Class / Patent application number | Description | Number of patent applications / Date published |
327198000 | Initializing, resetting, or protecting a steady state condition | 67 |
20080218233 | Master-slave type flip-flop circuit and latch circuit - A clock input circuit | 09-11-2008 |
20080238510 | Low leakage state retention circuit - In general, in one aspect, the disclosure describes an apparatus comprising a low leakage latch to store a state of a circuit during inactive periods. The state is transferred to the low leakage latch upon receipt of an inactive pulse. A buffer is used to receive the state from an output of the low leakage latch and to isolate the state. State restore circuitry is used to restore the state to the circuit when the circuit returns to an active mode. The state restore circuitry is used to receive the isolated state and to restore the state upon receipt of an active pulse. | 10-02-2008 |
20080238511 | Control Device with Terminal 15 - Holding Circuit - A terminal state of a terminal | 10-02-2008 |
20080246526 | PROGRAMMABLE I/O CELL CAPABLE OF HOLDING ITS STATE IN POWER-DOWN MODE - The present invention comprises a microcontroller unit including a processor for generating a power down signal. Control logic generates a hold signal responsive to the power down signal. A voltage regulator provides a regulated voltage responsive to an input voltage and powers down responsive to the power down signal. At least one digital device powered by the regulated voltage enters a powered down mode responsive to the voltage regulator entering the powered down state. The at least one digital device provides at least one digital output signal that is provided to an input/output cell. The input/output cell also is connected to receive a hold signal. The input/output cell maintains a last state of the digital output signal responsive to the hold signal when the at least one digital device enters the powered down state. | 10-09-2008 |
20080315931 | Semiconductor integrated circuit having active and sleep modes and non-retention flip-flop that is initialized when switching from sleep mode to active mode - A semiconductor integrated circuit has an active mode and a sleep mode. The semiconductor integrated circuit is constructed by alternately connecting a plurality of combinational logic circuits and a plurality of flip-flops. The flip-flops include a retention flip-flop that is supplied with electric power and retains the data in the sleep mode, and a non-retention flip-flop that is not supplied with electric power during the sleep mode. The non-retention flip-flop includes an initializing circuit that initializes the non-retention flip-flop when the semiconductor integrated circuit is switched from the sleep mode to the active mode. | 12-25-2008 |
20090115481 | PULSE OPERATED FLIP-FLOP CIRCUIT HAVING TEST-INPUT FUNCTION AND ASSOCIATED METHOD - The pulse generation circuit generates a first pulse signal and a complementary second pulse signal. The first and second pulse signals are activated simultaneously in a normal mode and activated selectively in response to a test input signal in a test mode. A multiplexing input circuit selects and outputs one of a data input signal and a test input signal as a latch input signal in response to the first pulse signal and the second pulse signal. The latch input signal corresponds to the data input signal in the normal mode and corresponds to the test input signal in the test mode. The latching circuit latches the latch input signal to generate data output signal. The length of data transfer path is reduced, and DtoQ delay can be decreased. | 05-07-2009 |
20090153210 | Maintaining output I/O signals within an integrated circuit with multiple power domains - An integrated circuit is provided with a power domain PD | 06-18-2009 |
20090153211 | Integrated circuit device core power down independent of peripheral device operation - In an integrated circuit device, a circuit for maintaining asserted values on an input output pin of the device when a functional block of the device is placed in a sleep mode. The circuit includes an interface for coupling a functional block of a processor to an input and output pin and an output storage element coupled to the interface for storing a current value of the input output pin. The circuit further includes a sleep mode enable for controlling the output storage element to store the current value of the input output pin prior to the functional block being entering a sleep mode and cause the current value of the input output pin to remain asserted after the functional block is in sleep mode. The sleep mode enable is also to deactivate the storage element when the sleep mode is exited. | 06-18-2009 |
20090256607 | POWERED RING TO MAINTAIN IO INDEPENDENT OF THE CORE OF AN INTEGRATED CIRCUIT DEVICE - In an integrated circuit device, a power circuit for maintaining asserted values on an input output pin of the device when a functional block of the device is placed in a sleep mode. The device includes a power circuit disposed along the periphery of the device, the power circuit configured to maintain power when the device is placed in a low-power mode. A plurality of input output blocks are included in the device and are for receiving external inputs for the integrated circuit device and for providing outputs from the integrated circuit device. The power circuit is coupled to provide power to at least one of the input output blocks to maintain state when the integrated circuit device is in the low-power mode. | 10-15-2009 |
