Difference between revisions of "Microduino-Module Core+"

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[[file:Microduino-core+ -rect.jpg|400px|thumb|right|Microduino-Core+]]
 
[[file:Microduino-core+ -rect.jpg|400px|thumb|right|Microduino-Core+]]
 +
Microduino-Core+ is an 8-bit microcontroller development core board based on Atmel ATmega1284P and ATmega644PA series as the core and it is an open-source controller module compatible with Arduino UNO.
 +
Beside Microduino-core+ has the features of '''[[Microduino-Core]]''', the number of input and output of Flash, RAM, EEPROM of it has been greatly improved, and the pin conforms to the norms of Microduino, and the players can upgrade core to core+ smoothly, without modifying the arduino code basically.
  
'''[[Microduino-Core+]]''' is one of core modules of Microduino series, using Atmel ATmega644PA/ATmega1284P series as main chip. It is a performance enhanced version of '''[[Microduino-Core]]'''.
+
Microduino uses java and C language development environment, same to Arduino. Players can use Arduino IDE, cooperated with software such as Flash or Processing , with Microduino and other electronic components, modules and sensors to make many funny interactive works.
  
'''[[Microduino-Core+]]''' has all features of –Core, can be stacked with modules through UPin-27 Microduino standard bus interface, as smart as '''[http://arduino.cc/en/Main/ArduinoBoardMega2560 Arduino Mega2560]''', but as small as a quarter. Moreover, '''[[Microduino-Core+]]''' has 10 more digital I/O ports than '''[[Microduino-Core]]''', provides 2 hardware serial ports, and more SRAM/Flash/EEPROM, it’s designed for high hardware resource required applications and designs.
 
  
Microduino uses the same development environment as Arduino IDE, designers can use the Arduino IDE, Processing on Microduino for idea realization, prototype development and low volume production. Programs can be smoothly migrated from Core to Core+ without any modification.
+
==Features==
 +
* Strong configuration. Its biggest Flash and SRAM can arrive 128KB and 16KB respectively.
 +
* Small, cheap, stackable, and open.
 +
* Open source hardware circuit design, and compatible-with Arduino programming development environment;
 +
* Same with Arduino, Microduino can use ISP download line to program to 「bootloader」 flexibly;
 +
* The unified Microduino interface specification and abundant peripheral modules can be connected and extended with other modules and sensors conformed to the Microduino interface specification conveniently and flexibly;
 +
* 2.54 spacing mother of interface is convenient to integrate into the hole plate.
 +
|-
 +
|
 +
 
 +
==Specification==
 +
*[Extension]'''[[Difference between Microduino-Core and Core+]]'''
  
Microduino uses optiboot for bootloader, it takes less Flash than Arduino default engine and optimizes program uploading.
 
  
Currently, there are 4 different configurations for '''[[Microduino-Core+]]''' modules:
+
* '''[[Microduino-Core+]]'''According to the different core and clock frequency, there are four different versions at present:
{|class="wikitable"
+
:{|class="wikitable"
! Type
+
! MCU type
 
! Flash
 
! Flash
 
! SRAM
 
! SRAM
 
! EEPROM
 
! EEPROM
! Frequency
+
! Clock frequency
! Supply
+
! Work voltage
 
|-
 
|-
| ATmega644PA@16M,5V
+
| ATmega644PA
 
| 64K
 
| 64K
 
| 4K
 
| 4K
Line 29: Line 40:
 
| 5.0V
 
| 5.0V
 
|-
 
|-
| ATmega644PA@8M,3V3
+
| ATmega644PA  
 
| 64K
 
| 64K
 
| 4K
 
| 4K
Line 36: Line 47:
 
| 3.3V
 
| 3.3V
 
|-
 
|-
| Atmega1284P@16M,5V
+
| Atmega1284P  
 
| 128K
 
| 128K
 
| 16K
 
| 16K
Line 43: Line 54:
 
