KR0141434B1 - Multi-radio transmitter - Google Patents

Abstract

The present invention relates to a transmitter of a multiple radio transceiver having a predistorter for increasing the transmission output level by predistorting the third order intermodulation distortion characteristic of a power amplifier in an intermediate frequency band.

The multi-radio transceiver having a predistorter provided in the present invention includes a multiple signal connection unit to which multiple signals are input, an encoder for encoding the output signal of the multiple signal connection unit, and a modulation for multi-phase modulation of the output of the encoder. And a predistorter for predistorting the signal modulated by the modulator in an intermediate frequency band, a local oscillator for generating an oscillation frequency, an intermediate oscillator pre-distorted at the oscillation frequency and the predistorter for the local oscillator. A transmission frequency converter for mixing frequencies and a power amplifier for receiving a signal of the transmission frequency converter to obtain a desired transmission output.

Description

Predistorter for Improving Nonlinearity of Transmission Output of Multiple Radio Transceivers

The scheme is a schematic block diagram of a transmitter of a conventional multiple radio transceiver,

2 is a schematic block diagram of a transmitter of a multiple wireless transceiver according to an embodiment of the present invention;

3 is a schematic block diagram of a predistorter according to a preferred embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

21: Multiple signal connection part 22: Encoding part

23: modulator 24: pre-distorter

25: transmission frequency converter 26: power amplifier

27: duplex part 28: local oscillation part

31: input impedance matching section 32: first-order amplifier section

33: 1 Primary Signal Splitter 34: Secondary Amplifier

35: secondary signal splitter 36: delay line

37: 1 Secondary Mixer

39: level adjuster 40: variable phase shift part

41: fixed phase shift unit 42: signal combiner

43: 3rd order amplifier 44: Output impedance matching section

45: peak power detector 46: AGC

The present invention relates to a transceiver of a multiple radio transceiver having a predistorter, and more particularly, to a predistorter for increasing a transmission output level by predistorting a third order intermodulation distortion characteristic of a power amplifier in an intermediate frequency band.

1 is a schematic block diagram of a conventional multiple radio transceiver. Referring to FIG. 1, a transmitter of a conventional multiplex radio transceiver may include a multiple signal connection unit 11 to which multiple signals are input, and an encoding unit 12 to encode a signal input through the multiple signal connection unit 11. ), A modulator 13 for polyphase modulation of the output of the encoder 12, a local oscillator 17 for generating an oscillation frequency, an oscillation frequency of the local oscillator 17, and the modulator 13 A transmission frequency converter 40 for mixing the 70 MHz intermediate frequency modulated and outputted by the transmitter), a power amplifier 15 for receiving a signal of the transmission frequency converter 40 to obtain a desired transmission output, and the transmitter The power amplifying unit 15 is configured of a duplex (Duplx) unit 16 for coupling the output and the receiving unit (not shown) to the antenna 18.

The transmitter of the conventional multiplex radio transceiver configured as described above encodes a signal input through the multiple signal connection unit 11 in the encoder 12 and modulates the frequency by 70 MHz in the modulator 13. . Then, the frequency converter 14 converts the oscillation frequency output from the local oscillator 17 and the intermediate frequency converted by the modulator 13 into a mixed and transmit frequency, and the power amplifier 15 The transmission frequency is amplified to a required transmission output level and transmitted to the antenna 18 through the duplex unit 16.

In this case, in order to improve the non-linearity generated by the power amplification unit 15, the transmission frequency converter 14 includes an automatic level control circuit (ACL). ALC uses the input signal level back-off to the desired linearity rather than the 1dB compression point.

As described above, in the transmitter of the conventional multiplexing transceiver, the power output of the power amplifier 15 is inefficient by reducing the input signal level to a desired linearity rather than 1 dB compression point. There is this.

To solve the above disadvantages, an object of the present invention is to provide a predistorter of a multiple radio transceiver for increasing a transmission output level by predistorting the third order intermodulation distortion characteristic of a power amplifier in an intermediate frequency band (70 MHz). .

