Hiya,
Regarding voltage amplitude peak to peak for external high-swing clock HFXO 32MHz, what's supply rails?I don't find out this specification defined in datasheet PS_V1.2.
Thanks Kenji
Hiya,
Regarding voltage amplitude peak to peak for external high-swing clock HFXO 32MHz, what's supply rails?I don't find out this specification defined in datasheet PS_V1.2.
Thanks Kenji
Hello JGP_Kenji
Unfortunately the high frequency clock (HFCLK) of the nRF52 series does not support use of an external clock source. The only valid sources for HFCLK are the internal oscillator, or the 64MHz crystal oscillator. Do note that the crystal oscillator must be running for the RADIO and NFC modules to work.
EDIT:
The following comment was supplied by our designers
Based on simulations the peak-to-peak oscillation amplitude on XC1 and XC2 can range from appx. 0.3V to appx. 1.1V, depending on crystal selection, load capacitors, process variation, operating temperature and supply voltage. The amplitude is usually slightly bigger on XC2 than on XC1. The DC offset is typically around 0.5V. When doing voltage measurements on XC1 and/or XC2 it's important to use a low-capacitance active probe. A regular passive probe will add too much load capacitance. The probe should also have an input resistance of at least 10Mohm.
In order to verify that the load capacitors are optimal, it's best to measure TX carrier frequency.
Best regards
Jørn Frøysa
Hello Jorn,
Sorry for I didn't clear up my requirement in detail, it causes misunderstanding.
In terms of external clock source to nRF52832, I designed in Xtal 32.768kHz on LFXO and Xtal 32MHz on HFXO,right now I'd like to know the DC specification what min.and max. input voltage level of HFXO are.
Thanks Kenji
Hello Jorn,
Sorry for I didn't clear up my requirement in detail, it causes misunderstanding.
In terms of external clock source to nRF52832, I designed in Xtal 32.768kHz on LFXO and Xtal 32MHz on HFXO,right now I'd like to know the DC specification what min.and max. input voltage level of HFXO are.
Thanks Kenji