CN201726366U - Power amplifier with improved efficiency and linearity - Google Patents

Abstract

The utility model discloses a power amplifier with improved efficiency and linearity. The power amplifier is a Cascode structure which is formed by a common-emitter transistor and a common-base transistor which are laminated in series. A harmonic wave filtering network which can suppress harmonic signals is connected from the collector of the common-emitter transistor to the ground. By changing the LC serial resonance frequency of the harmonic wave filtering network, the goal of filtering N (N is more than 1) harmonic signals can be reached; and moreover, an LC serial and parallel resonance network which can improve fundamental-frequency signal gain and suppress secondary harmonic signal output is connected from the base of the common-base transistor to the ground. Through the LC serial and parallel resonance network, when the secondary harmonic signals are filtered, the transmission properties of fundamental signals are not affected. On the premise that the static power consumption of the power amplifier is not increased, the N (N is more than 1) harmonic signals in the power amplifier are filtered and the efficiency and the linearity of the power amplifier are obviously improved.

Description

The power amplifier that the efficient and the linearity improve

Technical field

The utility model relates to the power amplifier of a kind of efficient and linearity raising.

Background technology

For radio communication device, as portable hand-held mini-plants such as cellular mobile telephone that energy is provided by battery and beep-pagers, the short key factor that influence such communicator use that become of the power-on time of battery.The battery-powered time weak point mainly is the inefficiency because of such radio communication device intermediate power amplifier, and it consumes a large amount of power that power supply provides when amplifying signal.In addition, when using communication equipment to receive information,, then can make received signal waveform generation amplitude and the distortion on the phase place, influence the accurate transmission of information if the power amplifier linearity in the equipment is relatively poor.

The method of existing raising efficiency of RF power amplifier mainly contains LINC, EE﹠amp; R, Doherty etc.The LINC technology is the phase-modulated signal that an amplitude modulation phase-modulated signal is resolved into two permanent envelopes, makes it respectively by two power amplifiers that characteristic is identical then, at last with the synthetic initial envelope signal output that becomes of two paths of signals.EE﹠amp; The basic principle of R technology is that the intermediate frequency input signal obtains the input signal of amplitude and phase place form by envelope detector and amplitude limiter.The input signal of permanent envelope becomes radiofrequency signal after the frequency mixer frequency conversion, send into the output of non-linear radio frequency power amplifier.The intermediate frequency envelope signal that obtains after the separation is modulated the voltage signal of supplying with, and the modulation signal with gained comes control power amplifiers then.The Doherty structure is made up of main power amplifier and 2 power amplifiers of auxiliary power amplifier, and main power amplifier is operated in category-B or AB class, and auxiliary power amplifier is operated in the C class.Two power amplifiers do not take turns to operate, but main power amplifier works always, and auxiliary power amplifier is just worked to the peak value of setting.Though the Doherty power amplifier has very high efficient, its linearity is relatively poor.

The existing technology of improving linearity of radio-frequency power amplifier mainly contains back-off, negative feedback, feedforward etc.Though the back-off method realizes simple, it is to have sacrificed efficient to exchange the linearity for, thereby is not suitable in the power amplification system that power output and efficient has relatively high expectations.Negative-feedback technology is to gain by the sacrifice power amplifier to reach the purpose that suppresses distorted signals, so power amplifier must provide sufficiently high gain just can obtain the power gain and the linearity preferably.Therefore feed-forward technique requires the amplitude of signal in two paths and phase characteristic to mate fully, and the simplest feedforward system is also more than the degeneration factor complexity, thereby seldom is used.

Summary of the invention

The utility model purpose is: the power amplifier that provides a kind of efficient and the linearity all to improve, it is under the situation that does not increase the power amplifier quiescent dissipation, filtering the N in the power amplifier (N＞1) subharmonic, significantly improved the efficient and the linearity of power amplifier.

The technical solution of the utility model is: the power amplifier that a kind of efficient and the linearity improve, described power amplifier is for folding the Cascode structure that constitutes by grounded-emitter transistor and grounded-base transistor string, from the collector electrode of described grounded-emitter transistor to being connected with the harmonic filtration network that suppresses harmonic signal the ground, by changing the LC series resonance frequency of this harmonic filtration network, can reach the purpose of filtering N (N＞1) rd harmonic signal; Simultaneously, improve the fundamental frequency signal gain and suppress the LC series parallel resonance network that second harmonic signal is exported to being connected with the ground from the base stage of described grounded-base transistor, by described LC series parallel resonance network, can in the filtering second harmonic signal, not influence the transmission characteristic of fundamental signal again.

