Abstract: A system including is plurality of resistors, a plurality of comparators, and a decoder module. The resistors are connected in series between a supply voltage and a common voltage. A first input of each comparator is connected to a reference voltage. A second input of each comparator is respectively connected to one of a plurality of nodes between the resistors. The decoder module is configured to receive an output from each comparator and to output a plurality of bits based on the output of each comparator. Each of the plurality of bits indicates a different one of a plurality of voltage ranges. A present value of the supply voltage lies in one of the plurality of voltage ranges.

Abstract: A linear regulator and methods of regulation are provided. In one implementation, a linear regulator is provided. The linear regulator can receive an input voltage, generate an internal bias voltage in response to the received input voltage. The linear regulator can determine if the input voltage meets one or more first criteria and second criteria, and adjust an output voltage based on the internal bias voltage if the input voltage meets the one or more first criteria. The linear regulator also can supply the input voltage directly to the load if the input voltage meets the one or more second criteria. In some implementations, the linear regulator can generate an internal bias voltage that is clamped within a desired operating range if the input voltage meets the one or more first criteria, and adjusts one or more electronic circuits using the internal bias voltage to provide the adjusted output voltage.

Abstract: The power required by a voice coil motor (VCM) to maintain the head in the data region of a disk drive during an idle mode is further reduced. The current supplied to the VCM is switched on and off. This takes advantage of the inherent capacitance and inductance in the VCM, which maintains a current after the current supply is switched off. The current will slowly decay, with it being switched on again before it reaches a level where the average value won't offset the flex bias. In one embodiment, the current is maintained in a single direction, to offset the flex bias which pushes in one direction. Digital switches are used to reduce the power consumption of the control circuitry.

Abstract: A voltage regulator includes a converter module, N comparators, and a decoder module. The converter module includes (N+1) resistors connected in series between a supply voltage and a common voltage, where N is an integer greater than 1. Each of the (N+1) resistors has a value that is different than values of others of the (N+1) resistors. The N comparators have first inputs connected to a reference voltage, and second inputs respectively connected to N nodes between the (N+1) resistors. The decoder module receives outputs of the N comparators and generates an R-bit output, where R is an integer greater than 1. Each bit of the R-bit output indicates a different one of R voltage ranges. A present value of the supply voltage lies in one of the R voltage ranges.

Abstract: A driver circuit includes a first transistor having a first node coupled to a high supply voltage and a second node coupled to an output node, wherein the first transistor passes the high supply voltage to the output node based on a first gate voltage on a gate of the first transistor. The driver circuit also includes a second transistor having a first node coupled to a low supply voltage and a second node coupled to the output node of the driver circuit, wherein the second transistor passes the low voltage to the output node based on a second gate voltage on a gate of the second transistor. The driver circuit further includes a logic block configured to control a slew rate of an output signal Vout at the output node by controlling a slew rate of the first gate voltage and controlling a slew rate of the second gate voltage.

Abstract: A motor driver comprises a first power supply, a second power supply, a multiplexer, and an output power module. The first power supply provides a first power signal after a first period. The second power supply provides a second power signal after a second period, where the second period is longer than the first period. The multiplexer initially selects the first power signal and then selects the second power signal. An output power module controls a motor and receives power from an output of the multiplexer.

Abstract: The power required by a voice coil motor (VCM) to maintain the head in the data region of a disk drive during an idle mode is further reduced. The current supplied to the VCM is switched on and off. This takes advantage of the inherent inductance in the VCM, which maintains a current after the current supply is switched off. The current will slowly decay, with it being switched on again before it reaches a level where the average value won't offset the flex bias. In one embodiment, the current is maintained in a single direction, to offset the flex bias which pushes in one direction. Digital switches are used to reduce the power consumption of the control circuitry.

Abstract: A driver circuit includes a first transistor having a first node coupled to a high supply voltage and a second node coupled to an output node, wherein the first transistor passes the high supply voltage to the output node based on a first gate voltage on a gate of the first transistor. The driver circuit also includes a second transistor having a first node coupled to a low supply voltage and a second node coupled to the output node of the driver circuit, wherein the second transistor passes the low voltage to the output node based on a second gate voltage on a gate of the second transistor. The driver circuit further includes a logic block configured to control a slew rate of an output signal Vout at the output node by controlling a slew rate of the first gate voltage and controlling a slew rate of the second gate voltage.

Abstract: A linear regulator is described that includes a mode selection circuit. In one implementation, the mode selection circuit is operable to receive an input voltage and to set an operation mode to one of a first mode or a second mode (e.g., based on a voltage level of the input voltage) so as to generate an output voltage. For example, when the voltage level of the input voltage is within a voltage range, the mode selection circuit can set the first mode as the operation mode to supply the input voltage as the output voltage to a load without voltage regulation. Similarly, when the voltage level of the input voltage is outside the voltage range, the mode selection circuit can set the second mode as the operation mode to regulate the output voltage to the load.

Abstract: A motor driver comprises a first power supply, a second power supply, a multiplexer, and an output power module. The first power supply provides a first power signal after a first period. The second power supply provides a second power signal after a second period, where the second period is longer than the first period. The multiplexer initially selects the first power signal and then selects the second power signal. An output power module controls a motor and receives power from an output of the multiplexer.

Abstract: Bandgap voltage reference circuitry working under a wide supply range is provided. The bandgap reference circuitry in accordance with the invention may provide an accurate reference voltage for systems with a supply voltage that may range from approximately 1.8V to approximately 5.5V. The circuitry may be designed using a standard process and standard devices without requiring the use of special low-threshold devices or deep N-well processes and may generate an internal regulated supply voltage that may remain at a substantially stable voltage level, in spite of variations in the power supply voltage. The bandgap reference circuitry may further use a voltage clamping structure to reduce leakage currents.

Abstract: An operational transconductance amplifier is configured with an asymmetric output current capability. When current sunk from the output exceeds a rated load, the normally equal input voltages diverge. A comparator coupled to the OTA inputs senses when the output current drain exceeds the rated load and changes state when the OTA input voltages diverge. When used in conjunction with a current mirror transistor of known proportion, current through an output transistor, such as quiescent current through the output stage of a class A/B amplifier, can be accurately detected. A current source in parallel with the OTA output can be used to offset the current sensing trigger point.

Abstract: A linear regulator and methods of regulation are provided. In one implementation, a linear regulator is provided that includes a mode selection circuit operable to determine whether a power source voltage received by the linear regulator exceeds a pre-defined operational range of a load in communication with the linear regulator, and a power switch to directly supply the power source voltage to the load if the power source voltage is within the pre-defined operational range.

Abstract: An operational transconductance amplifier includes a first amplifier circuit that generates a first bias. A second amplifier circuit receives the first bias and generates a feedback signal. The first amplifier circuit also receives the feedback signal. A Miller compensation circuit receives the feedback signal and generates a second bias. An Ahuja compensation circuit receives the first and second biases and the feedback signal and generates a third bias. The second amplifier circuit receives the third bias. A feedback loop has an open loop response with first and second poles and a zero that are located below a crossover frequency. The Miller compensation circuit increases a frequency difference between the first and second poles. The Miller compensation circuit also adjusts a frequency of one of the poles so that the zero cancels an effect of the pole on the open loop response.