CN1035351C - High frequency amplifier - Google Patents

Abstract

A high frequency amplifier has an amplifying transistor 1 whose operation mode can be selectively switched between active and inactive modes. A switch such as switching transistor 2 selectively grounds the base of the amplifying transistor 1, a resonant circuit 8 is connected to the collector of the amplifying transistor 1, and a diode 7 is inserted in a circuit path of the resonant circuit 8 so that the collector current of the amplifying transistor 1 flows through the diode 7. When the amplifying transistor 1 is in the off state, the diode 7 is also in the off state and thus the diode acts as a capacitor having a small capacitance, whereby the resonant frequency of the resonant circuit 8 becomes significantly higher than the resonant frequency that is obtained when the amplifying transistor 1 is in the on state. In the inactive operation mode, therefore, the signal frequency component is attenuated to a sufficiently low level by the resonant circuit 8 having a resonant frequency higher than the signal frequency.

Description

High-frequency amplifier

The present invention relates to a high frequency transistor amplifier, it is conversion work and non-operating mode selectively.Specifically, what the present invention relates to is a high frequency transistor amplifier that is used for the compound wireless telecommunication system of timesharing, it contain selectively amplify-and-frequency multiplication/amplifications or by device as the reference frequency signal that transmits the carrier signal benchmark, wherein, be attenuated to enough low level at the reference frequency signal that under operating state, leaks the receiving circuit part.

In FDMA (frequeney division multiple (FDM))/TDD (timesharing is compound) wireless telecommunication system, the circuit that constitutes in mode as described below has purposes widely.

Block diagram shown in Figure 1 has provided an example of launching with receiving circuit part known structure in FDMA or TDAM/TDD wireless telecommunication system.

In the middle of Fig. 1, the radiating circuit part 20 of having drawn, receiving circuit part 21, reference frequency generator 22, high-frequency amplifier 23, the first frequency mixers 24, the first band pass filters 25, power amplifier 26, linear high-frequency amplifier 27, the second frequency mixers 28, the second band pass filters 29, wave detector 30, wave shaping circuit 31, local oscillator 32, phase-locked loop circuit 33, bandwidth constraints filter 34, cycling circuit 35, antenna 36, inverter 37, transmit/receive switch terminal 38, data-signal input 39 and data output end 40.

Radiating circuit part 20 comprises reference frequency generator 22, high-frequency amplifier 23, the first frequency mixers, 24, the first band pass filters 25 and power amplifier 26.Receiving circuit part 21 comprises linear high-frequency amplifier 27, the second frequency mixer 28, the second band pass filters 29, wave detector 30 and wave shaping circuits 31.Reference frequency generator 22 in the radiating circuit part 20 produces a stable reference frequency signal f _c, and based on this reference frequency signal f _cProduce an emission medium-frequency signal f _ItFor example, crystal oscillator is as reference frequency generator 22.For producing emission medium-frequency signal f _It, 23 couples of reference frequency signal f of high-frequency amplifier _cAmplify and frequency multiplication or only with its amplification.First frequency mixer 24 is with emission medium-frequency signal f _ItThe modulated signal f that provides with local oscillator _mCarry out mixing.In this course of work, the effect of high-frequency amplifier 23 is equivalent to a frequency modulator.First band pass filter 25 extracts the modulated f of transmitting selectively _t, this signal derives from the mixed frequency signal that first frequency mixer 24 provides.Power amplifier 26 is with the modulated f that transmits _tPower amplification to launching needed level.In receiving circuit part 21, the high-frequency signal f that 27 pairs of linear high-frequency amplifiers receive _rCarry out linear amplification, the high-frequency signal f of second frequency mixer 28 after to this linear amplification _rCarry out linear amplification, the high-frequency signal f of second frequency mixer 28 after to this linear amplification _rWith local oscillated signal f _oCarry out mixing.Second band pass filter 29 extracts receiving intermediate frequency signal f selectively _Ir, the mixed frequency signal that this signal provides from second frequency mixer 28.30 couples of receiving intermediate frequency signal f of wave detector _IrCarry out detection extracting data-signal, and the data-signal that is extracted is by in addition shaping of wave shaping circuit 31.

