JPH055465Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an illuminance sensor module that outputs a signal having a magnitude corresponding to the illuminance of incident light.

[Conventional technology and problems]

Conventionally, illuminance sensor modules are known in which, for example, a light-receiving element and necessary chip parts are mounted on a substrate, bonded, and then packaged with a can seal or resin mold. By linearly amplifying the signal output by the light receiving element according to the illuminance using an operational amplifier,
The illuminance of incident light is linearly converted into voltage.

However, the illuminance sensor module configured in this way does not have a switching function, and when it is desired to perform a switching operation at a predetermined illuminance level, the output voltage of the illuminance sensor module is controlled by, for example, a comparator. Additional circuitry for comparison with a reference voltage is required, which increases the overall size and increases costs.

Apart from this, there are also known illuminance sensor modules that only have a switching function, but in all of these, the illuminance level at which the switching is performed is not accurate, and it is also impossible to adjust it to an arbitrary value. Ta.

[Purpose of invention]

In view of the above points, the present invention aims to provide an illuminance sensor module that outputs a signal whose size corresponds to the illuminance of incident light and performs a switching operation at a predetermined illuminance level. .

[Means and actions for solving problems]

According to the present invention, the above object includes a photoelectric conversion element,
It includes an operational amplifier that amplifies the output from the photoelectric conversion element, and a comparator that performs a switching operation by comparing the output from the operational amplifier with a reference voltage. This is achieved by an illuminance sensor module that individually outputs to the outside.

According to this invention, a single illuminance sensor module can obtain an output signal linearly proportional to the illuminance of light incident on the light-receiving element as in the conventional case, and also perform a switching operation based on a predetermined illuminance. This makes it possible to make the entire structure extremely compact. Furthermore, since all the components constituting the circuit can be mounted on one substrate, minute signals from the light receiving element can be accurately amplified and switched without being affected by external nozzles. Furthermore, if the switching operation of the comparator is made to have hysteresis characteristics, malfunctions due to minute fluctuations in the output voltage of the operational amplifier can be prevented.

〔Example〕

The present invention will be described in more detail below with reference to the embodiments shown in the drawings.

FIG. 1 shows a circuit configuration of an embodiment of an illuminance sensor module according to the present invention. The illuminance sensor module 1 comprises a light receiving element 2, an operational amplifier (op-amp) 3 which linearly amplifies the output of the light receiving element 2, an output voltage _V1 of the operational amplifier 3 being input to an inverting input terminal 4a, and a reference voltage _V0 divided by resistors _R1 and _R2 from a constant voltage power supply _Vcc being input to a non-inverting input terminal 4b.
A second operational amplifier 4 acting as a comparator
An output terminal 5 connected to the output 3a of the operational amplifier 3 outputs an output signal of a voltage _V1 which is linearly proportional to the illuminance of the light incident on the light receiving element 2, and an output 4c of the operational amplifier 4 outputs a
The output terminal 6 connected to the operational amplifier 4 outputs an output signal _V2 ("L") as a result of comparison with the reference voltage _V0 .
or "H").

All of the above components are mounted on one substrate and formed as one package by can seal or resin molding. In this case, for example, by using one operational amplifier IC with two circuits as operational amplifiers 3 and 4, and by mounting chip components such as the light receiving element 2, operational amplifier, and resistor on both sides of the board, the entire package can be made smaller. obtain.

The embodiment of the illuminance sensor module according to the present invention is constructed as described above, and when the illuminance l of the light incident on the light receiving element 2 gradually increases, the illuminance l increases as shown in the graph of FIG. According to the increase,
The output voltage V ₁ of the operational amplifier 3 gradually increases, and the output voltage V ₂ of the operational amplifier 4 increases as the output voltage V 1 of the operational amplifier 3 is input to the inverting input terminal of the operational amplifier 4.
output voltage V ₁ is the preset reference voltage
V ₀ and if V ₁ < V ₀ then op amp 4
The output V ₂ of the operational amplifier 4 is "H", but when the output voltage V ₁ rises and becomes V ₁ > V ₀ , the output V ₂ of the operational amplifier 4 becomes "L", and a switching operation is performed at the output terminal 6. .

Thus, the output terminal 5 receives a linear output voltage V ₁ corresponding to the illuminance l, and the output terminal 6 receives an output voltage V 1 that is switched at a predetermined illuminance l ₀ .
V ₂ is obtained. Furthermore, since the minute light-receiving signal from the light-receiving element 2 is amplified on the same substrate or causes a switching operation, there are advantages such as less influence by external noise.

In the above embodiment, for example, by setting the reference voltage V ₀ when V ₁ increases and the reference voltage V ₀ ' when V ₁ decreases, as shown in FIG. When the illuminance l increases, the output _V2 of the operational amplifier 4 changes from "H" to "L" at the illuminance l ₁ .
However, when the illuminance l decreases,
The output V ₂ is switched from "L" to "H" at illuminance l ₂ , and by providing a hysteresis characteristic to the switching operation in this way, malfunctions due to minute fluctuations in the output voltage V ₁ from the operational amplifier 3 can be prevented. can be effectively prevented. Furthermore, the reference voltage
V ₀ can be adjusted to any voltage by appropriately selecting the constants of resistors R ₁ and R ₂ .

Further, by inserting an inverter or the like immediately before the output terminal 6, it is also possible to easily perform reverse operation switching.

[Effect of idea]

As described above, the illuminance sensor module of the present invention includes a photoelectric conversion element, an operational amplifier that amplifies the output from the photoelectric conversion element, and a comparison between the output from the operational amplifier and the reference voltage. The output of the operational amplifier and the output of the comparator are configured to be output separately to the outside, so a single illuminance sensor module can be used to control the light receiving element as in the past. An output signal linearly proportional to the illuminance of the incident light can be obtained, and a switching operation can be performed based on a predetermined illuminance, and the whole can be made extremely compact.

Furthermore, according to the present invention, all the components constituting the circuit can be mounted on one substrate, so that minute signals from the light receiving element can be accurately amplified and switched without being affected by external noise.

Furthermore, if the switching operation of the comparator has hysteresis characteristics, malfunctions due to minute fluctuations in the output voltage of the operational amplifier can be prevented.

[Brief explanation of the drawing]

Fig. 1 is a circuit diagram of one embodiment of the illumination sensor module according to the present invention, Fig. 2 is a graph showing the operating characteristics of the embodiment of Fig. 1, and Fig. 3 is a graph showing the operating characteristics of another embodiment. It is. 1... illuminance sensor module, 2... light receiving element, 3, 4... operational amplifier, 5, 6... output terminal.

Claims (1)

[Claims for Utility Model Registration] (1) A photoelectric conversion element, an operational amplifier that amplifies the output from the photoelectric conversion element, and a comparator that performs a switching operation by comparing the output from the operational amplifier with a reference voltage. An illuminance sensor module comprising: an output of the operational amplifier and an output of the comparator are separately output to the outside. (2) The illuminance sensor module according to claim 1, wherein the switching operation of the comparator has a hysteresis characteristic.