ATMEGA32U4: Difference between revisions
d |
|||
(31 intermediate revisions by 3 users not shown) | |||
Line 1: | Line 1: | ||
{{project|status=In Progress|primary=[[User:Msemtd|Michael Erskine]]|type=member|}} | |||
Many hackers wish to produce a USB device that presents itself as a HID joypad, keyboard, or mouse to a PC or Pi to provide interesting interactions and I/O opportunities in a "standardised" manner. The Arduino Micro and more recently the Leonardo use a micro with an inbuilt USB peripheral device that can be repurposed directly. Previously the Arduino boards used a second small micro or dedicated USB chip (essentially another micro) to perform the USB-serial task but the cost of this additional device was high (often more than the micro itself) and that essential USB device feature soon found itself integrated into a number of Atmel chips. This was an opportunity for the Arduino project to divorce itself from a massive dependence on FTDI (in good time for [https://www.google.co.uk/search?q=%23FTDIGATE #FTDIGATE] !!) and for hackers to get involved with the delights of the at90usb82, atmega16u2, etc. as secondary processors for USB comms. | Many hackers wish to produce a USB device that presents itself as a HID joypad, keyboard, or mouse to a PC or Pi to provide interesting interactions and I/O opportunities in a "standardised" manner. The Arduino Micro and more recently the Leonardo use a micro with an inbuilt USB peripheral device that can be repurposed directly. Previously the Arduino boards used a second small micro or dedicated USB chip (essentially another micro) to perform the USB-serial task but the cost of this additional device was high (often more than the micro itself) and that essential USB device feature soon found itself integrated into a number of Atmel chips. This was an opportunity for the Arduino project to divorce itself from a massive dependence on FTDI (in good time for [https://www.google.co.uk/search?q=%23FTDIGATE #FTDIGATE] !!) and for hackers to get involved with the delights of the at90usb82, atmega16u2, etc. as secondary processors for USB comms. | ||
Time rolls on and the excitement of the brilliant but non-open Minimus project dies down to find a number of crazy-cheap options where the USB chip is the main chip. The Atmega32U4 can be found on the Arduino Micro (currently for about £20) but also on the wonderful [http://www.pjrc.com/teensy/index.html Teensy 2.0] and some really cheap little boards from China that at £4 each are cheaper than buying just the chip from here in the UK (in reasonable quantities). Myself (Michael E) and Spencer have ordered some of these bonkers-cheap units for initial testing and evaluation. | Time rolls on and the excitement of the brilliant but non-open Minimus project dies down to find a number of crazy-cheap options where the USB chip is the main chip. The Atmega32U4 can be found on the Arduino Micro (currently for about £20) but also on the wonderful [http://www.pjrc.com/teensy/index.html Teensy 2.0] and some really cheap little "Pro Micro" boards from China that at £4 each are cheaper than buying just the chip from here in the UK (in reasonable quantities). Myself (Michael E) and Spencer have ordered some of these bonkers-cheap units for initial testing and evaluation. They would appear to be clones of the Sparkfun Pro Micro https://www.sparkfun.com/products/12640 | ||
== Info Dump == | == Info Dump == | ||
* http://www.atmel.com/devices/atmega32u4.aspx | * http://www.atmel.com/devices/atmega32u4.aspx | ||
