DE2326101A1 - PROCEDURE AND CIRCUIT FOR A COMBINED AM-FM-STEREO RADIO RECEIVER - Google Patents

Description

"Procedure and circuit for a combined AM-FM stereo radio receiver" In the construction of combined AM-FM stereo radio receivers ~ the circuit-related Increased effort if the receiving device contains an 'improved AM receiving part, with, among other things, the single sideband modulation to be expected in the future in AM broadcasting areas can be received with low distortion with reduced radiated carriers. improvement When receiving AM radio stations, product demodulation of the receiving si gnales can be achieved. The resulting additional circuitry The effort essentially consists of the required product demodulator and a Additional carrier circuit, which in the present context is the largest technical Difficulty level, i.e. technical effort, because narrow-band carrier filtering and the resulting requirements for the tuning accuracy of the whole Recipients lead to an increase in the price of the devices.

Inexpensive AM receiver designs are also a prerequisite for the successful introduction of the sine sideband modulation in AM broadcasting.

The task economical the additional effort for a Realizing improved AM receivers is based on the claims specified invention solved.

The mode of operation of the method is shown in FIG. 1 Circuit explained: The circuit schematically shows the essential functional stages of the new AM-FM stereo radio receiver. It consists of conventionally constructed AM and FM tuning parts that have their outputs on the respective intermediate frequency transposed input received signals, a combined AM-FM-IF amplifier , which also contains selection means, an FM limiter amplifier 1, an FM coincidence demodulator 2 and a stereo decoder including a ztereo switching signal generator 4, a Stereo switch detector j, a phase lock circuit 5.

With AM reception, the AM IF signal is amplified in the IF amplifier b and fed to the regressive amplifier 1, which amplifies the AM signal exempted from the modulation. That is why it is at the output of the limiter amplifier 1 AM carrier signal available. In addition, the AM-IF signal is sent to the amplitude modulator 7 and fed with the 58 MIz oscillation from the stereo switching signal generator 4 amplitude modulated. At the output of the amplitude modulator one receives accordingly the sideband theory a frequency spectrum, consisting of the AM-IF with associated Sideband spectrum, which contains the modulation content, and additionally in the 58 kllz Two new sideband frequencies above and below the AM IF signal each with a sideband spectrum, that is also the content of the modulation contains. The two new sideband spectra are used by the FM coincidence demodulator 2 and with the AM-IF carrier signal from the limiter amplifier 1 into the 38 khz frequency position demodulated by forming the product of the two input signals.

This signal is in the switching detector 3 of the stereo decoder Product formation with the 38 kHz oscillation of the stereo switching signal generator in the NF position transposed.

Regardless of the phase position of the AD4-ZP carrier oscillation from the Limiter amplifier 1 is always a phase- and frequenzsymmetrisctles 58 kliz AM spectrum generated as long as the carrier wave is sufficiently large in amplitude to perform the switching function. That is essential in view of the fact that with direct product demodulation of the AM-IF spectrum with a carrier signal obtained by limiting nonlinear distortions in the IJF position occur when the carrier signal also has the same modulation content is phase modulated.

The 38 kilz frequency range is used for automatic gain control of the AM spectrum, the carrier frequency is filtered out with a 58 kHz filter 8 and after Rectification fed to the amplifier stages to be influenced in the gain.

This has the advantage that the AM carrier frequency in the 38 kHz range is increased by + 6 dB compared to the AM-ZF range.

To avoid possible interference from harmonics of the 38 kHz oscillation of the generator 4 with the AM-IF carrier frequency can be avoided via a frequency divider 9 the AM carrier frequency divided into the magnitude of the stereo pilot frequency of 19 kz will. The AM IF must then be an integral multiple of this frequency. the divided AM-ZP carrier frequency is fed to the phase lock circuit 5, its Output signal affects the generator 4 so that the phase between AM carrier frequency and 38 kIIz-generator is constant. In addition, this offers phase synchronization also the possibility of single-sideband mailings that do not contain any carrier residue, to use a free-running carrier oscillator instead of the limiter amplifier 1, which then works in phase synchronization with generator 4.

The circuit according to the invention needed to implement an improved AM receiving part xn combined AM-FM stereo radio receiving devices only the modulator 7 as additional circuitry effort.

Claims

Claims (4)

Claims ¼. Procedure and circuit for a combined AM-FM stereo radio receiver, characterized in that to reduce the circuit complexity in the construction of radio receivers with an improved AM reception part of the FM limiter amplifier (1), the FM coincidence demodulator (2), the stereo switch detector (3), the stereo switching generator (4) and the phase-ock detector (5) in the construction of the AM reception part can also be used by adding the intermediate frequency for AM reception Received signal after selection and amplification in a combined AM-FM-IF linear amplifier (6) the FM limiter amplifier (1), the same AM-ZP signal also in a push-pull amplitude modulator (7) with the modulation signal of 38 kHz from the stereo switching signal generator (4) is amplitude-modulated, the amplitude-modulated output signal of the modulator (7Y to the FM coincidence demodulator (2) and with the AM carrier signal from the FM limiter amplifier (1) is demodulated into the frequency position of 38 kHz, then fed to the FM stereo switch detector (3) and with the 38 Khz stereo switch signal is demodulated from the generator (4) into the low frequency position. 2. Circuit according to claim 1, characterized in that dai3 for gain control For AM reception, the AM carrier signal in the 38 kHz frequency range with a 58 kHz filter (8) is filtered out and used as control voltage after rectification. 3. Circuit according to claims 1 and 2, characterized in that that the AM intermediate frequency is in harmony with the stereo pilot frequency. 4. Circuit according to claims 1 and 3, characterized in that that for frequency and phase synchronization of the AM carrier intermediate frequency the limited-e Carrier signal at the output of the limiter amplifier (1) of a frequency divider stage (9) is fed, in which it is divided as an integer to the stereo pilot frequency of 19 kllz and is fed to the phase lock detector (5) in the case of AM reception, which shows the phase of the Stereo switching signal generator (4) automatically keeps constant to the carrier phase.