Abstract: An apparatus and method for producing a perpetual energy harvester which harvests ambient near ultraviolet to infrared radiation and provides continual power regardless of the environment. The device seeks to harvest the largely overlooked blackbody radiation through use of a semiconductor thermal harvester, providing a continuous source of power. Additionally, increased power output is provided through a solar harvester. The solar and thermal harvesters are physically connected but electrically isolated. “Perpetual energy harvester” as mentioned in this invention is interpreted to mean an energy harvester which is configured to harvest energy during day and/or night and/or light and/or dark.

Abstract: Autonomous/self-powering image detecting systems and their manufacturing technologies are disclosed. An antenna is used to communicate signals. A first energy harvester is used to harvest energy from blackbody radiation, RF signals, movement/vibration, or combination thereof. A power management system is used which controls the energy flow to and from the energy-storage. An image sensor to take the image, a lens, and a transmitter to transmit the images to an outside device are also used in this invention. According to this preferred embodiment, an energy harvester harnessing energy from blackbody radiation from and within the body, is used to extract enough energy to increase the operation time and also to make precision of the image detecting system.

Abstract: This invention relates to a system and methods including their manufacturing technologies for enhanced sensing capability of one or more bioagents covering from HIV, Pathogens, virus, to cells detection. More particularly, this invention is related to HIV and pathogen diagnosis system and methods which may increase its sensitivity and may reduce the diagnosis time. Furthermore, the diagnosis system and method may be applicable to all early stage patients with various age groups, where early and accuracy in diagnosis, are required.

Abstract: An apparatus and method pertaining to a perpetual energy harvester. The harvester absorbs ambient infrared radiation and provides continual power regardless of the environment. The device seeks to harvest the largely overlooked blackbody radiation through use of a semiconductor thermal harvester.

Abstract: Autonomous/self-powering image detecting systems and their manufacturing technologies are disclosed. An antenna is used to communicate signals. A first energy harvester is used to harvest energy from blackbody radiation, RF signals, movement/vibration, or combination thereof. A power management system is used which controls the energy flow to and from the energy-storage. An image sensor to take the image, a lens, and a transmitter to transmit the images to an outside device are also used in this invention. According to this preferred embodiment, an energy harvester harnessing energy from blackbody radiation from and within the body, is used to extract enough energy to increase the operation time and also to make precision of the image detecting system.

Abstract: This invention relates to multiband detector and multiband image sensing devices, and their manufacturing technologies. The innovative detector (or image sensing) provides significant broadband capability covering the wavelengths from within ultra-violet (UV) to long-Infrared, and it is achieved in a single element. More particularly, this invention is related to the multiband or dual band detectors, which can not only detect the broad spectrum wavelengths ranges from within as low as UV to the wavelengths as high as 25 ?m, but also band selection capability. This invention is also related to the multiband detector arrays or image sensing device for multicolor imaging, sensing, and advanced communication.

Abstract: This invention relates to a system their manufacturing technologies for enhanced endoscopic diagnosis. More particularly, this invention is related to endoscope capsule system, which may increase its operating time as high as 80 hours, and may reduce the size of the capsule system. Furthermore, the diagnosis procedure using the capsule system may be applicable to all patients with various age groups, where capsule size and large set of images for accuracy in diagnosis, are required.

Abstract: This invention relates to multiband detector and multiband image sensing devices, and their manufacturing technologies. The innovative detector (or image sensing) provides significant broadband capability covering the wavelengths from within ultra-violet (UV) to long-Infrared, and it is achieved in a single element. More particularly, this invention is related to the multiband or dual band detectors, which can not only detect the broad spectrum wavelengths ranges from within as low as UV to the wavelengths as high as 25 ?m, but also band selection capability. This invention is also related to the multiband detector arrays or image sensing device for multicolor imaging, sensing, and advanced communication.

Abstract: A high-speed electrical interconnection system is provided. The interconnection system comprises one or more electrical signal lines, or differential pairs of signal lines, and an in homogeneous dielectric system. The dielectric system further comprises a homogeneous dielectric layer interposed between the electrical signal lines, and an electrical conducting plane including a periodic array etched in the conducting material of the conducting plane. The inhomogeneous dielectric system exhibits a lower effective dielectric constant as compared to the dielectric constant of the homogeneous dielectric layer, resulting in lower microwave loss, reduced signal propagation delay, reduced signal skew and increased signal bandwidth. The interconnection system may be implemented for connecting one or more high speed electronic elements on-chip, off-chip, chip-chip connection on multilayer printed circuit boards, high speed die-package, high speed connectors and high speed electric cables.

Abstract: Fundamental interconnect systems for connecting high-speed electronics elements are provided. The interconnect systems consists of the signal line, dielectric system with opened trench or slot filled up with the air or lower dielectric loss material, and the ground plane. The signal line could be for example, microstripline, strip line, coplanar line, single ended or differential pairs. The interconnect system can be used for on-chip interconnects or can also be used for off-chip interconnects (chip-to-chip interconnects). The fundamental techniques provided in this invention can also be used for high-speed connectors and high-speed cables. More over, this fundamental technology is also used for the high sped die package, high speed connector, and high speed cables where conventional manufacturing technology can be used and yet to increase the bandwidth of the interconnects.

