SU860339A1 - Range phase shifter for 180 with limited signal band - Google Patents

Description

The invention relates to radio technology and can be used in transmitters operating with phase shift keying. A 180 ° phase band manipulator with a limited signal band, containing a source of a manipulating signal, a series-connected source of carrier oscillations, a first decoupling device, a controlled phase shifter, a second decoupling device and a load, a phase detector, a DC amplifier, the first the input of which is connected to the output of the balancing unit, the low-pass filter, the input of which is connected to the output of the DC amplifier, the output of the low-pass filter is connected to the control input of ravl emogo phase shifter, you move the first decoupling device is connected to the first input of the phase detector f. However, when the well-known pickup is operating in the carrier frequency range, the accuracy of the phase shift is insufficient. The purpose of the invention is to improve the accuracy of the phase shift in the range of non-operating frequencies. In order to achieve the goal, a phase change key manipulator with a limited signal bandwidth is entered into the block of the transmission coefficient change sign, which is connected between the output of the phaeo detector and the second input of the DC amplifier or between the output of the DC amplifier and the input of the low-pass filter, the output of the source of the manipulation signal is connected to the corresponding input of the block changing the sign of the transfer coefficient, besides the second input of the phase detector is connected to the output of the second decoupling device. FIG. 1 depicts a structural electrical circuit of the band phase manipulator in FIG. 2 - the same, another option. The band phase manipulator with a 180 band limited signal contains a source 1 of carrier oscillations, a first isolating device 2, a phase detector 3, a controlled phase shifter 4, a gain change sign block 5, a DC amplifier 6, a balancing block 7, a manipulating source 8 signal filter 9 low pass SFNCH),

second decoupler 10 and load 11.

The device works as follows .J

High-frequency carrier kalebe-. Source 1 is fed to the first decoupler 2, from the output of which the high-frequency signal is fed to the controlled phase shifter 4 and to one of the phase detector 3. From the output of the controlled phase-shifter 4, the high-frequency signal that received the phase shift is fed to the second decoupler 10 the output of which provides a high-frequency signal to the load 11 and to the second input of the phase detector 3. The phase detector 3 compares the phases of the high-frequency carrier signal present at the input and output controlled phase shifter 4. The output low-frequency signal of phase detector 3, proportional to the sine of the phase difference of signals with a period of 2 TC, is fed to block 5, which is switched by a binary signal from source 8 each time the value of the binary signal changes.

In this case, in one case, the output signal from the phase detector 3 is unchanged at the input of amplifier 6, and in the other case, the polarity of this signal is reversed, both for the constant component of the signal and for the variable. If the constant component of the output signal of phase detector 3 is not equal to zero, amplifier 6 is balanced by block 7 so that in case of a large amplifier gain, this constant offset will be compensated for in the output signal without changing the gain for the variable signal. From the output of the amplifier 6, the signal is fed to the low-pass filter 9, which allows you to adjust the speed and the shape of the transient reorganization phase of the output high-frequency oscillator of the manipulator.

The correct choice of the type of transient process can significantly reduce the occupied frequency band and increase the noise immunity of communication systems with simultaneous simultaneous operation.

Claims (1)

1. US patent 3946337, cl. H 04 L 27/20, 1976 (prototype).