Abstract: Camera operations are controlled by motion patterns determined from the outputs of an internal motion sensor. These methods remove the need for a nob, button, touch screen, or other mechanical control devices with movable components. This effectively removes common water leakage weak points for electronic devices with cameras. Motion patterns determined from the outputs of an internal motion sensor are also used to adjust camera operation parameters such as the brightness of a supporting light source, shutter speed, aperture opening, and contrast. These methods are also applicable for land operations.

Abstract: Using a camera pointing downward, a working area below eye level can be displayed by a headwear for users, so that the user can maintain healthy sitting or standing posture while working on patients or objects located below eye level. Using two or more cameras pointing downward, three-dimensional views with accurate and natural depth perception of a working area can be displayed by a headwear for users. Additional functions including eye protection, zoom-in, zoom-out, on-off, lighting control, overlapping, and teleconference capabilities are also supported using electronic, video and audio devices associated with the headwear. The headwear can also comprise a face shield designed to protect the user from hazardous droplets, aerosols, harmful wavelengths of light, heat, sparks, flash burn, debris and/or flying objects. Contactless control devices can be used to control the functions of the headwear.

Abstract: Using two or more cameras attached to the eyewear, three-dimensional views with accurate and natural depth perception of the working area can be displayed for users, so that the user can maintain healthy sitting or standing posture while working on patients or objects located below horizontal eye level. Additional functions including eye protection, zoom-in, zoom-out, on-off, lighting control, overlapping, and teleconference capabilities are also supported using electronic, video and audio devices attached to the eyewear. The eyewear can also comprise a face shield designed to protect the user from hazardous droplets, aerosols, harmful wavelengths of light, heat, sparks, flash burn, debris and/or flying objects.

Abstract: Using two or more cameras attached to the eyewear, three-dimensional views with accurate and natural depth perception of the working area can be displayed for users, so that the user can maintain healthy sitting or standing posture while working on patients or objects located below horizontal eye level. Additional functions including eye protection, zoom-in, zoom-out, on-off, lighting control, overlapping, and teleconference capabilities are also supported using electronic, video and audio devices attached to the eyewear. The eyewear can also comprise a face shield designed to protect the user from hazardous droplets, aerosols, harmful wavelengths of light, heat, sparks, flash burn, debris and/or flying objects.

Abstract: Using two or more cameras attached to the eyewear, three-dimensional views with accurate and natural depth perception of the working area can be displayed for users, so that the user can maintain healthy sitting or standing posture while working on patients or objects located below horizontal eye level. Additional functions including eye protection, zoom-in, zoom-out, on-off, lighting control, overlapping, and teleconference capabilities are also supported using electronic, video and audio devices attached to the eyewear.

Abstract: Using two or more cameras attached to the eyewear, three-dimensional views with accurate and natural depth perception of the working area can be displayed for users, so that the user can maintain healthy sitting or standing posture while working on patients or objects located below horizontal eye level. Additional functions including eye protection, zoom-in, zoom-out, on-off, lighting control, overlapping, and teleconference capabilities are also supported using electronic, video and audio devices attached to the eyewear.

Abstract: Using two or more cameras attached to the protective eyewear, three-dimensional views with accurate and natural depth perception of the working area can be displayed for users, so that the user can maintain healthy sitting or standing posture while working on patients or objects located below horizontal eye level. Additional functions including eye protection, zoom-in, zoom-out, on-off, lighting control, overlapping, and teleconference capabilities are also supported using electronic, video and audio devices attached to the eyewear.

Abstract: Isolated drain MOS transistors provide solutions to overcome the short channel effects of Metal-Oxide-Semiconductor (MOS) transistors. Instead of reducing channel depth, the short channel effects of Metal-Oxide-Semiconductor (MOS) transistors, especially drain voltage induced leakage currents, can be overcome by surrounding the drain conductor with barrier diffusion regions and/or insulator materials. Isolated drain MOS transistors can be manufactured using integrated circuit technologies developed for planar MOS transistors. An optional under-drain insulator layer also can be used to reduce parasitic capacitances for performance improvements.

Abstract: Shallow drain MOS transistors provide solutions to overcome the short channel effects of Metal-Oxide-Semiconductor (MOS) transistors. Instead of reducing channel depth, the short channel effects of Metal-Oxide-Semiconductor (MOS) transistors, especially drain voltage induced leakage currents, can be overcome by reducing effective drain depth. Shallow drain MOS transistors can be manufactured using integrated circuit technologies developed for planar MOS transistors. An optional under-drain insulator layer also can be used to reduce parasitic capacitances for performance improvements.

