MIKROE-179 mikroElektronika, MIKROE-179 Datasheet

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... UNI-DS3 All MikroElektronika´s development systems represent irreplaceable tools for programming and developing microcontroller-based devices. Carefully chosen components and the use of machines of the last generation for mounting and testing thereof are the best guarantee of high reliability of our devices. Due to simple 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 effi ...

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... TO OUR VALUED CUSTOMERS I want to express my thanks to you for being interested in our products and for having confi dence 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. ...

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... MCU Card with 8051 Microcontroller ...................................................................................... 24 20.0. MCU Card with AVR Microcontroller ....................................................................................... 26 21.0. MCU Card with dsPIC Microcontroller .................................................................................... 28 22.0. MCU Card with PIC Microcontroller in DIP40 Package .......................................................... 30 23.0. MCU Card with PIC Microcontroller in TQFP80 Package ....................................................... 32 24.0. MCU Card with PSoC Microcontroller ..................................................................................... 34 25.0. MCU Card with ARM Microcontroller ...................................................................................... 36 3 MikroElektronika ...

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... The UNI-DS3 development system may come with an MCU card with PIC ® , dsPIC ® , AVR ® , 8051, ARM ® or PSoC ® microcontroller. Numerous on-board modules, such as RS232, CAN, ADC, DAC, LCD display, GLCD display etc. allow you to easily experiment with your microcontroller. MikroElektronika UNI-DS3 Development System Every MCU card is provided with appropriate programmer. To load a hex code from the microcontroller it is also necessary to have appropriate program for it installed on the PC ...

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... Graphic LCD display contrast adjustment 19. Push buttons simulate microcontroller input pins 20. Jumper for selecting push buttons’ logic state 21. Reset button 22. Analog-to-digital converter 23. 72 LEDs indicate pins’ logic state 24. Digital-to-analog converter 25. Real-time clock 26. Alphanumeric LCD display connector MikroElektronika 5 ...

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... If some additional modules are used, such as LCD, GLCD etc necessary to place them properly on the development system while it is turned off. Otherwise, either can be permanently damaged. Refer to Figure below for the proper placing of the additional modules. Placing additional modules on the development system MikroElektronika UNI-DS3 Development System USB connector 1 ...

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... UNI-DS3 card with a PIC microcontroller in TQFP80 package. Any card intended 2 B Place the MCU card into the DIMM-168P socket 4 Close the extraction levers when the MCU card is properly placed into the socket Extraction lever used ‘open’ position 7 Extraction lever used ‘closed’ position MikroElektronika ...

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... EXT position. The development system is turned on/off by switching the position of the POWER SUPPLY switch. Power supply voltage regulator POWER SUPPLY switch AC/DC connector USB connector : Power supply source schematic MikroElektronika AC/DC connector J11 as a selector for a power supply source : Power supply UNI-DS3 Development System USB connector ...

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... The MCU-VBUS line is used to detect external USB device connected to the development system. : USB connector for USB communication programmer with mikroICD support. To load a .hex code from a PC into the program to be installed. In case an MCU card with some other type of the microcontroller : USB connector CN15 schematic : USB connector CN21 schematic MikroElektronika 9 ...

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... MCP2510 necessary to set switches 6, 7 and 8 on the DIP switch SW2 as well as switches 4, 5 and 6 on the DIP switch SW4 to the ON position. : CAN module : CAN communication module connection schematic MikroElektronika Connection for CAN communication : CAN module connector ...

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... ATmega128 microcontroller you want to use for RS232 communication. In case pins RE0 and RE1 are used, switches 5 (RX232A) and 6 (TX232A) on the DIP switch SW3 should be set to the ON position. In case pins RD2 and RD3 are used, switches 7 (RX232B) and 8 (TX232B) on the DIP switch SW3 should be set to the ON position. 11 MikroElektronika ...

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... To enable connection between the microcontroller and the RS485 communication module necessary to set switches 1, 2 and 3 on the DIP switch SW4 to the ON position. : RS485 module : RS485 module connection schematic MikroElektronika UNI-DS3 Development System Connector for RS485 communication ...

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... In this case, such divider is used to lower the microcontroller’s power supply voltage from 5V to 3.3V. To enable communication between microcontroller and memory card, switches 4, 5 and 6 on the DIP switch SW4 should be set to the ON position. : MMC/SD connector : MMC/SD connector connection schematic : MMC/SD memory card MikroElektronika 13 ...

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... DIP switch SW4 to the ON position. Quartz-crystal provides accuracy of the clock signal used by the real-time clock : Real-time clock and microcontroller connection schematic MikroElektronika UNI-DS3 Development System 3V battery enables the operation of the real-time clock when the power supply is off : Real-time clock ...

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... The function of jumper J15 is to determine voltage reference to be used in digital-to-analog conversion. By setting jumper to the 4.096 position, the MCP4921 circuit will be powered with the 4.096V voltage. By setting jumper J15 to the VCC position, the MCP4921 circuit will be powered with the 5V power supply voltage. : DAC module : DAC module connection schematic Connector for digital- to-analog converter : DAC connector 15 MikroElektronika ...

