#1173

Wow. Just wanted to comment about how great it is using the TXo as both an oscillator and an envelope on the same cv output. i must have forgotten after reading through this thread but I’m glad I tried it out tonight.

5 Likes
#1174

The Teensy upgrades and the TXn are lovely. Thanks for your efforts Brendon.

2 Likes
#1175

Found my jack protection solution! :smile:

22 Likes
#1176

Just installed my TXn (thanks @bpcmusic) and wondered what the included jumpers are for? (Everything appears to be working as expected)

1 Like
#1177

A small TXi question:

I’m trying to do simple quantized notes, so:

I:
TI.IN.MAP 1 0 23
TI.IN.SCALE 1 5

1:
CV 1 TI.IN.N 1

OR

CV 1 TI.IN.QT 1

both only return zero.

CV 1 N TI.IN 1 works, but as far as I understand, that bypasses the quantization completely?

What am I missing here?

EDIT: I obviously have an LFO plugged into the IN 1 of the telexi.

EDIT 2: Have also tried CV 1 N TI.IN.N 1 and CV 1 N TI.IN.QT 1…

#1178

According to the included paper manual, I believe it pads each channel by 6db

Here is a relevant post:

2 Likes
#1179

Anyone using TXn with MN Rosie?
I can’t seem to get any stereo separation using either the headphone out or the TRS out of Rosie.

I’m yet to try the TXn directly into a mixer.

#1180

Ah, I managed to miss the manual, wrapped up with the invoice in the outer box! Thanks.

#1181

don’t own a Rosie- but are the A and B inputs actually stereo, or are they summed to mono, and just the FX return is actually stereo?

2 Likes
#1182

Don’t have one either, but according to the Make Noise page, Rosie features:

Two Mono Inputs (Channel A and B) w/ LED indication of signal strength

Looks like you might be able to pass through some stereo signal using the Aux returns as additional inputs:

http://www.makenoisemusic.com/modules/rosie

Good luck! :slight_smile:

#1183

I set up an LFO on my TXo’s 4th output that oscillated between 0V and 10V like this:

TO.CV 4 V 5
TO.OSC.LFO 4 50
TO.OSC.CTR 4 V 5

This causes an LFO with a 5V +/- swing to center around 5V. It was patched to the first input of my TXi. For TXo output 1, I wanted to just deliver the quantized CV value on each metronome pulse. For TXo output 2, I set it to 6V on the init script (TO.CV 2 V 6) and then set it to oscillate at the given pitch on each metronome pulse as well. Here is that metronome script:

TO.CV 1 TI.IN.QT 1
TO.OSC.SET 2 TI.IN.QT 1

That’s it. I patched the first TXo output into the 1V/oct input on my O-Coast. I mixed the square wave output of this in with the TXo output 2 (which is oscillating). With the tuning dial on the O-Coast, I was able to offset the two oscillators (which is why their chromatic sweeps happen at different times).

Hope this helps.

A bit more on Quantization on the TXi

TI.IN.QT x returns the voltage as a number (-16384 to 16383). The input voltage is quantized to the nearest note value in your selected scale (TI.IN.SCALE x - defaults to Equal Temperment). TI.IN x will show you the voltage that is read at the input. These two will differ unless the input value is exactly the same voltage as a particular note.

TI.IN.N x returns the quantized note number for the particular voltage that is read on the input (again, based on that input’s scale). This number is not a voltage - it is a note number. You can convert it to a voltage by either a) using the Teletype’s N operator (e.g. CV 1 N TI.IN.N 1 - where the scale automatically becomes ET) or by passing it to the TXo’s N operators (e.g. TO.CV.N 1 TI.IN.N 1 in whatever scale you have set on the TXo).

What is tripping you up, I think, is your MAP command. You are mapping all voltages to the range 0-23 - out of the full potential range of -16384 to 16383. I’m assuming all of those voltages are quantizing to zero. Depending on your input, you would want to map its voltage ranges appropriately. Remember, map is bipolar (as the inputs are -16384 to +16383). For example, TI.IN.MAP 0 16383 will take a bipolar +/-10V and map it to 0V-10V, centered around 5V.

4 Likes
#1184

Forgive my ignorance, but are there any more plans for busboards/backpacks anywhere, or does anyone have any partially built? I’m fine with some assembly, but I can’t do SMD soldering.

1 Like
#1185

I’m currently doing another run of the TXb. Should be done in a month or two. Just waiting on the panels. If you are antsy and want to make one yourself, it is open source and available up on my GitHub page for the TXb.

You can also grab/make a lovely TT-Busboard-Jr. Don’t be put off by the number of pins - i2c can be daisy-chaned. They are functionally identical from a “pull-up” perspective. :slight_smile:

Finally, you can make one of the original busboards that mount on the Teletype:

There are only 3 SMD parts. If you are comfortable with through-hole soldering, this would be only a small step-up in skill. Watch this video for 40 seconds and you will learn everything you need to know:

3 Likes
#1186

Thank you, fantastic writeup <3 Will have to dig in and see what I can learn. Much appreciated.

1 Like
#1187

I just got my ER-301 today, and started my first foray into i2c with Teletype / TXb / ER-301.

If I connect Teletype directly to the ER-301, SC ops work fine.

If I also connect Teletype to the TXb, SC commands cause Teletype to freeze. I don’t have power connected to the TXb, nor anything else (my intent is to use it for the 16n Faderbank).

I assumed the silver stripe on the TXb indicates the row of ground pins (making the middle SCL and the opposite side SDA). Is that incorrect? It’s not in the info that shipped with the module.

I also assumed I didn’t need to connect power to the TXb since my Teletype is recent-ish…

#1188

To me, this sounds like you have plugged in I2C wrong, that’s exactly what happened to me when I had.

#1189

OK, more testing now that I have a continuity checker:

  • I can’t detect any shorts or anything on the TXb.

  • on the TXb, ground is the row of pins marked on the PCB with a stripe.

  • I was definitely connecting Teletype to ER-301 correctly.

  • If I connect Teletype only to TXb, or to both TXb and ER-301, it still freezes when I issue an SC.CV op.

  • It freezes whether I connect the pins in the same order (GND, SCL, SDA) as I had been doing, or if I reverse SDA and SCL.

  • It does not freeze if not connected to anything, or if I connect only the GND pin. It does freeze if I connect GND and SCL or GND and SDA.

  • I tried another set of 3 jumpers, same result.

1 Like
#1190

Very weird. (Yes - the silver stripe is ground. Don’t know how I missed that in the documentation. Seems important. Sigh.)

How long are the cables you are using to connect between the devices? Do all of your cables check-out continuity wise?

#1191

They’re 20cm, and yeah, the continuity checks out.

#1192

Problem solved – I have an older Teletype without the pullup resistors, so powering TXb fixes it :+1:

For some reason I had been assuming it was one of the new ones, but then I found the thread where it’s mentioned the new ones have black PCBs, not green. :blush: