Double-port input control circuit with Schmidt property and capable of suppressing temperature drift

A technology of control circuit and suppression circuit, which is applied to the network using active components, the improvement of the network in order to reduce the influence of temperature changes, and the direction of electrical components, which can solve the problem of difficulty in miniaturization and integration, and no Schmidt input characteristics , Two-port input requirements and other issues, to achieve good integration, high reliability, low temperature drift effect

Active Publication Date: 2012-04-11
BEIJING KEYTONE ELECTRONICS RELAY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] Aiming at the above-mentioned deficiencies in the prior art, the present invention provides a novel two-port input control circuit with Schmitt characteristics for suppressing temperature drift. The control circuit only uses NPN transistors,

Method used

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  • Double-port input control circuit with Schmidt property and capable of suppressing temperature drift
  • Double-port input control circuit with Schmidt property and capable of suppressing temperature drift

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Experimental program
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Embodiment Construction

[0028] The two-port input control circuit resistant to temperature drift as in the present invention is a temperature suppression circuit with feedback. See the schematic diagram of the control circuit figure 1 .

[0029] The two-port input control circuit includes a pair of input terminals and a pair of output terminals, which are a first input terminal 11 and a second input terminal 12 , and a first output terminal 24 and a second output terminal 25 respectively.

[0030] The connection relationship of the two-port input control circuit is as follows:

[0031] The first input end 11 is connected to the first end of the first voltage dividing resistor 13 , the first end of the second voltage dividing resistor 14 , the first end of the second current limiting resistor 19 and the emitter of the fourth transistor 23 of the PNP type. pole.

[0032] The second input terminal 12 is directly connected to the second output terminal 25 (both have the same potential), and is connect...

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PUM

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Abstract

The invention discloses a novel double-port input control circuit with a temperature drift suppressing property and a Schmidt property. The circuit consists of a temperature drift suppressing circuit and a window circuit and can be used in the internal or external part of a transformer isolated or photo-isolated solid relay as a control drive of the preceding stage. With the mutual suppression of a triode, the control circuit realizes the temperature drift resisting function through utilizing a current feedback function and ensures connection of the solid relay and relative stable of the closed threshold voltage; meanwhile, the control circuit realizes overturning of the output voltage through utilizing the reversal function of the triode; and the control circuit realizes the window property, namely the Schmidt property of the connected voltage and turnoff voltage of the solid relay through the negative feedback formed by a resistor. Compared with the traditional temperature suppression circuit, the input function of the Schmidt property is increased, so that the problem that the PN junction voltage input in a control apparatus is changed with the change of the environment temperature is solved, and stable input and reliable application of the solid relay in the total temperature operating scope are ensured.

Description

technical field [0001] The present invention relates to a control circuit, and more particularly, to a two-port input control circuit with Schmitt characteristics restraining temperature drift, which can be used in the control circuit of solid-state relays. Background technique [0002] Usually two-port input, transformer-isolated solid-state relays use transistors as input control devices. The disadvantage of this device is that it is very sensitive to ambient temperature. In a wide operating temperature range (such as -55 ° C ~ 125 ° C), it may cause device control failure, and even lead to its destruction in severe cases. Therefore, a variety of circuits for suppressing temperature drift have been developed in the prior art to compensate or suppress such drift to ensure effective control within the full operating temperature range. [0003] Among the temperature drift suppression circuits that have been applied so far, some use temperature sensitive devices or temperatur...

Claims

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Application Information

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IPC IPC(8): H03H11/54H03H11/00
Inventor 闫军政吴维刚王庚林屈建江高晓琳赖耀康李燕
Owner BEIJING KEYTONE ELECTRONICS RELAY
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