Abstract: A lens, such as a lens for use in a wafer-level camera, is made by forming a polymeric material with at least one master to form a pre-final lens. The pre-final lens forms a majority of a final volume of the lens. The pre-final lens is allowed to harden, during which it may sag or shrink. An aliquot of polymeric material is added to the lens and formed with the same master with a spacer, or with a second master, to form a first surface layer that provides correction between the pre-final lens shape and a final desired lens shape. In an embodiment, the surface layer has similar or identical index of refraction to the pre-final lens. In an embodiment the lens is formed on a substrate. In an embodiment, a send master, or master pair, are used to form a lens having upper and lower curvature, with a second aliquot of polymeric material forming a second surface layer on a surface of the lens opposite to the first surface layer.

Abstract: Embodiments of a semiconductor device that includes a semiconductor substrate and a cavity disposed in the semiconductor substrate that extends at least from a first side of the semiconductor substrate to a second side of the semiconductor substrate. The semiconductor device also includes an insulation layer disposed over the first side of the semiconductor substrate and coating sidewalls of the cavity. A conductive layer including a bonding pad is disposed over the insulation layer. The conductive layer extends into the cavity and connects to a metal stack disposed below the second side of the semiconductor substrate. A through silicon via pad is disposed below the second side of the semiconductor substrate and connected to the metal stack. The through silicon via pad is position to accept a through silicon via.

Abstract: An image sensor includes a plurality of pixel cells organized into rows and columns of a pixel array. A bit line is coupled to each of the pixel cells within a line of the pixel array. Readout circuitry is coupled to the bit line to readout the image data from the pixel cells within the line. The readout circuitry includes a line amplifier coupled to the bit line to amplify the image data and first and second sample and convert circuits coupled in parallel to an output of the line amplifier to reciprocally and contemporaneously sample the image data and convert the image data from analog values to digital values.

Abstract: A method of an aspect includes acquiring analog image data with a pixel array, and reading out the analog image data from the pixel array. The analog image data is converted to digital image data by performing an analog-to-digital (A/D) conversion using a multiple slope voltage ramp. At least some of the digital image data is adjusted with calibration data. Other methods, apparatus, and systems, are also disclosed.

Abstract: A method of operating an image sensor includes adjusting a capacitance coupled to a circuit node within a pixel cell. The circuit node is coupled to selectively receive an image charge acquired by a photo-sensor of the pixel cell. A conversion gain is selected from multiple conversion gains for the pixel cell by adjusting the capacitance. A voltage level from multiple voltage levels is selected for use as a reset signal when the reset signal is asserted. The reset signal controls resetting of the circuit node during operation of the pixel cell. The voltage level is selected dependent upon which of the multiple conversion gains is selected by adjusting the capacitance. The reset signal is asserted to reset a voltage at the circuit node.

Abstract: Methods of forming isolation structures are disclosed. A method of forming isolation structures for an image sensor array of one aspect may include forming a dielectric layer over a semiconductor substrate. Narrow, tall dielectric isolation structures may be formed from the dielectric layer. The narrow, tall dielectric isolation structures may have a width that is no more than 0.3 micrometers and a height that is at least 1.5 micrometers. A semiconductor material may be epitaxially grown around the narrow, tall dielectric isolation structures. Other methods and apparatus are also disclosed.

Abstract: An integrated die-level camera system and method of making the camera system include a first die-level camera formed at least partially in a die. A second die level camera is also formed at least partially in the die. Baffling is formed to block stray light between the first and second die-level cameras.

Abstract: A transmitter for generating a differential signal pair including a pre-emphasis component. In an embodiment, the transmitter comprises pre-driver circuitry including an input to receive a single-ended data signal. The differential transmitter further comprises a load circuit coupled between the input and a node coupled to an output of the pre-driver circuitry which corresponds to a constituent signal of the differential signal pair. In another embodiment, the load circuit is configurable to provide a signal path between the input and the node. A configuration of the load circuit allows for a type of pre-emphasis to be included in the constituent signal.

Abstract: An optical system for capturing three-dimensional images of a three-dimensional object is provided. The optical system includes a projector for structured illumination of the object. The projector includes a light source, a grid mask positioned between the light source and the object for structured illumination of the object, and a first Wavefront Coding (WFC) element having a phase modulating mask positioned between the grid mask and the object to receive patterned light from the light source through the grid mask. The first WFC element is constructed and arranged such that a point spread function of the projector is substantially invariant over a wider range of depth of field of the grid mask than a point spread function of the projector without the first WFC element.

Abstract: A method for decoding run-length encoded (RLE) data includes the steps of receiving the RLE data and storing a predetermined value (e.g., zero) in each of a plurality of consecutively-accessible storage locations of a buffer. The method further includes writing a first value different than the predetermined value to a first storage location based on the RLE data, jumping over (i.e., skipping) a number of the consecutively-accessible storage locations from the first storage location to a next storage location based on the RLE data, and writing a next value different than the predetermined value to the next storage location based on the RLE data. In the case of JPEG, the values stored in the storage locations of the buffer are quantized coefficients associated with a block of image data. A run-length decoder is also described.