* full datasheet: http://www.atmel.com/Images/Atmel-7766-8-bit-AVR-ATmega16U4-32U4_Datasheet.pdf | * full datasheet: http://www.atmel.com/Images/Atmel-7766-8-bit-AVR-ATmega16U4-32U4_Datasheet.pdf | ||
* short summary: http://www.atmel.com/Images/Atmel-7766-8-bit-AVR-ATmega16U4-32U4_Summary.pdf | * short summary: http://www.atmel.com/Images/Atmel-7766-8-bit-AVR-ATmega16U4-32U4_Summary.pdf | ||
* 10x board for £40: http://www.ebay.co.uk/itm/10x-Arduino-Pro-Micro-Leonardo-compatible-ATMEGA-32U4-5v-NEW-TESTED-UK-Stock-/161766720163?ssPageName=ADME:L:OU:GB:3160 | * DELIVERY 1: 10x board for £40: http://www.ebay.co.uk/itm/10x-Arduino-Pro-Micro-Leonardo-compatible-ATMEGA-32U4-5v-NEW-TESTED-UK-Stock-/161766720163?ssPageName=ADME:L:OU:GB:3160 | ||
* 1x board for £6 | * 1x board for £6 | ||
* 1x board - possibly even better (see fixes in description - to be compared with our delivery) http://www.ebay.co.uk/itm/Leonardo-Pro-Micro-ATmega32U4-16MHz-5V-Replace-ATmega328-Module-for-Arduino-Nano-/331611815908?hash=item4d359abfe4 | |||
== Initial Works == | == Initial Works for DELIVERY 1 == | ||
* board inspection: - | * board inspection: - | ||
Line 25: | Line 26: | ||
ATMEL | ATMEL | ||
MEGA32U4 | MEGA32U4 | ||
-MU | |||
1448E TH | 1448E TH | ||
A2N7XA | A2N7XA | ||
Line 34: | Line 36: | ||
* bad oscillator circuitry or configuration | * bad oscillator circuitry or configuration | ||
* pinout mapping for Arduino/teensy/Micro | * pinout mapping for Arduino/teensy/Micro | ||
J1 |USBu| | |||
TX0 RAW | |||
RX1 GND | |||
GND RST | |||
GND VCC | |||
2 A3 | |||
3 A2 | |||
4 A1 | |||
5 A0 | |||
6 15 | |||
7 14 | |||
8 16 | |||
9 10 | |||
+----------------+ | |||
== Michael's USB-HID Work == | == Michael's USB-HID Work == | ||
Line 40: | Line 58: | ||
* Minimus | * Minimus | ||
* LUFA | * LUFA | ||
* Teensy and Teensyduino | * Teensy and Teensyduino - holy grail! Configurable joysticks in Arduino IDE http://www.pjrc.com/teensy/td_joystick.html | ||
* KADE | * KADE | ||
* UnoJoy | * UnoJoy | ||
* https://learn.sparkfun.com/tutorials/pro-micro--fio-v3-hookup-guide | |||
** followed and uploaded the onboard LED driving code - works well! | |||
** now to create additional USB HID capabilities in the board definition | |||
** https://github.com/sparkfun/SF32u4_boards | |||
New project - very similar... | |||
* http://www.instructables.com/id/Turn-an-N64-Controller-into-a-USB-Gamepad-using-an/ | |||
Test for ProMicro with 8 inputs and keyboard output: - | |||
<div style ="height:200px;overflow-x:hidden;overflow-y:auto;border: 4px solid green;"> | |||
<syntaxhighlight lang="cpp" line="GESHI_FANCY_LINE_NUMBERS"> | |||
static uint8_t bprev; | |||
static uint8_t bnew; | |||
const int pmin = 2; | |||
const int pmax = 9; | |||
void setup() { | |||
for(int i = pmin; i <= pmax; i++){ | |||
pinMode(i, INPUT_PULLUP); | |||
} | |||
Serial.begin(9600); | |||
Keyboard.begin(); | |||
bprev = bnew = btn_read(); | |||
} | |||
void loop() { | |||
bnew = btn_read(); | |||
if(bnew != bprev){ | |||
Keyboard.write('z'); | |||
Serial.print("btns = "); | |||
Serial.println(bnew, HEX); | |||
bprev = bnew; | |||
} | |||
// force change with any serial input | |||
if(Serial.available() > 0) { | |||
int b = Serial.read(); | |||
Serial.print("RX: "); | |||
Serial.println(b, DEC); | |||
bprev = ~bprev; | |||
} | |||
} | |||
uint8_t btn_read(void) { | |||
uint8_t v = 0; | |||
for(int i = pmin; i <= pmax; i++){ | |||
bitWrite(v, i-pmin, digitalRead(i)); | |||
} | |||
return v; | |||
} | |||
</syntaxhighlight> | |||
</div> | |||