| 5.0V
 
| 5.0V
 
|-
 
|-
| ATmega1284P@8M,3V3
+
| ATmega1284P
 
| 128K
 
| 128K
 
| 16K
 
| 16K
Line 51: Line 62:
 
|}
 
|}
  
Different configurations in frequency and supply voltage:
+
 
* Clock frequency and supply voltage are paired; 8M module is supplied by 3.3V voltage, while 16M module is by 5.0V voltage.  
+
* Digital I/O There are 32 number digital input/output:
* A 16M with 5V '''[[Microduino-Core+]]''' module is recommended for desktop equipments or designs; regarding mobile equipments or designs, a 8M with 3.3V module is suggested for low power and battery supply purposes.
+
** Labeled on the module of  D0, D1, D2~D13 and A0~A7, and the 10 (D14~D23) more than core .
 +
* Analog I/O There are 8 analog input/output:
 +
** Labeled on the module of A0~A7;
 +
** Each provides a 10-bit resolution(that is 0~1024). By default, analog value measurement range is from GND to VCC voltage value;
 +
** Please refer to '''[http://www.arduino.cc/en/Reference/AnalogRead analogRead()]''' function.
 +
* There are 8 PWM supports:
 +
** Labeled on the module of respectively D7,D8,D9,D10,D12,D13,D22,D23.
 +
** Please refer to '''[http://www.arduino.cc/en/Reference/AnalogWrite analogWrite()]''' function.
 +
* There are two serial port supports:
 +
** Labeled on the module of Serial[D0(RX),D1(TX)] and Serial1[D2(RX),D3(TX)].
 +
** Connected with USBTTL,it will occupy D0 and D1. If the ports D0 and D1 are also occupied by other modules, this will lead to the communication with USBTTL is abnormal and the program can not be downloaded.
 +
*There is one SPI support:
 +
** Labeled on the module of D13(SCK),D12(MISO),D11(MOSI) and D10(SS).
 +
*There is one 12C support:
 +
** Labeled on the module of SDA(D20),SCL(D21).
 +
* There are 3 external interrupt supports:
 +
** Labeled on the module of D2(interrupt0),D3(interrupt1) and D6(interrupt2).
 +
** Please refer to'''[http://arduino.cc/en/Reference/AttachInterrupt attachInterrupt()]'''function.
 +
* Support the ISP download function.
 +
* Support the AREF end.
  
  
 +
*Instruction of the pins:
  
