SU924824A1 - Differential amplifier - Google Patents

Description

(54) DIFFERENTIAL AMPLIFIER

Claims (1)

The invention relates to radio engineering and communication and may be used in various analog and analog digital devices. A differential amplifier (DU) is known, which contains the first and second input transistors, the emitters of which are connected to the emitters of output transistors, a current follower whose input is connected to the collector of the first input transistor, and the output is connected via a matching two-terminal network with integrated output transistors and a current supply the first nonlinear controlled current generator, the input of which is connected to the base of the second input transistor, and the output connected to the output of the current follower, the second nonlinear pack equal current generator, the input of which is connected with the base of the first input transistor 1. However, the well-known differential amplifier has a low linearity characteristics. The purpose of the invention is to increase the linearity of a differential amplifier without degrading its static characteristics. For this, in the differential amplifier, the collector of the second input transistor is connected to the input of the additional current repeater, the output of the additional current repeater is connected to the output of the second nonlinear controlled current generator and connected to the integrated bases of the output transistors through an additional matching two-pole. The drawing shows a printable electric circuit of a differential amplifier. Differential amplifier contains input transistors 1 n 2, current-supply two-pole 3, output transistors 4 and 5, -emitters of which are connected respectively with the emitters of transistors 2 n 1, and the bases are combined and connected to the current-generating two-terminal 3, repeaters bn 7 current, inputs Kotorek connected respectively with collectors of transistors 1 and 2, matching two-port 8 and 9, with the output of the repeater 6 current through the two-port 8, and the output of the repeater 7 current through the two-pole 9 connected to the bases of the output transistors 4 and B, nonlinear channeling emye generators 10 and 11 are current inputs of which are respectively connected with bases vhodnk transistors 1 and 2, the output current of the generator 10 is connected to the output of the current follower 7 and the current generator 11 output - to the output current mirror differential amplifier 6 operates as follows. . In the initial state, the voltages on the two-port 8 and 9 are chosen close to one volt. In this case, the transistors of nonlinear controlled 1O generators and 11 currents operate at zero voltages at the emitter-base transitions. Consequently, the instability of the current of the two-port 3 and temperature shifts in the characteristics of the input 1 and 2 and output 4 and 5 transistors will not lead to the transition of the operating point of the transistors of the generators Yu and 11 of the current to active mode. Thus, 9TI transistors do not affect the drift parameters of the base stage. Wiring on matching two-port networks 8 and 9 depends on the input signal level. With negative voltage increments at the base of transistor 1 relative to the base of transistor 2, of the order of 10O mV, the emitter currents of the transistors of the left arm of the remote controller (1.5) decrease by more than 8-10 times, and the emitter currents of the transistors of the right arm increase approximately to the current level of the current-supplying two-pole device 3. As a result, the voltage drop across the two-terminal device 9 increases. Thus, due to the nonlinear dependence of the control voltage of the nonlinear current generators 10 and 11, these Generators transistors from the current mode a cutoff in the active-NSh mode when the input signal amplitude 1OO - ND mV. Consequently, the dead zone on the pass characteristic is practically absent and the pass characteristic has the form of a straight line. In a differential amplifier, the relationship between the deadband and the stability of the mode, i.e. with the same stability, which is ensured by switching to the cut-off mode of the transistors of current generators 10 and 11, the amplifier has a better linearity of the pass characteristics and, as a result, a higher speed in the large signal mode compared to the known one. The invention has a differential amplifier containing first and second input transistors, the emitters of which are connected to the emitters of output transistors, a current follower, the input of which is connected to the collector of the first input transistor, and the output connected through a matching two-terminal network with integrated output transistors and a current-generating two-terminal network, the first non-polar &; th controlled current generator, the input of which is connected to the base of the second input transistor, and the output connected to the output of the current repeater, the second linear controlled current generator, whose input is connected to the base of the first input transistor, characterized in that, in order to increase linearity, the collector of the second input transistor is connected to the input of the additional current repeater, and the output of the additional current follower is connected to the output of the second nonlinear controlled the current generator and through an additional matching two-port connected to the combined bases of the output transistors. Sources of information taken into account during the examination 1. USSR author's certificate N 67864О, cl. H O3F 3/45, 1974.