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Transcript
East Kent Radio Society EKRS 1 Intermediate Course (4) Receivers Karl Davies Receivers 2 Summary Block diagrams of receivers The Superhet receiver Detection of AM, FM, and SSB How a Diode AM Detector works Use of BFO and CIO AGC Crystal Receiver 3 Block diagram Single tuned circuit; poor selectivity No gain; poor sensitivity Requires large aerial and earth; only receives strong signals Tuned circuit Diode detector Earphone Crystal Receiver Circuit 4 L1, C1 - Tuned circuit – selects signal D1 – Detector diode – demodulates C3, R1 – Low-pass filter for audio Antenna D1 AA119 C1 100pF L1 Coil C2 500pF RF Earth X1 C3 100pF R1 100k Crystal Earphone TRF Receiver (Tuned Radio Frequency) 5 Block diagram RF amplifier gain increases sensitivity One or more tuned circuits All the gain is at one frequency – feedback is a problem AF amplifier provides more power for loudspeakers RF amplifier BFO Demodulator AF amplifier Superhet Receiver 6 Block diagram Mixer changes variable RF frequency to fixed IF frequency IF amplifier provides selectivity with several tuned circuits Fixed IF can use non-tunable crystal or ceramic filters Mixer Local oscillator IF amplifier BFO Demodulator AF amplifier Mixer as a Converter 7 Mixer may be used as a frequency converter Changes the selected RF frequency to the IF frequency using a tunable LO signal. Mixers have spurious responses – image frequency, half the RF… LO can be above or below the RF IF can be above or below the RF ~ Mixer RF 145MHz ~ LO 123.6MHz 145MHz–123.6MHz=21.4MHz IF frequency Image frequency is 123.6MHz-21.4MHz=102.2MHz AM Envelope Detection 8 Demodulation of a modulated audio signal Detector output follows envelope of RF Otherwise known as an “envelope detector” Envelope Modulated RF Demodulated Audio Diode Detector Circuit 9 Diode D1 rectifies AC into DC C1/R1 is a lowpass filter - filters out the RF D1 conducts on positive half-cycle only Voltage Output D1 RF Input C3 100pF Time Demodulated R1 100k AF Output Input Diode Detector Operation 10 Diode Voltage / V Volts and Current in the diode detector (SPICE Simulation) 2 D1 cathode output 1 0 D1 anode input -1 Diode Current / µA -2 800 Anode 600 Diode conducts on peaks only 400 D1 current 200 0 0 0.5 1 1.5 2 2.5 3 3.5 4 Time/µSecs Cathode CW Demodulation - BFO 11 BFO = Beat Frequency Oscillator Slightly offset BFO added to carrier to generate the “beat note” + Carrier Wave Envelope Detector BFO …the origins of the “BFO” ! Beat Note SSB Demodulation 12 SSB filter selects only the wanted sideband Product detector mixes to baseband CIO is at the frequency where carrier would have been Product detector is a balanced mixer IF Sideband Filter IF Amp CIO = Carrier Insertion Oscillator Product Detector ~ CIO AF Amp USB Demodulation 13 Amplitude SSB demodulation is essentially mixing to baseband Lower Sideband Upper Sideband Frequency MHz • Unwanted sideband may contain noise and other signals • Mixing with the carrier frequency is product detection Mixer Upper Sideband Frequency MHz Amplitude Amplitude IF Filter Upper Sideband Frequency LSB Demodulation 14 Amplitude SSB demodulation is essentially mixing to baseband Lower Sideband Upper Sideband Frequency MHz • Typically, IF filter is not moved; the local oscillators are offset. • When mixed down, the LSB spectrum becomes inverted. Mixer Lower Sideband Frequency MHz Amplitude Amplitude IF Filter Lower Sideband Frequency Demodulation Summary 15 CIO = Carrier Insertion Oscillator A fixed local oscillator used to demodulate SSB It reinserts the carrier that was removed in the transmitter Wanted sideband is directly translated directly to Audio BFO = Beat Frequency Oscillator A slightly variable local oscillator used to demodulate CW CW demodulated by envelope detector BFO/Detectors can resolve SSB. A product detector can resolve CW Two Issues Input Signal Levels can vary greatly Detection methods described so far are for Amplitude based modulations, not FM AGC 16 AGC = Automatic Gain Control AGC adjusts the gain to keep carrier level constant Signal level varies widely, but audio volume stays constant RF Amp Mixer LO IF Amp Demod AGC Circuit AF Amp FM Receiver 17 Uses FM Discriminator to detect small frequency deviations FM receivers use IF limiter amplifiers; no AGC needed Squelch detects high-frequency noise and gates audio Mixer Local Oscillator IF amplifier Discriminator AF amplifier Squelch circuit
