DE2209898A1 - CIRCUIT ARRANGEMENT FOR A PHASE INVERTING STAGE - Google Patents

Description

Circuit arrangement for a phase reversing stage The invention relates to a circuit arrangement for a phase inversion stage.

Phase reversal stages are used either for simple phase reversal a signal or to generate two phase shifted by? 800 with respect to each other Signals, i.e. two push-pull signals from a single-ended input signal. You can do this, for example, with the help of a differential amplifier, which generally consists of two transistors connected together at their emitters and have a common emitter resistance. For objectives type of application of a differential amplifier is the input of one transistor at reference potential placed; the input of the other transistor carries the input signal. At the collectors two push-pull output signals can then be picked up from the two transistors will. Both transistors are operated in emitter circuit. That means, that distortions have to be accepted.

The present invention is based on the object of a circuit arrangement to be specified for a phase reversal stage; which works with as little distortion as possible.

To solve this problem, a circuit arrangement for a Phase reversal stage indicated, which is characterized according to the invention in that the bases of two transistors with each other are connected that the Emitter of the first transistor with a source for a Singangssignal and over an ohmic resistor is connected to the reference potential that the emitter of the second transistor via a capacitor and in parallel with it via an ohmic one Resistance is connected to the reference potential that supply potentials to the Collectors and bases are connected and that the collector of the second transistor leads to an output for an output signal whose phase is that of the input signal is opposite.

A circuit arrangement according to the invention generates from an input signal an output signal that is exactly 180 ° out of phase with the input signal. This results in a differential amplifier compared to a phase reversal stage much less distortion. In the event that the output signal is a a counter-clocked output signal is required for this, is the collector of the first transistor connected to a corresponding output.

This output drives an output signal of the same size as that taken from the collector number of the second transistor number and with the same phase as that Input signal.

Based on an embodiment shown in the drawing the invention will be explained in more detail.

The base of an npn transistor 1 is connected to the base of an npn transistor 2 and leads via an ohmic resistor 3 to a terminal with a positive supply potential. The collectors of both transistors lead eeils via an ohmic resistor 4 or 5 also to a terminal with a positive one Supply potential. The emitter of the transistor 1 is via a capacitor 6 and in series for this purpose via an ohmic resistor 7 with a generator 8 connected, the ohmic resistance 7 representing the generator internal resistance. In addition, the emitter of the transistor 1 leads through an ohmic resistor 9 to Reference potential. The emitter of transistor 2 is via an ohmic resistor 1o and connected in parallel to the reference potential via a capacitor 11. The collector of the transtior 1 leads via a capacitor 12 to an output 13; the collector of the transistor 2 via a capacitor 14 to an output 15.

The emitter resistors 9 and 1o determine together with the bias voltages the direct emitter currents of the transistors? and 2.

Via the capacitor 6 is from the generator 8 to the emitter of the transistor 1 applied a input signal. This generates an alternating emitter current in transistor 1 and a base alternating current. The base alternating current of the transistor 1 controls the Base of transistor 2. The base alternating currents of both transistors 1 and 2 are same size, but of opposite phase. Because of this, the collector has alternating current of transistor 2 has an opposite phase to that of the alternating emitter current of the Transistor 1. The collector current of transistor 1 has the same phase as the alternating emitter current of the transistor 1. The emitter of the transistor 2 is through the capacitor 11 for the signal frequency grounded.

Output signals are the same at the two outputs 13 and 15 Size available. The output signal of the output 13 is in phase with the Input signal that is applied to the emitter of transistor 1 via capacitor 6 is; the output signal of the output 15, on the other hand, is phase shifted by 180 °. It a push-pull output signal is thus available at outputs 15 and 15.

2 claims 1 figure

Claims (2)

Claims Di. Circuit arrangement for a phase reversal stage, d a d u r c h e k e n n z e 1 c h n e t that the bases of two transistors (1,2) are interconnected that the emitter of the eraten Transittors (1) with a Source (8) for an input signal and via an ohmic resistor (9) with the Reference potential is connected that the emitter of the second transistor (2) over a capacitor (11) and in parallel with it via an ohmic resistor (lo) is connected to the reference potential that supply potentials at the collectors and bases are connected and that the collector of the second transistor (2) to an output (15) for an output signal whose phase is that of the input signal - is opposite. 2. Circuit arrangement according to claim 1, d a d u r c h g e -k e n n z e 1 c h n e t that the collector of the first transistor (1) becomes an output (13) results in an output signal that is in phase with the input signal.