JPH055466Y2 - - 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 is affected by disturbance light from the outside, which may cause the illuminance of the light incident on the light receiving element to change and cause malfunctions, resulting in operational stability. There was a problem with this.

[Purpose of invention]

In view of the above points, the present invention aims to provide an illuminance sensor module that always accurately outputs a signal of a magnitude according to the illuminance of incident light without being affected by ambient light. There is.

[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 bandpass filter that passes signals in a predetermined frequency band among the output signals from the operational amplifier, and the output of the operational amplifier and the bandpass filter are combined. This is achieved by an illuminance sensor module that outputs the output separately to the outside.

According to this invention, by modulating the incident light whose illuminance is to be measured at a predetermined frequency using a single illuminance sensor module, it is possible to prevent malfunctions due to the influence of external disturbance light. It is possible to always accurately detect the illuminance of incident light, and the entire structure can be made 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 without being affected by external noise.

〔Example〕

Hereinafter, the present invention will be explained in more detail based on the embodiments shown in the drawings.

FIG. 1 shows the circuit configuration of an embodiment of the illuminance sensor module according to the present invention. The illumination sensor module 1 includes a light receiving element 2 and an operational amplifier (operating A second operational amplifier 4 operates as a bandpass filter, and the output signal of the operational amplifier 3 is inputted to a non-inverting input terminal _4a via a resistor _R1 and a coupling capacitor C1. There is.

The second operational amplifier 4 has its inverting input terminal 4b grounded via a resistor _R2 , and
It is connected to its output 4c via a resistor _R3 .
Further, the output 4c is fed back between the resistor _R1 and the capacitor _C1 via the resistor _R4 , and this point is further grounded via the capacitor _C2 , and the non-inverting input terminal 4a is connected to the resistor. By being grounded via _R5 , a bandpass filter F of a known configuration is configured.

An output terminal 5 connected to the output 3a of the operational amplifier 3 receives an output signal having a peak voltage _V1 linearly proportional to the illuminance of the light incident on the light receiving element 2, and is connected to the output 4c of the operational amplifier 4. The output terminal 6 receives only signals in a predetermined frequency band, which are selected by a bandpass filter F such as an operational amplifier 4.

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 configured as described above, and when the light incident on the light receiving element 2 is modulated at a predetermined frequency using, for example, an LED, the size is adjusted according to the illuminance of the incident light. An output signal S modulated at a predetermined frequency is outputted from the output 3a of the operational amplifier 3, and only the components in a predetermined frequency band of the signal S are transmitted to the output 4 of the second operational amplifier 4 by the bandpass filter F having the above configuration.
Output from c.

Thus, at the output terminal 5, an output signal S having a linear peak voltage _V1 corresponding to the illuminance l is obtained, and at the output terminal 6, only the components of the output signal S in a predetermined frequency band are obtained. Furthermore, when external disturbance light other than the light modulated at a predetermined frequency by the LED or the like enters the light receiving element 2, the output signal from the output 3a of the operational amplifier 3 due to the disturbance light is passed through the bandpass filter F. Therefore, it is cut off and no output is output from the output 4c of the operational amplifier 4.

Therefore, according to the above embodiment, even if the light to be detected and the disturbance light are simultaneously incident on the light receiving element 2,
The output signal component due to the disturbance light is blocked by the bandpass filter F, and only the output signal due to the light to be detected is output from the output 4c of the second operational amplifier 4.

As a specific example of the above embodiment, for example, R ₁ =
160kΩ, R ₂ = R ₃ = 47kΩ, R ₄ = 12kΩ, R ₅ =
22kΩ, C ₁ = C ₂ = 0.01μF, the bandpass filter F has a center frequency of 1023Hz and a bandwidth of 924Hz.
Hz to 1074 Hz, and only signals in this frequency band are output from the output 4c of the second operational amplifier 4.

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 addition, in this embodiment, both + and - power supplies are required as power supplies for the operational amplifiers 3 and 4, but by biasing the bandpass filter F, the operational amplifiers 3 and 4 can be driven with only a single power supply. It is also possible to do this, and in this case, the number of external terminals can be reduced.

[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 signal in a predetermined frequency band among the output signals from the operational amplifier. Since the output of the operational amplifier and the output of the bandpass filter are separately output to the outside, a single illuminance sensor module can detect the incident light whose illuminance is to be measured. By modulating it at a predetermined frequency in advance, it is possible to always accurately detect the illuminance of the incident light without malfunctioning due to the influence of external disturbance light, and the entire device is extremely compact. can be done.

Further, 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 without being affected by external noise.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of an embodiment of the illuminance sensor module according to the present invention. 1... illuminance sensor module, 2... light receiving element, 3, 4... operational amplifier, 5, 6... output terminal, F... band pass filter.

Claims (1)

[Scope of utility model registration request] It includes a photoelectric conversion element, an operational amplifier that amplifies the output from the photoelectric conversion element, and a bandpass filter that passes signals in a predetermined frequency band among the output signals from the operational amplifier, and the output of the operational amplifier An illuminance sensor module characterized in that the output from the bandpass filter and the output from the bandpass filter are individually output to the outside.