SU1458716A1 - Photoelectric transducer - Google Patents

Description

<p> The invention relates to light emission sensors. The purpose of the invention is to improve the noise immunity of the sensor in relation to the background light constant or slowly </ p> </ li> </ ul> <p> 1 </ p> <p> The invention relates to light emission sensors. </ p> <p> The purpose of the invention is to improve the noise immunity of a photoelectric sensor with respect to background illumination of constant or slowly varying intensity while maintaining its sensitivity to pulsed radiation. </ p> <p> The drawing shows a circuit diagram of a photoelectric sensor. </ p> <p> The photoelectric sensor contains an operational amplifier 1, a photodiode 2, a low-pass filter 3 and a resistor 4. .. </ p> <p> varying intensity. Reducing the sensitivity to background illumination of a constant or slowly varying intensity while maintaining the sensitivity to pulsed radiation is achieved by connecting one photodiode output to the inverting input of an operational amplifier, the second photodiode output through a low-pass filter to the output of the operational amplifier, and also covering the operational amplifier with negative feedback using a resistor, with this non-inverting input of the operational amplifier is connected to a common power supply bus. In this case, the gain of the operational amplifier is not the same for the useful pulse signal and the background illumination. 1 il. </ P> <p> 2 </ p> <p> The photoelectric sensor works as follows. </ p> <p> When the photodiode 2 is dark, the voltage at the output of the operational amplifier 1 is almost equal to the voltage at its non-inverting input, i.e. the potential of the common bus, as in DC, the operational amplifier 1 operates with low gain, close to unity. If the photodiode 2 is exposed to radiation of a constant or slowly varying intensity (the frequency of the input signal lies in the passband of the low-pass filter 3), then the voltage from the output of the operational amplifier 1 through filter 3 is turned on and </ p> <p> $ C 1458716 </ p> <p> 3 </ p> <p> 1458716 </ p> <p> 4 </ p> <p> the forward-facing photodiode 2 is transmitted practically without attenuation to the inverting input of the operational amplifier 1, which in this case will work with a gain close to unity. </ p> <p> But if photodiode 2 will be affected by pulsed radiation with a frequency lying in the retention band ι of filter 3, then in this case the gain of the operational amplifier 1 will be determined by the value of resistor 4 and can be quite large. With simultaneous exposure of 1 to the photodiode 2 of pulsed radiation and background illumination of a constant or slowly varying intensity, an amplified pulsed signal appears at the output of operational amplifier 1, 2 while the constant component of the voltage at its output relative to the common power supply bus is close to zero. </ p> <p> The proposed photoelectric <sup> 2 </ sup> sensor can be used as part of photoelectric relays, sensors </ p> <p> counting devices and other devices </ p> <p> intended to work in the conditions of exposure to background light. </ p>

Claims (1)

Claim A photoelectric sensor containing a photodiode and an operational amplifier, the inverting input of which is connected to the cathode of the photodiode, a non-er-rotating input with a common power supply bus, and the output with a single output resistor, characterized in that in relation to the background light of a constant or slowly varying intensity, a low-pass filter is inserted in it, the input of which is connected to the output of the operational amplifier, and the output of the filter is connected to the photodiode anode, the second output of the resistor it is uniform with the inverting entrance of the operational amplifier.