Abstract: The invention provides a method of fabricating a semiconductor device. In one aspect, the method comprises forming a stress inducing layer over a semiconductor substrate, subjecting the stress inducing layer to a first temperature anneal, and subjecting the semiconductor substrate to a second temperature anneal subsequent to the first temperature anneal, wherein the second temperature anneal is higher than the first temperature anneal.

Abstract: A capacitor circuit and method to reduce layout area, leakage current, and to improve yield is disclosed. The circuit includes an output terminal (100), a plurality of circuit elements (322, 326, 330), and a plurality of transistors (320, 324, 328). Each transistor has a control terminal (314, 316, 318) and a current path coupled between the output terminal and a respective circuit element of the plurality of circuit elements. A control circuit (300) has a plurality of output terminals (314, 316, 318). Each output terminal is coupled to the control terminal of a respective transistor of the plurality of transistors. The control circuit produces control signals at respective output terminals to selectively turn off at least one transistor and turn on at least other transistors of the plurality of transistors at a first time.

Abstract: In one aspect, the invention provides a method of fabricating a semiconductive device 200 that comprises forming a raised layer [510] adjacent a gate [340] and over a source/drain [415], depositing a silicidation layer [915] over the gate [340] and the raised layer [510], and moving at least a portion of the silicidation layer [915] into the source/drain [415] through the raised layer [510].

Abstract: Validation of at least some of a proposed semiconductor design layout is disclosed. According to one or more aspects of the present invention, a first voltage dependent design rule is applied to an edge of an area of the layout if the edge is not covered by a pseudo layer. A second voltage dependent design rule is, on the other hand, applied to the edge of the area if the edge is covered by the pseudo layer.

Abstract: Formation of an NMOS transistor is disclosed, where at least one of carbon, atomic fluorine and molecular fluorine (F2) are combined with implantations of at least one of arsenic, phosphorous and antimony. The dopant combinations can be used in LDD implantations to form source/drain extension regions, as well as in implantations to form halo regions and/or source/drain regions. The combinations of dopants help to reduce sheet resistance and increase carrier mobility, which in turn facilitates device scaling and desired device performance.

Abstract: A serial interface circuit for a single logic input pin of an electronic system, comprising a decoder for converting a pulse width modulated input signal applied to the pin to a sequence of logic low and logic high values. The decoder comprises an up/down counter with a count input connected to a clock source, an edge detection circuit detecting rising and falling edges of the input signal. The edge detection circuit is connected to the up/down counter to start up counting from a reset value upon detection of an edge in a first direction and to start down counting from a current count upon detection of an edge in a second direction. The decoder further comprises a bit value deciding circuit that delivers a first logic value when the count of the up/down counter is above the reset value on detection of an edge in the second direction and delivers a second logic value when the count of the up/down counter is at or below the reset value on detection of an edge in the second direction.

Abstract: Various logic gates and methods for using such are disclosed herein. For example, some embodiments of the present invention provide parallel differential logic gates. Such logic gates include two or more differential input pairs. The collectors of the first transistors in each of the differential pairs are all electrically coupled to an upper voltage via a first load resistor. Similarly, the collectors of the second transistors in each of the differential pairs are all electrically coupled to an upper voltage via a second load resistor. Depending upon the relative values selected for the first and second load resistors, the gate operates as an AND gate or an OR gate.

Abstract: A slew-rate controlled driver circuit in an integrated circuit fabricated in a low voltage CMOS process, having an input node and an output node. A PMOS pull-up transistor is provided, having a source connected to one side of a power supply, having a gate, and having a drain connected to the output node. The PMOS transistor also has a parasitic capacitance between its gate and drain, having a value that may vary from one integrated circuit to the next from process variations and in response to varying circuit conditions. A current source generates a current having a level corresponding to the value of the parasitic capacitance, and to provide that current to the gate of the PMOS transistor. A level shifter receives an input signal having a voltage varying in a first range provides as output signal to the gate of the PMOS transistor shifted to a level suitable for the PMOS transistor.

Abstract: A class AB folded cascode circuit includes a differential current follower having first and second cascode transistors with emitters connected to first and second input conductors. An input of a first current mirror is coupled to the first input conductor, and an input of a second current mirror is coupled to the second input conductor. Outputs of the second and first current mirrors are coupled to collectors of the first and second cascode transistors, respectively, and also to first and second outputs, respectively, of the differential current follower. A third current mirror converts a differential output current in the first and second output conductors to a corresponding single-ended output voltage on the second output conductor.

Abstract: System and method for an all-digital audio receiver for a BTSC MTS audio signal or other composite signal that is FM modulated. A preferred embodiment comprises a digital FM demodulator for receiving an analog to digital quantized SIF signal and performing demodulation and outputting a composite audio signal, and a digital audio processor for decomposing the composite audio signal into at least the SAP, stereo and monaural signals for audio reproduction. In a preferred embodiment, the digital audio processor is a programmable digital signal processor. In a preferred embodiment, the digital FM demodulator and the digital audio processor are implemented as an integrated circuit. Methods for processing the audio signal using the digital processors of the invention are provided.

