Patent application number | Description | Published |
20080231249 | Integrated circuit current reference - An IC current reference includes a reference voltage V | 09-25-2008 |
20080237630 | Semiconductor switch - A semiconductor switch comprises a PNPN structure arranged to provide an SCR-like functionality, and a MOS gate structure, preferably integrated on a common substrate. The switch includes ohmic contacts for the MOS gate, and for the cathode and gate regions of the PNPN structure; the anode contact is intrinsic. A fixed voltage is typically applied to an external node. The MOS gate structure allows current to be conducted between the external node and the intrinsic anode when on, and the PNPN structure conducts the current from the anode to the cathode when an appropriate voltage is applied to the gate contact. Regenerative feedback keeps the switch on once it begins to conduct. The MOS gate inhibits the flow of current between the external node and anode—and thereby turns off the switch—when off. When on, the MOS gate's channel resistance serves as a ballast resistor. | 10-02-2008 |
20100188902 | Differential, level-shifted EEPROM structures - Memory embodiments are provided to operate in memory systems which are configured to have a system ground and a system substrate that are biased at different voltages. At least one of these embodiments includes a memory cell and write and read circuits in which the memory cell is coupled to the system substrate and the write and read circuits are coupled to the system ground. The memory cell preferably has a cross-coupled pair of transistors which can be set in first and second states. The write circuit is arranged and level shifted to drive the cross-coupled pair into either selected one of the states and the read circuit is arranged and level shifted to provide a data signal indicative of the selected state. | 07-29-2010 |
20110063764 | APPARATUSES AND METHODS FOR A SCR-BASED CLAMPED ELECTROSTATIC DISCHARGE PROTECTION DEVICE - A SCR-based based electrostatic discharge protection device with a shunt path is provided. The shunt path operates at a low resistance when an enabling signal of the shunt path is asserted and a high resistance when the enabling signal is negated. The shunt path connects the cathode and the gate of the silicon-controlled rectifier, and provides a conductive path for displacement current from a parasitic capacitance when the shunt path is enabled, such as when power is provided to the device, and further allows the SCR to enter a low-resistance state when the shunt path is not enabled, such as when power is not provided to the device. A threshold trigger circuit is operably coupled between the anode and the cathode of the silicon-controlled rectifier and is configured to provide a current path when the anode voltage reaches a predetermined value lower than a breakdown voltage of the silicon-controlled rectifier. | 03-17-2011 |
20110115541 | APPARATUSES AND METHODS FOR A LEVEL SHIFTER WITH REDUCED SHOOT-THROUGH CURRENT - A level shifting circuit with reduced shoot-through current includes an output circuit comprising high-voltage devices with a pull up circuit configured for pulling up a voltage on an output signal to a high voltage responsive to a high-side control signal. The output circuit may also include a pull down circuit configured for pulling down the voltage on the output signal to a low voltage in responsive to a low-side control signal. The level shifting circuit can also include a high-side inverting buffer operably coupled between an edge-controlled signal and the high-side control signal, and a low-side buffer configured for driving the low-side control signal responsive to an input signal. The level shifting circuit may also include an edge-control buffer operably coupled between the input signal and the high-side inverting buffer and configured to generate the edge-controlled signal with a slow rise time relative to a fall time. | 05-19-2011 |
20110210879 | APPARATUSES AND METHODS FOR PHYSICAL LAYOUTS OF ANALOG-TO-DIGITAL CONVERTERS - Physical layouts of integrated circuits are provided, which may include an analog-to-digital converter including a plurality of comparators. Individual transistors of each comparator of the plurality are arranged in a one-dimensional row in a first direction. Neighboring comparators of the plurality of comparators are positioned relative each other in an abutting configuration in a second direction orthogonal to the first direction. The plurality of comparators may include multiple, inter-coupled, outputs. Such an ADC may be called a Benorion Analog-to-Digital Converter. A method for fabricating an integrated circuit is also provided. The method comprises arranging transistors of a first comparator in a one-dimensional row in a first direction, arranging transistors of at least one additional comparator in the one-dimensional row in the first direction, and arranging transistors of the first comparator and the at least one additional comparator relative to each other in a second direction orthogonal to the first direction. | 09-01-2011 |
