Chronomotion Website: http://www.apertus.org/en/chronomotion
The head uses DC motors with optical encoders on both axis. It will maintain its knowledge of its current axis position until the head looses power (running out of batteries or turning it off).
The optical encoders are light sensitive so leaving the battery cover open and letting light from the outside fall onto the motor will lead to problems with the encoded position.
The encoders on both axis are extremely accurate (16777216 steps for one turn[360°]) with one step accounting for just 0.000021°. The heads internal GOTO commands (which Chronomotion triggers) are far less accurate with around 0.2° though.
A Chronomotion controlled GOTO routine could be implemented that would achieve far higher accuracy though at slower positioning speed. So far the accuracy provided by the heads internal GOTO commands was more than enough for shooting repeatable timelapse motion control sequences though.
Chronomotion shoots time lapse sequences in Shoot-Move-Shoot (SMS) mode only. Continous motion modes could be implemented if there is the requirement though.
Select a COM port (in my case COM9 is the USB Serial adapter) and press the "Connect" Button.
You should see Serial commands being sent and received in Terminal. This means everything connected properly and you can use all other buttons/commands.
Note: The head will maintain its knowledge of its current axis position until it looses power (running out of batteries or turning it off). Once the head is power cycled it will re-initialize at 0.0° for both pan and title axis.
If you need to realign the head to a specific absolute position after it lost power use the position indicator on the tilt axis and a compass for the pan axis:
For even higher accuracy I recommend to use the mounted camera and compare its frame content in live view mode to the reference images of an earlier time lapse (if it is a repeated motion sequence).