E-switch UI Development / FSM

:+1:
Thanks TK.

@TK
I couldn’t compile the latest anduril r344 for BLF Q8 in Atmel Studio 7.0
Got this error: #elif with no expression anduril.c Line 72

But it was an easy fix by changing:

#elif FSM_BLF_Q8_DRIVER
to
#elif defined(FSM_BLF_Q8_DRIVER)

Thanks TK for all your awesome work!

Oops, that’s definitely a typo. Fixed.

I wonder how it even compiled like that. I’ve been using a script lately to build every supported version every time instead of doing just one, and the Q8 version built and worked normally under gcc 4.9.2. But it looks like it really shouldn’t have worked…

Since it’s a thing people might want, and since I think Lexel may have been requesting it, I took a moment to make a Werner-style momentary UI, side e-switch plus tail clicky-switch.

https://code.launchpad.net/~toykeeper/flashlight-firmware/fsm

The short version is:

While completely off (power disconnected):

  • Click tail to turn on at memorized level.
  • Hold e-switch and click tail to enter utility mode.

While on (regular “on” mode):

  • Click tail switch to turn off.
  • Click side switch to go brighter.
  • Hold side switch to go dimmer.

In utility mode:

  • Click side switch to go to regular “on” mode.
  • Hold side switch to go turn on at lowest level.
  • Double click side switch to turn on at highest level.
  • 3 clicks: Battcheck.
  • 4 clicks: Ramp config.

Battcheck mode: Blinks out battery voltage.

  • Click to go back to utility mode.
  • 2 clicks for tempcheck mode.

Tempcheck mode: Blinks out current temperature in C.

  • Click to go back to utility mode.
  • 2 clicks for battcheck mode.
  • 4 clicks for thermal config mode.

Thermal config:

  • During first “buzz”, click N times to set floor level to N out of 150 total levels.
  • During second “buzz”, click N times to set ceiling level to 151 minus N.
  • During third “buzz”, click N times to set number of total brightness steps.
  • Each “buzz” can be skipped to leave the value as-is.

Ramp config:

  • During first “buzz”, click N times to calibrate current temperature to N degrees C.
  • During second “buzz”, click N times to set thermal ceiling to 30 C + N.
  • Each “buzz” can be skipped to leave the value as-is.

Includes LVP and smooth thermal regulation, copied directly from Anduril.

nice

Is it possible to change the brightness of the low level of the indicator LED in the code. I have found nothing. Thank you

Nope, that is set entirely in hardware. It depends on the indicator LED Vf, the battery voltage, and the resistor(s) between them. Note that, in low mode, the attiny’s internal resistor is active, which is why low mode exists at all.

The code can’t change this, because the MCU is asleep and not executing any code. The PWM facility isn’t active.

Thanks for the detailed answer. :+1:

Hey y'all i'm late to the party and i'm trying to figure this out. I want to run anduril on a TA board that i'm pretty sure is a tripledown layout. Do I just add in a line "#define TRIPLEDOWN_LAYOUT " ?

And what about the FET+1+20 part? Its just a FET+1+6. Any help will be much appreciated

I’d suggest copying the FW3A config, or even just using it directly, depending on the details of that driver. It’s a FET+7+1, so it should be pretty close.

I recently (in the fsm branch) reorganized how hardware definitions work… there’s a physical layout file, like hwdef-FW3A.h, showing which pins do what and a couple other things. There’s also a UI config file, like cfg-fw3a.h, which configures options specific to Anduril or FSM.

Then there’s a magic #define to tell it which hardware config files to use.

There is a Tripledown definition, but I think it’s designed for a clicky-switch type with OTC and a voltage divider. So I suspect the FW3A definition might be closer, if you’re using it with e-switch instead of OTC, and if you take the voltage divider off. (it’s not recommended to have or use a voltage divider for e-switch lights, since it increases parasitic drain)

If you’re doing multiple cells in series though, it’ll need the voltage divider, and some bits copied/tweaked from the BLF GT configuration. And the 7135 chips are likely to burn out.

