A first-order PLL is operating with zero frequency and phase error when a step in frequency of magnitude 80HZ is applied. Determine the steady-state phase error (in degrees) if the loop gain is K =...


A first-order PLL is operating with zero frequency and phase error when a step in frequency of<br>magnitude 80HZ is applied. Determine the steady-state phase error (in degrees) if the loop gain is<br>K = 2m(120).<br>Answer =<br>55.14<br>120.41<br>48.18<br>24<br>Loop does not lock<br>A superheterodyne receiver operates in the frequency range of 58 MHz - 68 MHz. The intermediate frequecy<br>fIf and local oscillator frequency fLo are chosen such that fIF < fLO. It is required that the image<br>frequencies fall outside the range 58 MHz - 68 MHz band. An acceptable fıf would be:<br>O a. 3.5 MHz<br>O b. 6 MHz<br>O C. 5 MHz<br>Od. 4 MHz<br>O e. 3 MHz<br>COS<br>

Extracted text: A first-order PLL is operating with zero frequency and phase error when a step in frequency of magnitude 80HZ is applied. Determine the steady-state phase error (in degrees) if the loop gain is K = 2m(120). Answer = 55.14 120.41 48.18 24 Loop does not lock A superheterodyne receiver operates in the frequency range of 58 MHz - 68 MHz. The intermediate frequecy fIf and local oscillator frequency fLo are chosen such that fIF < flo.="" it="" is="" required="" that="" the="" image="" frequencies="" fall="" outside="" the="" range="" 58="" mhz="" -="" 68="" mhz="" band.="" an="" acceptable="" fıf="" would="" be:="" o="" a.="" 3.5="" mhz="" o="" b.="" 6="" mhz="" o="" c.="" 5="" mhz="" od.="" 4="" mhz="" o="" e.="" 3="" mhz="">

Jun 11, 2022
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