SU803007A2 - Readout amplifier for magnetic internal storage - Google Patents

Description

The invention relates to computing and can be used in the design of storage devices. A known readout amplifier according to auth. No. 739644 containing a differentiating element associated with a differential amplifier and a combined discharge-reading bus emitter followers, the differentiating element being designed as a controllable diode bus, whose inputs are connected to the corresponding outputs of the combined bus discharge through the emitter plugs, and the outputs are connected to the direct and inverse inputs of the differential amplifier l. In this amplifier, in order to obtain a significant signal transfer ratio, it is required that the resistors in the current switch circuits of the discharge-read buses are as large as possible. An increase in resistors leads to an increase in power consumption. The aim of the invention is to increase the transmission coefficient of the read signal and thereby increase the noise immunity of the amplifier. This is achieved by the fact that the amplifier contains a current generator, the output of which is connected to the discharge-reading bus and the input of the emitter follower. The introduction of a current generator makes it possible to significantly increase the noise immunity by increasing the signal transmission coefficient with a small increase in the energy consumed. The increase in the transmission coefficient is achieved due to the large dynamic resistance of the current generator to small changes in the voltage in the generator load, which is a bit-read bus. Figure 1 shows the diagram of the amplifier; figure 2 is a graph of pulses. The amplifier contains a discharge-reading bus 1, a current generator 2, address buses 3, a diode 4, an emitter follower 5, resistors 6 and 7, a differentiating element 8, capacitors 9 and 10, a diode bridge 11, a differential stage 12, a resistor 13 and a cyclo 14.

The read amplifier works as follows.

When a discharge current flows through the discharge readout bus 1 and current generator 2, as well as by address-. NOU bus 3, the signal from the core is allocated to generator 2, as it has a high resistance for this signal, and passes through the open diode 4 to the emitter follower 5. Resistors b and 7 are selected so that the current generator tacTb passes through diode 4 providing the opening of diode 4 to pass a signal; From the emitter follower 5, the signal goes to a differentiating element 8 consisting of capacitors 9, 10 and a controlled diode bridge 11. From the diode bridge the signal passes to the differential stage 12, which serves for linear amplification of the signal and its gating.

In the read mode, the discharge current -t begins at time t.j, and ends at time t (see Fig. 2). The pulse at the input of the emitter follower is also shown in figure 2.

It can be seen that a signal is inputted on the voltage pedestal from the discharge current. From the moment t to the moment tj, the pulse goes to the differentiating element 8 and the capacitor 10 is quickly charged to the level of the pedestal voltage, as the diodes of the bridge 11 are open. And the current from the source + E flows through them and through the resistor 13 and diode 14. the time of the differentiating element with open diodes has a value much smaller than the front of the discharge

current. At time t, Strobe 3 is applied, which locks the diodes of the bridge, and therefore the time of the differentiating element becomes large. In the interval from tj to tj, the entire signal passes through the differential element to the input of the differential cascade.

At time tj, Strobe 3 ends and the bridge diodes reopen, interfering with shunt.

The advantages of this amplifier also include the fact that it contains one emitter follower. The second capacitor is directly connected to ground. Usually in different

5 magnetic random-access memory devices, current generators are designed to increase the current stability in the discharge circuit. Therefore, the introduction of a current generator for removing the read signal does not complicate the discharge reading buses.

Claims (1)

1. USSR author's certificate No. 739644, cl. G 11 C 7/02, 24.02.76 (prototype). / 2 eight / Ji HCH IIHC g // -ns:} - Y 0 „Strad 3, J 1b, Y / y ... / V D.V 6,