Proffieboard V3.9
Proffieboard V3.9
Proffieboard V3.9
Proffieboard V3.9
Proffieboard V3.9

Proffieboard V3.9

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Now offering the new Proffie V3.9, sourced from a trusted manufacturer by Tritium Sabers (Electronics123). Available in black or white card colors, and all boards include 16GB SD cards. Please read all information for these open source DIY boards.
Saberbay is not liable for user error including improper installation, soldering, or configuration settings. Please find the many Proffie forums and groups for DIY install help.

(The following information is from Tritium Sabers website):

The Proffieboard is a revolution in lightsaber electronics. Fully open source this feature packed board includes smooth swing which provides the most realistic sound effects we have seen in a sound board. The v3.9 ProffieBoard is the latest update in the Proffieboard saga and features a more powerful STM32 microprocessor combined with a motion coprocessor IMU, 3W audio amplifier, and 6 MOSFETs to control external LEDs. It features USB charging, support for deep sleep, additional flash memory (512kb), and much more. 

New in V3.9:

  • More FLASH (512kB instead of 256kB): This means more presets, but it also means we can now turn on optimization without running of of memory
  • More RAM (160kB instead of 64kB): No immediate effect, but makes mp3 and echo effects possible
  • More PINS: New CPU is BGA with 64 pins instead of 48. This means more data pins, and and other things, listed below
  • Faster SD card access. The new board uses SDIO instead of SPI to access the SD card. SDIO is significantly faster than SPI. In initial testing I got 20 parallel streams. This means less problems with SD card and more CPU for doing other things.
  • USB charging: The V3 board has onboard charging configured for 450mA charge speed.
  • An onboard status LED helps show what the board is doing and when something goes wrong.
  • Three new “free” pads. These can either be used to drive 20mA LEDs directly, or as neopixel data pads, button pads or servos. The SWDIO, SWDCLK and RESET pads have been moved to the bottom of the board to make room for these new pads.
  • DM/DP/VBUS pads for external USB
  • spot for additional large capacitor if needed (helps when driving BT modules)
  • Two CPU pins are already tied together for Data1, making blade ID work without additional components
  • Power and AUX buttons are wakeup capable, unlocking the possibility of a deep sleep mode
  • Several other pins have been tied together as well, giving each pin more functions. This unlocks additional serial/SPI/I2S/I2C ports and analog pins. There are a LOT new possibilities for interfacing with other boards.

All of this in exactly the same size as a Proffieboard V2.


  • 80Mhz ARM processor
  • 160kb RAM
  • 512kb Flash
  • 3 button pads (capacitive touch capable)
  • 4 neopixel data pads
  • 3 use-for-anything pads
  • 3 serial ports
  • 3 i2c ports
  • 2 SPI ports
  • 6 FETs
  • 6-axis motion chip
  • 3-watt amplifier (mono)
  • S/PDIF or I2S output
  • 450mA USB charging
  • SDIO sd card reader
  • onboard status LED
  • center-board pads for: USB, SWDIO and additional 3.3v capacitor


  1. Please test the boards first. Plug it in to a computer and make sure it works and that the SD card can be accessed. Go to the ProffieOS page and make sure you have Arduino and your computer configured correctly for programming the board.
  2. Use the configuration generator to work out the wiring and the configuration. Please note that the configurator can only generate a small fraction of all possible configurations, but if you don't use the configurator you will need to construct your own config file, which can be more difficult.
  3. Solder the board according to the wiring diagram in the configuration generator. Make sure to check all your soldering with a multimeter. Take the SD card out before soldering.


A note on reverse polarity protection
This version of the proffieboard has reverse polarity protection. Please note that there are two major caveats to the reverse polarity protection:

  1. It does not protect whatever is hooked up to LED1-6
  2. It does not work while charging!

Regular LEDs don't have a problem with reverse power, but neopixels can easily fry if the battery is hooked up backwards. Some pixels, like WS2813 have their own reverse polarity protection which is required if you really want your saber to survive unharmed if you plug in the battery backwards.


Wire gauges
Most pads on the proffieboard will not need to carry any significant amount of power and can use 30 awg (very thin) wire if you choose. However, Battery- will carry the combined power of all your LEDs, which is a fair amount of power. It is recommended to use thicker wires, for these wires. There is no absolute rules for what wire guages are required, but here is a helpful chart. (See the "chassis wiring" column.) Keeping the high-power wires short helps as well.

Most of the time, programming the Proffieboard is as easy as hookin up the USB cable to a computer and pressing the "upload" button in the Arduino IDE. However, an interrupted upload or a crashing program can sometimes stop that from working. If that happens, hold the boot button, then press and release the reset button. This will put the Proffieboard in bootloader mode, and pressing "upload" should now work.

Touch Buttons
Any of the buttons can replaced with a touch button. To wire a touch button, simply hook up the corresponding wire to a metal surface. Note that in spite of the name, you don't actually want anybody to actuall touch the touch buttons. The metal surface needs to be insulated, both from the rest of the hilt, and from the fingers that will be "touching" it. In my case, I used a circuit-board clamp card in a Graflex lightsaber, then I covered it up with tape to insulate it from everything else. More details here.

Choosing Resistors
Calculating resistor values is fairly easy. Just look up how many amps the LED can handle and at what voltage it expects to achive that current. Then the resitor value we want is (BatteryVoltage - LedVoltage) / LedAmps. And the resistor needs to handle (BatteryVoltage - LedVoltage) * LedAmps watts. Example, if the LED wants 1A @ 3.2 volts, the resistor would be (3.7 - 3.2)/1 = 0.5 ohms, (3.7 - 3.2) * 1 = 0.5 watts.

Note that I use 3.7 volts for the battery in these calculations, while li-ion batteries tends to top out at 4.2 volts. Proffieboard can compensate for this by using PWM to reduce the total amount of power and heat generated by the LED when the voltage is higher than what it is rated for. This mode is efficient and seems to work well, but it is possible that it will reduce the life of the LEDs. If you are not comfortable with this, you should use 4.1 or 4.2 volts in the calculations above.

Multi-battery setup
The FETs on the proffieboard can handle voltages up to 30v, so it's possible to do multi-cell setups. However, "Battery+" cannnot handle more than ~4.5 volts. So you would need a separate battery to power the CPU. Another possibility would be to do two batteries in series, but only use one of them to power the CPU. Since the batteries would be discharged unevently, they would have to be charged separately. In the future, I hope to make "Battery+" handle a wider range of voltages, which would make multi-cell configurations a lot simpler.

Using Data 2, Data 4, RX and TX for PWM
Data 2, Data 4 and RX and TX can be used to drive LEDs instead of neopixels or serial ports. However, a single timer is used to drive these pins. For PWM, the timer is usually set to 800Hz, however, when neopixels are used, this timer is set to 800kHz. This basically means that if you use any neopixels, all of these pins become unsuitable for driving LEDs. So, if you select a 6-segment blade + flash string in the configurator above, you cannot use the other data pins to drive nepixels unfortunately.

If you're having problems, check out the troubleshooting page.


Tritium Sabers manufactures Proffieboards for, KR Sabers, and many other resellers. 

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