34 pairs of data-signals of being imported by data-signal input 39 under emission state of bandwidth constraints filter carry out bandwidth constraints to be handled, and then this band limit data-signal is supplied with local oscillator 32 as modulation signal.The modulated transmission signals f of cycling circuit 35 circuit parts of spontaneous emission in the future 20 _tSupply with antenna 36, also the high-frequency signal f that antenna 36 can be received _rSupply with receiving circuit part 21.Launch/connect with switch controlling signal and be added in transmit/receive switch end 38.This transmit/receive switch control signal is directly inputted to the high-frequency amplifier 23 and first frequency mixer 24, also by inverter 37 it is supplied with the linear high-frequency amplifier 27 and second frequency mixer 28 simultaneously.

The operation principle of wireless telecommunication system with said structure is as described below.

At emission state, an emission start signal T _xBe added on the transmit/receive switch end 38, relevant circuit in the radiating circuit part 20, comprise high-frequency amplifier 23, first frequency mixer 24 and power amplifier 26, all in running order, and the relevant circuit in the receiving circuit part 21 comprises the linear high-frequency amplifier 27 and second frequency mixer 28, then is in non operating state.Under this mode of operation, from the reference frequency signal f of reference frequency generator 22 _cAmplify and frequency multiplication through high-frequency amplifier 23, or only be exaggerated.Then, high-frequency amplifier 23 outputs one emission medium-frequency signal f _ItTo first frequency mixer 24.On the other hand, the data-signal of importing via data-signal input 39 carries out the bandwidth constraints processing through bandwidth constraints filter 34, supplies with local oscillator 32 as modulation signal then, thus local oscillated signal f _oObtained a modulated signal f by this modulation signal modulation _m24 pairs of emission medium-frequency signals of first frequency mixer f _ItWith modulated signal f _mCarry out mixing and provide a mixed output signal to a band pass filter 25.First band pass filter 25 extracts modulated transmission signals f selectively from this mixed output signal _tAnd with its supply power amplifier 26.Power amplifier 26 is with modulated transmission signals f _tPower amplification to launching required level, give antenna 36 with it through cycling circuit 35 then.Modulated transmission signals f _tSend through antenna 36 radiation.

As mentioned above, at the emission state duration of work, the relevant circuit in the receiving circuit part 21 comprises the linear high-frequency amplifier 27 and second frequency mixer 28, all is in non operating state.So, even if modulated transmission signals f _tOr emission medium-frequency signal f _ItLeak receiving circuit part 21, this leakage signal can not impact receiving circuit part 21 yet.

On the contrary, when receiving operating state, one receives start signal R _xBe added on the transmit/receive switch end 38, relevant circuit in the radiating circuit part 20, comprise high-frequency amplifier 23, first frequency mixer 24 and power amplifier 26, all be in non operating state, and the relevant circuit in the receiving circuit part 21 comprises the linear high-frequency amplifier 27 and second frequency mixer 28, and is then in running order.Under this accepting state, the high-frequency signal f that receives by antenna 36 _rGo into linear high-frequency amplifier 27 through cycling circuit 36 outputs.This linearity high-frequency amplifier 27 is with high-frequency signal f _rMake linear amplification and deliver to second frequency mixer 28 then.Second frequency mixer 28 is with high-frequency signal f _rLocal oscillated signal f with local oscillator 32 generations _oCarry out mixing, then this mixed output signal is delivered to second band pass filter 29.Second band pass filter 29 extracts receiving intermediate frequency signal f selectively _IrAnd it is delivered on the wave detector 30.30 couples of receiving intermediate frequency signal f of wave detector _IrThereby carry out demodulation restore data signal, and then it is supplied with wave shaping circuit 31.31 pairs of data-signals of wave shaping circuit carry out shaping, deliver to data processing section (not expression in the drawings) through data output end 40 then.

Receiving under the operating state, reference frequency generator 22 cuts little ice.Yet they are still in running order receiving duration of work, and this is owing in case cause the of short duration instability of output frequency when its pass closed at starting of oscillation again.

The circuit diagram of Fig. 3 is an example of radiating circuit part 20 medium-high frequency amplifiers 23 known structure.

In Fig. 3, provided amplifier transistor 51, switching transistor 52, input signal end 53, output signal end 54, inductor 55, capacitor 56, resonant circuit 57, emitter resistance 58, shunt capacitance 59, biasing resistor 60,61, power end 62, shunt capacitance 63 and transmit/receive switch end 64.

