Radiant energy – Invisible radiant energy responsive electric signalling – Infrared responsive
Reexamination Certificate
2002-03-06
2004-01-13
Porta, David (Department: 2878)
Radiant energy
Invisible radiant energy responsive electric signalling
Infrared responsive
C250S338100, C250S336100
Reexamination Certificate
active
06677589
ABSTRACT:
BACKGROUND ART
1. Field of the Invention
The present invention is directed to an object detecting device with the use of a pyroelectric infrared radiation sensor, and more particularly a surveillance device for detecting the presence of a human in a room or space.
2. Description of the Prior Art
A typical object detecting device is disclosed in Japanese Utility Model Publication No. 2-9891 and Japanese Patent Publication No. 6-3366. The device utilizes a pyroelectric sensor generating a sensing current upon receiving an infrared radiation from a human body, and an I/V converter that converts the sensing current into a voltage. The device requires a voltage amplifier which amplifies the voltage from the I/V converter to an amplified voltage of a level sufficiently enough to be compared with a threshold for discriminating the presence of the human body. When the amplified voltage exceeds the threshold, a detector provides a detection signal which is then processed to issue a control output for activating an external device such as an alarming device and the like. The device is designed such that, once the device is energized, all the electronic components including voltage amplifier and the detector are made fully operational as being supplied with a rated current from a power source. Accordingly, the device will consume the power even in the absence of the infrared radiation of a level not causing the detection signal, i.e., in the absence of the human body. Thus, the prior device wastes the power and has to require frequent replacements of a battery when it is used as the power source for the device.
SUMMARY OF THE INVENTION
In view of the above problem, the present invention has been achieved to provide an improved object detecting device which is capable of reducing power consumption, yet retaining reliable object detection. The object detecting device in accordance with the present invention utilizes a pyroelectric sensor generating a sensing current in accordance with changes in the amount of infrared radiation incident on the sensor from an object. An I/V converter is provided to convert the sensing current into a corresponding voltage which is then amplified by a voltage amplifier to an amplified voltage. The device includes a detector with a level monitor which compares the amplified voltage with a predetermined detection threshold so as to provide a detection signal when the amplified voltage satisfies with a detection criterion with regard to the detection threshold. The detection signal is then processed to issue a control output for activating an external device. The voltage amplifier is capable of providing a restricted voltage output of a low amplitude when receiving a limited source current from the power source and providing a rated voltage output of a high amplitude when receiving from the power source a rated source current higher than the limited source current. The detector is added with a threshold selector which has, in addition to the above detection threshold, a preliminary threshold lower than the detection threshold, and is normally set to give the preliminary threshold to the level monitor. The level monitor compares the restricted voltage output from the voltage amplifier with the preliminary threshold and provides a wake-up signal when the restricted voltage output satisfies a preliminary criterion with regard to the preliminary threshold. In response to the wake-up signal, the threshold selector switches the preliminary threshold to the detection threshold. Also included in the device is a mode selector which, in response to the wake-up signal, provides an operation mode for supplying the rated source current from a power source to the voltage amplifier such that the level monitor compares the rated voltage output from the voltage amplifier with the detection threshold for detection of the object, and otherwise provides a standby mode for supplying the limited source current from the power source to the voltage amplifier. Thus, the device can be kept in the standby mode of consuming less power while the pyroelectric sensor generates a less current not critical to the detection of the object presence, and can be switched to the operation mode where the voltage amplifier gives the rated voltage output of a level sufficiently enough to make reliable detection once the pyroelectric sensor generates a critical output. Accordingly, it is a primary object of the present invention to provide an object detecting device which is capable of reducing power consumption, yet assuring reliable detection.
The mode selector is designed to keep the operation mode continuously for a predetermined time frame from the first advent of the detection signal and to switch it back to the standby mode thereafter for avoiding unnecessary power consumption after the object detection. In this connection, the mode selector is preferred to reset the time frame to start each time the detection signal is followed by another detection signal within the time frame, thereby extending the operation mode for successive and reliable detection of the object.
The mode selector may be provided with a reset input for receiving a reset signal from the external device. When the reset input is enabled, the mode selector operates to switch the operation mode forcibly into a rest mode of keeping the limited source current to be supplied to the voltage amplifier and at the same time disabling the level monitor upon seeing the first advent of the detection signal, and keeps the rest mode until receiving the reset signal at the reset input. Thus, the device can be interlocked or closely associated with the external device so as to keep the power consumption at a minimum level while the external device is reacting to make a dedicated function such as turning on an illumination appliance in response to the control output, thereby reducing the power consumption.
In order to start the device rapidly for reliable detection, the mode selector is preferred to supply an initialization current greater than the rated source current to the voltage amplifier only for a predetermined initialization time period immediately upon energization of the device. Further, the mode selector is preferred to select the rest mode for a predetermined stabilization time period immediately subsequent to the initialization time period, and to switch the rest mode into the standby mode thereafter. Thus, the voltage amplifier inherently requiring much initialization current can be rapidly made ready for reliable operation. After the stabilization time period, the components of the device can be made stable to be ready for reliable detection, while eliminating a possibility of causing erroneous circuit operation leading to a false detection due to unstable outputs of the voltage amplifier during the stabilization time period.
The voltage amplifier may be of two-stage amplifier having a front-stage amplifying section and a rear-stage amplifying section. In this connection, the mode selector is configured to supply the limited source current to the front-stage and rear-stage amplifying sections in the standby mode, and supply the limited source current to the front-stage amplifying section and the rated source current to the rear-stage amplifying section in the operation mode. With the use of the two-stage amplifier and the associated scheme of only changing the level of the current being fed to the rear-stage amplifying section, it is made possible to further reduce the power consumption as compared to a case where the entire current to the amplifier is changed from the limited level to the rated level.
Further, the voltage amplifier is preferred to generate the rated voltage output which saturates at a level just above the detection threshold for the purpose of minimizing the power consumption in the operation mode, yet retaining reliable detection.
Preferably, the threshold selector includes a first voltage divider providing the preliminary threshold from a reference voltage and a second voltage divider providing the detection th
Hironaka Atsushi
Ikari Motoo
Matsuda Hiroshi
Murayama Yorinobu
Takada Yuji
Matsushita Electric & Works Ltd.
Porta David
Sung Christine
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