Patent application number | Description | Published |
20100327958 | Leakage Current Mitigation in a Semiconductor Device - A dormant mode target semiconductor device within a leakage current target unit is identified for mitigating leakage current to prevent it from reaching catastrophic runaway. A leakage current shift monitor unit is electrically connected to the output node of the leakage current target unit and collects leakage current from the selected target semiconductor device for two consecutive predefined temporal periods and measures the difference between the collected leakage currents. A comparator receives and compares the outputs of the current shift monitor unit and a reference voltage generator. The comparator propagates an alert signal to the leakage current target unit when the leakage voltage output from the leakage current shift monitor unit exceeds the reference voltage, a condition that indicates that the leakage current is about to approach catastrophic runaway levels. This alert signal switches the target semiconductor device to an active mode for leakage mitigation, which includes a repair voltage from a repair voltage generator applied to the gate of the target semiconductor device. | 12-30-2010 |
20110073858 | Test Structure for Determination of TSV Depth - A test structure for a through-silicon-via (TSV) in a semiconductor chip includes a first contact, the first contact being electrically connected to a first TSV; and a second contact, wherein the first contact, second contact, and the first TSV form a first channel, and a depth of the first TSV is determined based on a resistance of the first channel. A method of determining a depth of a through-silicon-via (TSV) in a semiconductor chip includes etching a first TSV into the semiconductor chip; forming a first channel, the first channel comprising the first TSV, a first contact electrically connected to the first TSV, and a second contact; connecting a current source to the second contact; determining a resistance across the first channel; and determining a depth of the first TSV based on the resistance of the first channel. | 03-31-2011 |
20110102005 | On-Chip Accelerated Failure Indicator - An accelerated failure indicator embedded on a semiconductor chip includes an insulating region; a circuit located inside the insulating region; a heating element located inside the insulating region, the heating element configured to heat the circuit to a temperature higher than an operating temperature of the semiconductor chip; and a reliability monitor configured to monitor the circuit for degradation, and further configured to trigger an alarm in the event that the degradation of the circuit exceeds a predetermined threshold. A method of operating an accelerated failure indicator embedded on a semiconductor chip includes determining an operating temperature of the semiconductor chip; heating a circuit located inside an insulating region of the accelerated failure indicator to a temperature higher than the determined operating temperature; monitoring the circuit for degradation; and triggering an alarm in the event that the degradation of the circuit exceeds a predetermined threshold. | 05-05-2011 |
20110128069 | METHOD OF AND STRUCTURE FOR RECOVERING GAIN IN A BIPOLAR TRANSISTOR - A method of recovering gain in a bipolar transistor includes: providing a bipolar transistor including an emitter, a collector, and a base disposed between junctions at the emitter and the collector; reverse biasing the junction disposed between the emitter and the base with an operational voltage and for an operational time period, so that a current gain β of the transistor is degraded; idling the transistor, and generating a repair current I | 06-02-2011 |
20120175612 | TEST STRUCTURE FOR DETERMINATION OF TSV DEPTH - A test structure for a through-silicon-via (TSV) in a semiconductor chip includes a first contact, the first contact being electrically connected to a first TSV; and a second contact, wherein the first contact, second contact, and the first TSV form a first channel, and a depth of the first TSV is determined based on a resistance of the first channel. | 07-12-2012 |
20130099853 | METHODOLOGY AND APPARATUS FOR TUNING DRIVING CURRENT OF SEMICONDUCTOR TRANSISTORS - A method and apparatus for repairing transistors comprises applying a first voltage to a source, a second voltage to the gate and a third voltage to the drain for a predetermined time In this manner the semiconductor structure may be repaired or returned to the at or near the original operating characteristics. | 04-25-2013 |
20140197865 | ON-CHIP RANDOMNESS GENERATION - An on-chip true noise generator including an embedded noise source with a low-voltage, high-noise zener diode(s), and an in-situ close-loop zener diode power control circuit. The present invention proposes the use of heavily doped polysilicon and silicon p-n diode(s) structures to minimize the breakdown voltage, increasing noise level and improving reliability. The present invention also proposes an in-situ close-loop zener diode control circuit to safe-guard the zener diode from catastrophic burn-out. | 07-17-2014 |