Abstract: An over-sampled sequence detector operates on sampled data and tracks the detection reliability of the sampled data. The detector separately analyzes sample sequences for different sampling phases and then picks a sample sequence that allows for the most reliable detection. For the different sampling phases, the detector inspects some amount of look-behind and look-ahead information in order to improve upon simple symbol-by-symbol detection. The over-sampled information is used to further improve detection performance.

Abstract: An over-sampled sequence detector operates on sampled data and tracks the detection reliability of the sampled data. The detector separately analyzes sample sequences for different sampling phases and then picks a sample sequence that allows for the most reliable detection. For the different sampling phases, the detector inspects some amount of look-behind and look-ahead information in order to improve upon simple symbol-by-symbol detection. The over-sampled information is used to further improve detection performance.

Abstract: An over-sampled sequence detector operates on sampled data and tracks the detection reliability of the sampled data. The detector separately analyzes sample sequences for different sampling phases and then picks a sample sequence that allows for the most reliable detection. For the different sampling phases, the detector inspects some amount of look-behind and look-ahead information in order to improve upon simple symbol-by-symbol detection. The over-sampled information is used to further improve detection performance.

Abstract: A monolithic integrated circuit for use in a digital display unit. The circuit may include an analog-to-digital converter (ADC), a scaler and a clock recovery circuit. The present invention enables the integration of at least these components into a single monolithic integrated circuit while maintaining reasonable display quality. Specifically, the monolithic integrated circuit is designed for substantial immunity from noise, which may otherwise result from integration.

Abstract: A digital display unit adjusting the phase of a sampling clock based on the examination of a display data signal contained in a received analog display signal. The phase may be adjusted by determining a boundary between display data portions representing successive pixel data elements. As the boundaries provide the timing information related to the source clock, the phase of the sampling clock can be adjusted when ever the boundaries can be determined accurately. The phase of the sampling clock can be adjusted potentially every sampling clock cycle if the boundaries can be determined. The area for examination can be minimized by first determining an expected boundary based on synchronization signal accompanying the analog display data, and examining only a small area surrounding the expected boundary.

Abstract: A monolithic integrated circuit for use in a digital display unit. The circuit may include an analog-to-digital converter (ADC), a scaler and a clock recovery circuit. The present invention enables the integration of at least these components into a single monolithic integrated circuit while maintaining reasonable display quality. Specifically, the monolithic integrated circuit is designed for substantial immunity from noise, which may otherwise result from integration.

Abstract: A structure is provided for installing in a motorcycle an anti-theft device capable of reporting its position by wirelessly transmitting at least identifying information utilizing the GPS or PHS positioning system. The structure includes a receptacle and an openable cover that can be locked to secure the receptacle, and the anti-theft device is installed in the receptacle. The receptacle can be a helmet box formed in the motor cycle and cover the can be an openable and lockable motorcycle seat. The structure conceals the anti-theft device, protects it from vibration and invasion of rainwater, and can include a case with enhanced waterproofing capability in which the anti-theft device is accommodated so that an indicator thereof is visible through a transparent window.

Abstract: A receiver to recover data encoded at high speed in a signal over a serial communication channel. A static phase determination circuit indicates whether the signal is early, late or neutral relative to a sampling clock. The sampling clock is used to oversample the signal to generate multiple samples. A token analyzer examines the transitions around a current symbol to determine any short term phase shifts of the boundaries between symbols. The short term phase shifts and the static phase together may be used to accurately select the samples representing the symbols without requiring extensive processing.

Abstract: A receiver to recover data encoded at high speed in a signal over a serial communication channel. A static phase determination circuit indicates whether the signal is early, late or neutral relative to a sampling clock. The sampling clock is used to oversample the signal to generate multiple samples. A token analyzer examines the transitions around a current symbol to determine any short term phase shifts of the boundaries between symbols. The short term phase shifts and the static phase together may be used to accurately select the samples representing the symbols without requiring extensive processing.

Abstract: A flat panel display controller is provided with a circuit for monitoring clocking signal(s) to the flat panel display. A clocking signal output to the flat panel display may be fed back to the display controller using a conventional I/O pad. In the preferred embodiment, the fed back clocking signal resets a counter. In a second embodiment, the fed back clocking signal may then pass through an edge detector whose output then resets the counter. The counter will overflow if a edge signal is not received within a predetermined time period. If an overflow occurs, the carry signal of the counter will initiate a flat panel power shutdown through power control circuitry. The clock signal for the counter may be derived from an off-chip oscillator such that if a failure occurs within the display controller, the counter will continue to function.

Abstract: A digital display unit for minimizing the display artifacts which may be caused by aliasing of high frequency distortions present in wide bandwidth analog display signals. The minimization is achieved by modulating a sampling clock signal by different phase delay amounts for successive lines or frame. Due to such modulation, the analog display signal is sampled at different sampling points in different frames for the same pixel position. As digital display screens are typically designed to respond slowly to differing scanning intensities and as the human eye generally averages different color intensities at the same point, a low-pass filter effect may be in place with respect to the samples taken at the same pixel position. Display artifacts are minimized due to the sampling at different sampling points and the low-pass filter effect.

