Patents Assigned to Amtech Systems
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Publication number: 20140310074Abstract: A system is disclosed for relaying vehicle location and lane position on a multiple lane roadway to a central office for tolling purposes. The system has an on board unit comprising a GPS receiver, and a cellular telephone comprising a camera and a computer. The on board unit tracks vehicle location. The cellular telephone is mounted in the vehicle such that its camera can photograph the roadway. The on board unit transmits vehicle position information to the cellular phone and the cellular phone transmits position information relative to fixed geo-data and lane information to the central office.Type: ApplicationFiled: April 10, 2014Publication date: October 16, 2014Applicant: Amtech Systems, LLCInventor: Kelly Gravelle
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Patent number: 8836511Abstract: An RFID tag for use in a vehicle for use in an electronic toll collecting system. The tag is capable of transmitting data to a tag interrogator indicating the occupancy status of the vehicle. In an embodiment, the tag has a user input and a visual and audible tag status indicator. The user input is used to change the occupancy status of the tag, wherein the occupancy status is a portion of a message sent by radio frequency to the interrogator when the vehicle passes through a toll area.Type: GrantFiled: November 26, 2012Date of Patent: September 16, 2014Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Charles A. Johnson, Matthew K. Burnett, Dale L. Scott
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Patent number: 8810403Abstract: When multiple readers for RF transponders have to be placed in close proximity, such as in adjacent lanes of a highway toll barrier, they can be set to operate at different frequencies. When signals from two adjacent ones of the readers interfere, the resulting signal includes interference terms whose frequencies equal the sum of the reader frequencies and the difference between the reader frequencies. To remove such interference terms while passing the desired terms, a tag includes a low-pass or other frequency-selective filter.Type: GrantFiled: July 19, 2012Date of Patent: August 19, 2014Assignee: Amtech Systems, LLCInventor: Robert Tiernay
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Publication number: 20140218175Abstract: A system and method are disclosed for synchronizing two RFID readers. The system includes a modulation detector to detect a modulated signal produced by a first of the two reader and produces a synchronization signal. The second of the two readers initiates transmission of a signal in response to the synchronization signal.Type: ApplicationFiled: January 31, 2014Publication date: August 7, 2014Applicant: Amtech Systems, LLCInventors: Michael George Melville, Michael Paul Gonzales, Kelly Gravelle
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Patent number: 8786488Abstract: A system for measuring the range to an RFID tag including situations containing high clutter and multi-path signals is disclosed. The system includes an RFID reader; an RFID tag; and a coordinated pulse compression radar system. In the system the RFID reader causes the tag to respond to received signals in a first backscatter state at a first time and a second backscatter state at a second time. The pulse compression radar system transmits short pulses coordinated by the backscatter state of the RFID tag and the system creates a differential signal comprised of the differences between radar signals obtained during the first and second states of the tag to obtain an uncorrupted measure of a round trip time of flight of said radar pulses between the pulse radar system and the RFID tag.Type: GrantFiled: June 17, 2011Date of Patent: July 22, 2014Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Jeremy Landt, Patrick W. Lunsford
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Patent number: 8779968Abstract: A system for measuring the range to an RFID tag including situations containing high clutter and multi-path signals is disclosed. The system includes an RFID reader; an RFID tag; and a coordinated pulse radar system. In the system the RFID reader causes the tag to respond to received signals in a first backscatter state at a first time and a second backscatter state at a second time. The pulsed radar system transmits short pulses coordinated by the backscatter state of the RFID tag and the system creates a differential signal comprised of the differences between radar signals obtained during the first and second states of the tag to obtain an uncorrupted measure of a round trip time of flight of said radar pulses between the pulse radar system and the RFID tag.Type: GrantFiled: April 27, 2011Date of Patent: July 15, 2014Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Jeremy Landt, Joseph H. Kao, Michael P. Gonzales
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Patent number: 8770472Abstract: An RFID tag is disclosed for use in roadway tolling systems having specially designated lanes for high occupancy vehicles, wherein more favorable toll rates are allotted to vehicles with more than one occupant. In an embodiment, the tag has a selection switch for connecting one of a plurality of ASICs to an antenna. Each ASIC is programmed to transmit a different message, wherein the message conveys information regarding the occupancy level of the vehicle. There is also information in the ASICs that is common to them for the tag.Type: GrantFiled: March 11, 2013Date of Patent: July 8, 2014Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, George McGraw, Charles A. Johnson
