up/pull-down resistors

13.  Touch panel controller

14.  DIP switches

15.  GLCD display connector

16.  Touch panel connector

17.  Push buttons

18.  Jumper used to shorten protective resistor

19.  Jumpers used to select push buttons’ logic state 

20. Jumpers used to select pull-up/pull-down resistors

21. LEDs

22.  I/O ports

23.  LCD display connector

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Summary of Contents for EasyARM v6

Page 1: ...large number of add on modules and ready to use examples all our users regardless of their experience have the possibility to develop their project in a fast and efficient way Development system If y...

Page 2: ...ary 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 contain...

Page 3: ...M v6 to power supply module 6 2 Connecting EasyARM v6 to a PC 7 3 USB UART1 and USB UART2 modules 8 4 RS 232 module 9 5 Piezo buzzer 10 6 CAN module 11 7 EEPROM module 12 8 USB communication 13 9 LEDs...

Page 4: ...rget device Full featured development system for ARM microcontroller based devices UART communication via USB connector CAN communication module Integrated EEPROM module Graphic LCD display with backl...

Page 5: ...SB connector 9 CAN module 10 Piezo buzzer 11 I O ports 12 Jumpers used to select pull up pull down resistors 13 Touch panel controller 14 DIP switches 15 GLCD display connector 16 Touch panel connecto...

Page 6: ...ver an AC DC connector CN37 Figure 1 When the development system is powered it is necessary to set switch marked POWER SUPPLY to the ON position The power supply voltage provided via the CN37 AC DC co...

Page 7: ...stand alone device When connecting the mikroBoard for ARM card to the development system it is necessary to remove jumper marked STANDALONE For more information on the mikroBoard for ARM refer to the...

Page 8: ...K7 R20 4K7 R19 10K R21 10K Bottom view Bottom view VCC VCC GND GND D D D D VCC 3 3 VCC 3 3 VCC 5V VCC 5V OSCI DTR OSCO TXD TEST VCC RTS DSR AGND RESET VCCIO DCD NC GND RXD CTS CBUS1 USBDM GND CBUS2 GN...

Page 9: ...1 IN C2 R1 OUT C2 T2 IN T2 OUT R2 OUT R2 IN T1 IN V C10 C12 C13 C 100nF 11 RX232 TX232 100nF 100nF 100nF VCC 3 3 U4 VCC 3 3 CN39 R26 100K MAX3232 1 6 5 9 Bottom view SUB D 9p RS 232 1 6 5 9 VCC 3 3 E4...

Page 10: ...mber when writing the code for voltage signal generation that the piezo buzzer s resonant frequency is 3 8kHz Other frequencies in the range between 20Hz and 20kHz can also be used but the best perfor...

Page 11: ...automation The EasyARM v6 development system features CAN module used for communication with CAN devices To establish connection between this module and the microcontroller it is necessary to set swit...

Page 12: ...U6 24AA01 A0 A1 A2 GND VCC WP SCL SDA C9 100nF SW1 P0 2 P0 3 EEPROM SCL EEPROM SDA EEPROM SDA EEPROM SCL LPC2148 P1 27 P0 31 GND P0 0 P1 31 P0 1 P0 2 VCC3 P1 26 GND P0 3 P0 4 P1 25 P0 5 P0 6 P0 7 P1 2...

Page 13: ...21 P3 29 P3 23 P3 31 USB DN P3 17 P3 25 P3 19 P3 27 CN32 Figure 8 2 USB connector connection schematic 8 USB communication The EasyARM v6 development system can communicate with external devices via t...

Page 14: ...icates that a logic one 1 is present on the pin In order to enable LEDs to illuminate it is necessary to select the appropriate port PORT0 PORT1 or PORT2 by using DIP switch SW1 Port PORT3 is not conn...

Page 15: ...protec tive resistor is to limit the maximum current thus preventing the development system and peripheral modules from being damaged in case a short circuit occurs If needed advanced users may shorte...

Page 16: ...used to adjust display contrast The LCD BCK switch on the DIP switch SW1 is used to turn the display backlight on off Communication between this LCD and the microcontroller is performed in a 4 bit mo...

Page 17: ...reen resolution of 128x64 pixels which allows diagrams tables and other graphic contents to be displayed Potentiometer P2 is used for the GLCD display contrast adjustment Switch 5 GLCD BCK on the DIP...

Page 18: ...m of analog voltage to the microcontroller Switches 5 6 7 and 8 on the DIP switch SW3 are used to connect the microcontroller and touch panel Figure 13 2 Touch panel connection schematic D5 D4 D3 D2 D...

Page 19: ...here are fifteen 10 pin connectors linked to the microcontroller I O ports Due to jumpers J1 J15 pull up or pull down resistors can be connected to I O ports Figure 14 5 Port PORT0 connection schemati...

Page 20: ...network As a result every time you press the P0 0 push button the P0 0 pin will be fed with a logic one VCC 3 3 voltage provided that jumper J17 is placed in the VCC 3 3 position VCC 3 3 J2 P0 14 RN2...

Page 21: ...21 EasyARM v6 MikroElektronika page mikroBoard for ARM 64 pin...

Page 22: ...22 EasyARM v6 MikroElektronika page mikroBoard for ARM 144 pin...

Page 23: ...ary 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 contain...

Page 24: ...design a large number of add on modules and ready to use examples all our users regardless of their experience have the possibility to develop their project in a fast and efficient way Development sys...

Page 25: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information MikroElektronika MIKROE 648...

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