Further, in above-mentioned power amplifier, described harmonic filtration network comprises from the collector electrode of grounded-emitter transistor to LC series resonance network and the 3rd inductance in parallel the ground.

Further, in above-mentioned power amplifier, described LC series resonance network comprises that collector electrode from grounded-emitter transistor is to first inductance of connecting the ground and first electric capacity.

Further, in above-mentioned power amplifier, described series parallel resonance network comprises from the base stage of described grounded-base transistor to the 3rd electric capacity and fundamental frequency series resonance network in parallel the ground.

Further, in above-mentioned power amplifier, described fundamental frequency series resonance network comprises that base stage from described grounded-base transistor is to second electric capacity of connecting the ground and second inductance.

The utility model has the advantages that:

1. the utility model is by the collector electrode of grounded-emitter transistor in Cascode structure power amplifier, and the base stage of grounded-base transistor adds the harmonic filtration network, under the situation that does not increase the power amplifier quiescent dissipation, effective N (N＞1) subharmonic in the filtering power amplifier improves the efficient and the linearity of power amplifier significantly.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further described:

Fig. 1 is the electrical block diagram of the utility model specific embodiment;

Fig. 2 connects the effect schematic diagram of LC series parallel resonance network for the grounded-base transistor base stage of the utility model specific embodiment.

Wherein: 1 harmonic filtration network; 11 LC series resonance networks; 2 LC series parallel resonance networks; 21 fundamental frequency series resonance networks; L1 first inductance; L2 second inductance; L3 the 3rd inductance; C1 first electric capacity; C2 second electric capacity; C3 the 3rd electric capacity; The Q1 grounded-emitter transistor; The Q2 grounded-base transistor.

Embodiment

Embodiment: as depicted in figs. 1 and 2, the power amplifier that a kind of efficient and the linearity improve, described power amplifier is for folding the Cascode structure that constitutes by grounded-emitter transistor Q1 and grounded-base transistor Q2 string, be that the signal input part of amplifier connects the base stage that meets described grounded-emitter transistor Q1 behind the input matching network, collector electrode is connected with the emitter of grounded-base transistor Q2, and the collector electrode of described grounded-base transistor Q2 is exported after connecing output matching network.From the collector electrode of described grounded-emitter transistor Q1 to being connected with the harmonic filtration network 1 that suppresses harmonic signal the ground, from the base stage of described grounded-base transistor Q2 to being connected with the LC series parallel resonance network 2 that improves the fundamental frequency signal gain and suppress second harmonic signal output the ground.

Described harmonic filtration network 1 comprises from the collector electrode of grounded-emitter transistor Q1 to LC series resonance network 11 and the 3rd inductance L 3 in parallel the ground; Described LC series resonance network 11 comprises that collector electrode from grounded-emitter transistor Q1 is to first inductance L 1 of connecting the ground and first capacitor C 1.

Described LC series parallel resonance network 2 comprises from the base stage of described grounded-base transistor Q2 to the 3rd capacitor C 3 and fundamental frequency series resonance network 21 in parallel the ground; Described fundamental frequency series resonance network 21 comprises from described grounded-base transistor Q2 to second capacitor C 2 of connecting the ground and second inductance L 2.

As shown in Figure 1, in the harmonic filtration network 1, LC series resonance network 11 resonance that first inductance L 1 and first capacitor C 1 are formed are at second harmonic frequency, it is equivalent to a lead and is shorted to ground for second harmonic, when input signal is imported by the base stage of the grounded-emitter transistor Q1 of Cascode structure, signal amplifies by grounded-emitter transistor Q1, collector electrode output by grounded-emitter transistor Q1, at node a place second harmonic signal by the LC series resonance network short formed by first inductance L 1 and first capacitor C 1 to ground, that has suppressed that second harmonic signal causes is non-linear, thereby has improved efficient and the linearity of power amplifier; Harmonic filtration network 1 resonance that first inductance L 1, first capacitor C 1 and the 3rd inductance L 3 are formed is in fundamental frequency, for fundamental signal, harmonic filtration network 1 is similar to open circuit, after fundamental signal is amplified by grounded-emitter transistor Q1, be not subjected to the influence of harmonic filtration network 1 at node a place, thereby make this network can in the filtering second harmonic signal, not influence the transmission of fundamental signal again.