In order to achieve the above object, the present invention provides a predistorter for improving the nonlinearity of a transmission output of a multiple radio transceiver, comprising: a difference amplifier for amplifying a polyphase modulated input signal, and amplified by the primary amplifier. A primary signal distributor for distributing an input signal, a secondary amplifier for amplifying one of the signals distributed by the primary signal distributor, a secondary signal distributor for distributing the signal amplified by the secondary amplifier, and A primary mixer which intermodulates and distorts two preferred signals distributed by the secondary signal splitter, and outputs a signal that is time-delayed among the signals output by the intermodulation distortion by the primary mixer and the signals distributed by the secondary signal splitter A second mixer for mixing and intermodulating distortion, a level adjuster for adjusting a level of the intermodulation distortion signal output from the second mixer, and A variable phase shift unit for adjusting the phase difference caused by the characteristic difference of the device by receiving the output of the level adjuster, a fixed phase shift unit for appropriately adjusting the phase difference between the two signals distributed in the primary signal divider, and the fixed phase shift unit A signal combiner for coupling an output portion of the variable phase shifter to an output unit, an output unit for amplifying the output of the signal combiner and performing impedance matching with a transmission frequency converter, and a signal distributed by the secondary signal divider. And automatic gain control means for automatically controlling the level of the input signal input to the difference amplifier.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

2 is a schematic block diagram of a transmitter of a multi-radio transceiver according to an exemplary embodiment of the present invention, and FIG. 3 is a schematic block diagram of a predistorter according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the transmitter of the present invention includes a multiple signal connector 21 to which multiple signals are input, an encoder 22 to encode an output signal of the multiple signal connector 21, A modulator 23 for polyphase modulation of the output of the encoder 22, a predistorter 24 for predistorting the signal modulated by the modulator 23 in an intermediate frequency band (70 MHz), and oscillation A local oscillator 28 for generating a frequency, a transmission frequency converter 25 for mixing an oscillation frequency of the local oscillator 28 with an intermediate frequency (70 MHz) pre-distorted and output from the predistorter 24; And a power amplifier 26 for receiving a signal from the transmission frequency converter 25 to obtain a desired transmission output.

Also, referring to FIG. 3, the predistorter 24 used in the transmitter of the present invention matches the input impedance to prevent loss due to reflection of voltage or current when the output signal of the modulator 23 is input. A primary part 31, a primary amplifier 32 for amplifying the output signal of the input impedance matching unit 31, and a primary signal for distributing the input signal amplified by the primary amplifier 32 to the third quarter A signal divider 33, a secondary amplifier 34 for amplifying one of the signals distributed by the primary signal divider 33, and a signal amplified by the secondary amplifier 34 are divided into four quarters. The secondary signal divider 35, the primary mixer 37 for intermodulating distortion of the signals distributed by the secondary signal divider 35, and one of the signals distributed by the secondary signal divider 35. The delay line 36 and the first mixer 37 to delay and A second mixer 38 for intermodulating and distorting the signal passing through the delay line 36, a level adjuster 39 for adjusting the level of the signal thrusted by the second mixer 38, and the level adjuster 39 A variable phase shift unit 40 for adjusting the phase difference caused by the characteristic difference of the element in response to the output of the signal, and a fixed phase shift unit for appropriately adjusting the phase difference between the two signals distributed by the primary signal splitter 33 41, a signal combiner 42 for coupling the output of the fixed phase shift unit 41 and the variable phase shift unit 40, and a tertiary amplifier for amplifying and outputting the output of the signal combiner 42 ( 43, an output impedance matching section 44 for impedance matching before outputting the output of the tertiary amplifier 43 to the outside of the predistorter section 24, and as long as the secondary signal splitter 35 is distributed. A peak power detector 45 for stabilizing a signal, and the peak It consists of: (Automatic Gain Control Circuit AGC) (46) automatic gain control circuit for automatically adjusting the level of the input signals passing through the PIN diode attenuator (47) according to the output voltage of the power detector (45).

It looks at the operation of the transmitter of the multiple radio transceiver of the present invention configured as described above.

First, when multiple signals are input to the multiple signal connection unit 21, the multiple signal connection unit 21 transmits the input signal to the encoder 22, and the encoder 22 encodes an input signal. The modulator 23 transmits the input signal to the predistorter 24 shown in FIG. 3 by modulating the input signal at an intermediate frequency of 70 MHz.