* HID descriptor help http://www.usb.org/developers/hidpage#HID Descriptor Tool | |||
Test for ProMicro with 8 inputs, debounce, multitasking and serial output: - | |||
<div style ="height:200px;overflow-x:hidden;overflow-y:auto;border: 4px solid green;"> | |||
<syntaxhighlight lang="cpp" line="GESHI_FANCY_LINE_NUMBERS"> | |||
/* Pro Micro Test Code | |||
by: Nathan Seidle | |||
modified by: Jim Lindblom | |||
SparkFun Electronics | |||
date: September 16, 2013 | |||
license: Public Domain - please use this code however you'd like. | |||
It's provided as a learning tool. | |||
This code is provided to show how to control the SparkFun | |||
ProMicro's TX and RX LEDs within a sketch. It also serves | |||
to explain the difference between Serial.print() and | |||
Serial1.print(). | |||
modified by: Michael Erskine | |||
Nottingham Hackspace | |||
date: August 28th, 2015 | |||
Added digital inputs from 2-9 with debounce and simple multitasking | |||
*/ | |||
int RXLED = 17; // The RX LED has a defined Arduino pin | |||
// The TX LED was not so lucky, we'll need to use pre-defined | |||
// macros (TXLED1, TXLED0) to control that. | |||
// (We could use the same macros for the RX LED too -- RXLED1, | |||
// and RXLED0.) | |||
void setup() | |||
{ | |||
pinMode(RXLED, OUTPUT); // Set RX LED as an output | |||
// TX LED is set as an output behind the scenes | |||
Serial.begin(9600); //This pipes to the serial monitor | |||
Serial1.begin(9600); //This is the UART, pipes to sensors attached to board | |||
inputs_setup(); | |||
} | |||
const int da_start = 2; | |||
const int da_num = 4; | |||
static uint8_t da_inputs = 0; | |||
void inputs_setup(void) { | |||
for(int i = 0; i < da_num; i++) { | |||
pinMode(da_start + i, INPUT_PULLUP); | |||
} | |||
da_inputs = inputs_read(); | |||
} | |||
uint8_t inputs_read(void) | |||
{ | |||
uint8_t da_samp = 0; | |||
for(int i = 0; i < da_num; i++) { | |||
bitWrite(da_samp, i, (digitalRead(da_start + i) ? 0 : 1)); | |||
} | |||
return da_samp; | |||
} | |||
void loop() | |||
{ | |||
task_led_toggle(); | |||
task_inputs(); | |||
task_serial_read(); | |||
} | |||
void task_inputs(void) | |||
{ | |||
static uint32_t last; | |||
uint32_t now = millis(); | |||
if(now - last > 5) { | |||
last = now; | |||
uint8_t da_samp = inputs_read(); | |||
uint8_t toggle; | |||
da_samp = debounce(da_samp, &toggle); | |||
if(da_samp != da_inputs) { | |||
da_inputs = da_samp; | |||
Serial.print("Inputs: "); | |||
Serial.println(da_inputs, BIN); | |||
} | |||
} | |||
} | |||
void task_led_toggle(void) | |||
{ | |||
static uint32_t last; | |||
static bool on = false; | |||
uint32_t now = millis(); | |||
if(now - last > 1000) { | |||
last = now; | |||
// Serial.println("Hello world"); // Print "Hello World" to the Serial Monitor | |||
// Serial1.println("Hello!"); // Print "Hello!" over hardware UART | |||
if(on){ | |||
digitalWrite(RXLED, LOW); // set the LED on | |||
TXLED0; //TX LED is not tied to a normally controlled pin | |||
} else { | |||
digitalWrite(RXLED, HIGH); // set the LED off | |||
TXLED1; | |||
} | |||
on = !on; | |||
} | |||
} | |||
void task_serial_read(void) { | |||
// TODO | |||
} | |||
/* | |||
* http://www.compuphase.com/electronics/debouncing.htm | |||
*/ | |||
unsigned char debounce(unsigned char sample, unsigned char *toggle) | |||
{ | |||
static unsigned char state, cnt0, cnt1; | |||
unsigned char delta; | |||
delta = sample ^ state; | |||
cnt1 = (cnt1 ^ cnt0) & delta; | |||
cnt0 = ~cnt0 & delta; | |||
*toggle = delta & ~(cnt0 | cnt1); | |||
state ^= *toggle; | |||
return state; | |||
