Well,
You may recal my dissapointment back here with the Practical Electronics GPS-synced Frequency Reference.
It turned out to be a load of Dingo's Kidneys.
You may also recal the most excellent work of Brian, GM8BJF back here using the ADF4351.
Well, I have been playing with the Micromite that was used in the Practical Electronics project, and have created a touch screen signal generator using the ADF4351.
It's very much stolen from a project here.
I've modified the code a bit to have an additional digital output to show the PLL locked state, and also changed the code to use a 10MHz clock rather than the default 25MHz clock.
It's quite neat!
![]()
Albeit upside down:
![]()
I'm 3D printing a case for the front, then we can decide what to do with it:
![]()
The output is as I expected:
![]()
I've uploaded my bodged version of the code here.
Good, isn't it?
You may recal my dissapointment back here with the Practical Electronics GPS-synced Frequency Reference.
It turned out to be a load of Dingo's Kidneys.
You may also recal the most excellent work of Brian, GM8BJF back here using the ADF4351.
Well, I have been playing with the Micromite that was used in the Practical Electronics project, and have created a touch screen signal generator using the ADF4351.
It's very much stolen from a project here.
I've modified the code a bit to have an additional digital output to show the PLL locked state, and also changed the code to use a 10MHz clock rather than the default 25MHz clock.
It's quite neat!
Albeit upside down:
I'm 3D printing a case for the front, then we can decide what to do with it:
The output is as I expected:
I've uploaded my bodged version of the code here.
Good, isn't it?