20090302913 | CIRCUIT AND METHOD FOR INITIALIZING AN INTERNAL LOGIC UNIT IN A SEMICONDUCTOR MEMORY DEVICE - Provided is a semiconductor memory device and a driving method for initializing an internal logic circuit within the semiconductor memory device under a stable state of a source voltage without an extra reset pin. The semiconductor memory device includes a power-up signal generating unit for generating a power-up signal; an internal reset signal generating unit for generating an internal reset signal in response to a pad signal inputted from an arbitrary external pin during a test mode; an internal logic initializing signal generating unit for generating an internal logic initializing signal based on the power-up signal and the internal reset signal; and an internal logic unit initialized in response to the internal logic initializing signal. | 12-10-2009 |
20100026357 | RESET SIGNAL FILTER - A reset signal filter includes a power voltage detector and a reset signal detector or includes only one reset signal detector. The power voltage detector includes a comparators and a basic logic gates (e.g. AND gate, OR gate, inverter, etc). The reset signal detector includes a comparator, N flip flops connected in series, an AND gate, an OR gate, a multiplexer and an output flip flop. The reset signal filter receives a first reset signal generated by a power voltage detector or a Schmitt trigger buffer and utilizes N flip flops to register the signal level of the first reset signal for N clock periods. Then the reset signal filter determines if the first rest signal is changed during N clock periods, and outputs a second reset signal. | 02-04-2010 |
20100102865 | STANDBY CONTROL CIRCUIT AND METHOD - A standby control circuit for an integrated circuit module includes a first control circuit that is responsive, in a normal operating mode of the integrated circuit module, to an asynchronous standby signal indicating a standby mode entry event to output a standby mode signal synchronous with a primary clock signal to indicate a standby operating mode of the integrated circuit module. The standby control circuit also includes a second control circuit which is responsive, in a reduced power mode of the integrated circuit module, to the asynchronous standby signal indicating the standby mode entry event to control the first control circuit to output the standby mode signal synchronous with a secondary clock signal to indicate the standby operating mode. | 04-29-2010 |
20100102866 | SIGNAL PROCESSING APPARATUS INCLUDING LATCH CIRCUIT - A signal processing apparatus includes: a latch circuit; a set pulse generation circuit; a reset pulse generation circuit; and a correction set signal forming circuit. The correction set signal forming circuit forms a correction set signal for applying a set instruction continuously during a time period from a time point of a front edge of the set pulse generated from the set pulse generation circuit or a time point delayed from the time point of the front edge to a time point at which the reset pulse is generated. The correction set signal forming circuit supplies the correction set signal to the set input terminal of the latch circuit. | 04-29-2010 |
20100109732 | INTEGRATED CIRCUIT, CONTROL METHOD, AND USE OF A CIRCUIT FOR A SLEEP MODE AND AN OPERATING MODE - A circuit, control method, and use of a circuit for a sleep mode and an operating mode with a digital CMOS circuit with NMOS field-effect transistors and with PMOS field-effect transistors, with a first load device, whereby source terminals of the NMOS field-effect transistors of the digital CMOS circuit are connected via the first load device to a first supply voltage, and with a second load device, whereby source terminals of the PMOS field-effect transistors of the digital CMOS circuit are connected via the second load device to a second supply voltage, wherein the body terminals of the NMOS field-effect transistors of the digital CMOS circuit are connected directly to the first supply voltage, and the body terminals of the PMOS field-effect transistors of the digital CMOS circuit are connected directly to the second supply voltage. | 05-06-2010 |
20100141320 | Power management and control apparatus for resetting a latched protection in a power supply unit - A controller which has functions of remote control, multiple protection and PWM inside. The controller can shut down and latch the converter, when a failure happens (such as under voltage and over voltage of output, and over power protection). But, under-voltage and over-power protection will also happen when Vin is decreased by AC interruption or Vin source is removed. This invention is to provide a method to reset the latch protection by detecting Vin and Vo voltage. | 06-10-2010 |