Anyway, you can probably just remove a voltage divider resistor and flash the FW3A build directly. If my guesses are right, it should “just work”.

Thanks TK. It's going into a sofirn C8F triple e switch only 1S light.

So, I'll just leave the voltage divider out and use the FW3A config.

What in the world is the optic nerve? Programming? More importantly for me at the moment is can I power the side switch LEDs with the FW3A config?

This is completely awesome.

It means my clicky and e-switch lights that I use daily can have the same user interface.

Just need to change the AtTinys on the Bistro lights to 85’s.

Oh, the FW3A doesn’t have a pin for an aux LED. The four main pins are used for 1x7135, Nx7135, FET, and e-switch. But you could probably attach the aux LED to pin 7 (PB2), and define something to make it use that. It should work, but will involve compiling your own version.

I’m also not entirely sure it’ll fit into ROM all at once. The third PWM channel uses extra space, and the aux LED uses extra space, and there may not be quite enough room for both unless you turn off something else.

Not really. E-switch and clicky switch aren’t capable of doing the same things. For example, it’s impossible to do “hold to change brightness” on a clicky switch, because holding (reverse clicky) physically disconnects power.

Anduril does not work on lights which have only a clicky switch. It requires an e-switch.

Comparing it to a computer, an e-switch works like a mouse button. It can be up or down, and the computer keeps processing in both states. But a clicky switch is more like pulling the power cord out of the wall. The computer won’t do anything at all until it’s plugged in again.

I don’t have any lights with ramping, never thought of the hold to change brightness thing. I was hoping FSM could do modes just like Bistro.

Out of all the flashlights and bike lights I have only three have the same user interface. I really want to do something about that.

It can do modes, like Bistro. There are several interfaces available, though the most popular one is Anduril. And instead of doing smooth ramping, it can do a mode group. Like Bistro, the user sets the number of modes. Unlike Bistro, the user can also set the brightness of the lowest and highest mode, and it’ll automatically space the in-between levels evenly. The actions from there are a little different than Bistro too — hold for a brighter mode, release and hold to go to a dimmer mode.

Or if you want e-switch lights to work almost exactly like Bistro, Flintrock added e-switch support to Bistro-HD. It pretends the e-switch is a clicky switch, even making sure to turn the light off momentarily while the button is pressed. It uses short and medium presses to go up and down. However, since an e-switch can’t actually cut power, turning the light off requires an extra-long press.

Bistro works fine on the clicky lights.

What I would like to do is unify my bike lights somehow. Getting to low mode fast when rounding a bend at speed on a bumpy trail and meeting another trail user needs to be easier. Too often I wind up in programming or strobe mode.

Now that Narsil and Anduril are available for buck drivers it has me thinking about replacing the Pic’s with AtTinys on a board glued to the LED shelf. How the light reacts to overheating is a big concern. The lights with a remote battery pack are quite small for the power they produce. The light needs to be able to protect itself when going slow or stopped but can’t step down abruptly when going fast in tricky sections.

The way you have Anduril responding to heat looks really good. It can’t match the Pic based lights with an actual temperature sensor but having the MCU to the shelf should be good enough. Ideally I’d like to remove some functions so they can’t be accidentally accessed or heavily debounce the e-switch. One button press can turn into many depending what the front tire runs into on the trail. I’m OK with basic Arduino stuff, a quick look at Anduril code tells me I am in for a steep learning curve.

Hello, maybe this question is already asked, but i dont want to get through 300 posts here :frowning:

i have BLF A6 driver, now i want to flash new FW which supports e-switch, which FW should i flash, thank you
I can reflow the attiny 13 to attiny 85 if needed

The BLF A6 driver has an issue with large voltage spikes on each FET pulse. The attiny13 handles this like a champ, but other attiny models reboot when the voltage goes out of spec. So they don’t work well above 4 or 5 Amps.

So you could stick with attiny13-based firmware, which will only have very simple interfaces, or you could mod the driver even further to fix the voltage spikes, or you could get/make drivers which don’t have that problem.