} | |||
</syntaxhighlight> | |||
</div> | |||
Test for ProMicro with USB HID joystick, 8 inputs, debounce, multitasking and serial output (NB: needs mods to Arduino core USBAPI.h and HID.cpp in \arduino-1.6.5-r2\hardware\arduino\avr\cores\arduino): - | |||
<div style ="height:200px;overflow-x:hidden;overflow-y:auto;border: 4px solid green;"> | |||
<syntaxhighlight lang="cpp" line="GESHI_FANCY_LINE_NUMBERS"> | |||
/* Pro Micro Test Code | |||
by: Nathan Seidle | |||
modified by: Jim Lindblom | |||
SparkFun Electronics | |||
date: September 16, 2013 | |||
license: Public Domain - please use this code however you'd like. | |||
It's provided as a learning tool. | |||
This code is provided to show how to control the SparkFun | |||
ProMicro's TX and RX LEDs within a sketch. It also serves | |||
to explain the difference between Serial.print() and | |||
Serial1.print(). | |||
modified by: Michael Erskine | |||
Nottingham Hackspace | |||
date: August 28th, 2015 | |||
Added digital inputs from 2-9 with debounce and simple multitasking | |||
*/ | |||
int RXLED = 17; // The RX LED has a defined Arduino pin | |||
// The TX LED was not so lucky, we'll need to use pre-defined | |||
// macros (TXLED1, TXLED0) to control that. | |||
// (We could use the same macros for the RX LED too -- RXLED1, | |||
// and RXLED0.) | |||
// Joystick State | |||
static JoyState_t JoySt; | |||
void setup() | |||
{ | |||
pinMode(RXLED, OUTPUT); // Set RX LED as an output | |||
// TX LED is set as an output behind the scenes | |||
Serial.begin(9600); //This pipes to the serial monitor | |||
Serial1.begin(9600); //This is the UART, pipes to sensors attached to board | |||
JoySt.XAxis = 127; | |||
JoySt.YAxis = 127; | |||
JoySt.Buttons = 0; | |||
inputs_setup(); | |||
} | |||
const int da_start = 2; | |||
const int da_num = 4; | |||
static uint8_t da_inputs = 0; | |||
void inputs_setup(void) { | |||
for(int i = 0; i < da_num; i++) { | |||
pinMode(da_start + i, INPUT_PULLUP); | |||
} | |||
da_inputs = inputs_read(); | |||
} | |||
uint8_t inputs_read(void) | |||
{ | |||
uint8_t da_samp = 0; | |||
for(int i = 0; i < da_num; i++) { | |||
bitWrite(da_samp, i, (digitalRead(da_start + i) ? 0 : 1)); | |||
} | |||
return da_samp; | |||
} | |||
void loop() | |||
{ | |||
task_led_toggle(); | |||
task_inputs(); | |||
task_serial_read(); | |||
} | |||
void task_inputs(void) | |||
{ | |||
static uint32_t last; | |||
uint32_t now = millis(); | |||
if(now - last > 5) { | |||
last = now; | |||
uint8_t da_samp = inputs_read(); | |||
uint8_t toggle; | |||
da_samp = debounce(da_samp, &toggle); | |||
if(da_samp != da_inputs) { | |||
da_inputs = da_samp; | |||
//Serial.print("Inputs: "); | |||
//Serial.println(da_inputs, BIN); | |||
} | |||
// Now do the USB HID magic... | |||
// NB: every 5ms max | |||
// JoySt.XAxis = 127 + N64Controller.GetStick_x(); | |||
// JoySt.YAxis = 127 + N64Controller.GetStick_y(); | |||
// map first two buttons to up and down for testing | |||
if(da_samp & 0x01) // up | |||
JoySt.XAxis = 0; | |||
else if( da_samp & 0x02) // down | |||
JoySt.XAxis = 255; | |||
else | |||
JoySt.XAxis = 127; | |||
// leave Y centred for now | |||
JoySt.YAxis = 127; | |||
JoySt.Buttons = da_samp; | |||
Joystick.setState(&JoySt); | |||
} | |||
} | |||
void task_led_toggle(void) | |||
{ | |||
static uint32_t last; | |||
static bool on = false; | |||
uint32_t now = millis(); | |||
if(now - last > 1000) { | |||
last = now; | |||
// Serial.println("Hello world"); // Print "Hello World" to the Serial Monitor | |||