In this circuit diagram, the base stage of amplifier transistor is connected on the collector electrode of input signal end 53 and switching transistor 52.The emitter of amplifier transistor 51 is via the parallel circuits ground connection of emitter resistance 58 and shunt capacitance 59.The collector electrode of amplifier transistor 51 links to each other by the resonant circuit of being made up of inductor 55 and capacitor 56 57 with output signal end 54.The base stage of switching transistor 52 is connected to transmit/receive switch end 64, the then direct ground connection of the emitter of this switching transistor 52.The other end of inductor 55 and power end 62 join, the other end ground connection of capacitor 56.

The operation principle of the high-frequency amplifier of said structure is as described below.

In the emission operating state, an approximate emission start signal that equates with earth potential is added on transmit/receive switch end 64.This emission start signal is ended switching transistor 52.Its result puts on the base stage of amplifier transistor 51 by base biasing resistor 60 and 61 base bias voltages that determine, thereby makes amplifier transistor 51 be in the normally state.Therefore, be exaggerated transistor 51 from the reference frequency signal of input signal end 53 and amplify, and the signal after amplifying results from the collector electrode of amplifier transistor 51.The collector electrode of amplifier transistor 51 links to each other with resonant circuit 57, and this resonant circuit is tuned in the second harmonic of reference frequency signal, thereby has only the second harmonic signal in the amplifying signal to be extracted selectively.The signal that extracts is imported the first frequency mixer (not shown) by output signal end 54 as the emission medium-frequency signal.

Receiving operating state, a reception start signal with positive voltage is added on transmit/receive switch end 64.Its result, switching transistor 52 conductings, thus the base stage of amplifier transistor 51 is by these switching transistor 52 ground connection.Therefore, amplifier transistor 51 is placed in non operating state (cut-off state), and this amplifier transistor 51 loses amplification under this state.Under this operating state, even there is reference frequency signal to be added in the base stage of amplifier transistor 51, this reference frequency signal also can not appear at the collector electrode of amplifier transistor 51.In addition, the emission medium-frequency signal is added on the first frequency mixer (not shown) of back without output signal end 54.

Even be in non operating state (cut-off state), transistor still has base-collector junction electric capacity and base-emitter junction capacitance.In addition, (conducting state) in working order, transistor still has the resident impedance between emitter and the collector electrode.Therefore, when switching transistor 52 conductings and when simultaneously amplifier transistor 51 is in non operating state (cut-off state), because the existence of switching transistor 52 resident impedances, has the reference frequency signal f of upper frequency _cCan fully do not bypassed by switching transistor 52, and since the existence of amplifier transistor 51 base-collector junction electric capacity, this signal f _cAlso can fully not be exaggerated transistor 51 ends to fall.Thereby the partial reference frequency signal is sent to the collector terminal of amplifier transistor 51.

The second harmonic of reference frequency signal is come out by resonant circuit 57 selective extractions and outputs to the outside of high-frequency amplifier via output signal end 54.This will produce interference to being in the receiving circuit part 21 that receives operating state.

The objective of the invention is to address the above problem.Specifically, the purpose of this invention is to provide a kind of like this high-frequency amplifier, it contains an amplifier transistor, can select mode of operation and in running order or non operating state, and the leakage component of its output signal is reduced to enough low level when this amplifier transistor is in non operating state.

According to the present invention, for achieving the above object, provided a high-frequency amplifier, it contains: link to each other, be used for the transistor that high frequency amplifies in its emitter mode; Be used for selectively switching transistor (switching device) with the amplifier transistor base earth; Be connected to the resonance electricity of amplifier transistor collector electrode, the feature of this high-frequency amplifier just is to insert a diode in above-mentioned resonant circuit, and like this, collector current just flows to amplifier transistor by this diode.

Have the high-frequency amplifier of above-mentioned device by the present invention design, its operation principle is as follows.Receiving operating state, switching signal puts on the base stage of switching transistor, makes this switching transistor conducting, the base earth of amplifier transistor, thus cause this amplifier transistor to end.Under this state, the diode that is connected to the amplifier transistor collector electrode ends, thereby this moment, it was equivalent to a capacitor with little capacitance.Its result, the resonance frequency that contains the resonant circuit of this diode becomes apparently higher than the value that is under the opposite operating state.

