Differential amplifier and radio system with a differential amplifier

Abstract

A radio system for communication is provided that has a differential amplifier for amplifying a transmission frequency, particularly 2.4 GHz, wherein the differential amplifier has a first inductor, which is magnetically coupled to a second inductor, and a capacitor. The capacitor, the first inductor, and the second inductor are wired into a resonant circuit in such a way that the resonant circuit has a common-mode impedance for a common-mode signal and a push-pull impedance, different from the common-mode impedance, for the push-pull signal.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

FIG. 1 shows a first circuit of a differential amplifier;

FIG. 2 shows a second circuit of a differential amplifier with two cascode arrangements;

FIG. 3 shows a third circuit of a differential amplifier with neutralization of the Miller capacitances; and

FIG. 4 shows a fourth circuit of a differential amplifier with differential npn bipolar transistors in the emitter circuit.

Claims

1. A differential amplifier comprising: a first inductor that is magnetically coupled to a second inductor; anda capacitor,wherein the capacitor, the first inductor, and the second inductor are wired into a resonant circuit so that the resonant circuit has a common-mode impedance for a common-mode signal and a push-pull impedance, which is different than the common-mode impedance, for a push-pull signal.

2. The differential amplifier according to claim 1, further comprising: a first transistor; anda second transistor,wherein the resonant circuit is connected to the first transistor and to the second transistor so that the resonant circuit forms a symmetric load for the first transistor and for the second transistor.

3. The differential amplifier according to claim 2, wherein the first transistor and the second transistor are wired into a gate circuit or a base circuit.

4. The differential amplifier according to claim 2, wherein the first transistor and the second transistor are wired into a source circuit or an emitter circuit.

5. The differential amplifier according to claim 2, wherein a first source terminal or a first emitter terminal of the first transistor is connected to a first input of the differential amplifier, and wherein a second source terminal or a second emitter terminal of the second transistor is connected to a second input of the differential amplifier.

6. The differential amplifier according to claim 5, wherein a transconductance of the first transistor and a transconductance of the second transistor are designed to form an input impedance of the differential amplifier of 50 ohm within the scope of manufacturing tolerances.

7. The differential amplifier according to claim 2, wherein a first source terminal or a first emitter terminal of the first transistor and a second source terminal or a second emitter terminal of the second transistor are connected to another resonant circuit of the differential amplifier.

8. The differential amplifier according to claim 7, wherein, for the push-pull signal, the resonance frequency of both resonant circuits is substantially the same.

9. The differential amplifier according to claim 1, wherein the first inductor and the second inductor are formed by substantially symmetric coil windings.

10. The differential amplifier according to claim 1, wherein the first inductor and the second inductor are formed by an integrated coil with the central tap.

11. The differential amplifier according to claim 1, wherein the first inductor and the second inductor are magnetically coupled in such a way that the voltage signal dropping across the first inductor due to a load current and the voltage signal induced by the magnetic field generated by the second inductor are superimposed destructively for common-mode signals and constructively for push-pull signals.

12. The differential amplifier according to claim 1, wherein the differential amplifier is a selective amplifier for amplifying an operating frequency, wherein a resonance of the resonant circuit corresponds to the operating frequency.

13. The differential amplifier according to claim 1, further comprising two cascaded amplifier stages, wherein the first amplifier stage has the first transistor and the second transistor (M2), wherein the second amplifier stage has a third transistor and a fourth transistor (M4), and wherein the first amplifier stage and the second amplifier stage are operated by a substantially identical operating current, which flows through the first amplifier stage and through the second amplifier stage.

14. The differential amplifier according to claim 13, wherein the third transistor and the fourth transistor are each wired into a source circuit or an emitter circuit, wherein a third gate terminal or a third base terminal of the third transistor is connected via a first coupling capacitor to the first drain terminal or to the first collector terminal of the first transistor, and wherein a fourth gate terminal or a fourth base terminal of the fourth transistor is connected via a second coupling capacitor to the second drain terminal or to the second collector terminal of the second transistor.

15. The differential amplifier according to claim 13, further comprising a fifth transistor, which is connected with the third transistor to a first cascode stage, and a sixth transistor, which is connected with the fourth transistor to a second cascode stage.

16. The differential amplifier according to claim 13, further comprising a first neutralizing capacitor, which is connected to the third transistor and the fourth transistor to neutralize the Miller capacitance of the third transistor, and a second neutralizing capacitor, which is connected to the fourth transistor and the third transistor for neutralizing the Miller capacitance of the fourth transistor.

17. The differential amplifier according to claim 16, wherein the first neutralizing capacitor is formed by a fifth transistor, and the second neutralizing capacitor is formed by a sixth transistor.

18. The differential amplifier according to any 13, further comprising an additional resonant circuit that is a load for the second amplifier stage, wherein the additional resonant circuit is connected to the third transistor and the fourth transistor or to the fifth transistor and the sixth transistor to form the second amplifier stage.

19. A radio system for communication, comprising a differential amplifier for amplifying a transmission frequency, the differential amplifier comprising: a first inductor that is magnetically coupled to a second inductor; anda capacitor,wherein the capacitor, the first inductor, and the second inductor are wired into a resonant circuit so that the resonant circuit has a common-mode impedance for a common-mode signal and a push-pull impedance, which is different from the common-mode impedance, for a push-pull signal.

20. The differential amplifier according to claim 12, wherein the operating frequency is 2.4 GHz.

21. The radio system according to claim 19, wherein the transmission frequency is 2.4 GHz.