// Serial1.println("Hello!"); // Print "Hello!" over hardware UART | |||
if(on){ | |||
digitalWrite(RXLED, LOW); // set the LED on | |||
TXLED0; //TX LED is not tied to a normally controlled pin | |||
} else { | |||
digitalWrite(RXLED, HIGH); // set the LED off | |||
TXLED1; | |||
} | |||
on = !on; | |||
} | |||
} | |||
void task_serial_read(void) { | |||
// TODO | |||
} | |||
/* | |||
* http://www.compuphase.com/electronics/debouncing.htm | |||
*/ | |||
unsigned char debounce(unsigned char sample, unsigned char *toggle) | |||
{ | |||
static unsigned char state, cnt0, cnt1; | |||
unsigned char delta; | |||
delta = sample ^ state; | |||
cnt1 = (cnt1 ^ cnt0) & delta; | |||
cnt0 = ~cnt0 & delta; | |||
*toggle = delta & ~(cnt0 | cnt1); | |||
state ^= *toggle; | |||
return state; | |||
} | |||
</syntaxhighlight> | |||
</div> | |||
=== Success!!!! === | |||
I now have the holy grail of full Arduino IDE and APIs for with HID joypad on the Pro Micro clone - all working and tested. --[[User:Msemtd|Michael Erskine]] ([[User talk:Msemtd|talk]]) 15:38, 28 August 2015 (UTC) | |||
=== Joypad code now on Github === | |||
The USB HID Joypad code is now in Github. | |||
https://github.com/msemtd/promicro-joypad | |||
You will need to edit some of the USB HID files in the Arduino core of 1.6.5 (ask for details). In time I should probably create a completely separate board profile but that's a lot of work! --[[User:Msemtd|Michael Erskine]] ([[User talk:Msemtd|talk]]) 09:42, 1 September 2015 (UTC) | |||
=== Wired into Defender Control Panel === | |||
Direct soldering to 8-way Alarm cable x 2 + 1 GND wire and mounted in Spencer's tiny 3D printed case. Replaces a USB dancemat controller that I was never 100% happy with! | |||
<gallery widths=300px heights=300px> | |||
File:Promicro-wiring-direct.png|Direct soldering | |||
File:Promicro-halfwired.png|Half-wired | |||
File:Promicro-wired-digital.png|all digital inputs | |||
File:Promicro-beautiful.png|in 3D printed case | |||
File:Promicro-replacing-this.png|Replacing this mess | |||
</gallery> | |||
=== Large-style Pro Micro board === | |||
I have taken delivery of another 10 boards at a cost of £2.35 each (including postage). --[[User:Msemtd|Michael Erskine]] ([[User talk:Msemtd|talk]]) 09:30, 4 September 2015 (UTC) | |||
These are the same technical specification and functionally equivalent however are slightly larger on a PCB of 23 x 40 mm, the bigger ATMEGA32U4 package, and a Mini-USB socket rather than a Micro-USB socket. | |||
<gallery widths=500px heights=500px> | |||
File:Pro-micro-3-board-types.png|Genuine Arduino Micro, Pro Micro Large, Pro Micro | |||
File:Pro-micro-large-wired.png | Wired with 8x digital inputs on each side + GND | |||
</gallery> | |||
== ProMicro Neopixel == | |||
Code for neopixel test using simplest possible setup | |||
<div style ="height:200px;overflow-x:hidden;overflow-y:auto;border: 4px solid green;"> | |||
<syntaxhighlight lang="cpp" line="GESHI_FANCY_LINE_NUMBERS"> | |||
#include <Adafruit_NeoPixel.h> | |||
#ifdef __AVR__ | |||
#include <avr/power.h> | |||
#endif | |||
#define PIN 21 | |||
#define NUMPIXELS 1 | |||
Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800); | |||
// TODO serial comms not interfering with the pixel timing at all | |||
// allow commands to set brightness as hex value 00 - FF | |||
// allow commands to set colour as RGB hex value 000000 - FFFFFF | |||
// flashing? | |||
void setup() { | |||
pixels.begin(); | |||
} | |||
void loop() { | |||
pixels.setBrightness(10); | |||
for(int i=0;i<NUMPIXELS;i++){ | |||
