Patents by Inventor Horst Knoedgen
Horst Knoedgen has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7697031Abstract: An intelligent light source for use with the test of a digital camera module provides a plurality of shapes of light. A fast light pulse is created with turn-on and turn-off transitions less than or equal to one microsecond. Other waveform shapes comprise a ramp and a sinusoid, and all shapes can be made to occur once or repetitively. The magnitude of the light has a range from 0.01 LUX to 1000 LUX, and the ramp has a ramp time that has a range from microseconds to 100 ms. The light comprises of a plurality of colors created by serial connected strings of LED devices, where the LED devices in a string emit the same color. The light emanating from the light source is calibrated using a photo diode and the control of a tester by adjusting offset voltages of a DAC controlling a current through the LED strings.Type: GrantFiled: August 31, 2004Date of Patent: April 13, 2010Assignee: Digital Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20090268035Abstract: A system is presented that applies M×N×K computational units to calculating image parameters on N picture images captured simultaneously by N digital camera devices, where there are N groups of frame grabber units, each containing M frame grabbers in which there are K computational units. The data operated on by a computational unit is separate and independent from the image data operated on by the other computational units. This results in a performance speedup of M×N×K compared to one computational unit making the same computations. A master frame grabber unit controls the illumination of the N digital camera devices, and synchronizes the illumination with the clocks of the N digital camera devices.Type: ApplicationFiled: June 24, 2009Publication date: October 29, 2009Inventors: Horst Knoedgen, Dirk Huettmann
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Patent number: 7567273Abstract: A system is presented that applies M×N×K computational units to calculating image parameters on N picture images captured simultaneously by N digital camera devices, where there are N groups of frame grabber units, each containing M frame grabbers in which there are K computational units. The data operated on by a computational unit is separate and independent from the image data operated on by the other computational units. This results in a performance speedup of M×N×K compared to one computational unit making the same computations. A master frame grabber unit controls the illumination of the N digital camera devices, and synchronizes the illumination with the clocks of the N digital camera devices.Type: GrantFiled: November 3, 2004Date of Patent: July 28, 2009Assignee: Digital Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20090180202Abstract: Systems and methods to position most precisely a lens system of an optical device are disclosed. Embodiments of these electrical sensors comprise capacitive sensors, inductive sensors and resistive sensors to measure the actual position of a lens system with a precision of at least 1 ?m. Read-out circuits using double-correlated sampling structures are providing the position signals from the electrical sensors to a controller. The controller compares the actual position signals with a set-signal representing a target position of the lens signal and issues a signal to a motor to get the lens system moved to the target position. A variety of motors/actuators can be used to move a slider carrying the lens system to the position desired.Type: ApplicationFiled: January 10, 2008Publication date: July 16, 2009Inventor: Horst Knoedgen
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Publication number: 20090167868Abstract: A test handler is controlled by a tester to transport, select, focus and test miniature digital camera modules. The modules are loaded onto a transport tray and moved on a conveyer to a robot. The robot selects the untested modules from the tray an alternately places the modules into two test stations. A first test station focuses and tests a first module while the second test station is loaded with a second module, thus burying the handling time for the modules within the test time. The robot returns tested modules to the transport tray, and when all modules on the tray are tested, moves the tray out of the test handler. A second tray with untested modules is positioned at the robot while the tested modules of the first tray are being focus fixed and sorted into part number bins. The overlap of operations buries handling time within the focus and test time so that the limitation of total test time is depending on focus and test operations.Type: ApplicationFiled: March 2, 2009Publication date: July 2, 2009Inventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20090167869Abstract: A test handler is controlled by a tester to transport, select, focus and test miniature digital camera modules. The modules are loaded onto a transport tray and moved on a conveyer to a robot. The robot selects the untested modules from the tray an alternately places the modules into two test stations. A first test station focuses and tests a first module while the second test station is loaded with a second module, thus burying the handling time for the modules within the test time. The robot returns tested modules to the transport tray, and when all modules on the tray are tested, moves the tray out of the test handler. A second tray with untested modules is positioned at the robot while the tested modules of the first tray are being focus fixed and sorted into part number bins. The overlap of operations buries handling time within the focus and test time so that the limitation of total test time is depending on focus and test operations.Type: ApplicationFiled: March 2, 2009Publication date: July 2, 2009Inventors: Horst Knoedgen, Dirk Huettmann