20120001672 | Apparatuses and methods for a voltage level shifting - Level shifting circuits and a related method are disclosed herein. An embodiment of the present invention includes a voltage level shifter, comprising a first pull up transistor coupled to a high voltage signal and a first pull down transistor coupled between the first pull up transistor and a low voltage signal and controlled by an input signal. The voltage level shifter further includes a first bias transistor serially coupled between the first pull up transistor and the first bias transistor. A gate of the first bias transistor is coupled with a bias voltage signal. The voltage level shifter further includes a first additional pull up path coupled with the high voltage signal and a first node between the first pull up transistor and the first pull down transistor, and an output signal associated with the first node. The output signal is a level shifted voltage responsive to the input signal. | 01-05-2012 |
20120098597 | SWITCH FOR USE IN A PROGRAMMABLE GAIN AMPLIFIER - A switch circuit is provided. The switch circuit may include a first transistor having a source terminal to accept an input signal, a drain terminal to provide an output signal, and a gate; a power supply providing a gate voltage. The switch circuit may also include a circuit to couple a switch signal to the gate, wherein the circuit turns the first transistor ‘off’ for all values of the input signal when the switch signal is ‘low.’ A programmable gain amplifier (PGA) is also provided. The PGA may include an input stage having an input node to couple an input signal, and an output node to provide a gate signal, at least a first gain stage including a resistor and a switch circuit as above. A differential gain amplifier may be included to provide an output signal from the gain signal. | 04-26-2012 |
20120146688 | VOLTAGE LEVEL SHIFTING APPARATUSES AND METHODS - Level shifting circuits and related methods are disclosed herein. The level shifting circuit includes a cross-coupled pull-up circuit coupled to a higher supply voltage, an output signal, and an inverted output signal. An input signal transitions between a ground and a lower supply voltage and an inverted input signal transitions in a direction opposite from the input signal between the ground and the lower supply voltage. A first n-channel transistor has a gate coupled to the lower supply voltage, a drain coupled to the output signal, and a source coupled to the inverted input signal. A second n-channel transistor has a gate coupled to the lower supply voltage, a drain coupled to the inverted output signal, and a source coupled to the input signal. The level shifting circuit may be included in an IC with core logic in a first voltage domain and input/output logic in a second voltage domain. | 06-14-2012 |
20130257402 | APPARATUSES AND METHODS RESPONSIVE TO OUTPUT VARIATIONS IN VOLTAGE REGULATORS - A voltage regulator includes an amplifier to generate a difference voltage responsive to a comparison of a reference voltage and a feedback voltage. An output driver is coupled to the amplifier and drives a regulated output voltage responsive to the difference voltage. An impedance circuit is coupled between the output driver and a low power source and establishes the feedback voltage responsive to a current through the impedance circuit. A variation detector is operably coupled between the regulated output voltage and the difference voltage and is configured to modify the difference voltage. In some embodiments, the difference voltage is modified responsive to a rapid change of the regulated output voltage capacitively coupled to the variation detector. In other embodiments, the difference voltage is modified responsive to a rapid change of the feedback voltage capacitively coupled to the variation detector. | 10-03-2013 |
20130300487 | SEMICONDUCTOR SWITCH - A semiconductor switch comprises a PNPN structure arranged to provide an SCR-like functionality, and a MOS gate structure, preferably integrated on a common substrate. The switch includes ohmic contacts for the MOS gate, and for the cathode and gate regions of the PNPN structure; the anode contact is intrinsic. A fixed voltage is typically applied to an external node. The MOS gate structure allows current to be conducted between the external node and the intrinsic anode when on, and the PNPN structure conducts the current from the anode to the cathode when an appropriate voltage is applied to the gate contact. Regenerative feedback keeps the switch on once it begins to conduct. The MOS gate inhibits the flow of current between the external node and anode—and thereby turns off the switch—when off. When on, the MOS gate's channel resistance serves as a ballast resistor. | 11-14-2013 |