20100225373 | Delay Circuit - A delay circuit includes current sources, switches, a transistor switch, a charging unit and a comparator. Each of the switches is provided for receiving an enable signal to activate and convey one of the current sources. The transistor switch is activated for pulling down voltage of an operating node coupled to the switches. The charging unit provides an operating voltage for the operating node based on one of the current sources when the transistor switch is deactivated and one of the switches is activated to convey one of the current sources to the charging unit. The comparator is provided for comparing the operating voltage with a reference voltage. | 09-09-2010 |
20100321079 | SEMICONDUCTOR INTEGRATED CIRCUIT - Certain embodiments provide an electronic circuit and a correction circuit. The electronic circuit includes a plurality of semiconductor elements. The correction circuit controls voltage of the semiconductor elements such that a difference between electric characteristics of the semiconductor elements autonomously decreases. | 12-23-2010 |
20110050308 | STANDBY POWER REDUCTION METHOD AND APPARATUS FOR SWITCHING POWER APPLICATIONS - The present invention discloses a standby power reduction method and apparatus for switching power applications, the method comprising the steps of: performing a hysteresis comparison on a supply voltage to generate a selecting signal having a first state and a second state, wherein the hysteresis comparison has a high threshold voltage compared to the supply voltage when the selecting signal is at the first state, and the hysteresis comparison has a low threshold voltage compared to the supply voltage when the selecting signal is at the second state; and determining a UVLO_ON voltage according to the selecting signal, wherein the UVLO_ON voltage is equal to a first level when the selecting signal is at the first state, and the UVLO_ON voltage is equal to a second level when the selecting signal is at the second state. | 03-03-2011 |
20110074481 | NEGATIVE CHARGE PUMP WITH CURRENT PROTECTION - A charge pump circuit includes a first power transistor selectively actuated by a first control signal to deliver relatively higher amounts of current to a capacitor and a second non-power transistor connected in parallel with the first power transistor and selectively actuated by a second control signal to deliver relatively lower amounts of current to the capacitor. The charge pump circuit includes a pumped voltage output that is sensed to generate a sensed voltage output. A comparison circuit compares the sensed voltage output to a threshold voltage. A logic circuit receives an output of the comparison circuit and enables the first power transistor and disables the second non-power transistor in a first mode of operation if the comparison is not satisfied. The logic circuit further disables the first power transistor and enables the second non-power transistor in a second mode of operation if the comparison is satisfied. The logic circuit returns from the second mode of operation to the first mode of operation after the comparison is subsequently not satisfied. | 03-31-2011 |
20110115538 | HIGH-SPEED LATCHED COMPARATOR CIRCUIT - A latched comparator circuit. The latched comparator circuit comprises a first and a second output terminal ( | 05-19-2011 |
20110121876 | State retention circuit and method of operation of such a circuit - A state retention circuit is provided comprising a pulse generator which is configured in a non-retention mode of operation to be responsive to a clock signal to periodically assert a pulse, and a storage structure that comprises a storage element for storing state and an isolation structure for responding to the asserted pulse. In particular, the isolation structure is responsive to the asserted pulse to cause the storage element to update its stored state dependent on an input to the storage structure. Conversely, in the absence of the asserted pulse, the isolation structure isolates the storage element from the input. The pulse generator can be driven by a retention control signal to enter a retention mode of operation, during which it does not assert the pulse irrespective of changes in the clock signal. As a result, the isolation structure isolates the storage element from the input during the retention mode of operation, causing the storage element to retain its stored state prior to entry of the retention mode of operation irrespective of changes in the clock signal or changes in the input during the retention mode of operation. Such a design provides a clock independent pulse retention storage structure of small area, high performance and low energy consumption. | 05-26-2011 |
20110121877 | SELF-TIMED RS-TRIGGER WITH THE ENHANCED NOISE IMMUNITY - The invention describes self-timed RS-trigger with the enhanced noise immunity. Declared effect is achieved due to that circuit containing storage unit ( | 05-26-2011 |
20110140750 | LEVEL SHIFTER USING SR-FLIP FLOP - A level shifter receives an input signal of either a first lower voltage or a first upper voltage which form a voltage pair, and level-shifts the input signal to output an output signal of either a second lower voltage or a second upper voltage. An SR flip-flop generates an output signal which is switched to the second upper voltage upon receiving a positive edge via its set terminal, and is switched to the second lower voltage upon receiving a positive edge via its reset terminal. An AND gate generates the logical AND of a feedback signal having the inverted logical level of the output signal of the SR flip-flop and the input signal, which is output to the set terminal of the SR flip-flop. A NOR gate generates the logical NOR of the feedback signal and the input signal, which is output to the reset terminal of the SR flip-flop. | 06-16-2011 |