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Patent number: 7509113Abstract: A circuit and method are given, to realize a loudness control for mobile phone earpieces and speakers with the help of a proximity sensor, which is realized as an infrared photo-electric guard circuit, where only very few external parts are needed. As a novelty here, the necessary photo sensors are integrated onto a single chip. To form the photodiodes within a single IC together with the other circuit elements are much less expensive. Using the advantages of that solution the circuit of the invention is manufactured with standard CMOS technology and only very few discrete external components. This solution reduces also power consumption and manufacturing cost.Type: GrantFiled: August 16, 2007Date of Patent: March 24, 2009Assignee: Dialog Semiconductor GmbHInventor: Horst Knoedgen
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Patent number: 7505064Abstract: A test handler is controlled by a tester to transport, select, focus and test miniature digital camera modules. The modules are loaded onto a transport tray and moved on a conveyer to a robot. The robot selects the untested modules from the tray an alternately places the modules into two test stations. A first test station focuses and tests a first module while the second test station is loaded with a second module, thus burying the handling time for the modules within the test time. The robot returns tested modules to the transport tray, and when all modules on the tray are tested, moves the tray out of the test handler. A second tray with untested modules is positioned at the robot while the tested modules of the first tray are being focus fixed and sorted into part number bins. The overlap of operations buries handling time within the focus and test time so that the limitation of total test time is depending on focus and test operations.Type: GrantFiled: August 30, 2004Date of Patent: March 17, 2009Assignee: Digital Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Patent number: 7486309Abstract: A test system for digital camera modules used in consumer electronics, e.g. cellular phones and PDA's is shown. The test system comprises of a tester and a module handler that is aimed at reducing test time by an order of magnitude. The Test system has an image-processing unit that uses N-parallel processor to reduce the computation time on a test image by approximately the number of parallel processors. The handler is controlled by the tester to select, focus and test small digital camera modules. There are two test stations in the handler, where a first test station performs tests on a first camera module while a second test station is loaded with a second camera module, thus burying the loading time within the test time.Type: GrantFiled: August 31, 2004Date of Patent: February 3, 2009Assignee: Digital Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Patent number: 7403229Abstract: A test apparatus and method for testing the zoom of a miniature digital camera module is presented. A combination of focus targets are illuminated by different colors of light and simultaneously viewed by the digital camera module. The focus targets range from a far target to a close target and are positioned in the apparatus accordingly. The zoom capability of the camera can be either electrical or manual, and the test apparatus can be adapted to either zoom configurations allowing the zoom of the camera lens to be controlled by a tester. The brightness of the image of the focus targets captured by the digital camera is monitored to determine whether the focus of the camera is maintained over the range of zoom.Type: GrantFiled: August 30, 2004Date of Patent: July 22, 2008Assignee: Digital Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20070298845Abstract: A circuit and method are given, to realize a loudness control for mobile phone earpieces and speakers with the help of a proximity sensor, which is realized as an infrared photo-electric guard circuit, where only very few external parts are needed. As a novelty here, the necessary photo sensors are integrated onto a single chip. To form the photodiodes within a single IC together with the other circuit elements are much less expensive. Using the advantages of that solution the circuit of the invention is manufactured with standard CMOS technology and only very few discrete external components. This solution reduces also power consumption and manufacturing cost.Type: ApplicationFiled: August 16, 2007Publication date: December 27, 2007Inventor: Horst Knoedgen
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Patent number: 7307877Abstract: Circuits and methods to design and to fabricate said circuits to accomplish a two-level DRAM cell or a multilevel DRAM cell using a natural transistor have been achieved. The usage of a natural transistor, having a threshold voltage of close to zero, as a pass transistor reduces the amount of current required for a read operation significantly. The usage of a natural transistor in a multi-level DRAM is enabling to implement easily a high number of voltage levels, and thus more information, in one DRAM cell and is reducing the amount of output current required as well. The fabrication of said DRAM cells in an integrated circuit, comprising a natural transistor and standard transistors, include masking of the natural transistor during the ion implantation to avoid impurities increasing the threshold voltage.Type: GrantFiled: October 26, 2005Date of Patent: December 11, 2007Assignee: Dialog Imaging Systems Inc.Inventor: Horst Knoedgen
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Patent number: 7260422Abstract: A circuit and method are given, to realize a loudness control for mobile phone earpieces and speakers with the help of a proximity sensor, which is realized as an infrared photo-electric guard circuit, where only very few external parts are needed. As a novelty here, the necessary photo sensors are integrated onto a single chip. To form the photodiodes within a single IC together with the other circuit elements are much less expensive. Using the advantages of that solution the circuit of the invention is manufactured with standard CMOS technology and only very few discrete external components. This solution reduces also power consumption and manufacturing cost.Type: GrantFiled: February 10, 2003Date of Patent: August 21, 2007Assignee: Dialog Semiconductor GmbHInventor: Horst Knoedgen
