SU1483589A1 - Control circuit of switching diodes - Google Patents

Abstract

The invention relates to electronics and m. B. used in switching devices. The purpose of the invention is to increase speed. The device contains a paraphase voltage driver 1, two stages 2 and 5 with low output resistance, switching diodes 3 and 4, two sources 6 and 7 of direct current, switch 8, a two-pole power source 9. Thermal compensation divider 14 connected to sources 6 and 7, provides stabilization of current in the temperature range. A shaper 10 bipolar voltage, two three-shoulder dividers 11,12 voltage and a switch 13 are introduced into the device. The absence of the time of the driving circuits increases the speed of the device and makes it comparable in speed with the logic switching devices on the basis of which switches and drivers. 1 il.

Description

The invention relates to electronics and can be used in switching. devices.

The purpose of the invention is the increase in speed.

The drawing shows a circuit diagram of a control device switching diodes

The switching diode control device comprises a paraphase voltage driver 1, the input of which is the device input, a first stage 2 with a low output resistance, the output of which is connected to switching diodes 3 and 4, a second stage 5 with a low output resistance, the first and second constant sources 6 and 7 current, while the first source 6 is connected to the switching diodes 3 and 4 through the first switch 8, one input of which is connected to a non-inverting output, and the other to the inverting output of the driver 1, two olyarny power supply 9. Shaper 10 bipolar voltage, the first input of which is connected to a non-inverting output, and the second to the inverting output of the shaper 1. The first and second three-arm voltage dividers 11 and 12 are connected in parallel to the bipolar source 9, one of their inputs is connected: the first to the inverting output, and the second - to the non-inverting output of the former 1, other inputs are connected: the first three-armed divider 11 to the third input, and the second three-armed divider 12 to the fourth input of the former 10. The second switch 13 is on I am waiting for the second source 7 and switching diodes 3 and 4, one of its inputs is connected to the fourth input and the other to the third input of the driver 10. The inputs of the first and second stages 2 and 5 are connected to the output of the driver 10, and the outputs are interconnected. Thermal compensation divider 14, connected to the first and second sources 6 and 7, provides stabilization of the current in the temperature range.

The control device switching diodes operates as follows.

The input receives pulses of negative polarity or voltage drops. The corresponding voltage levels are set at the inverting and non-inverting outputs of the shaper 1, as a result of which the first and third inputs of the Shaper 10 and other inputs of the first and second switches 8 and 13 are unlocked. Positive switching diodes 3 and 4 are fed from the bipolar source 9 through the second source 7 the voltage that unlocks the switching diode 3 and locks the switching diode 4. The first and second stages 2 and 5 are locked.

When the control voltage level is changed from high to low at the input of the device, the levels at the outputs of the driver 1 are changed, the first and third inputs of the driver 10 are locked and the second and fourth inputs are unlocked, and the other inputs of the first and second switches 8 and 8 are unlocked 13. As a result, a negative voltage is established at the output of the shaper 10, unlocking the first stage 2, and the first source 6 is connected to the switching diodes 6. The discharge of the switching diode 3 increases current through the first stage 2. When the potential at the input and output of the first stage 2 is aligned, it is locked and only the first source 6. is turned on to the switching diodes 3 and 4. The unlocking switching diode 4.

When the control voltage level changes from low to high at the input of the device, the potential at the output of the driver 10 will change, which will open the second stage 5, through which the switching diode 4 will be discharged, the switching diode 3 will be unlocked. The discharge process is performed until the potentials are equalized at the input and output of the second stage 5. After that, the second source 7 is connected to switching diodes 3 and 4. The absence of timing circuits increases the speed of the device and makes it comparable to the speed of logical switching ing devices, on the basis of which the following switches and conditioners.

Claims (1)

Claim A switching diode control device comprising a paraphase voltage generator whose input is the input of the device, a first cascade with a low output resistance, the output of which is connected to a switching diode, a second cascade with a low output resistance, the first and second direct current sources, while the first constant current source current is connected to the switching diode through the first switch, one input of which is connected to the non-inverting output, and the other to the inverting output of the driver paraphase voltage, and a bipolar power source, characterized in that in order to increase speed, a bipolar voltage driver is introduced into it, the first input of which is connected to a non-inverting one, and the second input to the inverting outputs of the paraphase voltage generator, the first and second three-arm voltage dividers included parallel to the bipolar power source, some of whose outputs are connected: the first to the inverting, $ and the second to the non-inverting outputs of the paraphase voltage former I, and the other outputs are connected: the first to the third and second ₁₀ to the fourth inputs of the bipolar voltage driver, the second switch connected between the second DC source and the switching diode, one input to _{15 of} which is connected to the fourth, and the other to the third inputs of the driver bipolar voltage, the outputs of the first and second stages with a low output impedance are connected to 2Q yen with the output of a bipolar voltage shaper, and the inputs of the first and second stages with a low output impedance are connected between at the other.