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Publication number: 20140167925Abstract: A multi-mode, preferably dual mode, radio frequency identification (RFID) tag is adapted for automatic detection of whether a RFID reader located within communication range of the RFID tag is transmitting a continuous wave (CW) or modulated wave types of RF signal, and accordingly, mandating a response from the tag in read-only (RO) mode or read/write (R/W) mode, respectively. The tag includes means for designating one of the RO and R/W operating modes as a default mode of the tag, and for switching the tag from its default mode to its other operating mode, and vice versa, according to a rule for determining the frequency of occurrence of a selected event related to signal type of the reader. A device-implemented method of this automatic detection, and a method of fabricating the tag, are also disclosed.Type: ApplicationFiled: November 26, 2013Publication date: June 19, 2014Applicant: Amtech Systems, LLCInventors: Kelly Gravelle, Robert W. Tiernay, Dale L. Scott, Charles A. Johnson, Filip Weytjens, Matthew K. Burnett
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Publication number: 20140150850Abstract: Embodiments of the present invention help prevent Potential-Induced Degradation (PID) in solar cell modules. A solar cell module according to one embodiment of the present invention comprises a glass sheet, a frame covering at least a portion of the glass sheet, a plurality of solar cells at least partially covered by the glass sheet, and a hydrophobic coating covering at least a portion of the frame and at least a portion of the glass sheet.Type: ApplicationFiled: November 30, 2012Publication date: June 5, 2014Applicant: Amtech Systems, Inc.Inventor: Jeong-Mo Hwang
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Patent number: 8742975Abstract: A system for measuring range to an RFID tag including situations containing high clutter and multi-path signals is disclosed. The system includes an RFID reader; an RFID tag; and a coordinated signal compression radar system. The reader causes the tag to respond to received signals in a first backscatter state at a first time and a second backscatter state at a second time. The signal compression radar system transmits signals coordinated by the backscatter state of the tag and creates a differential signal comprised of the differences between radar signals obtained during the first and second states of the tag to obtain an uncorrupted measure of a round trip time of flight of said radar signals between the radar system and the RFID tag. The radar may use signals typical of pulse compression radar systems such as chirp modulation or Orthogonal Frequency Domain Modulation (OFDM), either pulsed or semi-continuous.Type: GrantFiled: November 15, 2011Date of Patent: June 3, 2014Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Jeremy Landt, Patrick W. Lunsford
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Publication number: 20140057388Abstract: Systems and methods of the present invention may be used to charge a layer (such as a passivation layer and/or antireflective layer) of a solar cell (e.g., wafer) with a positive or negative charge. The layer may retain the charge to improve operation of the solar cell. The charged layer may include any suitable dielectric material capable of retaining either a negative or a positive charge. Systems and methods of the present invention permit in-situ charging of a layer. Charging of a layer may be accomplished during or after deposition of the layer including after completing the whole solar cell process, in other words, on a finished cell.Type: ApplicationFiled: July 30, 2013Publication date: February 27, 2014Applicant: Amtech Systems, Inc.Inventor: Jeong-Mo Hwang
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Publication number: 20140057387Abstract: Systems and methods of the present invention may be used to charge a layer (such as a passivation layer and/or antireflective layer) of a solar cell (e.g., wafer) with a positive or negative charge. The layer may retain the charge to improve operation of the solar cell. The charged layer may include any suitable dielectric material capable of retaining either a negative or a positive charge. Systems and methods of the present invention permit in-situ charging of a layer. Charging of a layer may be accomplished during or after deposition of the layer including after completing the whole solar cell process, in other words, on a finished cell.Type: ApplicationFiled: July 30, 2013Publication date: February 27, 2014Applicant: Amtech Systems, Inc.Inventor: Jeong-Mo Hwang
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Publication number: 20140057386Abstract: Systems and methods of the present invention may be used to charge a layer (such as a passivation layer and/or antireflective layer) of a solar cell (e.g., wafer) with a positive or negative charge. The layer may retain the charge to improve operation of the solar cell. The charged layer may include any suitable dielectric material capable of retaining either a negative or a positive charge. Systems and methods of the present invention permit in-situ charging of a layer. Charging of a layer may be accomplished during or after deposition of the layer including after completing the whole solar cell process, in other words, on a finished cell.Type: ApplicationFiled: July 30, 2013Publication date: February 27, 2014Applicant: Amtech Systems, Inc.Inventor: Jeong-Mo Hwang
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Patent number: 8618916Abstract: A multi-mode, preferably dual mode, radio frequency identification (RFID) tag is adapted for automatic detection of whether a RFID reader located within communication range of the RFID tag is transmitting a continuous wave (CW) or modulated wave types of RF signal, and accordingly, mandating a response from the tag in read-only (RO) mode or read/write (R/W) mode, respectively. The tag includes means for designating one of the RO and R/W operating modes as a default mode of the tag, and for switching the tag from its default mode to its other operating mode, and vice versa, according to a rule for determining the frequency of occurrence of a selected event related to signal type of the reader. A device-implemented method of this automatic detection, and a method of fabricating the tag, are also disclosed.Type: GrantFiled: May 10, 2012Date of Patent: December 31, 2013Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Robert W. Tiernay, Dale L. Scott, Charles A. Johnson, Filip Weytjens, Matthew K. Burnett