Abstract: A color pixel array includes a plurality of micropixels. Each micropixel includes a photosensitive element and a filter element optically aligned with the photosensitive element such that incident light passes through the filter element prior to reaching the photosensitive element. The micropixels are organized into triangular macropixels that each includes multiple micropixels. A perimeter shape of each of the triangular macropixels forms a triangle. The triangular macropixels have a repeating pattern across the color pixel array.

Abstract: An integrated circuit system includes a first device wafer bonded to a second device wafer at a bonding interface of dielectrics. Each wafer includes a plurality of dies, where each die includes a device, a metal stack, and a seal ring that is formed at an edge region of the die. Seal rings included in dies of the second device wafer each include a first conductive path provided with metal formed in a first opening that extends from a backside of the second device wafer, through the second device wafer, and through the bonding interface to the seal ring of a corresponding die in the first device wafer.

Abstract: A lens system and a for a capsule endoscope includes a first lens having a concave aspheric surface having a radius R2 and a second lens having a convex aspheric surface having a radius R3 facing the first lens. A third lens has a convex aspheric surface having radius R6. The lens system satisfies the following conditions: (1) R2/Gap>1 and ABS(R3/R2)>1.28; (2) 1<ABS(R6/R2)<1.1 and R6<0; and (3) V2<V1 and V2<V3; wherein: i) Gap is a distance from a center of curvature of the concave aspheric surface of the first lens to a center of curvature of the convex aspheric surface of the second lens; (ii) ABS denotes absolute value; and (iii) V1 is an Abbe number of the first lens, V2 is an Abbe number of the second lens, and V3 is an Abbe number of the third lens.

Abstract: Systems and methods include optics having one or more phase modifying elements that modify wavefront phase to introduce image attributes into an optical image. A detector converts the optical image to electronic data while maintaining the image attributes. A signal processor subdivides the electronic data into one or more data sets, classifies the data sets, and independently processes the data sets to form processed electronic data. The processing may optionally be nonlinear. Other imaging systems and methods include optics having one or more phase modifying elements that modify wavefront phase to form an optical image. A detector generates electronic data having one or more image attributes that are dependent on characteristics of the phase modifying elements and/or the detector. A signal processor subdivides the electronic data into one or more data sets, classifies the data sets and independently processes the data sets to form processed electronic data.

Abstract: A device includes a transistor including a source and a drain disposed in a substrate and a gate disposed above the substrate. The gate includes a first longitudinal member disposed above the source and the drain and running substantially parallel to a channel of the transistor. The first longitudinal member is disposed over a first junction isolation area. The gate also includes a second longitudinal member disposed above the source and the drain and running substantially parallel to the channel of the transistor. The second longitudinal member is disposed over a second junction isolation region. The gate also includes a cross member running substantially perpendicular to the channel of the transistor and connecting the first longitudinal member to the second longitudinal member. The cross member is disposed above and between the source and the drain.

Abstract: A method for reading out an image signal includes providing at least two photosensitive regions and providing at least two transfer gates respectively associated with each photosensitive region. The method also includes providing a common charge-to-voltage conversion region electrically connected to the transfer gates and providing a reset mechanism that resets the common charge-to-voltage conversion region. After transferring charge from at least one of the photo-sensitive regions, all the transfer gates are disabled at a first time. The method further includes enabling at least one transfer gate at a subsequent second time and transferring charge from at least one of the photosensitive regions at a subsequent third time while the at least one transfer gate from the second time remains enabled.

Abstract: An image sensor includes an array of light sensitive elements and a filter array. Each filter element is in optical communication with a respective light sensitive element. The image sensor receives filtered light having a repeating pattern. Light sensitive elements in at least two successive rows alternately receive light having a first color and a second color, and light sensitive elements in common columns of the successive rows alternately receive light having the first color and the second color. Light sensitive elements in at least two additional successive rows alternately receive light having a third and a fourth color, and light sensitive elements in common columns of the additional successive rows alternately receive light having the third color and the fourth color. Output values of pairs of sampled light sensitive elements receiving light of a common color and from successive rows are combined to generate a down-sampled image.

Abstract: A method for forming a final digital color image includes capturing an image using an image sensor having panchromatic pixels and color pixels corresponding to at least two color photoresponses; providing from the captured image a digital panchromatic image and an intermediate digital color image; and using the digital panchromatic image and the intermediate digital color image to provide the final digital color image.

Abstract: An image sensor apparatus is disclosed. The image sensor apparatus includes an image sensor for generating pixel data corresponding to a scene under a scene illuminant and a processor. The processor includes an illuminant estimation module for receiving a subset of the pixel data associated with a subset of a color space and finding a chromaticity trend in the pixel data subset to estimate the scene illuminant. A white balance and color correction module in the processor applies white balance and color correction coefficients to the pixel data according to the estimated scene illuminant.

Abstract: A method for network-based real-time video display is disclosed. The method includes: setting up a connection between an imaging apparatus and a website via a wireless network; producing a video by the imaging apparatus and displaying the video by the website if the imaging apparatus is successfully authenticated, wherein producing a video by the imaging apparatus includes: recording a video and splitting the video into video segments; processing and converting the video segments into a video stream; and uploading the video stream to the website, further wherein, displaying the video by the website includes: offering a display widget to the video stream and creating a display window for the video; embedding the display window in a corresponding display page; and displaying the video through the display window in real time. A system for network-based real-time video display is also disclosed.