20110227625 | APPARATUS FOR USING METASTABILITY-HARDENED STORAGE CIRCUITS IN LOGIC DEVICES AND ASSOCIATED METHODS - An integrated circuit (IC) includes a set of metastability-hardened storage circuits. Each metastability-hardened storage circuit may include: (a) a pulse width distortion circuit; (b) a first circuit powered by a nominal power supply voltage, and a second circuit powered by a higher-than-nominal supply voltage; (c) an inverter and a bias circuit, where the bias circuit provides a bias current based on an intermediate state of the inverter to resolve a metastable state of the inverter; or (d) a latch, and a dynamic bias circuit that causes current to be injected into the latch to resolve a metastable state of the latch. | 09-22-2011 |
20110298515 | SYSTEM RESET CIRCUIT AND METHOD - A system reset circuit and a method for resetting a system automatically according to an operation state of the system are provided. The system reset circuit includes a system, which is triggered by a first logic state during an operation of a program and a second logic state at termination of the program, for generating a trigger signal for maintaining the first logic state in a lockup state and a counter for receiving the trigger signal as an enable signal, for counting a period of the first logic state of the trigger signal, and for clearing the counting for a period of the second logic state, and of which an output node is connected to a reset node of the system, wherein, when the first logic state period of the trigger signal is maintained before the counter expires, the system generates a reset signal automatically. | 12-08-2011 |
20120032719 | ELECTRONIC CIRCUIT AND METHOD FOR OPERATING A MODULE IN A FUNCTIONAL MODE AND IN AN IDLE MODE - A method and an electronic circuit, the electronic circuit includes: a module that comprises multiple flip-flops and a control signal providing circuit; a power management circuit arranged to provide to the module a supply voltage of a functional level when the module is in a functional mode, and to provide to the module a supply voltage of an idle level when the module is in an idle mode; wherein the control signal providing circuit is arranged to provide to the multiple flip-flops, when the module is in the functional mode, a control signal that facilitates a state change of each of the multiple flip-flops; wherein the control signal providing circuit is arranged to provide to the multiple flip-flops, when the module is in the idle mode, a control signal that prevents a state change of each of the multiple flip-flops; wherein the each of the control signal providing circuit and a plurality of flip-flops of the multiple flip-flops comprises at least one hybrid circuit that comprises a low-threshold transistor that is coupled in parallel to at least one high-threshold transistor; wherein each hybrid circuit is arranged to maintain information or a control signal when provided with the supply voltage of the idle level; and wherein high-threshold transistors of each hybrid circuit are arranged to maintain information or a control signal when provided with a supply voltage of a level that is higher than the idle level. | 02-09-2012 |
20120176173 | ADAPTIVE MULTI-STAGE SLACK BORROWING FOR HIGH PERFORMANCE ERROR RESILIENT COMPUTING - Adaptive scaling digital techniques attempt to place the system close to the timing failure so as to maximize energy efficiency. Rapid recovery from potential failures is usually by slowing the system clock and/or providing razor solutions (instruction replay.) These techniques compromise the throughput. We present a technique to provide local in-situ fault resilience based on dynamic slack borrowing. This technique is non-intrusive (needs no architecture modification) and has minimal impact on throughput. | 07-12-2012 |
20120194246 | DELAY LATCH CIRCUIT AND DELAY FLIP-FLOP - Disclosed herein are a delay latch circuit and a delay flip-flop circuit arranged to inhibit the increase in power consumption while preventing malfunction under low voltage conditions. An internal signal output circuit outputs as an internal signal an inverted signal of a data signal starting from an internal transparency start timing until an internal transparency end timing. From the internal transparency end timing until the internal transparency start timing, the internal signal output circuit outputs a fixed value signal as the internal signal. A transistor delays the output internal signal over a time period which ranges from a hold instruction delay timing to the issuance of a data transparency instruction and which includes the internal transparency end timing therebetween. | 08-02-2012 |
