KR100396648B1 - transmitting clock switching circuit - Google Patents

Abstract

The transmission clock switching circuit for preventing distortion of the oscillation frequency generated when the transmission clock is switched, the phase control unit outputs a plurality of programmed phase control signals, and outputs a radio frequency signal of a predetermined band phased in accordance with the phase control signal. A plurality of oscillators, a plurality of RF switches for selectively switching and outputting the radio frequency signals, an RF combiner for coupling the radio frequency signals switched and output from the plurality of RF switches, and the combined radio frequency signals to a predetermined level It consists of an amplifier which amplifies and outputs. Therefore, since the switching circuit configures a plurality of transmission clock switching lines and selectively switches on the oscillation frequency signal, it is possible to prevent distortion of the oscillation frequency signal caused by the switching time of the RF switch.

Description

Transmitting clock switching circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a phase locked loop (PLL) circuit, and more particularly, to a circuit for switching a transmission clock provided to a PLL circuit as a comparison reference clock.

In general, a mobile communication system uses a clock that is used in the system from outside, for example, GPS. At this time, the PLL circuit is used to generate the required clock. The reference clock of the PLL circuit selects one of several inputs. In this case, a transmission clock switching circuit for switching the input signal and supplying a reference clock to the PLL circuit is required.

Meanwhile, as described above, in order to provide the reference clock to the PLL circuit, a transmission clock switching circuit as shown in FIG. 1 is required.

Referring to FIG. 1, a conventional transmission clock switching circuit includes a phase control unit 1 for outputting a plurality of programmed phase control signals and a radio frequency signal of a predetermined band phased in accordance with a phase control signal of the phase control unit 1. An RF switch 4 for selectively switching and outputting any one of radio frequency signals of the first and second oscillators 2 and 3 to output the first and second oscillators 2 and 3, and the RF And an amplifier 5 for amplifying and outputting the radio frequency signal selected and output through the switch 4 to a predetermined level.

In the conventional transmission clock switching circuit configured as described above, the phase controller 1 first outputs a phase control signal so that the phase difference does not occur when the plurality of oscillators 2 and 3 output radio frequency signals of a predetermined band. In general, in order to adjust the phase of the oscillator (2) (3) is mainly used the output voltage of the digital-to-analog converter (DAC).

However, when the phases of the plurality of oscillators 2 and 3 are adjusted, the RF switch 4 moves from the A waveform of FIG. 3 to the B waveform so as to selectively output a good oscillation frequency according to a system failure. Transmit oscillation frequency signal from B waveform to A waveform and output it. At this time, the RF switch (4) requires a switching time of 30 to 50 ms, which causes distortion of the output waveform as shown in FIG.

Therefore, in the conventional transmission clock switching circuit, the output distortion occurs due to the switching time of the RF switch 4, and when the PLL circuit is driven with this distorted signal, the PLL lock signal is lost due to the instantaneous phase shift. This is expected. Especially in the case of the redundant clock switching device used in the code division multiple access (CDMA) system, a resonator is used to compensate for the distortion of the waveform generated when the output signal of the oscillator 2 or 3 is switched. Accordingly, there is a problem that a distorted oscillation frequency is output.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to provide a transmission clock switching circuit for preventing the distortion of the oscillation frequency occurring when the transmission clock switching.

Another object of the present invention is to provide a low-cost transmission clock switching circuit that can be applied to a PLL circuit of an exchange system by a simple circuit configuration.

1 is a block diagram showing a conventional transmission clock switching circuit

2 is a block diagram showing a transmission clock switching circuit according to the present invention.

3 is a diagram illustrating main operation waveforms of FIG. 1;

4 is a main operation waveform diagram of FIG.

* Description of the symbols for the main parts of the drawings *

1, 11: control unit 2, 3, 22, 33: oscillator

4, 44, 55: RF switch 5, 77: amplifier

Features of the transmission clock switching circuit according to the present invention for achieving the above object is a phase control unit for outputting a plurality of programmed phase control signals, a plurality of outputting a radio frequency signal of a predetermined band phased in accordance with the phase control signal An oscillator, a plurality of RF switches for selectively switching and outputting the radio frequency signals, an RF combiner for coupling the radio frequency signals switched and output from the plurality of RF switches, and amplifying the combined radio frequency signals to a predetermined level It is composed of the output amplifier.

Hereinafter, a preferred embodiment of a transmission clock switching circuit according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a transmission clock switching circuit according to the present invention.

Referring to FIG. 2, the transmission clock switching circuit of the present invention outputs a plurality of programmed phase control signals, and a radio frequency signal having a predetermined frequency phase oscillated according to the phase control signals of the phase control unit 11. First and second oscillators 22 and 33 for outputting the first and second RF switches 44 and 55 for switching and outputting radio frequency signals of the first and second oscillators 22 and 33. ), An RF combiner 66 coupling the radio frequency signals output through the first and second RF switches 44 and 55, and an amplifier 77 amplifying and outputting the combined radio frequency signal to a predetermined level. Is composed of).

In the transmission clock switching circuit of the present invention configured as described above, referring to FIG. 4, first, the phase controller 11 outputs a phase control signal so that the first and second oscillators 22 and 33 output radio frequency signals of a predetermined band. Do not cause phase difference when outputting.

The radio frequency signals are then input to the first and second RF switches 44, 55, respectively. At this time, since the RF switches 44 and 55 are all turned on during the normal operation, the radio frequency signals simultaneously input to the RF combiner 66 are combined and output as one frequency signal, and the combined radio frequency signals are output. The amplifier 77 is amplified to a predetermined level and output to the next stage PPL circuit.

However, in the normal operation as described above, the outputs of the first and second oscillators 22 and 33 are signal-coupled through the RF switches 44 and 55 and the RF coupler 66, and then output. Due to the failure of any one of the oscillators 22 and 33, the frequency signal as shown in FIG. 4 (c) is output by the switching operation of turning off only the RF switch connected to the output terminal of the corresponding oscillator.

Therefore, while the conventional switching circuit selects and uses only one of the two oscillators (2) and (3), the distortion of the output signal occurs during the process of switching to the output of the other oscillator when a system failure occurs. When the output of the oscillator is used and all outputs of the oscillator are interrupted, only the output of the faulty oscillator can be outputted normally. Therefore, as in the prior art, it does not require the transfer time of the transmission clock, and thus there is no signal interruption or distortion.

As described in detail above, the transmission clock switching circuit according to the present invention has the following effects.

First, since a plurality of transmission clock switching lines are configured to selectively switch on the oscillation frequency signal, distortion of the oscillation frequency signal caused by the switching time of the RF switch can be prevented.

Second, there is an advantage that can be implemented as a low-cost transmission clock switching circuit that can be applied to the PLL circuit of the switching system by a simple switching circuit configuration.

Therefore, since the transmission clock switching circuit of the present invention is capable of switching operation of at least one oscillator, it is apparent that various modulation changes are possible without departing from the technical spirit of the present invention without being limited to the embodiments presented in the present invention. .

Claims (2)

A phase control unit for outputting a plurality of programmed phase control signals; A plurality of oscillators for outputting a radio frequency signal of a predetermined band phase oscillated according to the phase control signal; A plurality of RF switches for selectively switching and outputting the radio frequency signal; An RF combiner for coupling the radio frequency signals switched and output from the plurality of RF switches with each other, And an amplifier configured to amplify and output the combined radio frequency signal to a predetermined level. The transmission clock switching circuit of claim 1, wherein the RF switch is configured to be turned on and off when distortion of an oscillation frequency occurs.