 +
{|class="wikitable"
 +
| align="center" style="background:#f0f0f0;"|'''Pin'''
 +
| align="center" style="background:#f0f0f0;"|'''Original Pin Name'''
 +
| align="center" style="background:#f0f0f0;"|'''Map Pin Name'''
 +
| align="center" style="background:#f0f0f0;"|'''Digital Pin'''
 +
| align="center" style="background:#f0f0f0;"|'''Analog Pin'''
 +
| align="center" style="background:#f0f0f0;"|'''interrupt'''
 +
| align="center" style="background:#f0f0f0;"|'''PWM'''
 +
| align="center" style="background:#f0f0f0;"|'''Serial'''
 +
| align="center" style="background:#f0f0f0;"|'''SPI'''
 +
| align="center" style="background:#f0f0f0;"|'''I2C'''
 +
| align="center" style="background:#f0f0f0;"|'''Power'''
 +
|-
 +
| 1||VCC||+5V||||||||||||||||+5V
 +
|-
 +
| 2||VCC||+3V3||||||||||||||||+3.3V
 +
|-
 +
| 3||(OC0A/AIN1)PB3||D7||D7||||||yes||||||||
 +
|-
 +
| 4||(OC2B/ICP)PD6||D8||D8||||||yes||||||||
 +
|-
 +
| 5||(OC1A)PD5||D9||D9||||||yes||||||||
 +
|-
 +
| 6||(OC0B/SS)PB4||D10||D10||||||yes||||SS||||
 +
|-
 +
| 7||(MOSI)PB5||D11||D11||||||||||MOSI||||
 +
|-
 +
| 8||(MISO)PB6||D12||D12||||||||||MISO||||
 +
|-
 +
| 9||(SCK)PB7||D13||D13||||||||||SCK||||
 +
|-
 +
| 10||AREF||AREF||||||||||||||||
 +
|-
 +
| 11||(ADC7)PA7||A0||D24||A0||||||||||||
 +
|-
 +
| 12||(ADC6)PA6||A1||D25||A1||||||||||||
 +
|-
 +
| 13||(ADC5)PA5||A2||D26||A2||||||||||||
 +
|-
 +
| 14||(ADC4)PA4||A3||D27||A3||||||||||||
 +
|-
 +
| 15||(SDA)PC1||SDA||D20||||||||||||SDA||
 +
|-
 +
| 16||(SCL)PC0||SCL||D21||||||||||||SCL||
 +
|-
 +
| 17||(ADC1)PA1||A6||D30||A6||||||||||||
 +
|-
 +
| 18||(ADC0)PA0||A7||D31||A7||||||||||||
 +
|-
 +
| 19||(RXD0)PD0||D0||D0||||||||0(RX)||||||
 +
|-
 +
| 20||(TXD0)PD1||D1||D1||||||||0(TX)||||||
 +
|-
 +
| 21||(INT0)PD2||D2||D2||||0||||1(RX)||||||
 +
|-
 +
| 22||(INT1)PD3||D3||D3||||1||||1(TX)||||||
 +
|-
 +
| 23||(XCK0/T0)PB0||D4||D4||||||||||||||
 +
|-
 +
| 24||(CLKO/T1)PB1||D5||D5||||||||||||||
 +
|-
 +
| 25||(INT2/AIN0)PB2||D6||D6||||2||||||||||
 +
|-
 +
| 26||RESET||RST||||||||||||||||
 
|-
 
|-
|
+
| 27||GND||GND||||||||||||||||GND
==Core vs Core+==
 
*  '''[[Microduino-Core+]]''' aims at high performance applications which require large SRAM/EEPROM/Flash and more I/O ports, '''[[Microduino-Core]]''' is for main stream applications.
 
 
 
* Both '''[[Microduino-Core]]''' and '''[[Microduino-Core+]]''' use UPin-27 interface -- the standard module interface of Microduino series. The main difference between them is MCU chip: -Core module uses ATmega328P/ATmega168PA, as same as Arduino Uno; -Core+ module uses ATmega644PA/ATmega1284P, its performance is similar to Arduino Mega2560.
 
 
 
* Configuration difference between '''[[Microduino-Core]]''' and '''[[Microduino-Core+]]'''
 
:{|class="wikitable"
 
! Microduino
 
! Chip
 
! Flash
 
! SRAM
 
! EEPROM
 
! Digital I/O
 
! Analog I/O
 
! PWM
 
! Hardware Serial
 
 
|-
 
|-
| rowspan="2" | Core
+
| 28||(TOSC2)PC7||D14||D14||||||||||||||
| Atmega168PA
 
| 16K
 
| 1K
 
| 512
 
| 23
 
| 8
 
| 6
 
| 1
 
 
|-
 
|-
| ATmega328P
+
| 29||(TOSC1)PC6||D15||D15||||||||||||||
| 32K
 
| 2K
 
| 1K
 
| 23
 
| 8
 
| 6
 
| 1
 
 
|-
 
|-
| rowspan="2" | Core+
+
| 30||(TDI)PC5||D16||D16||||||||||||||
| Atmega644PA
 
| 64K
 
| 4K
 
| 2K
 
| 32
 
| 8
 
| 8
 
| 2
 
 
|-
 
|-
| ATmega1284P
+
| 31||(TDO)PC4||D17||D17||||||||||||||
| 128K
 
| 16K
 
| 4K
 
| 32
 
| 8
 
| 8
 
| 2
 
|}
 
 
 
* According above table, Core and Core+ are different in Flash, EEPROM and SRAM size, also, they supply different size of digital I/O and hardware serial ports, and there are 10 more digital I/O and 1 more hardware serial ports in Core+. Designers can select specific module regarding different application requirements on function, performance and power.
 