20120212270 | SIGNAL TRANSMISSION CIRCUIT AND SWITCH DRIVING DEVICE USING THE SAME - A signal transmission circuit is provided, which includes a level shifting circuit performing level shifting on an input signal and then outputting the input signal, but which can inhibit the output of an erroneous signal caused by the voltage change of the power source. The level shifting circuit, for individually performing level shifting on a first input signal and a second input signal, and outputting the first input signal and the second input signal as a first shifted signal and a second shifted signal respectively, comprises a first series circuit having a switching element switched according to the first input signal and a resistor, a second series circuit having a switching element switched according to the second input signal and a resistor, and a counter-current preventing portion for preventing a reverse current from flowing from the ground terminal toward the first series circuit and the second series circuit. | 08-23-2012 |
20120223756 | Method and System for High Speed, Low Power and Small Flip-Flops - A master-slave flip-flop may be operable to sense a signal, received by a slave circuit from a master circuit, at a pair of serially coupled NMOS transistors and/or at a pair of serially coupled PMOS transistors in the slave circuit. The flip-flop may generate a corresponding output signal at an output terminal based on the sensing of the signal received by the slave circuit. The flip-flop may receive, in a feedback path of the slave circuit, a SET signal. An inverted version of the SET signal may be received via a gate terminal of a PMOS transistor in the master circuit. The flip-flop may receive, in a feedback path of the master circuit, a RESET signal. The RESET signal may also be received via a gate of a NMOS transistor in the master circuit. The flip-flop may disable an input terminal utilizing the SET signal and/or the RESET signal. | 09-06-2012 |
20120256672 | PSEUDO FULL-RATE SENSE AMPLIFIER FLIP-FLOP FOR HIGH-SPEED RECEIVER FRONT-END - An apparatus includes a first sensing circuit operative to drive a node with a first sample of an input signal during a first phase of a clock signal. The apparatus includes a second sensing circuit operative to drive the node with a second sample of the input signal during a second phase of the clock signal. An output signal on the node includes the first and second samples and has a bit rate that is N times the rate of the clock signal. N is an integer greater than one. In at least one embodiment of the apparatus, during the second phase of the clock signal, the first sensing circuit provides a high impedance to the node, and during the first phase of the clock signal, the second sensing circuit provides a high impedance to the node. | 10-11-2012 |
20120299628 | RESET CIRCUIT - The present invention discloses a reset circuit that has a reset IC | 11-29-2012 |
20130002325 | CONSTANT SWITCHING CURRENT FLIP-FLOP - A constant switching current flip-flop includes a latch circuit that provides latch outputs of the flip-flop, whereby the latch outputs are reset to zero at the beginning of each clock cycle to eliminate pattern dependent switching currents. The latch circuit is reset responsive to control signals provided without significant delay. | 01-03-2013 |
20130088272 | LOW CONSUMPTION FLIP-FLOP CIRCUIT WITH DATA RETENTION AND METHOD THEREOF - The present disclosure relates to a low consumption flip-flop circuit with data retention, comprising at least one flip-flop and at least one retention cell connected to the output of the flip-flop and configured so that during normal operation of the flip-flop circuit, the retention cell transmits the data or logic state present on the output terminal of the flip-flop to its own output terminal, while during low consumption operation of the flip-flop circuit a latch circuit of the retention cell suitable to memorize data or a logic state corresponding to the last data or logic state present on the output terminal of the flip-flop is activated. | 04-11-2013 |
20130093486 | INTEGRATED CIRCUIT HAVING LATCH-UP RECOVERY CIRCUIT - An integrated circuit includes first and second transistors, a switch, and a power-on reset (POR) circuit. The first transistor has a first current electrode, a second current electrode, and a control electrode. The second transistor has a first current electrode coupled to the second current electrode of the first transistor, a second current electrode, and a control electrode. The switch is for coupling the first and second transistors to receive a power supply voltage in response to an asserted bias control signal. The POR circuit has a latch-up detection circuit coupled to receive the power supply voltage and to a control terminal of the switch. The latch-up detection circuit is for detecting a low voltage condition of the power supply voltage, and in response, deasserting the bias control signal to decouple the first and second transistors from the power supply voltage. | 04-18-2013 |
20130093487 | ELECTRONIC DEVICE AND METHOD FOR LOW POWER RESET - An electronic device and a method for operating an electronic device, wherein the electronic device comprises a reset stage which is configured to have a power down threshold and a power cycle threshold. The voltage level of the power cycle threshold is lower than the voltage level of the power down threshold. The two threshold levels define a first and second interval for a supply voltage of the electronic device. A first interval is between the power cycle threshold and the power down threshold. A second interval is above the power down threshold. The reset stage is further configured to provide the control signal having a defined first state in the first interval and a defined second state in the second interval. The electronic device is set to a low power reset mode if the control signal is in the first state and the electronic device is enabled to enter an active mode if the control signal is in the second state. | 04-18-2013 |