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Patent number: 8514080Abstract: An RFID tag for use in a vehicle for use in an electronic toll collecting system. The tag is capable of transmitting data to a tag interrogator indicating the occupancy status of the vehicle. In an embodiment, the tag has a user input and a visual and audible tag status indicator. The user input is used to change the occupancy status of the tag, wherein the occupancy status is a portion of a message sent by radio frequency to the interrogator when the vehicle passes through a toll area. In an embodiment the tag has memory for storage of said tag status and the user input can be used to cause the tag to indicate a stored tag status. In a further embodiment, the tag reverts to a default status after a predetermined period of time.Type: GrantFiled: October 29, 2010Date of Patent: August 20, 2013Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Charles A. Johnson, Matthew K. Burnett, Dale L. Scott
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Publication number: 20130133578Abstract: Systems and methods of the present invention can be used to charge a charge-holding layer (such as a passivation layer and/or antireflective layer) of a solar cell with a positive or negative charge as desired. The charge-holding layer(s) of such a cell can include any suitable dielectric material capable of holding either a negative or a positive charge, and can be charged at any suitable point during manufacture of the cell, including during or after deposition of the passivation layer(s).Type: ApplicationFiled: November 14, 2012Publication date: May 30, 2013Applicant: AMTECH SYSTEMS, INC.Inventor: AMTECH SYSTEMS, INC.
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Patent number: 8432255Abstract: One or more secondary data channels are added to existing RFID protocols within the existing bandwidth, data clock rate and message frame times of the protocols. An RFID system is described having at least one reader and at least one tag includes communication between the reader and the tag using a radio frequency carrier signal modulated by a modulation signal to provide a modulated carrier signal conveying digital data in either direction. The modulation signal includes a first encoded modulation signal perturbed by encoded perturbations, the first encoded modulation signal being produced from a first data string. The encoded perturbations are produced from a second data string. The modulation signal modulates the radio frequency signals to transfer data representative of the first and second data strings simultaneously between the reader and the tag. The modulation signal modulates the amplitude, phase, frequency or any combination of the radio frequency carrier signals.Type: GrantFiled: April 9, 2009Date of Patent: April 30, 2013Assignee: Amtech Systems, LLCInventors: Jeremy Landt, Michael George Melville
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Patent number: 8427279Abstract: A multi-protocol RFID interrogating system employs a synchronization technique (step-lock) for a backscatter RFID system that allows simultaneous operation of closely spaced interrogators. The multi-protocol RFID interrogating system can communicate with backscatter transponders having different output protocols and with active transponders including: Title 21 compliant RFID backscatter transponders; IT2000 RFID backscatter transponders that provide an extended mode capability beyond Title 21; EGO™ RFID backscatter transponders, SEGO™ RFID backscatter transponders; ATA, ISO, ANSI AAR compliant RFID backscatter transponders; and IAG compliant active technology transponders. The system implements a step-lock operation, whereby adjacent interrogators are synchronized to ensure that all downlinks operate within the same time frame and all uplinks operate within the same time frame, to eliminate downlink on uplink interference.Type: GrantFiled: May 13, 2011Date of Patent: April 23, 2013Assignee: Amtech Systems, LLCInventors: Kelly Gravelle, Steven J. Catanach, Robert W. Tiernay, Joseph H. Kao, Michael Melville
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Publication number: 20130089944Abstract: In the production of silicon solar cells wherein the process includes a dopant diffusion to form a pn junction, a back surface field layer, or a front surface field layer, resulting in the formation of a doped glass surface, a HF vapor etch is utilized to remove the doped glass layer and expose the wafer surface. The exposed surface is subjected to an oxygen treatment for predetermined times and temperatures to alter the surface state. The HF vapor etch followed by the oxygen treatment, or chemical oxidation, results in significant improvement in solar cell electrical properties.Type: ApplicationFiled: June 9, 2011Publication date: April 11, 2013Applicant: AMTECH SYSTEMS, INC.Inventor: Jihyo M. Rhieu
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Publication number: 20130080216Abstract: An RFID tag for use in a vehicle for use in an electronic toll collecting system. The tag is capable of transmitting data to a tag interrogator indicating the occupancy status of the vehicle. In an embodiment, the tag has a user input and a visual and audible tag status indicator. The user input is used to change the occupancy status of the tag, wherein the occupancy status is a portion of a message sent by radio frequency to the interrogator when the vehicle passes through a toll area.Type: ApplicationFiled: November 26, 2012Publication date: March 28, 2013Applicant: AMTECH SYSTEMS, LLCInventor: Amtech System, LLC