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Patent number: 7248347Abstract: An apparatus and method for automatically focusing a miniature digital camera module (MUT) is described. A MUT is loaded onto a test fixture and aligned with an optics system of a test handler. Focus targets contained within two target wheels are positioned over an optical centerline above the digital camera module using stepper motors. A field lens is positioned to focus an image of the targets onto the lens opening of the MUT. The image can be of a single target or a combination of targets contained on the target wheels at various optical distances from the MUT. A focusing unit adjusts the lens cap of the MUT for a best focus setting and after the MUT has been tested the best focus setting if physically fixed by permanently connecting the lens cap to the body of the MUT.Type: GrantFiled: August 30, 2004Date of Patent: July 24, 2007Assignee: Dialog Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Patent number: 7176665Abstract: Circuits and related methods for switched step-down and boost DC-to-DC converters have been achieved. Said DC-to-DC converters comprise an inductor current sensing and limiting circuit to prevent the inductor current to exceed a defined limit. Said current sense circuit is using the voltage on the on-state source-to-drain resistance of a power switch to monitor the inductor current. Said voltage is amplified and serves as input of a regulator. Said regulator, being connected via one or more gate controllers to the gates of said power switches, controls the ON/OFF state of said power switches by pulse-width-modulation. Said power switches are switched ON/OFF if the current exceeds a defined limit. After a defined time period said power switches are switched on again. Gate controllers keep the power switch in an operating region having a stable source-to-drain resistance while said power switch is ON.Type: GrantFiled: June 22, 2004Date of Patent: February 13, 2007Assignee: Dialog Semiconductor GmbHInventors: Horst Knoedgen, Eric Marschalkowski
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Patent number: 7155119Abstract: A multi-processing unit reduces the time to compute parameters of a digital image to by the number of computers operating in the parallel. An image of a digital picture taken during a test of a digital camera module is portioned into N independent portions and each portion is stored into one of N memories. N processors compute test parameters of the image, where each processor works independently on a portion of the image and in parallel with the other processors. The serial computational content of the image is zero allowing a speed-up of the multiprocessing unit to be N with respect to the running the entire computation on a single processor.Type: GrantFiled: August 30, 2004Date of Patent: December 26, 2006Assignee: Dialog Imaging Systems GmbHInventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20060077259Abstract: A system is presented that applies M×N×K computational units to calculating image parameters on N picture images captured simultaneously by N digital camera devices, where there are N groups of frame grabber units, each containing M frame grabbers in which there are K computational units. The data operated on by a computational unit is separate and independent from the image data operated on by the other computational units. This results in a performance speedup of M×N×K compared to one computational unit making the same computations. A master frame grabber unit controls the illumination of the N digital camera devices, and synchronizes the illumination with the clocks of the N digital camera devices.Type: ApplicationFiled: November 3, 2004Publication date: April 13, 2006Inventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20060038893Abstract: A multi-processing unit reduces the time to compute parameters of a digital image to by the number of computers operating in the parallel. An image of a digital picture taken during a test of a digital camera module is portioned into N independent portions and each portion is stored into one of N memories. N processors compute test parameters of the image, where each processor works independently on a portion of the image and in parallel with the other processors. The serial computational content of the image is zero allowing a speed-up of the multiprocessing unit to be N with respect to the running the entire computation on a single processor.Type: ApplicationFiled: August 30, 2004Publication date: February 23, 2006Inventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20060038910Abstract: A test apparatus and method for testing the zoom of a miniature digital camera module is presented. A combination of focus targets are illuminated by different colors of light and simultaneously viewed by the digital camera module. The focus targets range from a far target to a close target and are positioned in the apparatus accordingly. The zoom capability of the camera can be either electrical or manual, and the test apparatus can be adapted to either zoom configurations allowing the zoom of the camera lens to be controlled by a tester. The brightness of the image of the focus targets captured by the digital camera is monitored to determine whether the focus of the camera is maintained over the range of zoom.Type: ApplicationFiled: August 30, 2004Publication date: February 23, 2006Inventors: Horst Knoedgen, Dirk Huettmann
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Publication number: 20060041787Abstract: A test system for digital camera modules used in consumer electronics, e.g. cellular phones and PDA's is shown. The test system comprises of a tester and a module handler that is aimed at reducing test time by an order of magnitude. The Test system has an image-processing unit that uses N-parallel processor to reduce the computation time on a test image by approximately the number of parallel processors. The handler is controlled by the tester to select, focus and test small digital camera modules. There are two test stations in the handler, where a first test station performs tests on a first camera module while a second test station is loaded with a second camera module, thus burying the loading time within the test time.Type: ApplicationFiled: August 31, 2004Publication date: February 23, 2006Inventors: Horst Knoedgen, Dirk Huettmann