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... J15 is used to determine this voltage reference. When jumper J15 is in the 4.096 position, the 4.096V voltage is used as a voltage reference. Otherwise, when jumper J15 is in the VCC position, then the 5V power supply voltage is used as a voltage reference. : ADC module : ADC module connection schematic MikroElektronika UNI-DS3 Development System ADC connector : ADC connector ...

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... J12, J13 and J14 to the 3.3V position. To enable connection between the ethernet module and the microcontroller, switches and 5 on the DIP switch SW2, as well as switches 4, 5 and 6 on the DIP switch SW4 must be set to the ON position. : Ethernet module : Ethernet module connection schematic Ethernet module connector 17 : Ethernet connector MikroElektronika ...

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... LED indicates that a logic one (1) is present on the pin. In order to enable the pin state to be shown necessary to select appropriate port (PORTA, PORTB, PORTC, PORTD, PORTE, PORTF, PORTG, PORTH or PORTJ) using the DIP switch SW1 and switch 1 on the DIP switch SW2. Resistor network used to : LEDs and ports PORTB and PORTC connection schematic MikroElektronika : LEDs UNI-DS3 Development System ...

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... Push buttons used for simulating digital inputs In Figure 15-2, jumper J10 is in the VCC position. In this case, by pressing any push button, a logic one (5V) will be applied to the appropriate microcontroller pin. : Push-buttons and port PORTB connection schematic RESET button : Push buttons 19 MikroElektronika ...

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... Communication between the LCD display and the microcontroller is performed in a 4-bit mode. Alphanumeric digits are displayed in two lines each containing characters of 7x5 pixels. : Alphanumeric LCD display connector Alphanumeric 2x16 LCD display connection schematic MikroElektronika UNI-DS3 Development System Contrast adjustment potentiometer ...

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... Potentiometer P1 is used for the GLCD display contrast adjustment. The display backlight is automatically turned on by turning the UNI-DS3 development system on. : GLCD display : GLCD display connection schematic Contrast adjustment potentiometer GLCD display connector : GLCD connector 21 MikroElektronika ...

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... Jumper for pull-up/pull- down resistor selection Resistor network may be removed and replaced with another one connected to pull-down resistors : Port PORTB connection schematic MikroElektronika Additional module connected to PORTC PORTF 2x5 male connector : I/O ports UNI-DS3 Development System J3 in pull-down position J3 in pull-up ...

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... As a result, every time you press the RB1 push button, a logic zero (0V) will appear on the RB1 pin. In case that jumpers J2 and J10 have the same logic state, pressure on any button will not cause input pins to change their logic state. MikroElektronika 23 ...

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... CD. To enable a .hex code to be loaded into an 8051 microcontroller necessary to install the microcontroller and a PC. On-board 8051prog programmer : MCU card with an 8051 microcontroller : 8051 MCU card placed in the DIMM-168p socket MikroElektronika UNI-DS3 Development System program providing an interface between the Microcontroller in DIP40 package ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 25 MikroElektronika ...

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... MCU card doesn’t necessarily have to be placed into the DIMM-168p socket on the development system. In this case, the MCU card is powered by the external JTAG programmer. Built-in AVRprog programmer : MCU card with an AVR microcontroller : AVR MCU card placed into the DIMM-168p socket MikroElektronika UNI-DS3 Development System Microcontroller in TQFP64 package ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 27 MikroElektronika ...

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... Built-in programmer : MCU card with a dsPIC the microcontroller : dsPIC MCU card placed into the DIMM-168p socket MikroElektronika provided on the MCU card. To enable the programmer from the product CD. To enable a .hex code to be program. The UNI-DS3 Development System programmer to operate properly ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 29 MikroElektronika ...

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... USB communication is not used necessary to set jumpers J1, J2 and J3 to the upper position. Built-in programmer : MCU card with a PIC microcontroller : PIC MCU card placed into the DIMM-168p socket MikroElektronika UNI-DS3 Development System Microcontroller in DIP40 package with mikroICD programmer has a ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 31 MikroElektronika ...

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... Built-in programmer : MCU card with a PIC microcontroller 23-2: PIC MCU card placed into the DIMM-168p socket MikroElektronika with mikroICD support provided on the MCU card. To enable the UNI-DS3 Development System programmer to operate programmer from the product CD. To enable a .hex program. The ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 33 MikroElektronika ...

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... PSoC microcontroller necessary to install the microcontroller and a PC. Built-in PSoCprog programmer : MCU card with a PSoC microcontroller : PSoC MCU card placed into the DIMM-168p socket MikroElektronika UNI-DS3 Development System program providing an interface between the Microcontroller in SSOP package ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 35 MikroElektronika ...

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... CN21 connector for USB communication. To enable the UP_LED diode to perform its signal function necessary to place jumpers J8 and J9 in the UP_LED position. When jumpers J8 and J9 are placed in the CONNECT position, the powering of the external USB device is controlled from within the software. MikroElektronika UNI-DS3 Development System program providing an interface between the microcontroller and a PC. ...

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... UNI-DS3 Development System : MCU card with the DIMM-168p socket connection schematic 37 MikroElektronika ...

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... MCU card with the DIMM-168p socket connection schematic : ARM MCU cad placed into the DIMM-168p socket MikroElektronika UNI-DS3 Development System ...

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... 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 traffi c control, direct 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 (‘ ...

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