pixels.setPixelColor(i, pixels.Color(10,10,10)); | |||
pixels.show(); | |||
delay(1000); | |||
pixels.setPixelColor(i, pixels.Color(0,0,0)); | |||
pixels.show(); | |||
delay(500); | |||
} | |||
rainbow(25); | |||
} | |||
void rainbow(uint8_t wait) { | |||
uint16_t i, j; | |||
for(j=0; j<256; j++) { | |||
for(i=0; i<pixels.numPixels(); i++) { | |||
pixels.setPixelColor(i, Wheel((i+j) & 255)); | |||
} | |||
pixels.show(); | |||
delay(wait); | |||
} | |||
} | |||
// Input a value 0 to 255 to get a color value. | |||
// The colours are a transition r - g - b - back to r. | |||
uint32_t Wheel(byte WheelPos) { | |||
WheelPos = 255 - WheelPos; | |||
if(WheelPos < 85) { | |||
return pixels.Color(255 - WheelPos * 3, 0, WheelPos * 3); | |||
} | |||
if(WheelPos < 170) { | |||
WheelPos -= 85; | |||
return pixels.Color(0, WheelPos * 3, 255 - WheelPos * 3); | |||
} | |||
WheelPos -= 170; | |||
return pixels.Color(WheelPos * 3, 255 - WheelPos * 3, 0); | |||
} | |||
</syntaxhighlight> | |||
</div> | |||
[[Category:Arduino]] | |||
[[Category:Projects]] |
Latest revision as of 16:07, 7 February 2019
ATMEGA32U4 | |
---|---|
Primary Contact | Michael Erskine |
Status | In Progress |
Type | Members Project |
QR code |
Many hackers wish to produce a USB device that presents itself as a HID joypad, keyboard, or mouse to a PC or Pi to provide interesting interactions and I/O opportunities in a "standardised" manner. The Arduino Micro and more recently the Leonardo use a micro with an inbuilt USB peripheral device that can be repurposed directly. Previously the Arduino boards used a second small micro or dedicated USB chip (essentially another micro) to perform the USB-serial task but the cost of this additional device was high (often more than the micro itself) and that essential USB device feature soon found itself integrated into a number of Atmel chips. This was an opportunity for the Arduino project to divorce itself from a massive dependence on FTDI (in good time for #FTDIGATE !!) and for hackers to get involved with the delights of the at90usb82, atmega16u2, etc. as secondary processors for USB comms.
Time rolls on and the excitement of the brilliant but non-open Minimus project dies down to find a number of crazy-cheap options where the USB chip is the main chip. The Atmega32U4 can be found on the Arduino Micro (currently for about £20) but also on the wonderful Teensy 2.0 and some really cheap little "Pro Micro" boards from China that at £4 each are cheaper than buying just the chip from here in the UK (in reasonable quantities). Myself (Michael E) and Spencer have ordered some of these bonkers-cheap units for initial testing and evaluation. They would appear to be clones of the Sparkfun Pro Micro https://www.sparkfun.com/products/12640
Info Dump
- http://www.atmel.com/devices/atmega32u4.aspx
- full datasheet: http://www.atmel.com/Images/Atmel-7766-8-bit-AVR-ATmega16U4-32U4_Datasheet.pdf
- short summary: http://www.atmel.com/Images/Atmel-7766-8-bit-AVR-ATmega16U4-32U4_Summary.pdf
- DELIVERY 1: 10x board for £40: http://www.ebay.co.uk/itm/10x-Arduino-Pro-Micro-Leonardo-compatible-ATMEGA-32U4-5v-NEW-TESTED-UK-Stock-/161766720163?ssPageName=ADME:L:OU:GB:3160
- 1x board for £6
- 1x board - possibly even better (see fixes in description - to be compared with our delivery) http://www.ebay.co.uk/itm/Leonardo-Pro-Micro-ATmega32U4-16MHz-5V-Replace-ATmega328-Module-for-Arduino-Nano-/331611815908?hash=item4d359abfe4
Initial Works for DELIVERY 1
- board inspection: -
- what is included other than the MCU and a 16MHz crystal?