The 70 MHz intermediate frequency signal modulated by the modulator 23 is transmitted to the input impedance matcher 31 of the predistorter 24. In the input impedance matcher 31, the modulator 23 transmits the signal. While the signal is transmitted to the predistorter 24, it prevents the loss of voltage or current due to the impedance difference between the two circuits.

The signal passing through the input impedance matching unit 31 is applied to the PIN diode attenuator 47 so that the output signal level is automatically adjusted by the AGC 46 to pass through the AGC 46 to the primary amplifier 32. ) Is amplified in accordance with the primary signal splitter 33, the signal level reduced through the impedance matching section 31.

The primary signal divider 33 is a 1: 3 divider, and one of the outputs of the divided third branch is applied to the secondary amplifier 34 and the other two signals are applied to the fixed phase shifter 41. .

The secondary amplifier 34 receiving the output of the primary signal splitter 33 amplifies an input signal to fit the secondary signal splitter 35 so that the secondary signal splitter is a 1: 4: splitter. And a peak output voltage detected through the peak power detector 45 is sent to the AGC 46.

The output of the second quarter of the output of the secondary signal divider 35 is mixed in the primary mixer 37 to generate a intermodulation distortion signal, and is applied to one input terminal of the secondary mixer 38, and the secondary signal divider The remaining first quarter output of 35 is the delayed output signal via a delay line 36 to the other input terminal of the secondary mixer 38. The secondary mixer 38 mixes the input two signals and outputs a third order intermodulation distorted output signal to the level adjuster 39. This signal here can be adjusted accordingly the level difference generated according to the characteristics of the device.

Meanwhile, the phase difference between the two signals applied to the fixed phase shift unit 41 among the outputs of the primary signal divider 33 is properly adjusted so that the signal combiner ( 42, while the output signal of the level adjuster 39 passes through the variable phase shifter 40, in which the phase difference occurring according to the difference in the characteristics of the device is adjusted, in the signal combiner 42. Is combined with the output of

The signal coupled from the signal combiner 42 is amplified by the desired gain in the tertiary amplifier 43, and then the output is matched to the impedance matching to the intermediate frequency (70 MHz) output stage in the output impedance matching section 44 and conforms to the standard. It is adjusted to the level and output to the transmission frequency converter 25.

Then, the transmission frequency converter 25 converts the oscillation frequency generated by the local oscillator 28 and the output signal of the predistorter 24 into a transmission frequency, and then converts the transmission frequency into the power amplifier 26. The power amplifier 26 amplifies the transmission frequency to a required transmission output level and transmits the same to the antenna 29 through the duplex unit 27.

As described above, the transmitter of the multiple radio transceiver of the present invention provides a predistorter to improve the nonlinearity of the transmission output generated by the intermodulation distortion of the power amplifier, thereby improving the third order intermodulation distortion characteristic of the power amplifier. The advantage is that the transmit power can be increased by predistorting in the intermediate frequency band.

Claims (1)

A predistorter for improving the nonlinearity of a multi-radio transceiver transmission output, comprising: a primary amplifier for amplifying a polyphase modulated input signal, a primary signal distributor for distributing an input signal amplified by the secondary amplifier; A second amplifier for amplifying one of the signals distributed by the primary signal divider, a secondary signal divider for distributing the signal amplified by the secondary amplifier, and two signals among the signals distributed by the secondary signal divider A first mixer for intermodulating and distorting the second mixer; a second mixer for intermodulating and distorting the intermodulated and distorted signal output from the first mixer and a signal delayed among signals distributed in the second signal splitter; A level adjuster for adjusting the level of the intermodulation distortion signal output from the secondary mixer, and characteristics of the device in response to the output of the level adjuster A variable phase shift unit for adjusting the phase difference caused thereby, a fixed phase shift unit for appropriately adjusting the phase difference between the two signals distributed by the primary signal splitter, and an output of the fixed phase shift unit and the variable phase shift unit A signal combiner, an output unit for amplifying the output of the signal combiner and performing impedance matching with a transmission frequency converting unit, and an input signal inputted to the primary amplifier by a signal distributed by the secondary signal splitter. A predistorter comprising an automatic gain control means for automatically controlling the level.