Abstract: Hybrid circuits are CMOS circuits that can function in two different operation modes: a normal operation mode and a power saving mode. At normal operation mode, a hybrid circuit operates in the same ways as typical CMOS circuits. At power saving mode, the standby leakage current of the circuit is reduced significantly. Typically, most parts of a hybrid circuit stay in power saving mode. A circuit block is switched into normal operation mode when it needs to operate at full speed. The resulting circuits are capable of supporting ultra-low power operations without sacrificing performance. Hybrid circuits can be implemented on integrated circuits comprising multiple-gate MOS transistors.

Abstract: Distress signal transmitters of the present invention are designed to maximize the chance for a victim to survive an accident, and minimize the time for a rescue party to find a victim. The preferred embodiments of the distress signal transmitters of the present invention are to be self-powered, self-activated, and to remain fully functional when dropped into salt water. This will allow the Radio Frequency (RF) distress signals to be sent over a long distance, even if the user is unconscious or severely injured. Furthermore, a set of coordinates determined by a Global Positioning System will be transmitted with the S.O.S message in order for search parties to quickly and efficiently pinpoint the location of the victim(s).

Abstract: A power saving mode especially useful for memory decoders has been developed. At this power saving mode, the drain-to-source voltage of every MOS transistor in a memory decoder is set to zero, while at normal operation the memory decoder supports the same functions as prior art memory decoders.

Abstract: Distress signal transmitters of the present invention are designed to maximize the chance for a victim to survive an accident, and minimize the time for a rescue party to find a victim. The preferred embodiments of the distress signal transmitters of the present invention are to be self-powered, self-activated, and to remain fully functional when dropped into salt water. This will allow the Radio Frequency (RF) distress signals to be sent over a long distance, even if the user is unconscious or severely injured. Furthermore, a set of coordinates determined by a Global Positioning System will be transmitted with the S.O.S message in order for search parties to quickly and efficiently pinpoint the location of the victim(s).

Abstract: Hybrid Super Threshold (SupVt) circuits are CMOS circuits that can function in two different operation modes: a normal operation mode and a SupVt power saving mode. At normal operation mode, a hybrid SupVt circuit operates in the same ways as typical CMOS circuits. At SupVt mode, the standby leakage current of the circuit is reduced significantly, while the circuit still can function at high speed. Typically, most parts of a hybrid SupVt circuit stay in power saving mode. A circuit block is switched into normal operation mode when it needs to operate at full speed. The resulting circuits are capable of supporting ultra-low power operations without sacrificing performance.

Abstract: Synchronized mechanical switches are configured to support electrical switching circuits operating at frequencies equal to or higher than the frequency of the primary AC power supply. Due to near perfect impedances of mechanical switches as well as accurate timing control mechanisms, the mechanical switching circuits provide timely electrical connections to the terminals of the primary AC power supply to generate proper waveforms suitable to power next stage electrical circuits without the need to use semiconductor devices.

Abstract: The preferred embodiments of the present invention changes the switch control mechanisms of switched-mode power converter circuits. Instead of controlling the duty cycle of switch control signals, the preferred embodiments of the present invention controls electrical switches based on the voltage level on the fire line of AC main power source. The resulting power converter circuits operates at better power efficiency while achieving significantly better space/cost efficiency, and they are small enough while powerful enough to be embedded into battery powered mobile devices.

Abstract: The preferred embodiments of the present invention change the switching circuits in switched-mode voltage converter circuits. Instead of switching at full amplitude of input voltage, the preferred embodiments of the present invention provide partial voltage switching signals to the electrical filters. The resulting voltage converter circuits operates at better power efficiency while achieving significantly better space and cost efficiency.

Abstract: The preferred embodiments of the present invention use synchronized mechanical switches to support electrical switching circuits. Due to near perfect impedances of mechanical switches as well as accurate timing control mechanisms, the preferred embodiments of the present invention provide significant improvements in power efficiency and cost efficiency of first stage power input circuits.

Abstract: The preferred embodiments of the present invention use low voltage transistors to support high voltage switching circuits by connecting low voltage circuits in a stacking configuration. High voltage switching signals are divided into a plurality of small amplitude switching signals before sending into transformers, filters or other circuits. The resulting circuits can support high voltage applications while achieving cost and performance advantages of low voltage circuits.

Abstract: The preferred embodiments of the present invention use low voltage transistors to support high voltage switching circuits by connecting low voltage circuits in a stacking configuration. High voltage switching signals are divided into a plurality of small amplitude switching signals before sending into transformers, filters or other circuits. The resulting circuits can support high voltage applications while achieving cost and performance advantages of low voltage circuits.