Abstract: A method and circuit for providing a soft start-up process for an amplifier circuit to reduce or prevent destructive overshoot of an output voltage are provided. In accordance with an exemplary embodiment of the present invention, an exemplary method and circuit are configured to suitably momentarily replace an actual fixed reference voltage with a second reference voltage during the start-up process. Such a method and circuit can provide a fast start-up process without destructive overshoot and without affecting or compromising any control loop of the amplifier circuit, and can be configured within various applications. In accordance with an exemplary embodiment, an exemplary amplifier circuit is configured with a soft-start circuit, with the soft-start circuit configured to provide a secondary reference voltage during initial start-up before switching to an actual reference voltage.

Abstract: A system and method for responding to a current overload condition in a power switch provides a class D topology that applies a current sink or current source to the gate of the power switch. The current sink or source decreases or increases current flowing through the power switch to regulate power switch output current in the event of an overload. A timer for current regulation can be provided to shut off the power switch if the overload condition persists. A set of differently rated switches can be used separately or together to provide a range of current regulation response, from a wide regulation range with a fast response, to a narrow regulation range with a slow response. The system provides a rapid response to an overload condition and output current regulation without disabling the power switch to overcome short term overloads.

Abstract: A low drop-out voltage regulator having soft-start. A low drop-out regulator circuit is provided having an input node, an output node, a power FET connected by a source and drain between the input node and the output node, and a feedback circuit having an output connected and providing a control signal to a gate of the power FET. A current limit circuit is configured to control the power FET to limit the current through it when the voltage across a controllable sense resistor connected to conduct a current representing the current through the power FET exceeds a predetermined limit value. At start-up, control unit provides a control signal to the controllable resistor to cause the resistance value of the controllable resistor to decrease incrementally in value at respective predetermined incremental times during a predetermined time interval.

Abstract: A sense circuit is provided connected to a control loop of a circuit having an output. The sense circuit receives a signal derived from the output of the circuit and provides a controlling signal to the control loop. In one embodiment, the sense circuit is connected to the output of a switching power supply and monitors the switched output to ensure that the main output of the power supply is kept within predetermined thresholds. The sense circuit includes first and second comparators comparing the switched output, in one embodiment, to a reference voltage, on one hand, and comparing the main output signal to the reference voltage, on the other hand.

Abstract: The invention includes methods and systems for providing a multi-path common mode feedback loop in an amplifier system. Embodiments include techniques for dividing a common mode feedback current path to provide a slow common mode feedback current path and a fast common mode feedback current path. The slow and fast paths are configured for controlling common mode feedback current within a small bandwidth.

Abstract: A bidirectional repeater and data multiplexer for serial data has A-side I2C port devices A1-A4 coupled to comparators 302-308 and pulldowns to ground 316-322. Comparator outputs are coupled responsive to select lines S1-S4 of N:l Select 310 to terminal A1 of bidirectional control 210 to control pulldown to non-zero low voltage Vp 206 at B-side device B. An inverting comparator 208 coupled to terminal B1 of bidirectional control 210 responds to input threshold voltage Vt less than low voltage Vp, to prevent data lockup due to data flowback to devices A1-A4. Output data from comparator 208 is coupled responsive to select lines S1-S4 of 1:N Select 312 to control pulldowns 316-322. This selectively repeats routing of device A1-A4 data to device B. Data from device B is selectively routed to pulldowns of devices A1-A4.

Abstract: A path configuration for a power switch and driver can introduce independent parasitic inductance coupled to the power switch to slow a switching speed of the switch and reduce voltage spikes on the switch during switching events. The path for low side supply of the drive to the negative DC voltage reference is separate from the path of the power switch to the reference. The resulting reduction in voltage spikes due to the slowed switching time maintains performance in an audio amplifier without modifying a switch command signal to compensate for voltage spikes. The path configuration avoids reliance on specifying higher rated components that increase application costs.

Abstract: An analog signal processing block with differential signal inputs and including a differential amplifier with differential inputs is disclosed which is configurable to operate either in a differential output mode or in a single-ended output mode without affecting the desired frequency and time characteristics as determined by the switched capacitor networks. The analog signal processing block includes a pair of switched capacitor networks each having one of the differential signal inputs, an input-sided terminal connected to one of the differential inputs of the differential amplifier and an output-sided terminal. The output-sided terminal of a first one of the switched capacitor networks is connected to an output of the differential amplifier.

Abstract: A detector circuit detects whether a headset is present (inserted) in a jack by measuring the impedance between the connection points of the jack. The detector circuit further determines the headset type (e.g., whether of cellular headset, stereo headset or stereo+cellular headset) by measuring the impedance between the connection points of the jack. Power consumption may be reduced by powering down components which determine headset type if the headset is determined not to be present. Additional power reduction is attained by checking for headset removal only periodically if the headset is determined to be present.

Abstract: An integrated voltage controlled current source device is provided, that extends the high accuracy, low drift output current over a large current range, and provides more headroom and better power efficiency than the standard shunt resistor and INA (instrumentation amplifier) current source arrangement. The device has a control voltage input, a load current output and a current set terminal for a connection of a current set resistor. It contains a selected leg biasing set voltage, corresponding to a control voltage applied to the control voltage input of a regulating driver amplifier providing a regulated voltage to be applied across the current set resistor, thereby causing a reference current to flow through the current set resistor and selected leg(s) of a current mirror. Furthermore, the device contains a dynamically matched current mirror that mirrors the reference current to the load output current. The algorithm for selecting the current mirror legs may be a pseudo-random or a defined pattern.