nrf52 antenna impedance

Do you have access to a VNA (vector network analyzer)? Using the VNA, measure the antenna in-situ and tweak the matching components to suit. And except for using a high-end microwave software simulation tool (that can also accurately simulate the silicone), the VNA route is your best bet. [EDIT] See this for information on how to do this - infocenter.nordicsemi.com/.../nwp_017.pdf

Another (sloppy) alternative is ... you could use a spectrum analyzer and measure the frequency / output power (and harmonics!) as you adjust the component values. Ugly, but it could get you close. [EDIT] See this to get an idea on how to do this (example using nRF24L01) - infocenter.nordicsemi.com/.../nwp_013.pdf

Out of shear curiosity ... why can't you cal the vna? If you have 2 identical boards, choose 1 board, attach an sma connector at the input to the antenna structure, then modify the board to do an SOL(T) at the input to the antenna [obviously "disconnect" the antenna and use a small 50 resistor (0402/0201) for the load ... precision is going to count here]. Modify the 2nd board with another sma connector in the same location as the first board. Make your measurement(s). Do your calculations. Then go back and apply any additional matching network needed.

Out of shear curiosity ... why can't you cal the vna? If you have 2 identical boards, choose 1 board, attach an sma connector at the input to the antenna structure, then modify the board to do an SOL(T) at the input to the antenna [obviously "disconnect" the antenna and use a small 50 resistor (0402/0201) for the load ... precision is going to count here]. Modify the 2nd board with another sma connector in the same location as the first board. Make your measurement(s). Do your calculations. Then go back and apply any additional matching network needed.