Abstract: A phase comparator circuit which can compare the phase of a target clock signal with the phase of a reference clock signal with a short comparison cycle. An auxiliary waveform representative of the incremental phase of each of the reference and target clock signals may be generated, and samples on the auxiliary waveforms may be compared to determine the relative phase. The result of the comparison can be used to adjust of the phase of the target clock signal. As several samples can be taken on the auxiliary waveforms, the present invention enables frequent phase comparisons. The frequent comparisons may enable the target clock signal to be synchronized quickly with the reference clock signal. The invention has particular application in display units using phase lock loops (PLLs).

Abstract: A receiver to recover data encoded at high speed in a signal over a serial communication channel. A static phase determination circuit indicates whether the signal is early, late or neutral relative to a sampling clock. The sampling clock is used to oversample the signal to generate multiple samples. A token analyzer examines the transitions around a current symbol to determine any short term phase shifts of the boundaries between symbols. The short term phase shifts and the static phase together may be used to accurately select the samples representing the symbols without requiring extensive processing.

Abstract: An automatic sampling control system for digital monitors. A clock generation circuit generates a sampling clock. A phase controller modifies the phase of the sampling clock by a phase amount. An ADC samples a frame of an analog display signal to generate digital samples. A value which is a function of the samples is generated. The function generally generates a larger value with correspondingly large sample values. The phase amount is modified for successive image frames until a maximum function value is generated. When successive image frames do not change substantially in image content, the phase amount represents the optimal phase change for the sampling clock. If the image content is changing substantially, the phase adjustment may be disabled.

Abstract: A phase comparator circuit which can compare the phase of a target clock signal with the phase of a reference clock signal with a short comparison cycle. An auxiliary waveform representative of the incremental phase of each of the reference and target clock signals may be generated, and samples on the auxiliary waveforms may be compared to determine the relative phase. The result of the comparison can be used to adjust of the phase of the target clock signal. As several samples can be taken on the auxiliary waveforms, the present invention enables frequent phase comparisons. The frequent comparisons may enable the target clock signal to be synchronized quickly with the reference clock signal. The invention has particular application in display units using phase lock loops (PLLs).

Abstract: A clock generator circuit which provides for short comparison cycles even if X and Y do not have a large common denominator when a target clock signal having a frequency of (X/Y) times the frequency of a reference clock signal is to be generated. The comparison cycle is shortened by using approximately X/L and Y/L as divisors, instead of X and Y. As X/L and/or Y/L may not equal integers, multiple divisors may be used in a weighted fashion such that the weighted averages equal X/L or Y/L as the case may be.

Abstract: A digital display unit for minimizing the display artifacts which may be caused by aliasing of high frequency distortions present in wide bandwidth analog display signals. The minimization is achieved by modulating a sampling clock signal by different phase delay amounts for successive lines or frame. Due to such modulation, the analog display signal is sampled at different sampling points in different frames for the same pixel position. As digital display screens are typically designed to respond slowly to differing scanning intensities and as the human eye generally averages different color intensities at the same point, a low-pass filter effect may be in place with respect to the samples taken at the same pixel position. Display artifacts are minimized due to the sampling at different sampling points and the low-pass filter effect.

Abstract: A video controller for controlling at least two video displays having independent refresh rates and pixel resolutions. In a first embodiment, two separate data paths are provided within a video controller for each video display (e.g., CRT and LCD). Taking advantage of the increased bandwidth of 64 bit wide DRAMS, data for each data path may be retrieved in separate read cycles. Each datapath may operate at its own clock frequency characteristic of refresh rate and pixel resolution. The dual data path embodiment also reduces the complexity of the software model needed to drive such dual displays. IN an alternative embodiment, a single data path may be provided within a video controller to drive data for two video displays having independent refresh rates and pixel resolutions. A data "tag" (extra bit) is attached to each word or dword passing through the data path indicating the destination (e.g., CRT or LCD) of the video data. At the output of the data path, separate FIFOs (e.g.

Abstract: A display controller to upscale a source video image for display on a display unit of a computer system. An encoder circuit in the display controller chip stores in a local memory pixel data of previous scan lines required for interpolation in a compressed format using differential pulse code modulation (DPCM) scheme. A decoder circuit decompresses the pixel data into original format prior to sending to an interpolator. The interpolator receives a present scan line and the decompressed data of previous scan lines, and interpolates the received pixels to generate additional pixels required for upscaling the source video image.

Abstract: A display unit receiving a display signal having source image frames encoded at an encoding rate (FR.sub.S). A display screen may be refreshed at a refresh rate which is less than the encoding rate. An actual refresh rate (FR.sub.D) is determined such that FR.sub.S /FR.sub.D =(N+1)/N. To satisfy this equation, the actual refresh rate (FR.sub.D) may be selected to be slightly different from the target refresh rate supported by the display screen. Pixel data elements representing source image frames (received at FR.sub.S) may be written into a frame buffer, and the pixel data elements may be retrieved at a frequency determined by refresh rate FR.sub.D. However, at least a part of every (N+1).sup.st source image frame is not written into the frame buffer to avoid image tearing problems.