Patent application number | Description | Published |
20080238399 | Buffer Circuit Having Multiplexed Voltage Level Translation - A buffer circuit is selectively operative in one of at least a first mode and a second mode as a function of a first control signal supplied to the buffer circuit. The buffer circuit includes interface circuitry operative to receive at least second and third control signals referenced to a first voltage level, and to generate an output signal referenced to a second voltage level, the second voltage level being greater than the first voltage level. The output signal is a function of the second control signal in the first mode and is a function of the third control signal in the second mode. The buffer circuit further includes at least first and second circuit portions coupled to the interface circuitry, each of the first and second circuit portions including at least one control input operative to receive the output signal generated by the interface circuitry. | 10-02-2008 |
20080297226 | Enhanced Output Impedance Compensation - A compensation circuit for compensating an output impedance of at least a first MOS device over PVT variations to which the first MOS device may be subjected includes a first current source generating a first current having a value which is substantially constant and a second current source generating a second current having a value which is programmable as a function of at least one control signal presented to the second current source. A comparator is connected to respective outputs of the first and second current sources and is operative to measure a difference between the respective values of the first and second currents and to generate an output signal indicative of relative magnitudes of the first current and the second current. A processor connected in a feedback arrangement between the comparator and the second current source receives the output signal generated by the comparator and generates the control signal for controlling the second current as a function of the output signal. The processor is operative to control the value of the second current so that the second current is substantially equal to the first current. | 12-04-2008 |
20090002017 | Multiple-Mode Compensated Buffer Circuit - A compensated buffer circuit operative in one of at least a first mode and a second mode includes a plurality of output blocks and a plurality of predrivers, each of the predrivers having an output connected to an input of a corresponding one of the output blocks. Respective outputs of the output blocks are connected together and form an output of the buffer circuit. The output blocks are arranged in a sequence and are binary weighted such that a drive strength of a given one of the output blocks is about twice as large as a drive strength of an output block immediately preceding the given output block. Each of the predrivers selectively enables the corresponding output block connected thereto as a function of a control signal supplied to the predriver for compensating the buffer circuit for PVT variations to which the buffer circuit may be subjected. The respective control signals supplied to the predrivers collectively represent a binary code word, the binary code word in the second mode being equivalent to an arithmetic shift of the binary code word in the first mode. | 01-01-2009 |
20100141334 | Bias circuit scheme for improved reliability in high voltage supply with low voltage device - Disclosed is a bias circuit with a first resistor connected between the supply voltage and a feedback node. Resistors are connected in series between the feedback node and the reference supply voltage. The connections between the resistors define at least one bias voltage. A second resistor is connected between the feedback node and a first drain node. A first field-effect transistor has a first gate node, the first drain node, and a first source node. The gate node is connected to the first supply voltage. A second field-effect transistor has a second gate node, a second drain node, and a second source node. The second drain node is connected to the first source node. The second gate node is connected to the bias voltage. The second source node is connected to an output signal node. The output signal node capable of experiencing an overshoot voltage. | 06-10-2010 |
20100271118 | I/O Buffer with Low Voltage Semiconductor Devices - Described embodiments provide for protecting from DC and transient over-voltage conditions an input/output (“I/O”) buffer having first and second I/O transistors. The first I/O transistor is coupled to a first over-voltage protection circuit adapted to prevent an over-voltage condition on at least the first I/O transistor. The second I/O transistor is coupled to a second over-voltage protection circuit adapted to prevent an over-voltage condition on at least the second I/O transistor. First and second bias voltages are generated from an operating voltage of the buffer. A third bias voltage is generated from either i) the first bias voltage, or ii) an output signal voltage of the buffer and a fourth bias voltage is generated from either i) the second bias voltage, or ii) the output signal voltage of the buffer. The third and fourth bias voltages are provided to the first and second over-voltage protection circuits, respectively. | 10-28-2010 |
20110102045 | INTERFACING BETWEEN DIFFERING VOLTAGE LEVEL REQUIREMENTS IN AN INTEGRATED CIRCUIT SYSTEM - A method includes controllably generating a first bias voltage from a supply voltage to be within an upper tolerable limit of an operating voltage of an IO receiver, and controllably generating a second bias voltage from an external voltage supplied through an IO pad to be within the upper tolerable limit of the operating voltage of the IO receiver. The method also includes deriving an output voltage from the first bias voltage during a normal condition and a tolerant condition, and deriving the output voltage from the second bias voltage during a failsafe condition. The tolerant condition is a mode of operation where the external voltage supplied through the IO pad varies from zero to a value higher than the supply voltage, and the failsafe condition is a mode of operation where the supply voltage is zero. | 05-05-2011 |
20110102046 | Interfacing between differing voltage level requirements in an integrated circuit system - A method includes controllably generating a first bias voltage from a supply voltage to be within an upper tolerable limit of an operating voltage of one or more constituent active circuit element(s) of an Input/Output (IO) core device of an integrated circuit (IC) to be interfaced with an IO pad, and controllably generating a second bias voltage from an external voltage supplied through the IO pad to be within the upper tolerable limit of the operating voltage of the one or more constituent active circuit element(s) of the IO core device to be interfaced with the IO pad. The method also includes controllably utilizing a control signal generated by the IO core to derive an output bias voltage from the first bias voltage during a driver mode of operation or the second bias voltage during a failsafe mode of operation and a tolerant mode of operation. | 05-05-2011 |
20110102048 | BIAS VOLTAGE GENERATION TO PROTECT INPUT/OUTPUT (IO) CIRCUITS DURING A FAILSAFE OPERATION AND A TOLERANT OPERATION - A method includes controllably generating a first bias voltage from a supply voltage to be within an upper tolerable limit of an operating voltage of one or more constituent active circuit element(s) of an Input/Output (IO) core device of an integrated circuit (IC) to be interfaced with an IO pad, and controllably generating a second bias voltage from an external voltage supplied through the IO pad to be within the upper tolerable limit of the operating voltage of the one or more constituent active circuit element(s) of the IO core device to be interfaced with the IO pad. The method also includes controllably utilizing a control signal generated by the IO core to derive an output bias voltage from the first bias voltage during a driver mode of operation or the second bias voltage during a failsafe mode of operation and a tolerant mode of operation. | 05-05-2011 |