Abstract: Fundamental interconnect systems for connecting high-speed electronics elements are provided. Interconnect system has the means, which could reduce the microwave loss by reducing the effective dielectric loss and dielectric constant of the interconnect system, and increase the bandwidth of the interconnects and also reduce the signal propagation delay, respectively. Ideally, the speed of the electrical signal on the signal line can be reached to speed of the light in the air, and the bandwidth can be reached to closer to the optical fiber. The interconnect systems consists of the signal line, dielectric system with opened trench or slot filled up with the air or lower dielectric loss material, and the ground plan. The signal line proposed in this invention could be made any type of signal line configuration for example, microstripline, strip line or coplanar line. The signal line can also be made as single ended or differential pairs of any configurations.

Abstract: High-speed interconnect systems for connecting two or more electrical elements for both on-chip and off-chip applications are provided. Interconnect system has the means, which could reduce the microwave loss induced due to the dielectrics. Reducing the effective loss tangent of the dielectrics reduces the microwave loss. With optimize design of the interconnects, the speed of the electrical signal can be made to closer to the speed of the light. The interconnect systems consists of the electrical signal line, inhomogeneous dielectric systems and the ground line, wherein inhomogeneous dielectric system consisting of the opened-trenches into the dielectric substrate or comb-shaped dielectrics to reduce the microwave loss. Alternatively dielectric structure can have the structure based on the fully electronic or electromagnetic crystal or quasi crystal with the line defect.

Abstract: Novel structures of photovoltaic cells (also treated as solar cells) are provided. The cells are based on nanometer-scaled wires, tubes, and/or rods, which are made of electronic materials covering semiconductors, insulators or metallic in structure. These photovoltaic cells have large power generation capability per unit physical area over the conventional cells. These cells will have enormous applications in space, commercial, residential, and industrial applications.

Abstract: Novel structures of photovoltaic cells (also treated as solar cells) are provided. The cells are based on nanometer or micrometer-scaled wires, tubes, and/or rods, which are made of electronic materials covering semiconductors, insulators, and may be metallic in structure. These photovoltaic cells have large power generation capability per unit physical area over the conventional cells. These cells will have enormous applications such as in space, commercial, residential and industrial applications.

Abstract: Novel structures of photovoltaic cells (also called as solar cells) are provided. The cells are based on nanoparticles or nanometer-scaled wires, tubes, and/or rods, which are made of electronic materials covering semiconductors, insulators, and may be metallic in structure. These photovoltaic cells have large power generation capability per unit physical area over the conventional cells. These cells will have enormous applications such as in space, commercial, residential and industrial applications.

Abstract: High speed flex printed circuit boards (FLEX-PCBs) are disclosed comprising a dielectrics systems with the back-side trenches, adhesives, signal lines and ground-plans, wherein the signal line and ground-plan are located on the dielectrics. Using of the open trenches in the substrate help to reduce the microwave loss and dielectric constant and thus increasing the signal carrying speed of the interconnects. Thus, according to the present invention, it is possible to provide a simply constructed high speed FLEX-PCB using the conventional material and conventional FLEX-PCB manufacturing which facilitates the design of circuits with controlled bandwidth based on the trench opening in the dielectrics, and affords excellent connection reliability. As the effective dielectric constant is reduced, the signal width is required to make wider or the dielectric thickness is required to make thinner keeping fixed characteristics impedance.

Abstract: Novel structures of photovoltaic cells (also treated as solar cells) are provided. The Cells are based on the nanometer-scaled wire, tubes, and/or rods, which are made of the electronics materials covering semiconductors, insulator or metallic in structure. These photovoltaic cells have large power generation capability per unit physical area over the conventional cells. These cells can have also high radiation tolerant capability. These cells will have enormous applications such as in space, in commercial, residential and industrial applications.

Abstract: Novel structures of the photodetector having broad spectral ranges detection capability are provided. The photodetector can offer high quantum efficiency >95% over wide spectral ranges, high frequency response >10 GHz (@3 dB). The photodiode array of N×N elements is also provided. The array can also offer wide spectral detection ranges ultraviolet to 2500 nm with high quantum efficiency >95% and high quantum efficiency of >10 GHz, cross-talk of <1%. In the array, each photodiode can be independently addressable and can be made either as top-illuminated or as bottom illuminated type detector. The photodiode and its array provided in this invention, could be used in multiple purpose applications such as telecommunication, imaging and sensing applications including surveillance, satellite tracking, advanced lidar systems, etc. The advantages of this photodetectors are that they are uncooled and performance will not be degraded under wide range of temperature variation.

Abstract: THE invention is a method of producing an individual an array, or multiple arrays of quantum dots. Single dots, as well as two or three-dimensional groupings may be created. The invention involves the transfer of quantum dots from a receptor site on a substrate where they are originally created to a separate substrate or layer, with a repetition of the process and a variation in the original pattern to create different structures.

Abstract: High speed printed circuit boards (PCBs) are disclosed comprising a dielectrics systems with the back-side trenches, prepregs, signal lines and ground-plans, wherein the signal line and ground-plan are located on the dielectrics. Using of the open trenches in the substrate help to reduce the microwave loss and dielectric constant and thus increasing the signal carrying speed of the interconnects. Thus, according to the present invention, it is possible to provide a simple high speed PCB using the conventional material and conventional PCB manufacturing which facilitates the design of circuits with controlled bandwidth based on the trench opening in the dielectrics, and affords excellent reliability. According to this present invention, high speed PCB with the interconnect system contains whole portion or portion of interconnects for high speed chips interconnects and that have have the dielectric system with opened trench or slot to reduce the microwave loss.