Brief Description Of Drawings:

The block diagram of Fig. 1 has been described an example that is used for FDA or TDMA/TDD wireless telecommunication system emission/receiving circuit partial circuit structure, wherein, has used high-frequency amplifier as described in the present invention;

The circuit diagram of Fig. 2 has provided a kind of circuit structure about high-frequency amplifier design of the present invention;

What the circuit diagram of Fig. 3 was described is an example of common high-frequency amplifier.[numeral explanation]

1: amplifier transistor

2: switching transistor (switching device)

3: output signal end

4: output signal end

5: inductor

6: capacitor

7: diode

8: resonant circuit

13: power end

15: the transmit/receive switch end

With reference to the accompanying drawings, will be described in detail that to implement specific embodiments of the present invention as follows:

Fig. 2 has provided a kind of circuit structure that designs by the concrete scheme of high-frequency amplifier of the present invention, and it can be used for high-frequency amplifier shown in Figure 1 23.

In Fig. 2, show amplifier transistor 1, switching transistor (switching device) 2, input signal end 3, output signal end 4, inductor 5, capacitor 6, diode 7, resonant circuit 8, emitter resistance 9, shunt capacitance 10, base biasing resistor 11,12, power end 13, shunt capacitance 14 and transmit/receive switch end 15.

In this circuit structure, resonant circuit 8 is by inductor 5, and capacitor 6 and diode 7 are formed, and wherein inductor 5 and diode 7 are connected in series between output signal end 4 and the power end 13, and capacitor 6 then is connected between output signal end 4 and the ground.The base stage of amplifier transistor 1 links to each other with the collector electrode of input signal end 3 with switching transistor 2.The emitter of amplifier transistor 1 is ground connection by the parallel circuits of emitter resistance 9 and shunt capacitance 10.The collector electrode of amplifier transistor 1 links to each other with resonant circuit 8 with output signal end 4.The collector electrode of switching transistor 1 links to each other with resonant circuit 8 with output signal end 4.The base stage of switching transistor 2 is connected on the transmit/receive switch end 15, the then direct ground connection of the emitter of switching transistor 2.The reference frequency signal f that input signal end 3 receives from reference frequency generator 22 (referring to Fig. 1) _cWhen diode 7 conductings, the resonance frequency of resonant circuit 8 equals reference frequency signal f _cSecond harmonic 2f _cThereby, this second harmonic signal 2f _cCan penetrate intermediate-freuqncy signal f as Lou by output signal end 4 _ItAnd export.

According to the high-frequency amplifier of this programme design, its operation principle will be described in detail as follows.

In the emission operating state, have and be approximately equal to earthy emission start signal T _xBe added on transmit/receive switch end 15.This emission start signal T _xSwitching transistor 2 is ended.Its result is added in the base stage of amplifier transistor 1 by base biasing resistor 11 and 12 determined base bias voltages, thereby makes amplifier transistor 1 be in the normally state.Therefore, amplified by the amplifier transistor 1 that connects with radiation pattern altogether from the reference frequency signal of input signal end 3, and this amplifying signal results from the collector electrode of amplifier transistor 1.Under this mode of operation, the collector current of amplifier transistor 1 flows through diode 7, thereby diode 7 conductings, and this moment, the resonance frequency of resonant circuit 8 equaled reference frequency signal f _cSecond harmonic frequency 2f _cLike this, has only reference frequency signal f after the amplification _cSecond harmonic 2f _cExtracted selectively by resonant circuit 8, this signal that extracts is then as emission medium-frequency signal f _ItExport to first frequency mixer 24 (referring to Fig. 1) by output signal end 4.

Receive operating state, having the reception start signal R of positive voltage _xBe added on transmit/receive switch end 15.Its result makes switching transistor 2 conductings, and then the base stage that makes amplifier transistor 1 is through the switching transistor 2 that is in conducting state and ground connection.Therefore, amplifier transistor 1 is placed in non operating state (cut-off state), and it does not play amplification in this state.Under this operating state, since the existence of switching transistor 2 resident impedances, reference frequency signal f _cCan do not bypassed by this switching transistor 2 fully, the while is owing to the existence of amplifier transistor 1 base-collector junction electric capacity, this signal f _cCan do not ended to fall by this amplifier transistor 1 fully yet.So a part of reference frequency signal is sent to the collector terminal of amplifier transistor 1.

