JP4862862B2 - Electromagnetic wave sensing device - Google Patents

Description

  The present invention relates to an electromagnetic wave sensing device, and more particularly to an electromagnetic wave sensing device that has at least two sensing units and senses ambient light and electromagnetic waves in a specific wavelength range.

  2. Description of the Related Art An electromagnetic wave sensing device in a conventional technology, for example, a light sensing device converts light energy that can be received by a sensing unit, for example, a photodiode into an electronic signal, that is, a photocurrent, by the photovoltaic effect.

  Optical sensing devices are widely applied to detect ambient light, and ambient light sensing circuit is applied to the backlight panel of liquid crystal display, mainly the brightness of ambient light is a display effect when viewing the contents of the display The sensing module detects the brightness of the ambient light by the sensing circuit, and the backlight module that displays the display changes the brightness, and the backlight module does not affect the display effect. For example, in an outdoor environment where the ambient light is relatively bright, the display on the mobile phone can generate a brighter backlight, allowing the user to see the contents clearly while the ambient light is relatively In a dark room, the backlight generates lower brightness and achieves the purpose of power saving.

  For example, Patent Document 1 published on October 6, 2005, which is a related technology, shows a sensing device mounted in a portable device. Among them, a plurality of types of sensors are posted. For example, the sensing device 10 includes a plurality of sensors, for example, a light sensor 11 and a motion sensor 12, as shown in FIG. The motion sensor 12 detects an approaching object and its movement. In this application, the sensing device 10 matches the signals and functions of each sensing unit with one matching circuit 13, provides a user interface (not shown), and sets different sensing functions on the other main hosts. However, each different sensor has a different interface and control environment.

  Further, for example, a matching sensor posted in Patent Document 2 published on April 19, 2007 includes a matching sensing device 20 for detecting ambient light and moving objects, as shown in FIG. The sensing device 20 includes an emitter 21 and a sensor 22 that detects electromagnetic waves at the same time.

  The sensing device 20 has a function for detecting ambient light, and is further coupled to a main host destination microcontroller 23. The microcontroller 23 is for switching the mode of the sensing device 20, and includes a mode for detecting an approaching object and a mode for detecting ambient light. Further, the microcontroller 23 transfers the detected signal to the microprocessor 24, and the microprocessor 24 Further, it is coupled to another element 25, and appropriate data can be output to the other element 25. In particular, when the sensing device 20 detects an object movement, the sensor 22 detects an electromagnetic wave generated from the emitter 21. When the emitter 21 is turned off, the sensor 22 detects a signal excluding the electromagnetic wave generated from the emitter 21.

As shown in FIG. 3, the detection flow performed by the above-described conventional technique mainly shows two operation modes of the sensor in one sensing device, and can detect a moving object and also detect other light sources. . In step S301, an electromagnetic wave in a known wave range emitted by the emitter of the sensing device is shown. Subsequently, in step S303, the sensor detects the electromagnetic wave generated from the emitter in a mode for detecting an approaching object. In S305, other light sources can be detected in the mode for detecting ambient light.
US Patent Application Publication No. 2005/219228 US Patent Application Publication No. 2007/85157

  Unlike the sensing device with sensors with different sensing functions provided in the prior art, the purpose of the present invention is to set the sensing range of the sensing unit in the work mode and detect two different electromagnetic wave ranges The object is to provide an electromagnetic wave sensing device that can be used.

  An electromagnetic wave sensing device according to a preferred embodiment includes a first sensing unit having one or more sensing elements, for example, a photodiode, for detecting ambient light and generating a first sensing signal, and an electromagnetic wave in a specific region. And a second sensing unit having one or more sensing elements for generating a second sensing signal. Thereafter, the detection signal processing means receives the sensing signals of the first sensing unit and the second sensing unit, processes the data (including signal conversion), and sets the work mode of the electromagnetic wave sensing device.

  The first sensing unit and the second sensing unit detect different light sources, respectively, and set them according to different needs (detection of ambient light and detection of electromagnetic waves in each wave range). The electromagnetic wave sensing device can further convert the detected optical signal into an electric signal, for example, linear-to-linear and logarithmic conversion (linear-to-nature). This detection signal processing means can set a detection signal wave range that the sensing device needs to receive, and can also control the stop and start of operation of the first sensing unit and the second sensing unit and the operation time thereof by parameters. .

  The electromagnetic wave sensing device according to the present invention is a sensing unit that can match the electromagnetic energy of ambient light or a specific electromagnetic wave source, and is a post-detection signal processing circuit, for example, an analog-digital signal for converting an optical signal into an electrical signal. It includes a conversion circuit, setting of an electromagnetic wave sensing range, parameters transferred in the meantime, and signal interrupt processing with another processing unit. With various settings, the final output value has a certain characteristic, and the manufacturer using this product does not use different hardware or software calculation methods for different supplied products.

