SU712944A1 - Arrangement for normalizing signals of a sensor - Google Patents

Description

one

The invention relates to a pulse technique and can be used in control systems of production mechanisms for converting signals from sensors, command devices and other devices into signals with the levels necessary for operating the control system microchips.

Devices for normalizing signals are known, which contain a threshold element connected via an optocoupler with an input circuit. A subunit of position sigals normalization can be used only for normalization of DC signals with a definitely-permissible ripple. It is not suitable for normalizing AC signals and pulsating signals.

The closest in technical essence to the invention is a device for normalizing signals, comprising a rectifier connected in series through an optocoupler with a smoothing filter and a threshold element.

A disadvantage of the known device is its inertia due to the presence of the smoothing capacitance of the filter, which results in a delay in the transmission of the sensor signal to the normal element and, consequently, a delay in switching on and off the normalized loop.

signal relative to the sensor signal.

The aim of the invention is to increase the speed of the xh-pattern.

The goal is achieved by the fact that a device for normalizing sensor signals, containing an transmitting channel, including a rectifier, whose input is connected to the output of the sensor, and the output through an oitron is connected to the external element, is provided with an additional transmitting channel and a D-trigger, to the information input of which is connected the transmitting channel, and to the clock input the output of the additional channel, the input of which is connected to the input} of the sensor.

C and the drawing shows a block diagram of the device.

A device for normalizing the signals of sensor 1 contains a transmitting channel 2 that includes a rectifier 3, whose input, which is connected to the channel input, is connected via the optocoupler 4 to the threshold element 5. The output of the threshold element 5, which serves as the channel output, is connected to the information input of the D-trigger 6. The output of the additional transmission channel 7, identical to channel 2, i.e. the rectifier 8, the ontron 9 and the threshold element 10, is connected to the clock input of the D-flip-flop 6, ie, the ontron 9 and the threshold element 7 are connected to the input of the sensor 1.

The device works as follows.

AC power supply is supplied to the input of sensor 1, as well as to the input of transmitting channel 7, in which it rectifies and is transmitted to threshold element 10 transmitting a pulsating voltage to the clock pulses fed to the clock input of D-trigger 6. At the same time, the output the D-flip-flop signal 6 will be determined by the information arriving at its information input, i.e., with the sensor 1 turned off, the direct output of the D-flip-flop 6 will be a logical zero, with the sensor turned on 1-logical one. Thus, any change in the state of sensor 1 during the operation of the clock signal causes a corresponding change in the output signal of D-flip-flop 6, which forms a normalized logic signal.

For normal operation of the device, i.e. in order for the output to be generated

the signal does not affect the short-term dips to zero pulsating input voltage, the trigger voltage of the threshold element 10 should be greater than the threshold element 5.

Thus, elimination of the smoothing filter allows the device to increase its speed for normalizing the sensor signals at least up to a quarter of the supply voltage period.

Claims (1)

Invention Formula A device for normalizing sensor signals, comprising a transmitting channel, including a rectifier, the input of which is connected to the output of the sensor, and the output via an optocoupler is connected to a normal element, characterized in that, in order to improve performance, it is equipped with an additional transmitting channel and a D-trigger , to the informational input of which the output of the transmitting channel is connected, and to the clocking input - the output of the additional channel, the input of which is connected to the input of the sensor.