Abstract: A frequency detector includes a slicer to receive and slice a phase error against a compare threshold value. The slicer generates a symbol based on the phase error sliced against the compare threshold value. A symbol counter is provided to increment a symbol count if the symbol generated is the same as a last symbol. A logic circuit compares the symbol count with a symbol count limit if the symbol is different from the last symbol. The logic circuit increments a high counter and clears a low counter if the symbol count is less than the symbol count limit. The logic circuit increments the low counter and clears the high counter if the symbol count is greater than the symbol count limit. A combinational logic circuit is provided to generate a high frequency jitter true signal or a high frequency jitter false signal based on at least one of the symbol count, the high counter, and the low counter.
Type:
Grant
Filed:
October 31, 2001
Date of Patent:
October 28, 2003
Assignee:
Intel Corporation
Inventors:
James M. Little, Hiroshi Takatori, Scott Chiu
Abstract: A method and apparatus are disclosed for diagnosing multiple ultrasound scanners from a remote location by applying a diagnostic middleware architecture to act as an interface between a web server and diagnostics section within the scanners. A computer that is remote to the scanners interfaces to the web servers of the scanners over a network. The remote computer has a web browser to survey the scanners by communicating with the web servers over the network. The diagnostic middleware architecture initiates execution of diagnostic programs within the scanners in response to client requests received by the web servers from the remote computer over the network. Diagnostic results are generated within the scanners when running the diagnostic programs of the scanners. Log files are generated within the scanners during normal operation of the scanners.
Type:
Grant
Filed:
December 14, 2001
Date of Patent:
October 14, 2003
Assignee:
GE Medical Systems Global Technology Company, LLC
Abstract: A process and device for determining absolute position by means of two coupled individual sensors which in the measuring range generate saw tooth-shaped output signals with a number of periods (k1 and k2) varying by “1,” and use of a third sensor, which in the measuring range also generates a saw tooth-shaped output signal with a third number of periods (k3) in which k3 differs from k1 and k2 by the absolute value ½. If the first or second sensor fails, a differential signal is generated between the output signal of the remaining functional sensor and the third sensor.