 
 
* Both Core and Core+ use UPin-27 interface, Microduino program can be smoothly ported between them.
 
 
 
 
|-
 
|-
|
+
| 32||(TMS)PC3||D18||D18||||||||||||||
 
 
==Features==
 
* Small, stackable and powerful
 
*Open source hardware circuit design and Arduino compatible programming development environment;
 
* Like Arduino, Microduino-Core+ can use ISP download method to burn program into「bootloader」flexibly;
 
* With uniform Microduino interface standard and rich peripheral modules, it can have an easy and flexible connection with other Microduino modules and sensor.
 
* Delivered ready to plug in.
 
* 2.54mm (0.1 inch) pin pitch, compatible to bread board and pegboards.
 
 
 
 
|-
 
|-
|
+
| 33||(TCK)PC2||D19||D19||||||||||||||
 
 
==Specifications==
 
* Microcontroller: ATmega644PA/ATmega1284P
 
* Operating Voltage: 5V/3.3V
 
* Digital I/O Pins: 24 (of which 8 provide PWM output with D7,D8,D9,D10,D12,D13,D22 and D23, PWM ports are different to '''[[Microduino-Core]]''')
 
* Analog Input Pins: 8 (2 more comparing to Arduino Uno)
 
* DC Current per I/O Pin: 40 mA
 
* DC Current:  50 mA
 
* Serial: 2 set of serial ports. D0 (RX0) + D1 (TX0) and D2 (RX1) + D3 (TX1), used to receive (RX) and transmit (TX) TTL serial data.
 
* External Interrupts: 2, 3 and 6. These pins can be configured to trigger an interrupt on a low value, a rising or falling edge, or a change in value. See the attachInterrupt() function for details.
 
* PWM: 7, 8, 9, 10, 12, 13, 22 and 23. Provide 8-bit PWM output with the analogWrite() function.
 
* SPI: 10 (SS), 11 (MOSI), 12 (MISO), 13 (SCK). These pins support SPI communication using the SPI library.
 
* IIC: D20 (SDA) pin and D21 (SCL) pin. Support TWI communication using the Wire library.
 
* AREF. Reference voltage for the analog inputs. Used with analogReference().
 
 
 
* Currently, there are 4 different configurations for '''[[Microduino-Core+]]''' modules:
 
:{|class="wikitable"
 
! Type
 
! Flash
 
! SRAM
 
! EEPROM
 
! Frequecy
 
! Supply
 
 
|-
 
|-
| ATmega644PA@16M,5V
+
| 34||(ADC3)PA3||A4||D28||A4||||||||||||
| 64K
 
| 4K
 
| 2K
 
| 16M
 
| 5.0V
 
 
|-
 
|-
| ATmega644PA@8M,3V3
+
| 35||(ADC2)PA2||A5||D29||A5||||||||||||
| 64K
 
| 4K
 
| 2K
 
| 8M
 
| 3.3V
 
 
|-
 
|-
| Atmega1284P@16M,5V
+
| 36||(OC1B)PD4||D22||D22||||||yes||||||||
| 128K
 
| 16K
 
| 4K
 
| 16M
 
| 5.0V
 
 
|-
 
|-
| ATmega1284P@8M,3V3
+
| 37||(OC2A)PD7||D23||D23||||||yes||||||||
| 128K
 
| 16K
 
| 4K
 
| 8M
 
| 3.3V
 
 
|}
 
|}
  
 
+
:[[file:Microduino-Core+_Pinout_1Big.jpg|600px|thumb|center|Microduino-Core+ Pin-out]]
:[[file:Microduino-Core+_Pinout_1.jpg|600px|thumb|center|Microduino-Core+ Pin-out]]
 
 
<br style="clear: left"/>
 
<br style="clear: left"/>
:[[file:Microduino-Core+_Pinout_2.jpg|600px|thumb|center|Microduino-Core+ Pin-out]]
+
:[[file:Microduino-Core+_Pinout_2Big1.jpg|600px|thumb|center|Microduino-Core+ Pin-out]]
 