  The electromagnetic wave sensing device according to the present invention mainly includes two electromagnetic wave sensing devices that are provided with a plurality of sensing units in one sensing device and detect at least different electromagnetic wave ranges, and a sensing unit therein according to actual requirements The detection range can be set. In a preferred embodiment, ambient light and electromagnetic waves in a specific wavelength region can be detected.

  FIG. 4 is a diagram showing a preferred embodiment of the electromagnetic wave sensing device according to the present invention. As shown in FIG. 4, a sensing device 40 having a plurality of sensing units is shown, and at least the first sensing unit 41 illustrated. And the second sensing unit 42, in particular, the two sensing units can respectively detect different electromagnetic wave ranges, each including at least one sensing element (not shown), for example, a photodiode, Light and electromagnetic waves in a specific region are detected, and corresponding detection signals (including a first detection signal and a second detection signal) are generated.

  The specific range of electromagnetic waves detected by the first or second sensing unit includes visible light and invisible light, and the sensing element included therein is a plurality of diode elements, for example, photodiodes, An example is a diode element having a PN junction, metal layer, polymer or combination thereof on a substrate. The sensing element of each sensing unit changes the detection waveband by correcting the parameters of the manufacturing process, and determines the characteristics of the element and the range in which electromagnetic waves can be detected in the manufacturing process.

  The sensing device further includes a detection signal processing means in the subsequent stage which is the detection signal processing circuit 43, receives the detection signal generated by the sensing element of each sensing unit, performs electro-optic signal conversion by the signal conversion unit, Since the optical signal that converts the signal into an electrical signal and normally generates an external electromagnetic wave is an analog signal, it is further converted into a digital electrical signal (including a voltage or current signal), and the result depends on the work mode of the electromagnetic sensing device Can be output.

  Further, the detection signal processing means can process electromagnetic waves of a specific wavelength of the external electromagnetic radiation source, and stop and start operation of the first sensing unit 41 and the second sensing unit 42 according to parameters, and The operation time is controlled, and in particular, a specific electromagnetic wave sensing range (including visible light and invisible light) is set within the detection range of each sensing unit, or ambient light that can be identified by the human eye is limited.

  The work mode includes a full-speed mode in which light can be detected at any time and an interrupt request is issued after the interrupt condition is met, and a sleep mode in which the sensing device enters an operation stop state. The sensing device 40 further includes a semi-sleep mode, which periodically activates the electromagnetic wave sensing device, and can periodically detect electromagnetic energy generated by the electromagnetic wave source instead of continuously detecting it. The current can be reduced and there is no need to stop operation.

  Subsequently, the first sensing unit 41 and the second sensing unit 42 of the electromagnetic wave sensing device 40 further include an electromagnetic wave filter (not shown), and the electromagnetic wave region is within an electromagnetic wave wavelength range that can be identified by the human eye. For example, in the wave region of the electromagnetic wave region of 450 nm to 650 nm, the maximum peak is about 550 nm, and the electromagnetic wave frequency response diagram shown in FIG.

The electromagnetic wave sensing device 40 further includes coupling means, coupled to another application device, and electrically connected to the main host destination via the transfer interface. A preferred embodiment is an I ² C serial type. Therefore, the sensing signal is converted into a signal that conforms to the I ² C serial transfer interface standard, and is further electrically connected to the main host destination via the I ² C serial transfer line. Actual applications further include USB interfaces, IEEE 1494 interfaces, RS-232, or interfaces that meet various other industry standards.

  In one embodiment, the electromagnetic wave sensing device posted in the present invention further provides two or more interrupt point setting capabilities, and performs determination of one or more interrupt conditions by the detection signal processing circuit, When the interrupt points are distributed in different energy ranges and the electromagnetic wave energy meets one of the interrupt conditions, a detection signal can be transmitted to the main host. Each interrupt point corresponds to a different electromagnetic energy and signal intensity, and this electromagnetic wave sensing device can generate more various detection signals and can meet different requirements and can be customized.

  In another embodiment of the electromagnetic wave sensing device according to the present invention, as in the embodiment shown in FIG. 6, a plurality of electromagnetic wave sensing units are combined to form an electromagnetic wave sensing device capable of detecting a plurality of types of electromagnetic wave sources.

  The electromagnetic wave sensing device 60 in this example similarly integrates the transfer interface 605, the control unit 604, and the signal conversion unit 603, and further includes two or more sensing units 601, 602. Electromagnetic waves of more than one wave range can be detected, and the sensing elements (not shown) in each of the sensing units 601 and 602 have detection characteristics of different electromagnetic wave ranges and can be determined by a manufacturing process. The two sensing units 601 and 602 are electrically connected to the signal conversion unit 603, share the signal conversion unit 603, the control unit 604, and the transfer interface 605, and use an electromagnetic wave sensing unit that needs to be used manually. Switching or activating different electromagnetic wave sensing units by switching or different electromagnetic wave sources, or simultaneously, generating a wider sensing range. The scope of the present invention is not limited to this embodiment.

