DE2138849C3 - Circuit arrangement for carrier wave recovery - Google Patents

Description

According to the invention, this object will be built up in see circuits and thereby manufactured in a circuit arrangement of the spatially small design mentioned in the introduction. The off type, in which a first frequency multiplier to the output frequency J _{1 of} the local oscillator LOSC is multiplication of the center frequency of the PSK signal, on the one hand multiplied by 2 n, so that the frequency generates a local oscillator and a second frequency converter 2 η Zi is fed to the mixer MIX I, many times over to multiply the output signal during the output frequency Z _{1 of} the oscillator

LOSC, on the other hand, is fed directly to the second mixer MlX 2 , so that a carrier wave with the frequency / _{0 can be obtained} from the frequency / _# - / of the frequency divider DEV .

As taken from the previous description it is possible to implement a device for the recovery of the carrier waves, with which the carrier wave can easily be generated even with a multi-phase PCM-PSK system can be regenerated.

1 sheet of drawings

Claims (1)

this local oscillator with a multiplier claim: factor equal to the multiplication factor of the first Frequency multiplier are provided and also p _re q Circuit arrangement for the carrier wave return a first mixer for converting the output part extraction in a PCM-PSK-n system, in which 5 signals from the first and second multiplier, da- y / first frequency multiplier for multiplication solved by that in the first mixer the difference of the center frequency of the PSK signal, a local one between the multiplied input signal and oscillator and a second frequency multiplier oscilator signal is formed, which is fed to a frequency divider via a band to multiply the output signal of this passport, for the sub-local oscillator with a multiplication io development of the frequency of the output signal of the band factor equal to the multiplication factor of the pass filter by a division factor that is provided for the multiplier frequency multiplier, the multiplier factor corresponds to the multiplier, and that and furthermore a first mixer is provided for converting a second mixer for converting output signals of the first and second multiplication of the output signal of the frequency divider with the fold, characterized in that the 15 direct output signal of the local oscillator, in the first mixer (MIXl) the differences rence between whereby the regenerated original input is obtained from the multiplied input signal (2 nf _a ) and signal. Oscillator signal (2n / j) is formed, which via a In this device, the frequency divider works Bandpass filter (BPF) is fed to a frequency divider (DEV) (DEV) in relation to that in the known state, for dividing the frequency of the output *> of the technology at lower frequencies, so that the output signal of the bandpass filter by a part of this Reason is easier to implement. treatment factor that comes to the multiplication factor (2λ) Hinz-i, that the multiplier corresponds to frequency changes, and that a second intermediate frequency remains the same, whereby the band mixer (MIX 2) is provided for implementation and the frequency divider is always at the same the output signal (Z ₀ -Z ₁ ) of the frequency divider as the frequency are operated. with the immediate output signal (Z ₁ ) of the following, the invention is illustrated in detail local oscillator, whereby the regenerated primary relationship is based on one shown in FIG. 2 shown original Input signal is obtained. management example explained in more detail. The F i g. 2 shows the block diagram of the device for carrier wave recovery. Here is the center frequency / _{0 of} the 2 n-phase PCM-PSK waves is multiplied by a factor of 2 η , in a first frequency multiplier, which is designated by MULTI. The output of this frequency multiplier The invention relates to a circuit 35 folders M UL Tl is guided to a first mixer MIX I arrangement for recovering the carrier in one. The output frequency Z, of a local oscilloscope demodulator and modulator of a pulse code modulator LOSC is multiplied by a factor of 2 η in a two-ventilation system that works with phase shift keying and the multiplier MULT2 , which acts as a so-called "phase-shift keying system" known the same multiplication factor as the first free. In the following, this system is PCM-PSK- 40 has a frequency multiplier Ml / L7 "l. The output signal can be called system. 2n /, this multiplier is MULT2 as well as Carrier waves with a frequency Z ₀ can be fed from the signal 2 η Z _{0 to} the first mixer MlXl. PSK waves with 2 "phases (" is a positive integer. In this way the two signals mentioned are numbered) with the usual carrier wave regeneration circuit in the mixer MIX 1 in a lower frequency range according to FIG output frequency 2 η (Z _n -Z ₁₎ by multiplying the center frequency of the PSK Z ₀ of the mixer MIX I is a bandpass filter BPF-wave signal with 2 "supplied through the Frequenzverviel-. Ό -.> Output signal of this filter BPF fan MULT. The output signal obtained in this way is fed to anzteilerD £ K and there it is passed to a bandpass filter BPF and passed through the. 1 "■. Divided into in frequency. This is then fed to a frequency divider DEV , which is called 50, the ¥ ::. J wnz J ₀ -J ₁ is divided in the frequency divider frequency 2ηZ ₀ by 2 / j. Such an input, recovered and fed to a further mixer M1X2 as the output signal of this partial direction, for example in the German Auslegeschrift lers. In 1 192 238 before. In this system, however, the inertia of this mixer is implemented with the signal /, gerfrequency Z ₀ , so that the structure of the local oscillator LOSC. so that the regenerated frequency divider DEV becomes very difficult. 55 carrier wave with frequency / ₀ the output of The invention is based on the object that this MlX 2 can be taken. The frequency divider difficulty in the known device to DEV divides an intermediate frequency of the size avoid and a carrier wave recuperation 2nx (J ₀ -J ₁ ), so that even if the carrier system to create it allows the frequency Z _{0 is} very high, the frequency divider DEV quenzteiler can also be operated at an arbitrary frequency, 60 at a relatively low frequency who is unrelated to the center frequency Z ₀ and can therefore be easily implemented. That can be driven. Frequency divider DEV can also be used with integrated logi-