Hence, VQ in volts equals the inductor’s Q. This simple analysis assumes that the pffiffiffiffiffiffiffiffiffi range of CV is adequate to resonate with L (i.e., f 1⁄4 1=ð2
Hence, VQ in volts equals the inductor’s Q. This simple analysis assumes that the pffiffiffiffiffiffiffiffiffirange of CV is adequate to resonate with L (i.e., f 1⁄4 1=ð2