- what is missing other than the ICSP header?
- programming the board as an Arduino with Arduino IDE
- programming with dfu-programmer and avr-gcc, avr-libc, etc.
- what bootloader is provided? The Teensy 2.0 HALFKAY?
Chip markings (from ebay photos until we receive our first delivery)
ATMEL MEGA32U4 -MU 1448E TH A2N7XA
Initial risks and mitigations: -
- not a real ATMEL chip or bad batch/revision
- closer inspection of chip markings and initial firmware tests
- check JTAG IDs and Device Identification Register (26.3.2 in datasheet)
- bad oscillator circuitry or configuration
- pinout mapping for Arduino/teensy/Micro
J1 |USBu| TX0 RAW RX1 GND GND RST GND VCC 2 A3 3 A2 4 A1 5 A0 6 15 7 14 8 16 9 10 +----------------+
Michael's USB-HID Work
Origins: -
- Minimus
- LUFA
- Teensy and Teensyduino - holy grail! Configurable joysticks in Arduino IDE http://www.pjrc.com/teensy/td_joystick.html
- KADE
- UnoJoy
- https://learn.sparkfun.com/tutorials/pro-micro--fio-v3-hookup-guide
- followed and uploaded the onboard LED driving code - works well!
- now to create additional USB HID capabilities in the board definition
- https://github.com/sparkfun/SF32u4_boards
New project - very similar...
Test for ProMicro with 8 inputs and keyboard output: -
- HID descriptor help http://www.usb.org/developers/hidpage#HID Descriptor Tool
Test for ProMicro with 8 inputs, debounce, multitasking and serial output: -
Test for ProMicro with USB HID joystick, 8 inputs, debounce, multitasking and serial output (NB: needs mods to Arduino core USBAPI.h and HID.cpp in \arduino-1.6.5-r2\hardware\arduino\avr\cores\arduino): -
Success!!!!
I now have the holy grail of full Arduino IDE and APIs for with HID joypad on the Pro Micro clone - all working and tested. --Michael Erskine (talk) 15:38, 28 August 2015 (UTC)
Joypad code now on Github
The USB HID Joypad code is now in Github.
https://github.com/msemtd/promicro-joypad
You will need to edit some of the USB HID files in the Arduino core of 1.6.5 (ask for details). In time I should probably create a completely separate board profile but that's a lot of work! --Michael Erskine (talk) 09:42, 1 September 2015 (UTC)
Wired into Defender Control Panel
Direct soldering to 8-way Alarm cable x 2 + 1 GND wire and mounted in Spencer's tiny 3D printed case. Replaces a USB dancemat controller that I was never 100% happy with!
-
Direct soldering
-
Half-wired
-
all digital inputs
-
in 3D printed case
-
Replacing this mess
Large-style Pro Micro board
I have taken delivery of another 10 boards at a cost of £2.35 each (including postage). --Michael Erskine (talk) 09:30, 4 September 2015 (UTC)
These are the same technical specification and functionally equivalent however are slightly larger on a PCB of 23 x 40 mm, the bigger ATMEGA32U4 package, and a Mini-USB socket rather than a Micro-USB socket.
-
Genuine Arduino Micro, Pro Micro Large, Pro Micro
-
Wired with 8x digital inputs on each side + GND
ProMicro Neopixel
Code for neopixel test using simplest possible setup