<br style="clear: left"/>
 
<br style="clear: left"/>
:[[file:Microduino-Core+_Pinout_3.jpg|600px|thumb|center|Microduino-Core+ Pin-out]]
+
:[[file:Microduino-Core+_Pinout_3Big1.jpg|600px|thumb|center|Microduino-Core+ Pin-out]]
 
<br style="clear: left"/>
 
<br style="clear: left"/>
  
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|
 
|
  
==Documents==
+
==Document==
 +
* Eagle PCB '''[[File:Microduino-Core+.zip]]'''
  
* '''[[Microduino-Core+]]''' Eagle source file 【'''[[media:Microduino-Core+.zip|download]]'''】
+
*The main components used in Microduino-core+ .
* '''[[Microduino-Core+]]''' main chips and devices
 
 
** MCU: '''[[media:coreATmega644PA1284P.pdf|ATmega644PA/1284P]]'''
 
** MCU: '''[[media:coreATmega644PA1284P.pdf|ATmega644PA/1284P]]'''
 +
 
|-
 
|-
 
|
 
|
  
 
==Development==
 
==Development==
* Microduino Arduino IDE Configuration
+
* 1.Downloading programs to Microduino-core , players need to use'''[[Microduino-USBTTL]]''' module.
** 1. Install Arduino IDE: Microduino use the same IDE as Arduino, please download Arduino IDE from 【'''[http://arduino.cc/en/Main/Software Arduino IDE official]'''】 and install it in your disk. (if you already have it, just skip this step). Please check Arduino IDE details from 【'''[http://arduino.cc/en/Reference/HomePage Reference]'''】 and 【'''[http://arduino.cc/en/Tutorial/HomePage Workshop]'''.  
+
* 2.The installation tutorial of the development environment and the driver environment is as following:
** 2. Patch Microduino package: Please download Microduino package for Arduino IDE from 【'''[[media:Microduino.zip|download]]'''】, and unzip is to {Your Arduino Install Driectory}/hardware directory.
+
**'''[[Microduino Getting start]]'''
** Microduino Arduino IDE Reference workshop: 【'''[[Arduino IDE Microduino Configuration]]'''.  
+
 
** 3. Programming: To upload program to Microduino-Core/Core+ through Arduino IDE, designers are recommended to use '''[[Microduino-FT232R]]''' module.
+
* Program  Microduino BootLoader.
** 4. Enjoy your Microduino journey!
+
** If the BootLoader are damaged, you need to use Arduino UNO or existing Microduino  to program bootloader for the damaged Microduino;
 +
**You can refer to the tutorial: '''[[Do you know how to use Arduino UNO to program bootloader to Microduino-Core?]]'''.
  
* Burn Microduino BootLoader
 
** Bootloader burning is necessary if designers want to update Microduino-Core/Core+ firmware by themselves, designers can leaverage Arduino Uno or another burned Microduino-Core/Core+ to make a new one.
 
** Microduino bootloader workshop: 【'''[[Burn Bootloader to Microduino-Core/Core+ with an Arduino]]'''】.
 
** Bootloader is specified for different Microduino-Core/Core+ configurations, correct one must be selected during burning.
 
** Initial bootloader is designed for ATmegaX8 series optiboot, which occupies only 512 bytes flash.
 
 
|-
 
|-
 
|
 
|
  
==Applications==
+
==Application==
* room-Microduino
+
* [https://www.microduino.cc/project Microduino project case]
* obdii-Microduino
+
* [https://www.microduino.cc/wiki/index.php?title=Microduino_(Arduino%E5%85%BC%E5%AE%B9%E6%9D%BF%EF%BC%89%E6%95%99%E7%A8%8B Microduino application tutorial]
* pilot-Microduino
+
* [http://www.geek-workshop.com/thread-4558-1-1.html Microduino the Internet of things application] [From geek-workshop.com]
* green-Microduino
 
* music-Microduino
 
 
|-
 
|-
 
|
 
|
  
==FQA==
+
==FAQ==
*Do you have ATmega1284P @ 8M 3.3V version?
+
*Q:How do I judge that the voltage of the Core+ is 3.3V or 5V?
**So far no.
+
**A:Look at the resistor. If the R1 is welded, it is 3.3V. And if the R2 is welded, it is 5V.
 
