Abstract: A method and system and calibration technique for power measurement and management over multiple time frames provides responsive power control while meeting global system power consumption and power dissipation limits. Power output of one or more system power supplies is measured and processed to produce power values over multiple differing time frames. The measurements from the differing time frames are used to determine whether or not system power consumption should be adjusted and then one or more devices is power-managed in response to the determination. The determination may compare a set of maximum and/or minimum thresholds to each of the measurements from the differing time frames. A calibration technique uses a precision reference resistor and voltage reference controlled current source to introduce a voltage drop from the input side of a power supply sense resistor calibration is made at the common mode voltage of the power supply output.

Abstract: A calibration technique provides for precision calibration of system power measurement. The calibration technique uses a precision reference resistor and voltage reference controlled current source to introduce a voltage drop from the input side of a power supply sense resistor. Calibration measurements are thereby made for voltages substantially equal to the voltage of the power supply output, so that differential measurements are made at substantially the same common-mode voltage by appropriate selection of the relationship of the resistance of the precision reference resistor and the resistance of the sense resistor, where the common-mode voltage of the measurement is substantially equal to the power supply output voltage.

Abstract: A method and system and calibration technique for power measurement and management over multiple time frames provides responsive power control while meeting global system power consumption and power dissipation limits. Power output of one or more system power supplies is measured and processed to produce power values over multiple differing time frames. The measurements from the differing time frames are used to determine whether or not system power consumption should be adjusted and then one or more devices is power-managed in response to the determination. The determination may compare a set of maximum and/or minimum thresholds to each of the measurements from the differing time frames. A calibration technique uses a precision reference resistor and voltage reference controlled current source to introduce a voltage drop from the input side of a power supply sense resistor calibration is made at the common mode voltage of the power supply output.

Abstract: Detecting, predicting, and diagnosing faults in a cooling system. According to one embodiment, a heat sink is in thermal contact with a heat-generating electronic component. When a temperature differential between the electronic component and the heat sink exceeds a set point, a fault signal is generated. The set point may be empirically or theoretically determined. The set point may be a static set point, or it may be a dynamic set point determined according to real-time operational parameters of the system. The system may be implemented with predictive failure analysis (PFA) to provide a more reliable, efficient, inexpensive, and robust computer system.

Abstract: Detecting, predicting, and diagnosing faults in a cooling system. According to one embodiment, a heat sink is in thermal contact with a heat-generating electronic component. When a temperature differential between the electronic component and the heat sink exceeds a set point, a fault signal is generated. The set point may be empirically or theoretically determined. The set point may be a static set point, or it may be a dynamic set point determined according to real-time operational parameters of the system. The system may be implemented with predictive failure analysis (PFA) to provide a more reliable, efficient, inexpensive, and robust computer system.

Abstract: A signal channel extends from motherboard to a daughter card across an edge connection. The daughter card includes a conductive plane that is held at a constant electrical potential. In order to compensate for a number of sources of inductance within the signal line at the edge connection, a circuit trace forming a portion of the signal channel includes an enlarged portion, spaced inward along the daughter card from the contact pads forming the edge connection, that adds capacitive coupling of the signal channel with the conductive plane.

Abstract: A method of controlling the power-on of a computer system by providing a plurality of monitor lines interconnected with respective components of the computer system, monitoring the lines using a control circuit in response to a power-on reset signal, and executing a system power-on sequence in response to a determination by the control circuit that the components of the computer system are functioning properly. If the computer system has a plurality of CPU slots, the control circuit determines if a CPUs or terminator cartridges is plugged into the CPU slots, and determines that a properly matched CPU has been installed into the system, and that multiple CPUs contain compatible power supply requirements. Finally, the control circuit can determine that a power regulator is functioning properly.