DE2405060A1 - Demodulation method for signals - transmitted by four-phase difference method with phase shifts of odd multiples of 45 degrees - Google Patents

Abstract

The demodulation method is for received signals which are transposed by a locally generated oscillation. The frequency of the oscillation used for transposition is equal to the carrier frequency used for transmission, plus or minus odd multiples of the product of the smallest phase shift (45 deg.) and the transmission speed. This enables four possibilities for the phase relationships to be established. The frequency modulation system conforms to Alternative B of the CCITT (Consultative Committee of International Telegraphs and Telephones).

Description

Method for demodulating according to the four-phase difference method transmitted signals For the transmission of faster data over limited connections According to known methods, the bandwidth in two consecutive bit positions Information contained in the form of binary values is summarized on dibits. Each of the possible four dibits then causes the four-phase differential modulation Change in the phase of a carrier frequency compared to the phase position during the duration of the previous signal by one of four possible angles.

Customary and from the Comite Consultatif International Telegrnphique et Telephonique (CCITT) (White Book Mar de Plata, Vol. VIII, Recommandation V 26) are recommended for this Phase changes either equal even (alternative A) or equal odd (Alternative B) Multiples of the angle 450. With both alternatives, the size can the phase change of Step act to step act only four different ones take hertz, however, over the duration of several step files are according to the alternative A also only four phase positions in total, but eight phase positions are possible according to alternative B. Alternative A has the advantage that it is easier to differentiate between the four different phase positions compared to alternative B with eight possible phase positions, has the disadvantage, however, that in the case of a longer sequence of the same characters, at the assignment of the dibits recommended by the CCITT to the phase changes in a Sequence of zeros, no phase change occurs, so no information is transmitted from which the necessary step act could be obtained on the receiving side. With alternative B, the phase changes in each case from step act to step act, so that the necessary clock is simply reliable on the receiving side can be recovered. This advantage has the disadvantages of greater sensitivity to interference as a result of the less different phase angles that have to be distinguished during evaluation and the difficulty and expense of recovering most of them Demodulators required carrier frequency because, e.g. when recovering the carrier frequency by a voltage controlled generator (VCO), accordingly of the eight possible phase positions of the received frequency also eight phase positions of the Carrier frequency can be regarded as correct and therefore also the carrier frequency can easily switch to a different phase position in an undesired manner.

The object was therefore to provide a method by which the possible number of phase positions with a transmission according to alternative B im Course of the demodulation process is reduced.

With the usual demadulation process, the received signals become among other things, the original carrier frequency used on the transmission side is derived or regained. One method for this is, for example, in DT-OS 2 101 804 described. The received signals are then in parallel once with this carrier frequency and on the other hand implemented with the 900 phase shifted carrier frequency. the end the values obtained in this way can be compared to the original by a phase difference calculator Data can be determined again.

The phase difference calculator must match the type of transmission, alternative A and B, respectively.

The method according to the invention for demodulating according to the four-phase difference method with transmitted by odd multiples of 450 equal phase jumps Signals, the received signals through a locally obtained vibration are converted, is characterized in that the frequency of the conversion The oscillation serving is equal to the odd multiple of the product the smallest possible phase jump (450) and the step speed of the transmitted Signals decreased or increased frequency the one to transfer serving carrier oscillation.

With the method described, when converting the received Signals contained phase jumps by odd multiples of the smallest possible Phase jump decreased or increased. The phase jumps or the resulting changes in the implementation The values obtained then correspond to even multiples of the phase angle 450 with the advantage that it is easier to distinguish between only four possible phase positions.

The frequency of the conversion in the demodulator is particularly advantageous Serving oscillation is equal to the product of the smallest possible phase jump and the step speed of the transmitted signals increased frequency of the Transmission serving carrier oscillation. The phase jumps then change of alternative B with the dibits assigned to them by the CCITT in the phase jumps according to alternative A with the assigned dibits and it can then with both Transmission types a uniform phase difference calculator used and optionally realized in a simple manner switchable receiver for each of the two types of transmission will.

Claims (1)

P a t e n t a n s p r u c h Method for demodulating according to the four-phase difference method with transmitted by odd multiples of 450 equal phase jumps Signals1 where the received signals through a locally obtained vibration are converted1 characterized in that the frequency of the The oscillation is equal to the odd multiple of the product of the smallest possible Phase jump (450) and the step speed of the transmitted signals decreased or increased frequency of the carrier oscillation used for transmission.