Hi Tomas
You can see video is attached file. The reading is senor board's voltage input. It is not mcu side.
HV+(PTB 0), PTB1_HV(PTB 1),PTB2_HV(PTB 2),PTB3_HV(PTB 3),Vsense0_HV(Vsense0),Vsense1_HV(Vsense1),Vsense2_HV(Vsense2).
You will see the voltage fluctuation is from 220~209v when apply 196V to sensor board's voltage input The tolerance is 5%. our acurracy target is +/1%
How can we reduce the voltage fluction? If you need more deatail schematic and layout , you can give me mail address. My mail address is mike.yh.liang@foxconn.com
Br,
Mike
Hi Mike,
I do not fully understand your use case and the issue you are facing. Could you please provide us with more details and share your schematic?
The maximum rating of VSENSE pins is:
... and the functional operating range:
Best regards,
Tomas
Hi Tomas
You can see video is attached file. The reading is senor board's voltage input. It is not mcu side.
HV+(PTB 0), PTB1_HV(PTB 1),PTB2_HV(PTB 2),PTB3_HV(PTB 3),Vsense0_HV(Vsense0),Vsense1_HV(Vsense1),Vsense2_HV(Vsense2).
You will see the voltage fluctuation is from 220~209v when apply 196V to sensor board's voltage input The tolerance is 5%. our acurracy target is +/1%
How can we reduce the voltage fluction? If you need more deatail schematic and layout , you can give me mail address. My mail address is mike.yh.liang@foxconn.com
Br,
Mike
