FCC Commercial Element 8 pool, section 8

Subelement A

RADAR Principles

Section 8

Components-2

88A1

The basic frequency determining element in a Gunn oscillator is:

A.
The power supply voltage.
B.
The type of semiconductor used.
Correct Answer
C.
The resonant cavity.
D.
The loading of the oscillator by the mixer.

88A1

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88A2

Which of the following is not a method of analog-to-digital conversion?

A.
Delta-sigma conversion.
Correct Answer
B.
Dynamic-range conversion.
C.
Switched-capacitor conversion.
D.
Dual-slope integration.

88A2

In a signal, dynamic range is the ratio of the power of the strongest signal to the power of the weakest signal.

Dynamic-range conversion refers to decreasing (compression) or increasing (expansion) the dynamic range of a signal.

Dynamic range and dynamic range conversion are therefore unrelated to ADC - Analog to Digital Conversion and the right Answer is B.

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88A3

When comparing TTL and CMOS logic families, which of the following is true:

A.
CMOS logic requires a supply voltage of 5 volts ±20%, whereas TTL logic requires 5 volts ±5%.
B.
Unused inputs should be tied high or low as necessary especially in the CMOS family.
Correct Answer
C.
At higher operating frequencies, CMOS circuits consume almost as much power as TTL circuits.
D.
When a CMOS input is held low, it sources current into whatever it drives.

88A3

They are the same at Higher Frequencies, so don’t compare Families, it’s not nice.

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88A4

The primary operating frequency of a reflex klystron is controlled by the:

Correct Answer
A.
Dimensions of the resonant cavity.
B.
Level of voltage on the control grid.
C.
Voltage applied to the cavity grids.
D.
Voltage applied to the repeller plate.

88A4

The primary operating frequency of a reflex klystron is controlled by the dimensions of its resonant cavity because the cavity's geometry directly determines its resonant frequency, meaning that by changing the cavity size (through mechanical adjustments), the operating frequency of the klystron can be altered; essentially, the cavity acts like a tuned circuit where its physical dimensions dictate the frequency at which it will oscillate most efficiently. Key points about this relationship:

Resonant cavity principle:
A resonant cavity is a closed space that can store electromagnetic energy at specific frequencies, and its resonant frequency is entirely dependent on its shape and size.

Electron beam interaction: In a reflex klystron, the electron beam interacts with the electric field within the resonant cavity, causing it to oscillate at the cavity's resonant frequency. Mechanical tuning: By physically adjusting the cavity dimensions (like changing its length or width), the resonant frequency can be altered, allowing for a small range of frequency tuning in the klystron.

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88A5

A Gunn diode oscillator takes advantage of what effect?

A.
Negative resistance.
B.
Avalanche transit time.
C.
Bulk-effect.
Correct Answer
D.
Negative resistance and bulk-effect.

88A5

A Gunn diode oscillator utilizes the "bulk effect" of negative differential resistance within a semiconductor material like gallium arsenide, where, under a high electric field, the electron mobility decreases, leading to a region of negative resistance which, when placed in a resonant circuit, can spontaneously generate microwave oscillations due to the cancellation of the load's positive resistance with the diode's negative resistance; essentially, the bulk of the semiconductor material itself acts as the oscillating element, not a junction like in other diodes.

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88A6

Fine adjustments of a reflex klystron are accomplished by:

A.
Adjusting the flexible wall of the cavity.
Correct Answer
B.
Varying the repeller voltage.
C.
Adjusting the AFC control system.
D.
Varying the cavity grid potential.

88A6

Fine adjustments of a reflex klystron are accomplished by:

Varying the repeller voltage.

A reflex klystron is a type of microwave tube used to generate microwave signals at a specific frequency. Fine adjustments of a reflex klystron are accomplished by varying the repeller voltage.

The repeller voltage is used to control the velocity of the electrons passing through the cavity of the reflex klystron. By adjusting the repeller voltage, the electron beam's velocity can be finely tuned, which affects the phase relationship between the electrons and the RF signal in the cavity. This, in turn, allows for precise frequency control and fine adjustments of the generated microwave signal.

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