I like the idea of a small pocket carry radio/computer sound interface. I am an ARES member and we use WinLink as one of our primary communications tools. I think it would be great to run WinLink off of a handheld.
thank you for your work! I'm very interested if this would work with a Kenwood TM-V71A Edit: I think i understand this now. I look forward to using this for APRS. I'll keep a heads up for you getting them back in stock
I use the AIOC with a soldered up pigtail to convert the K type connector to the 6P6C and 3.5 mono needed by my mobile radio (no mini DIN data port). Definitely if Simon at least separated some pads or throughs for separate functionality in his next aioc that would be very handy and would obviate the need for a second project. Moving the audio further away from the radio i imagine is something they wanted to do with the aioc but didnt want to make it huge - i find it unacceptably noisy and have to use it with an extension even on K type radios to get it away from the rfi source.
"for the baofeng the aioc will work" yeah but, isnt a problem that the aioc just goes with 5v? could you damage the radio because of using it, just for not having it reduced to 3.3v?
The board looks great! I would love to design a case for it. I have an AIOC board I use with my UVk5 for APRS and FT8. I’m looking to have a mobile board for APRS for my base rig and FT8 for my mobile HF right. Great job.
hey there! what's that stubby antenna you have on the other Quansheng? am new to radios and looking for a shorter antenna that works well receiving and transmitting at medium to short ranges thanks!
I was interested in hearing what you had to say but the ‘elevator’ music forced me out around the 3 minute mark. Too bad, I bet you had something interesting to offer about the radio I own but the music was a killer..
Thank you for you contribution! However I wonder if the gerbers and other files are available, or how your perspective on open source is in this case I am in Sweden and paying 7 times more, excluding the expensive shipping and duties than an AIOC makes close to zero sense to me especially for a device made to buy multiple of. Thanks in advance de SA0CVK
it would be nice to have bigger mounting holes so I can mount this on a spacer, and then the spacer to a plastic board, that I can then attach to the clip mounting points.
Important Update! The AIOC's original data output is already adjusted to 3.3v, not 5V as I previously thought (and state in this video). THE AIOC IS 100% SAFE TO USE WITH YOUR RADIO. The confusion for this came from misunderstanding a blurb in a Github issue. The actual release of the AIOB will have the voltage divider removed, through holes added to every pad, and some other changes still in the works! This does mean that the test runs run at too low a voltage to program / control most radios. Unfortunately the serial data interface I tested the AIOB with is very sensitive and still picked up the voltage, so I missed the original issue. Luckily there is a super easy fix for those with the test units, which Ill be releasing a video on shortly!
I am not clear on what this board does. You need to spend a minute at the front of the video telling us who are ignorant of what kind of things this interface can help us with. I have designed hundreds of boards, but could not figure out how this thing would help me. 73 Glen K4KV
Hi Glen! A few other people had this issue as well. I recommend taking a look at my AIOC video introducing the concept. Basically, it acts as a soundcard interface as well as a serial and ptt interface. This lets you make a simple connector to interface with a standard HF, VHF, or UHF radio to work any digital mode you want, as well as allowing you to control your radio (if it supports it) and program it (again, if it supports it, which most do). Take for example APRS / AX.25. This digital mode usually requires a "TNC" a piece of hardware that encodes packets and sends them to the radio. Those are usually $100+. This little board lets you run a software TNC like direwolf (which actually performs better than a hardware TNC) and have the same functionality at a fraction of a cost.
Cant wait to hear what you think! All of them are "shipped" as of today, but they're just flashed, packaged, and have a shipping label on them. I expect to get them to USPS in a few days (they're closed today and I have to get off work early to get to USPS before they close)
What does an AIOC actually do and why do you need It? You're making the assumption that everyone knows the reason why an AIOC is needed and what it's function.
Thanks for the feedback, I tried to explain it a bit in the video but may have glossed over it too much. It acts as an interface between your radio and your pc or smartphone, allowing digital modes like aprs, ft8, js8call, psk, rtty, and much more! It could also be used to schedule transmissions or something like that.