+
*Q:Can I use 3.3V voltage to supply power to the Core+ of 16m clock frequency?
==Buy==
+
**A:It is not recommended . If the voltage is too low, it is easy to be unstable.
* Buy '''[http://www.microduino.cc/Modules/Microdoino%20Core%20Modules/Microdoino-Core-Plus Microduino-Core+]'''
+
*Q:Can I use 5V voltage to supply power to the Core+ of 8M clock frequency?
 +
**A:Yes, you can.
 +
==Purchase==
  
 
|-
 
|-
 
|
 
|
==History==
 
*2012/12/16: Published Microduino-Core patch for Arduino IDE
 
*2012/11/18: Optimized the first formal release, finalized Miroduino-Core configuration
 
*2012/11/06: Beta version.
 
  
|-
+
==Map Storage==
|
 
==Pictures==
 
 
:[[file:Microduino-Core+-t.JPG|thumb|600px|center|Microduino-core+ Front]]
 
:[[file:Microduino-Core+-t.JPG|thumb|600px|center|Microduino-core+ Front]]
 
<br style="clear: left"/>
 
<br style="clear: left"/>
 
:[[file:Microduino-Core+-b.JPG|thumb|600px|center|Microduino-core+ Back]]
 
:[[file:Microduino-Core+-b.JPG|thumb|600px|center|Microduino-core+ Back]]
 
<br style="clear: left"/>
 
<br style="clear: left"/>
 +
|-
 +
|
 +
 +
==History==
 +
 
|}
 
|}

Latest revision as of 03:47, 4 August 2017

Language: English  • 中文
Microduino-Core+

Microduino-Core+ is an 8-bit microcontroller development core board based on Atmel ATmega1284P and ATmega644PA series as the core and it is an open-source controller module compatible with Arduino UNO. Beside Microduino-core+ has the features of Microduino-Core, the number of input and output of Flash, RAM, EEPROM of it has been greatly improved, and the pin conforms to the norms of Microduino, and the players can upgrade core to core+ smoothly, without modifying the arduino code basically.

Microduino uses java and C language development environment, same to Arduino. Players can use Arduino IDE, cooperated with software such as Flash or Processing , with Microduino and other electronic components, modules and sensors to make many funny interactive works.


Features

  • Strong configuration. Its biggest Flash and SRAM can arrive 128KB and 16KB respectively.
  • Small, cheap, stackable, and open.
  • Open source hardware circuit design, and compatible-with Arduino programming development environment;
  • Same with Arduino, Microduino can use ISP download line to program to 「bootloader」 flexibly;
  • The unified Microduino interface specification and abundant peripheral modules can be connected and extended with other modules and sensors conformed to the Microduino interface specification conveniently and flexibly;
  • 2.54 spacing mother of interface is convenient to integrate into the hole plate.

Specification


  • Microduino-Core+According to the different core and clock frequency, there are four different versions at present:
MCU type Flash SRAM EEPROM Clock frequency Work voltage
ATmega644PA 64K 4K 2K 16M 5.0V
ATmega644PA 64K 4K 2K 8M 3.3V
Atmega1284P 128K 16K 4K 16M 5.0V
ATmega1284P 128K 16K 4K 8M 3.3V


