With a superheterodyne receiver set to 2738 kHz and an IF of 475 kHz, what frequency is the grid circuit of the second detector tuned to?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Study for the FCC Element 6 – Radiotelegraph Operator Test. Familiarize yourself with theoretical and practical questions. Boost your readiness for the exam with flashcards, multiple-choice questions, and detailed explanations.

Multiple Choice

With a superheterodyne receiver set to 2738 kHz and an IF of 475 kHz, what frequency is the grid circuit of the second detector tuned to?

In a superheterodyne receiver, the second detector's grid circuit is typically tuned to the intermediate frequency (IF). This is a foundational principle of how superheterodyne receivers operate.

Given that the receiver is set to a frequency of 2738 kHz and has an IF of 475 kHz, the design of the receiver dictates that the second detector is tuned to the IF frequency of 475 kHz. This is because the second detector processes the signal down-converted to the intermediate frequency after mixing the incoming frequency with a local oscillator signal.

Thus, the grid circuit of the second detector is tuned to 475 kHz, which is the correct answer in this context, confirming the operation of the superheterodyne design principles.

With a superheterodyne receiver set to 2738 kHz and an IF of 475 kHz, what frequency is the grid circuit of the second detector tuned to?

Study for the FCC Element 6 – Radiotelegraph Operator Test. Familiarize yourself with theoretical and practical questions. Boost your readiness for the exam with flashcards, multiple-choice questions, and detailed explanations.

With a superheterodyne receiver set to 2738 kHz and an IF of 475 kHz, what frequency is the grid circuit of the second detector tuned to?

Get the latest from Examzify