SU843164A1 - Low frequency amplifier - Google Patents

Description

The invention relates to radio engineering, in particular, can be used in low-frequency amplifiers in microelectronic design. A device is known. containing a series-connected input differential cascade on two differential pairs of transistors of different conductivity types, the emitters of which are pairwise connected to each other, the first current generator, the output of which is connected to the connected transistors of the second differential pair ,. 4ve dynamic load., Output push-pull cascade on transistors of one type of conductivity, second current generator and thermostabilization resistor Zsschi and {llwM The disadvantages of a known amplifier include the relatively low current stability of the output stage in current-cut mode. The purpose of the invention is to increase the stability of the quiescent current of the output stage in the current-cut mode. The goal is achieved by the fact that a low-frequency amplifier containing a two-stroke output stage has two dynamic loads and differential pairs of transistors of different conductivity types, the bases of one differential pair are connected to the amplifier inputs, the bases of the second are connected together and connected to the current generator, and the emitters of the transistors the respective arms of differential pairs are interconnected, a third and a fourth dynamic loads are introduced, with the inputs of the first and second dynamic loads Connected to the collectors of the transistors of the first differential pair, the inputs of the third and fourth. respectively - with the collectors of the second differential pair, the outputs of the first and fourth dynamic loads are connected to one of the inputs of the push-pull output stage, and the output of the second and third with another input of this stage, and the collectors transistors of the second differential pair are interconnected. The drawing shows the functional circuit of the low-frequency amplifier. The low frequency amplifier contains transistors 1, 2 and 3, 4 differential pairs, dynamic loads 5-8, current generator 9 and output push-pull stage 10. The bases of transistors 1 and 2 are low amplifier inputs

frequencies. The bases of transistors 3 and 4 are connected together and connected to a current generator 9.

The inputs of the dynamic loads 5 and 6 are connected respectively to the collectors of transistors 1 and 2, and the inputs of dynamic loads-7 and 8 to the connected collectors of transistors 3 and 4 together. The outputs of dynamic loads 5 and 8 are connected together and connected to the one-way input push-pull of each kada 10, and outputs b and 7 of their dynamic loads are connected to another input, output push-pull stage 10.

When the same bias voltage is applied to the inputs of transistors 1 and 2 and when the static characteristics of the differential pairs are identical and the dynamic loads 5-8, the collector currents of transistors 1 and 2 are equal. Dynamic loads 5 and 6 mirror the collector currents of transistors 1 and 2. At 5K time, dynamic loads 7 and 8 mirror the half-sum of collector currents of transistors 3 and 4. Thus, the shoulders of the two-stroke output stage 10 are excited by generators of differential currents formed by the outputs dynamic loads 5, 8 and 6, 7. If the coefficients of the current amplification of the shoulders of the output push-pull contact: kada 10 are equal, the quiescent currents are constant and tend to zero at various influences.

Upon receipt of the anti-phase signal amplifier inputs, the output currents of dynamic loads 7 and 8 remain constant, and the output currents of dynamic loads 5 and 6 change in accordance with the input effect. The output currents of the shoulders of the push-pull cascade 10 vary in accordance with the differential currents of the dynamic loads 5, 8 and b, 7c by cutting off the current of the output stage under the condition 1y S tg, 1 I- ,,

The proposed low-frequency amplifier has a high stability to the effects of external factors.

Formulao inventions

A low-frequency amplifier containing a push-pull output stage, two dynamic loads and two differential pairs of transistors of different conduction types, the bases of one differential pair are connected to the inputs of the amplifier, the bases of the second are connected together and connected to the current generator, and the emitters of the transistors of the corresponding differential pairs are interconnected, distinguished by the fact that, in order to increase the stability of the quiescent current of the cascade in the current cut-off mode, a third and fourth are entered into it the dynamic loads, the inputs of the first and second dynamic loads are connected to the collectors of the transistors of the first differential pair, the inputs of the third and fourth, respectively, to the collectors of the second differential pair, the outputs of the first and fourth dynamic loads are connected to one of the inputs of the two-stroke output stage, and the output of the second and the third one is connected to another input of this kaksod, and the collectors of the transistors of the second differential pair are interconnected.

Sources of information taken into account in the examination

1.Zinear Integrated circuit, D.A.T.A Book, Autum, 1976, edition 16.

2.Integrated Circuits, Harris Semiconductor 1975, vol 1, XR2208M (prototype).

“+ F /

0- “

Claims (1)

Claim A low-frequency amplifier containing a push-pull output stage, two dynamic loads and two differential pairs of transistors of different conductivity types, the bases of one differential pair connected to the inputs of the amplifier, the bases of the second connected together and connected to a current generator, while the emitters of the transistors of the corresponding arms of the differential pairs interconnected, characterized in that, in order to increase the stability of the quiescent current of the advantageous cascade in the mode of operation with current cutoff, the third and fourth are introduced into it dynamic loads, with the inputs of the first and second .35 transistor collectors of the first differential couple, the inputs of the third and fourth respectively with the collectors of the second differential pair, the outputs of the first and fourth dynamic loads are connected to one of the inputs of the push-pull output stage, and the output of the second and third are connected to the other input of this cascade, and the collectors of the transistors of the second differential pair are interconnected.