  • Digital I/O There are 32 number digital input/output:
    • Labeled on the module of D0, D1, D2~D13 and A0~A7, and the 10 (D14~D23) more than core .
  • Analog I/O There are 8 analog input/output:
    • Labeled on the module of A0~A7;
    • Each provides a 10-bit resolution(that is 0~1024). By default, analog value measurement range is from GND to VCC voltage value;
    • Please refer to analogRead() function.
  • There are 8 PWM supports:
    • Labeled on the module of respectively D7,D8,D9,D10,D12,D13,D22,D23.
    • Please refer to analogWrite() function.
  • There are two serial port supports:
    • Labeled on the module of Serial[D0(RX),D1(TX)] and Serial1[D2(RX),D3(TX)].
    • Connected with USBTTL,it will occupy D0 and D1. If the ports D0 and D1 are also occupied by other modules, this will lead to the communication with USBTTL is abnormal and the program can not be downloaded.
  • There is one SPI support:
    • Labeled on the module of D13(SCK),D12(MISO),D11(MOSI) and D10(SS).
  • There is one 12C support:
    • Labeled on the module of SDA(D20),SCL(D21).
  • There are 3 external interrupt supports:
    • Labeled on the module of D2(interrupt0),D3(interrupt1) and D6(interrupt2).
    • Please refer toattachInterrupt()function.
  • Support the ISP download function.
  • Support the AREF end.


  • Instruction of the pins:
Pin Original Pin Name Map Pin Name Digital Pin Analog Pin interrupt PWM Serial SPI I2C Power
1 VCC +5V +5V
2 VCC +3V3 +3.3V
3 (OC0A/AIN1)PB3 D7 D7 yes
4 (OC2B/ICP)PD6 D8 D8 yes
5 (OC1A)PD5 D9 D9 yes
6 (OC0B/SS)PB4 D10 D10 yes SS
7 (MOSI)PB5 D11 D11 MOSI
8 (MISO)PB6 D12 D12 MISO
9 (SCK)PB7 D13 D13 SCK
10 AREF AREF
11 (ADC7)PA7 A0 D24 A0
12 (ADC6)PA6 A1 D25 A1
13 (ADC5)PA5 A2 D26 A2
14 (ADC4)PA4 A3 D27 A3
15 (SDA)PC1 SDA D20 SDA
16 (SCL)PC0 SCL D21 SCL
17 (ADC1)PA1 A6 D30 A6
18 (ADC0)PA0 A7 D31 A7
19 (RXD0)PD0 D0 D0 0(RX)
20 (TXD0)PD1 D1 D1 0(TX)
21 (INT0)PD2 D2 D2 0 1(RX)
22 (INT1)PD3 D3 D3 1 1(TX)
23 (XCK0/T0)PB0 D4 D4
24 (CLKO/T1)PB1 D5 D5
25 (INT2/AIN0)PB2 D6 D6 2
26 RESET RST
27 GND GND GND
28 (TOSC2)PC7 D14 D14
29 (TOSC1)PC6 D15 D15
30 (TDI)PC5 D16 D16
31 (TDO)PC4 D17 D17
32 (TMS)PC3 D18 D18
33 (TCK)PC2 D19 D19
34 (ADC3)PA3 A4 D28 A4
35 (ADC2)PA2 A5 D29 A5
36 (OC1B)PD4 D22 D22 yes
37 (OC2A)PD7 D23 D23 yes
Microduino-Core+ Pin-out


Microduino-Core+ Pin-out


Microduino-Core+ Pin-out



Document

Development

  • 1.Downloading programs to Microduino-core , players need to useMicroduino-USBTTL module.
  • 2.The installation tutorial of the development environment and the driver environment is as following:

Application

FAQ

  • Q:How do I judge that the voltage of the Core+ is 3.3V or 5V?
    • A:Look at the resistor. If the R1 is welded, it is 3.3V. And if the R2 is welded, it is 5V.
  • Q:Can I use 3.3V voltage to supply power to the Core+ of 16m clock frequency?
    • A:It is not recommended . If the voltage is too low, it is easy to be unstable.
  • Q:Can I use 5V voltage to supply power to the Core+ of 8M clock frequency?
    • A:Yes, you can.

Purchase

Map Storage

Microduino-core+ Front


Microduino-core+ Back


History