As shown in Figure 2, power amplifier is made up of the high frequency small-signal equivalent model of grounded-emitter transistor Q1 and grounded-base transistor Q2, and wherein Z is the equiva lent impedance of LC series parallel resonance network 2, V _BeBe R _πOn the voltage got.In the LC series parallel resonance network 2, fundamental frequency series resonance network 21 resonance that second inductance L 2 and second capacitor C 2 are formed are in fundamental frequency, for fundamental signal, LC series parallel resonance network 2 is similar to short circuit, be that equiva lent impedance Z equals zero, LC series parallel resonance network 2 resonance that second inductance L 2, second capacitor C 2 and the 3rd capacitor C 3 are formed are at second harmonic frequency, for second harmonic signal, LC series parallel resonance network 2 is similar to open circuit, and promptly the resistance value of Z is bigger.The circuit high frequency small-signal equivalent model that LC series parallel resonance network 2 and grounded-base transistor Q2 form as shown in Figure 2, the output current of transistor collector is by mutual conductance g _mWith voltage V _BeDecision is at g _mUnder the situation about remaining unchanged, V _BeSize determined the size of current that voltage-controlled current source produces.For second harmonic signal, the resistance value of the equiva lent impedance Z of LC series parallel resonance network 2 is bigger, and the AC signal that amplify through grounded-emitter transistor Q1 this moment is at R _πOn the voltage got less, i.e. V _BeLess, thus g made _mV _BeBe that voltage controlled current is less, the gain that second harmonic signal produced is lower, has reached the purpose that suppresses second harmonic; For fundamental signal, the equiva lent impedance Z of LC series parallel resonance network 2 equals zero, and this moment is at R _πIt is bigger to go up resulting dividing potential drop, i.e. V _BeBigger, thus g made _mV _BeBe that voltage controlled current is bigger, improved the gain of power amplifier.LC series parallel resonance network 2 has reached the purpose that improves the power amplifier gain when suppressing second harmonic signal again.

Acting in conjunction by harmonic filtration network 1 and LC series parallel resonance network 2 has suppressed second harmonic signal, and its power output is reduced, and fundamental signal obtains amplifying under impregnable situation, thereby has improved the efficient and the linearity of power amplifier.In addition, keeping under the situation of harmonic filtration network 1 parallel resonance at fundamental frequency, adjust the series resonance network of first inductance L 1 and first capacitor C 1, make its resonance in third harmonic frequencies or high order harmonic component frequency more, this moment, harmonic filtration network 1 can filter out harmonic signal or high order harmonic component signal more.And the acting in conjunction of harmonic filtration network 1 and LC series parallel resonance network 2 can reach the purpose of while filtering second harmonic signal and N (N＞2) rd harmonic signal, thereby better improves the efficient and the linearity of power amplifier.

In sum, the utility model passes through the collector electrode at the grounded-emitter transistor of Cascode structure power amplifier, and the base stage of grounded-base transistor adds the series parallel resonance network of being made up of inductance and electric capacity, under the situation that does not increase the power amplifier quiescent dissipation, effectively filtering the N in the power amplifier (N＞1) rd harmonic signal, improved the efficient and the linearity of power amplifier significantly.

Claims (5)

1. the power amplifier that improves of the efficient and the linearity, described power amplifier is by grounded-emitter transistor (Q1) and the folded Cascode structure that constitutes of grounded-base transistor (Q2) string, it is characterized in that: from the collector electrode of described grounded-emitter transistor (Q1) to being connected with the harmonic filtration network (1) that suppresses harmonic signal the ground, from the base stage of described grounded-base transistor (Q2) to being connected with the LC series parallel resonance network (2) that improves the fundamental frequency signal gain and suppress second harmonic signal output the ground.

2. the power amplifier that efficient according to claim 1 and the linearity improve is characterized in that: described harmonic filtration network (1) comprises that collector electrode from grounded-emitter transistor (Q1) is to LC series resonance network (11) and the 3rd inductance (L3) in parallel the ground.

3. the power amplifier that efficient according to claim 2 and the linearity improve is characterized in that: described LC series resonance network (11) comprises that collector electrode from grounded-emitter transistor (Q1) is to first inductance (L1) of connecting the ground and first electric capacity (C1).

4. the power amplifier that efficient according to claim 1 and the linearity improve is characterized in that: described LC series parallel resonance network (2) comprises that base stage from described grounded-base transistor (Q2) is to the 3rd electric capacity (C3) and fundamental frequency series resonance network (21) in parallel the ground.

5. the power amplifier that efficient according to claim 4 and the linearity improve is characterized in that: described fundamental frequency series resonance network (21) comprises that base stage from described grounded-base transistor (Q2) is to second electric capacity (C2) of connecting the ground and second inductance (L2).

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