JPH0744112Y2 - Optical signal receiving circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an optical signal receiving circuit used for remote control, for example.

[Conventional technology]

BACKGROUND ART Remote control is performed in which a signal is transmitted using an optical signal such as infrared light, and the optical signal is detected by a light receiving element to control devices and the like.

[Problems to be solved by the device]

However, when such an optical signal is detected by the light receiving element, when the light receiving element is irradiated with an optical signal having a waveform as shown in FIG. 5A, the detection signal becomes as shown in FIG. Will end up. This is because the light receiving element (1) generally has an internal capacitance (2) shown by a broken line in FIG. 6A.

Therefore, in order to raise the level of such a detection signal,
As shown in FIG. B, it is conceivable to connect the inductance element (3) in parallel with the light receiving element (1). However, if such an inductance element (3) is connected in parallel,
An image is generated by resonance as shown in FIG. 5C,
This will cause a malfunction.

This application has been made in view of the above circumstances, and is intended to enable good optical signal reception with a simple configuration.

[Means for Solving the Problems]

According to the present invention, an inductance element (3) is connected in parallel to a light receiving element (1) to which an optical signal is emitted, and one resistance element (4) is connected in parallel to the light receiving element and the inductance element. And a waveform of an optical signal applied to the light receiving element is extracted by the light receiving element, the inductance element, and the resistance element.

[Action]

According to this, the light receiving element, the inductance element, and the resistance element can extract the waveform of the optical signal without lowering the level or generating an image, and thus the optical signal can be received without the risk of malfunction or the like. .

〔Example〕

In FIG. 1, a light receiving element (1), an internal capacitance (2) and an inductance element (3) are connected in parallel, and a resistance element (4) having an appropriate value is connected in parallel. According to this, the level of the detection signal from the light receiving element (1) is raised by the inductance element (3) with respect to the optical signal having the waveform as shown in FIG. The internal capacitance (2) is discharged by 4) to be dumped, and the original waveform is extracted as shown in FIG.

Further, FIG. 3 shows a configuration when the above-mentioned circuit is applied to an example of a concrete receiving apparatus. In this figure, signals from the light receiving element (1) and the resistance element (4) of the inductance element (3) are transferred to the operational amplifier (6) via the capacitor (5).
Is supplied to. The output signal of the amplifier (6) is supplied to the one-shot multivibrator (8) via the capacitor (7), and the output signal of the multivibrator (8) is further supplied to the one-shot multivibrator (8) via the capacitor (9). Supplied to 10). The output signal of the multivibrator (10) and the output signal of the amplifier (6) are supplied to the AND circuit (11), and the AND output signal is taken out to the output terminal (12). Each peripheral circuit has a basic circuit configuration of an operational amplifier and a one-shot multivibrator. The level is set by the variable resistor (61) connected to the operational amplifier (6) and the amplification degree is set by the variable resistor (62).

Therefore, in this device, for example, the light receiving element (1) is
When an optical signal having a waveform as shown in FIG. A is irradiated, a signal as shown in FIG. B is taken out from the operational amplifier (6). Further, by supplying this signal to the one-shot multivibrators (8) and (10), signals shown in C and D of FIG. Then, the signal from the multivibrator (10) and the signal from the amplifier (6) are supplied to the AND circuit (11), so that a signal as shown in FIG. .

That is, in this device, when the light receiving element (1) is irradiated with an optical signal in which two pulses are formed at a predetermined time interval, the first pulse is supplied to the one-shot multivibrator (8) (10). Then, a mask signal corresponding to the above-mentioned predetermined time interval is formed, and a second pulse is extracted by this mask signal to form an output signal.

In this case, according to the circuit described above, the light receiving element, the inductance element, and the resistance element can extract the waveform of the optical signal without lowering the level or generating an image,
As a result, it is possible to receive an optical signal without the risk of malfunction.

Further, according to the receiving circuit described above, there is almost no time delay of the signal.

In the above-mentioned device, the capacitor (5) and thereafter can be applied to devices having other configurations.

[Effect of device]

According to the present invention, the light receiving element, the inductance element, and the resistance element can extract the waveform of the optical signal without lowering the level or generating an image, thereby receiving the optical signal without the risk of malfunction. I can do it now.

[Brief description of drawings]

FIG. 1 is a block diagram of an example of a receiving circuit according to the present invention, FIG. 2 is a waveform diagram for explaining the same, FIG. 3 is a concrete circuit diagram of an example of a receiving device, and FIG. 4 is a timing for explaining the same. FIG. 5 is a waveform chart for explaining the conventional example, and FIG. 6 is a configuration diagram of the conventional example. (1) is a light receiving element, (2) is an internal capacitance, (3) is an inductance element, and (4) is a resistance element.

Claims (1)

[Scope of utility model registration request] 1. A light receiving element to which an optical signal is applied is connected in parallel with an inductance element, and one resistance element is connected in parallel to the light receiving element and the inductance element. And a resistance element for extracting the waveform of the optical signal applied to the light receiving element, the receiving circuit for the optical signal.