SU540377A1 - Switch - Google Patents

Description

dinei on the entrance. Turning on the buffer amplifier and resistor leads, respectively, to an increase in the speed and voltage of the gate of the MOSFET transistor to the voltage of the power source.

The circuit switch is shown in the drawing.

The switch contains a key M / a transistor, whose gate through a resistor 2 is connected to the negative pole of a constant voltage source 3, a buffer amplifier 4 whose output is connected to the gate of a key transistor, and an input to the midpoint of a series-connected load MOSFET 5 MOS transistor 6, which is controlled by an inverter made on transistors 7 and 5, and transistor 9 is connected in parallel with transistor 8, the gate of which is connected to the negative pole of the source Single DC voltage 3 and the inverter input is connected to the midpoint of a series-connected MOSFET 10 and resistor //. An additional MOS transistor 12 is connected between the control input 13 and the positive pole of the voltage source 14, and its gate is connected to the output of the inverter.

An analog signal is applied to input terminal 15 and removed from output terminal 16.

The switch works as follows.

At a low level of the control signal, the voltage at the output of the inverter will be below the threshold.

The MOSFET transistor 6 is closed and the buffer amplifier transmits to the gate of the key transistor / blocking voltage, which is close to the source voltage 14.

If the output of the bipolar TTL circuit connected to the control input of the switch establishes a high signal level, then as a result of the operation of the additional transistor 12, the conductivity control of which is carried out using the inverter output voltage, the control input voltage is set to where f / igbix - high voltage level at the output of the TTL circuit before connecting to the control input.

As a result, the reliability of the circuit operation increases with significant changes in the output voltage of the DTL or TTL circuits, a positive voltage of the power source, and a threshold voltage.

The positive voltage fyj-p through the open control transistor 6 is supplied to a buffer amplifier operating in a voltage inversion mode.

Resampling of the input capacitance of the key transistor will occur through the open output transistor of the buffer amplifier, while reducing the turn-on time of the key MOS transistor.

In the static state, a voltage close to the voltage of source 3 will be applied to the gate of the key transistor through resistor 2, which leads to a significant decrease in the channel resistance of the open key transistor, thereby reducing the nonlinear distortion coefficient in a given range of switched signals.

Claims (1)

Invention Formula A switch containing a key MOS transistor and a control circuit implemented on an inverter, the input of which is connected to the midpoint of two series-connected MOS resistors connected between the negative pole of the constant voltage source and the control input, and the output connected to the gate of the control MOS transistor, the source of which is connected to the control input of the switch, characterized in that, in order to extend the functionality, increase speed and reliability, it has been added The main MOPtransistor, the source of which is connected to the control input of the switch, and the drain is connected to a positive voltage source, and the gate of this transistor is connected to the inverter output of the control circuit, a buffer amplifier made on the inverter with a dynamic positive voltage feedback, connected to the gate of the key MOS transistor, and the input to the drain of the control MOS transistor, a resistor that is connected between the negative pole of the supply voltage and the output of the buffer amplifier.