@@w1btr Audio? Cat control? Both? On the audio side, what are the specs for THD+N, frequency response, and phase shift across the spectrum? How is PTT controlled from the usb port? Is serial emulated? Are you using a C-Media chip? Are you using VOX? What’s the real-world bitrate you are achieving using VARA? I’m working on a project…
Sorry, I tried to explain it well but might have glossed over it a bit. It works as an interface between your radio and your computer allowing you to send and receive audio from the radio through the computer. This is mostly used for digital modes, like APRS and Js8call, which are super fun to look into!
I havent messed with allstarlink. Is this like a COR signal, where when receiving audio a 5v output drops to 0v, or something like that? If so, do you mean input from the radio? I know the AIOC already sends a virtual "COR / COS" signal when it is receiving audio from the radio, however this is virtual over the CM108 line, not a physical pin. What would a physical pin accomplish?
Great improvements Lucas, congratulations, on my wish list: Bluetooth, both sound and cat (cat over HID?), Stereo Sound to transfer I/Q signals from radio to computer (for SDRs and radios like KX3, TX500, many SDRs), 1:1 audio isolation transformers on sound channels to break ground loops, eliminate noise and/or transform impedance, isolation on PTT (reed switch or opti coupler), I realize the time and cost of doing all of these, just throwing out all the ideas in my head for you to choose from for what would fit in your product mix - perhaps different models. 73 de ws1m, bammi (new call sign)
Awesome. But I just soldered my plugs to some wires and soldered those wires on the board. Then I removed those and soldered female jacks to some wires and then those wires onto the board. And then bought 2 cables with the right jacks and bobs your auntie. And like someone else said. Through holes with strain relief or better yet. A 8 pin standard jst header. That way Amazon has a 10 pack for 10 bucks.
Thanks for giving me a heads up! Looks like a Paypal Outage, not sure what's going on there. Ive temporarily enabled direct card processing (still through Paypal). Can you confirm if that works?
@KA4UPW This would definitely be useful. I havent figured out a way to get that to work yet without working with Simon a lot to get the firmware to allow such a change, perhaps with another pin dedicated to this function to tell the STM chip what to do.
Standard connector would be hard to do since it's not surfsce mount, would likely make it sognificantly more expensive. If there's enough interest, maybe!
@LB0FI Thank you! Im keeping the code private at first to drive sellers to the shop. However, I will be open sourcing it after a bit of time, and I'll be keeping the price competitive.
This is Simon, nice design! Thanks for attributing me on the silkscreen 😁 Regarding the 5V UART levels: the RX signal at the STM32 is on a 5V tolerant pin at the STM32 so in theory there is no additional circuitry necessary to protect the STM32 from over voltage. But it can't hurt either 😉
@kl1nk0r Thanks, Simon! That is correct, I left the chip's serial Rx Untouched (labeled RTX as it's what the radio transmits), and the voltage divider is applied only to the STM32's output into the radio, which runs at 5V by default. Many radios seem to be fine with 5V, especially for a quick program, but for something like CAT control, it can fry it and is very difficult to repair.
So the issue of the USB-C port pointing upwards and RF from the antenna causing data issues, could the device be programmed to change the io pins so the plugs can be wired in reverse so the usb-c port points down? Would that be easy to implement???
Not very, it would require a redesign of the board. The original designer said it would be too difficult to implement. However, I am looking at the AIOB, an all-in-one board that lets you easily make your own custom cable and has some small changes. This would allow the AIOC to not be plugged in right next to the radio, but down the line further.
Has anyone had a solution to the RF issue causing the AIOC to lock up? I've read that this is only an issue on stock antenna and that an external antenna connected via coax is good. Also the developer states audio extension cables with ferrite filters may work.
Ive experienced this when using a standard usb c cable. Using one that ends in a right angle fixed it for me. It usually happens when the usb connection between the pc and the aioc fails (typically from rfi hitting the usb controller)