Revision as of 00:35, 6 June 2016

Chapter 5: Radio Signals and Equipment

a radio signal at one frequency, at constant power, is CW - continuous wave
adding information to a signal (via changes in frequency, phase angle, or amplitude) is modulation
the method of modulation is asignal's mode
an unmodulated signal carries no information
to recover information from a signal is demodulation
voice mode/phone mode - voice/speech is information
data mode/digital mode - data is information
analog - information can be understood by human
digital - information can be understood by computer

AM

amplitude modulation
information contained int he signal's envelope, or maximum instantaneous power for each cycle
AM signals have a carrier and 2 sidebands
AM signals with the carrier removed are double sideband DSB
AM signals with one sideband and the carrier removed are single sideband SSB

angle modulation

varying freq to add info is frequency modulation FM
amt that signal frequency varies is called deviation
phase angle can be varied with respect to reference phase, this is phase modulation
FM/PM can be decoded with same circuits
FM: changes amount of time signal takes to make a 360 degree cycle

PM - changes relative phase difference between signal and reference phase

bandwidth

definition of bandwidth - width outside of which the average power of the signal is attenuated by 26 dB below the mean power
typical bandwidth values:
- TV - 6 MHz
- AM - 6 kHz
- FM - 5-16 kHz
- SSB - 2-3 kHz
- Digital - 50-300 Hz
- CW - 100-300 Hz

The process that changes the phase angle of an RF wave to convey information is phase modulation
the process that changes instantaneous frequency of RF wave to convey information is frequency modulation
Instantaneous power level of RF signal used to convey information in amplitude modulation AM
The phone emission with the narrowest bandwidth is SSB single sideband

Oscillators, mixers, multipliers, modulators

Oscillators:

produce a pure sine wave, as close to 1 frequency as possible
oscillator has two parts:
- amplifier to increase gain
- feedback circuit to route some output back into input
if product of amplifier gain and amt of feedback are > 1, circuit's output will be self-sustaining - this is called oscillation
oscillator output frequency can be fixed or varied

fixed frequency oscillators FFOs: 3 types

variable frequency oscillators VFOs: 3 types

LC circuit with variable capacitor
PLL phase locked loop
DDS direct digital synthesizer (software-controlled, has stability of crystal oscillator)

Mixers:

Multipliers:

this unit creates a harmonic of the input frequency (multiplies by an integer)
low-frequency oscillators are easier/smaller to build, so run low-frequency oscillator signal through a multiplier to make a VHF/UHF signal

Modulators:

Amplitude Modulators:

first created by varying the power supply voltage of a CW signal
as voltage changes, amplituded of output signal's envelope follows along
also called plate modulation, or drain modulation, or collector modulation
- plate modulation: voltage being varied connects to a vacuum tube
- drain modulation - voltage being varied connect to transistor's drain
- collector modulation - voltage being varied connects to a transistor's collector
modulation transformer then adds/subtracts amplified voice signal to power supply voltage
AM circuits cannot generate SSB signals
AM, double sideband can be generated by balanced modulator
balanced modulator:
- input 1: carrier signal f1
- input 2: modulating signal f2
- output signal: double sideband f1 +/- f2
- the pairs of sidebands, above and below, are due to heterodyning, f1 +/- f2
DSB - double sideband requires a balanced modulator, so the carrier frequency will cancel out
AM - requires an unbalanced modulator, so the carrier frequency will survive heterodyning

Frequency and Phase Modulators:

FM - frequency of modulated signal changes with modulating signal's amplitude
PM - frequency of modulated signal (deviation of signal) is proportional to modulating signal's amplitude and frequency
FM/PM sound the same, demodulated with same circuit
angle modulation performed with a reactance modulator
two types of reactance modulators:
- FM reactance modulators
- PM reactance modulators
FM reactance modulator: amp feeds into reactance modulator, output is frequency modulated output
PM reactance modulator: amp and fixed-frequency oscillator feed into reactance modulator, output is phase modulated output

if a 3 kHz LSB signal has a carrier frequency of 7.178 MHz, it occupies 7.175-7.178 MHz
if using 3 kHz USB signal on 20 m, how close to edge of band should carrier signal be? 3 kHz below edge of band
basic components of a sine wave oscillator are an amplifier and a feedback circuit with a filter
frequency of LC oscillator can vary depending on component ratings - individual inductances and capacitances
a transceiver controlled by a direct digital synthesizer is that you have stability of a crystal, with variable frequency
a reactance modulator connected to RF amplifier stage generates phase modulation or frequency modulation
carrier suppression in SSB phone - the advantage over AM is that transmitter power can be used more efficiently (narrower bandwidth)
the receiver stage that combines a 14.250 MHz signal with a 13.795 MHz oscillator to produce a 455 kHz intermediate frequency is a mixer (heterodyning)
the mixing of two signals is called heterodyning
in a VHF/UHF transmitter (FM), the stage that generates a harmonic of a low-frequency signal is the multiplier

@@ Line 120: / Line 120: @@
 * PM reactance modulator: amp and fixed-frequency oscillator feed into reactance modulator, output is phase modulated output
-Summary:
+===Section 5.2 Summary===
 * if a 3 kHz LSB signal has a carrier frequency of 7.178 MHz, it occupies 7.175-7.178 MHz
 * if using 3 kHz USB signal on 20 m, how close to edge of band should carrier signal be? 3 kHz below edge of band