Yet, when amplifier transistor 1 is in non operating state (cut-off state), no collector current flows through in the diode 7 of resonant circuit 8, thereby this diode is in cut-off state and is equivalent to a capacitor with little capacitance, that is to say, have on the inductor 5 of capacitor series in resonant circuit 8 with little capacitance, be much higher than predetermined second harmonic frequency 2f thereby resonance frequency is become _cIn this state, appear at the reference frequency letter f of amplifier transistor 1 collector electrode place _cSecond harmonic signal 2f _cAnd anyly have near second harmonic frequency 2f _cSignal, receiving intermediate frequency signal f just in other words _IrAnd the close signal of any frequency with it, all decayed and remove by resonant circuit 8.

Relatively press the high-frequency amplifier of this programme design and common high-frequency amplifier, be under the conducting state second harmonic signal 2f at switching transistor 2 or 52 _cMeasure, the result shows that the second harmonic signal of this programme circuit is about-78dbm, and the second harmonic signal of circuit common is about-60dbm.In addition, to second harmonic signal 2f between switching transistor 2 or 52 on off states _cRejection coefficient survey, its result shows that the coefficient of present design circuit is about 60db, and the coefficient of circuit common is about 39db.These presentation of results, present design can obviously be improved the performance of amplifier.

In this programme, the resonance frequency of resonant circuit 8 is set to reference frequency signal f when it is in mode of operation _cTwice.Yet the present invention never only is confined to this.The resonance frequency of resonant circuit 8 also can equal reference frequency signal f _c, perhaps also can be set to certain greater than 2 integer and reference frequency signal f _cProduct.

As mentioned above, in the present invention, amplifier transistor 1 is in during the non operating state, one switching signal is added in the base stage of switching transistor 2, make this switching transistor 2 conductings, thereby make the base earth of amplifier transistor 1, and this is further with the collector current vanishing of amplifier transistor.The diode 7 that with amplifier transistor 1 collector electrode link to each other in the resonant circuit 8 this moment is in cut-off state and is equivalent to a capacitor with little capacitance, thereby the resonance frequency that comprises the resonant circuit 8 of diode 7 becomes and is significantly higher than its value under in working order.Therefore, the resonant circuit 8 that the signal component that junction capacitance by amplifier transistor 1 under non operating state leaks into amplifier transistor 1 collector electrode is contained diode 7 decays to enough low level, and wherein the frequency of leakage signal component equals its resonance frequency under in working order.

Thereby, can demonstrate very big superiority when high-frequency amplifier is as the high-frequency amplifier 23 in the wireless telecommunication system radiating circuit part 20 as described in the present invention.During receiving operating state, high-frequency amplifier 23 is in non operating state, by the reference frequency signal f of reference frequency generator 22 generations _cCan be decayed to enough low level by high-frequency amplifier 23, thereby prevent by reference frequency signal f _cThe emission medium-frequency signal f that produces _ItCarry out receiving circuit part 21, and then prevent from the reception service behaviour that receives circuit part 21 is exerted an influence.

Claims (3)

1. be used for the high-frequency amplifier of time-division two wireless communication system radiating circuit mutually part, this high-frequency amplifier comprises:

-high frequency amplifier transistor (1);

-switching device is used for selectively the base earth with described transistor (1); And

-series resonant circuit, it is made of a coil (5) and an electric capacity (6) serial connection, and is connected to the collector electrode of described transistor (1), thus, this high-frequency amplifier amplifies or the reference frequency signal that doubles, and the base stage that it is applied in described transistor (1) is characterized in that:

-diode (7) and above-mentioned coil (5) are connected in series, so that the collector current of this transistor (1) is by this coil (5) and diode (7) supply, and

The resonance frequency of described resonant circuit is set in the frequency that is equal to described reference frequency signal, or the frequency of one of the harmonic wave of described reference frequency signal, when described diode is under the on-state.

2. high-frequency amplifier according to claim 1 is characterized in that: described switching device comprises a switching transistor (2), and its collector electrode is connected to the base stage of described high frequency amplifier transistor (1), the grounded emitter of described switching transistor (2); Described switching transistor is switched on or cuts out is corresponding to the reception of this wireless communication system or emission running.

3. high-frequency amplifier according to claim 1 is characterized in that: the series connection of described coil (5) and described diode (7) is connected between the collector electrode of power end and high frequency amplifier transistor; Described electric capacity (6) is connected between the collector electrode and ground of described high frequency amplifier transistor.

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