cwc

module

v0.0.0-...-f26e4ea Latest Latest Go to latest Published: Jul 15, 2019 License: GPL-3.0

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Repository

github.com/G0WCZ/cwc

Links

Open Source Insights

README ¶

CWC - The CW Commuter

Status

10 June 2019: Ongoing development of hardware and software in progress. There is now alpha support for a softeare implementation of an iambic keyer using two GPIO pins.

Coming up next:

web-based (and therefore phone-based) configuration for the cwc-station on raspberry pi
easy software updating
morse encode and decode
easy robot support

The Idea

The idea: A little box that you can plug a key and headphones into. It Wifi connects to your phone hotspot. It has a channel selector. Dial up a channel and tx/rx CW on that channel. That's it.

This is an internet transceiver for CW that you can take with you. It aims to be more like a radio than a computer.

What is in the box

A Raspberry Pi with WiFi. A few components for audio out and key in. There may be a channel knob one day and a signal LED.

Get Started

It is a bit basic for now, but is simple enough and it works:

Raspberry Pi: Get a PI zero W or a PI 3. Get it on wifi.
Get latest CWC station binary here: https://github.com/G0WCZ/cwc/releases
See the wiki for hardware setup: https://github.com/G0WCZ/cwc/wiki/Pi-Zero---Pi-hardware-setup log into your Raspberry PI.
Run a command where you put that binary:

./cwc-station -de <your-call> -sidetone <freq>

# example commands:
# get started with you call as Q1AAA and a 500hz sidetone
./cwc-station -de Q1AAA -sidetone 500

# add verbose log outout
./cwc-station -de Q1AAA -sidetone 500 -logtostderr -v 2

# change PI pins:
./cwc-station -de Q1AAA -sidetone <freq>

# get help on commands
./cwc-station -h

This is the simple way to get started with Raspberry PI using GPIO pins. You can also use a USB serial port on desktops etc. See the wiki for more details.

Communications

There's a protocol based on UDP packets that sends on and off events. So if you use the key, you are sending on and off events in UDP packets.

At the receiving end there's something that turns packetised on-offs back into contact closures or a tone in your ears.

UDP is lossy, so it is more radio-like in that sense. You might lose some packets, some QSB shrug.

Broadcast or Reflector

There are two basic modes. Your CWC station can broadcast on the local network, or talk to a reflector.

In broadcast mode, UDP multicast is used on the local network. This is a simplified mode for co-located CW training or similar.

In reflector mode, the station connects to a central reflector that reflects traffic to other connected stations.

See bitoip.md for the on-the-wire protocol details.

Terms of Use

See TERMS_OF_USE.md for details about how you callsign, activity and transmissions are used by the cwc components.

Implementations

early release, still in development: Raspberry Pi GPIO / or Mac & Linux * maybe windows with serial port

Pi Zero default setup

See the wiki for details of the basic hardware and configuration.

Who did this

Concept by Grae G0WCZ, Andy M0VVA and The Online Radio Club MX0ONL

Go implementation (for RPi and others) by Grae G0WCZ and Andy M0VVA

Directories ¶

Path	Synopsis
go
bitoip
cwc
cwc-reflector
cwc-station

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