  For example, the first sensing unit 601 is a sensing unit that detects ambient light, the main sensing range is in the frequency range of visible light, and the second sensing unit 602 can detect invisible light, and its sensing The range is a frequency range of invisible light, for example, ultraviolet light or infrared light. When a plurality of electromagnetic wave sensing units such as the first sensing unit 601 or the second sensing unit 602 receive an electromagnetic wave source in a specific range, a plurality of analog signals are generated and converted into a plurality of digital signals by the signal conversion unit 603. In addition, the control unit 604 calculates the output range, determines whether one of the interrupt conditions is reached, or controls its sensing mode (full speed mode, sleep mode or semi-sleep mode) An interrupt request is transmitted to the host destination 62, and a sensing signal is transferred to the main host destination 62 after waiting for a response.

  In the present invention, a plurality of interrupt points can be set, set from the external main host destination via the setting interface, and two types of interrupt modes can be determined. One is interrupted when the vibration width value exceeds the set value. The other occurs after the accumulated value reaches a predetermined number of times.

  As described above, the electromagnetic wave sensing device posted in the present invention is a sensing device that integrates and matches two or more sensing units, signal conversions, control units, and transfer interfaces, and performs calculation, conversion, and parameter setting of sensing signals. By integrating and matching within one device, the product can produce matching characteristics.

  However, the foregoing description is merely a detailed description of the preferred specific embodiments and drawings of the present invention, and is not intended to limit the scope of the claims of the present invention. Any expert having ordinary knowledge in the relevant field can make appropriate changes or modifications within the field of the present invention. It goes without saying that it should be included within the scope of.

It is a figure which shows the sensing apparatus which has several sensors among prior arts. It is a figure which shows the matching sensing apparatus of a prior art. It is a flowchart which shows the detection process of a prior art. It is a figure which shows the preferable Example of the electromagnetic wave sensing apparatus which concerns on this invention. It is an electromagnetic wave frequency response diagram which can be discerned by human eyes. 1 is a circuit block diagram showing a preferred embodiment of an electromagnetic wave sensing device according to the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Sensing apparatus 11 Optical sensor 12 Motion sensor 13 Matching circuit 20 Sensing apparatus 21 Emitter 22 Sensor 23 Microcontroller 24 Microprocessor 25 Other elements 40 Sensing apparatus 41 First sensing unit 42 Second sensing unit 43 Detection signal processing circuit 60 Sensing device 62 Main host destination 601 First sensing unit 602 Second sensing unit 603 Signal conversion unit 604 Control unit 605 Transfer interface

Claims (4)

An electromagnetic wave sensing device,
A first sensing unit having at least one sensing element for detecting ambient light and generating a first sensing signal;
A second sensing unit having at least one sensing element for detecting electromagnetic waves in a specific region and generating a second sensing signal;
Receiving a first sensing unit and the signal detected from the second sensing unit to determine a specific electromagnetic wave sensing ranges therein within the detection range of each cell provides loans unit, electric the sensing signal by the signal conversion unit Semi-sleep that periodically linearly and logarithmically converts the signal and periodically activates the full-speed mode, the sleep mode, and the electromagnetic wave sensing device based on the sensing signals generated by the first sensing unit and the second sensing unit Detection signal processing means for outputting a result by setting the work mode of the electromagnetic wave sensing device from the mode,
The detection signal processing means controls the operating state of the first sensing unit or the second sensing unit by a parameter, and the first sensing unit and the second sensing unit include an electromagnetic wave filter for filtering an electromagnetic wave region. cage, sensing elements of the sensing unit, the electromagnetic wave sensing device, wherein the benzalkonium change the detection range by the correction of the parameters of the manufacturing process.   The first sensing unit and the second sensing unit include at least one diode element, and the diode element is a diode element having a PN junction, a metal layer, a polymer, or a combination thereof on a base material. The electromagnetic wave sensing device according to claim 1, wherein An electromagnetic wave sensing device,
A first sensing unit having at least one photodiode and at least one electromagnetic wave filter for detecting ambient light identifiable by human eyes and generating a first sensing signal;
A second sensing unit having at least one photodiode and at least one electromagnetic wave filter for detecting visible light and invisible light in a specific region and generating a second sensing signal;
The first sensing unit and the second sensing unit are electrically connected to the first sensing unit and the second sensing unit to determine the electromagnetic wave detection areas of the first sensing unit and the second sensing unit. When the detected signal is received, the detection signal is linearly converted and logarithmically converted into an electrical signal, and based on the sensing signals generated by the first sensing unit and the second sensing unit, a full speed mode and a sleep mode And a detection signal processing circuit that outputs the result by setting the work mode of the electromagnetic wave sensing device from the semi-sleep mode for periodically starting the electromagnetic wave sensing device,
The detection signal processing circuit controls the stop and start of operation and operation time of the first sensing unit or the second sensing unit according to the parameters, and the photodiode of each sensing unit has a detection range by correcting the parameters of the manufacturing process. you and changing the electromagnetic wave sensing device. The photodiode, PN junction, the metal layer, wave sensing apparatus electrodeposition to that claimed in claim 3, characterized in that it is a diode element having a polymer or a combination thereof on a substrate.

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