SU389627A1 - BI5LIS.? T - Google Patents

Description

one

The invention relates to electronics. The switch can be used in computing and analyzing devices.

Known multistage switch on MOS transistors, containing the bus input signals connected to the sources of the MOSFET transistors of the first stage, the drains of which are connected to the sources of the MOS transistors of the second stage. The load resistor and the output signal bus are connected to the sources of the latter.

The purpose of the invention is to increase the reliability of the device.

The proposed switch is characterized in that a summing operational amplifier and an unlocking voltage source are inputted in such a way that one of the inputs of the operational amplifier is connected to the output signal bus, the other is connected to the unlocking signal source, and the output is through resistors to the MOS transistors .

The drawing shows a circuit diagram of a device for a particular case when the number of stages is two, and the number of channels is four.

Bus / -4 input signals connected to the origins of the key MOS transistors 5-8, forming the first stage. Their drains are connected to the sources of MOS transistors 9 and 10, forming the second stage. A load resistor 11 is connected to the drain of the transistors 5 and / O and the output signal bus 12. One input of the summing operational amplifier 13 is connected to the source voltage 14, and the other is connected to the bus 12. The blocking voltage source 15 is connected to the common switching keys T04Kofi 16 -21 locking voltages, the other contacts of which are connected to the gates of the MOS transistors. One ends of the decoupling resistors 22-27 are connected to the gates of the MOPtransistors 5-10, the others to the common bus connected to the output of the operational amplifier 13.

Transistors 8 and 10 are opened by unlocking voltage supplied from amplifier 13 through resistors 25 and 27. Blocking voltage from generator 15 is disconnected from them by opening keys 19 and 21. Transistors 5, 6, 7 and 9 are locked by voltage from generator 15, so As through the keys 16, 17, 18 and 20, the output of the generator is connected to their gates. The input voltage f / Bx from bus.n 4 passes to bus 12, from which it enters the input of amplifier 13. At the same time, the voltage between the gate and the source of open MOS-trans: Istor01B 8 and 10 acts gate ua and voltage at source ua.

3 (, 4 + BX),

where t / 14 is the constant voltage (opening) from source 14.

Since the public key on the MOS transistor has a very small voltage between the drain and the source, Ui is approximately equal to f / Bx- Therefore t / 3 Ne, and the resistance of the MOS transistor is Gsi and No. 3g and its variable is non-linear. Hsi is zero.

Thus, the error is eliminated due to the nonlinear dependence of the resistance of the MOS transistor Gc on the input voltage and it becomes possible to use a multi-stage switch on MOS transistors in precise computational, measuring, and analyzing devices.

4 Subject of the Invention

A multistage switch on MOPtransistors, containing input signal buses connected to the sources of the first stage MOPtransistors, whose drains are connected to the sources of the second stage MOS transistors, to the sources of which a load resistor and an output signal bus are connected, which, in order to increase reliability, it has a summed operational amplifier and a source of unlocking “Apr.” so that one of the inputs of the amplifier is connected to the output signals, the other is connected to the source of the enable signals and the output, via resistors, to the MOS transistor gates;