| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 356226000 | Detector and indicator electrical coupling (e.g., amplifying or attenuating) | 7 |
| 20090066938 | METHOD USING CONCENTRATOR FOR MEASURING LUMINOUS FLUX OF LED - The present invention relates to the technical field of measuring light source, specifically, to the method for measuring the luminous flux of LED. In the present invention, a reflecting cup is used as a collector of the luminous flux of LED. The collector has two sectional openings in the direction perpendicular to the symmetric axis thereof, which are positioned in the front and in the rear respectively, one of them positioned at the bottom end of the collector and having a smaller radius is used to input the light emitted by LED to be measured, the other positioned in the front end of the collector and having a larger radius is used to output the light to the detector placed in this position. Specifically, LED is fixed at the bottom end of the collector with a fixture, the light emitted by LED is directed toward the large opening of the collector, and the photometer is fixed closely at the large opening of the collector to receive light signals. LED is driven with a constant current power supply, and the total luminous flux emitted by LED is concentrated by the collector, collected and measured by the detector, then corrected by using a calibrating coefficient, in order to achieve the numerical readings of the value of the total luminous flux. The method of the present invention is simple and has a high measuring accuracy. | 03-12-2009 |
| 20110058158 | Waveguide-based Sensor - A sensor for sensing a target chemical with high signal-to-noise ratio is disclosed. In some embodiments, the sensor comprises a sensing region that is optically coupled with an attenuation region. The sensing region receives optical stimulation that comprises light characterized by an excitation wavelength. In response to exposure to the target chemical, the sensing region fluoresces at a fluorescence wavelength. The attenuation region receives light from the fluorescing sensing region that includes light characterized by the fluorescence wavelength (i.e., signal) and light characterized by the excitation wavelength (i.e., noise). The attenuation region conveys the light to a detector that provides an electrical output signal based on the target chemical. While conveying the light, however, the attenuation region improves the signal-to-noise ratio by attenuating light characterized by the excitation wavelength more than light characterized by the fluorescence region. | 03-10-2011 |
| 20120057152 | HIGH-SPEED ANALOG PHOTON COUNTER AND METHOD - A high speed analog photon counter and method is provided. In one aspect, the method includes delivering an electric charge to a circuit of the high speed analog photon counter through a current source of the circuit. The method also includes accumulating the electric charge in a capacitor of the circuit electrically coupled to the current source. The method further includes comparing the electric charge accumulated in the capacitor of the circuit with a reference voltage through a comparator of the circuit electrically coupled to an output of the capacitor. The output of the capacitor of the circuit is coupled to an input of the comparator of the circuit, and the reference voltage is coupled to another input of the comparator of the circuit. The method furthermore includes resetting the capacitor of the circuit when the electric charge accumulated in the capacitor of the circuit matches the reference voltage. | 03-08-2012 |
| 20130114073 | Light Quantity Detection Method and Device Therefor - To enable measurement over a wide dynamic range from weak light quantity to strong light quantity in a light quantity detection device for detecting the light quantity, a detection signal from a photon counting light detector is A/D converted. When the A/D converted detection signal has a preset threshold value or more, the detection signal is transmitted as it is to a number-of-photons calculation circuit in a subsequent stage, and when the detection signal has the threshold value or less, threshold value processing for transmitting a preset reference value to the subsequent stage is performed. In the number-of-photons calculation circuit, the number of photons or the light quantity incident on the photon counting light detector is acquired from the dimension of an acquired detection signal waveform until the light quantity measurement ends. | 05-09-2013 |
| 20140063493 | SENSOR ARRAY - An arrangement for monitoring a submarine reservoir comprises a number of sensor units located in an array ( | 03-06-2014 |
| 20140268116 | DEVICE AND METHOD FOR DETERMINING A DIRECTION FROM A SURFACE OF ONE OR MORE PHOTODETECTOR ELEMENTS OF AN INTEGRATED CIRCUIT TO A SOURCE PROVIDING ELECTROMAGNETIC WAVES AND METHOD FOR MANUFACTURING AN DEVICE - In various embodiments a device is provided. The device includes an integrated circuit that includes one or more photodetector elements and a blocking structure monolithically integrated with the one or more photodetector elements. The one or more photodetector elements are arranged relative to the blocking structure such that electrical currents provided by the one or more photodetector elements in response to electromagnetic waves received by the one or more photodetector elements are indicative of a direction to a source providing the electromagnetic waves. | 09-18-2014 |
| 20150292952 | DEVICE FOR PROCESSING AN OPTICAL PULSE TO MEASURE THE CONTRAST OF THIS PULSE, AND CONTRAST MEASUREMENT SYSTEM USING THE DEVICE - Device for processing an optical pulse to measure the temporal contrast of this pulse, and system for measuring the contrast using the device. This device comprises: a device ( | 10-15-2015 |