20130176065 | EXTERNALLY CONFIGURABLE POWER-ON-RESET SYSTEMS AND METHODS FOR INTEGRATED CIRCUITS - Externally configurable power-on-reset systems and methods for integrated circuits are disclosed that utilize internal power-on-reset circuitry and reset control circuitry to provide operational configurations determined by external connections. In one configuration where no dedicated external reset signal is desired, the reset control circuitry relies upon the internal power-one-reset circuitry to generate the internal reset control signal. In another configuration where an external reset signal is utilized, the reset control circuitry relies upon the external reset signal, which overrides the internal power-on-reset circuitry, to generate the internal reset control signal. In further configurations, the reset control circuitry utilizes logic circuitry controlled through a digital interface to determine when the internal reset control signal can be de-asserted. | 07-11-2013 |
20130222029 | METHOD FOR PULSE-LATCH BASED HOLD FIXING - A hold pulse latch is located in a data path between an output of a launch pulse latch and an input of a capture pulse latch. The hold pulse latch is configured to latch, and hold for the input of the capture patch, the output of the launch pulse latch in response to a hold pulse on its enable input. Optionally, at higher voltages, and frequency is high the launch pulse latch is changed to a transparent buffer mode. Optionally, the hold pulse latch is placed midway through the logic path between the launch pulse latch and the capture pulse latch. | 08-29-2013 |
20130257500 | LOW LEAKAGE CIRCUITS, DEVICES, AND TECHNIQUES - An integrated circuit includes circuitry organized into sub-blocks, and power supply selection circuitry operative to selectively adjust the connectivity of power supply terminals of the sub-blocks. When the integrated circuit is operating in an active mode, the power supply selection circuitry couples the sub-blocks in parallel between upper and lower active-mode power supplies; when the integrated circuit is operating in a standby mode, the power supply selection circuitry couples two or more sub-blocks in series between upper and lower standby-mode power supplies. Additionally, in standby mode, isolation circuitry within a sub-block is activated to isolate circuitry within the sub-block from input or output terminals of the sub-block. | 10-03-2013 |
20130278314 | FLIP-FLOP FOR LOW SWING CLOCK SIGNAL - The invention provides a flip-flop. In one embodiment, the flip-flop receives a low swing clock signal, and comprises a first NMOS transistor, a first latch circuit, a second NMOS transistor, and a second latch circuit. The low swing clock signal is inverted to obtain an inverted low swing clock signal. The first NMOS transistor is coupled between a receiving node and a first node, and has a gate coupled to the inverted low swing clock signal. The first latch circuit is coupled between the first node and a second node. The second NMOS transistor is coupled between the second node and a third node. The second latch circuit is coupled between the third node and a fourth node, and generates an output signal on the fourth node. | 10-24-2013 |
20130328607 | Apparatus for Using Metastability-Hardened Storage Circuits in Logic Devices and Associated Methods - An integrated circuit (IC) includes a set of metastability-hardened storage circuits. Each metastability-hardened storage circuit may include: (a) a pulse width distortion circuit; (b) a first circuit powered by a nominal power supply voltage, and a second circuit powered by a higher-than-nominal supply voltage; (c) an inverter and a bias circuit, where the bias circuit provides a bias current based on an intermediate state of the inverter to resolve a metastable state of the inverter; or (d) a latch, and a dynamic bias circuit that causes current to be injected into the latch to resolve a metastable state of the latch. | 12-12-2013 |
20130335127 | I/O DATA RETENTION DEVICE - An apparatus for controlling retention of data includes a logic circuit, a retention control cell circuit, and an I/O cell circuit. The logic circuit generates at least one retention enable signal before a chip enters a reduced power mode. The retention control cell circuit latches the retention enable signal and outputs a retention enable control signal based on a first power signal of the logic circuit and a detection result of a second power signal for input/output (I/O). And, the I/O cell circuit latches data based on the retention control signal. | 12-19-2013 |
20130342253 | DIGITAL CELL - A digital cell for performing a logic operation on a logic input to produce a logic output, includes an evaluation block and a sense-amplifier block, both configured to receive input signals representative of the logic input, and to detect when the logic input and/or input signals validly encode at least one bit. The digital cell is configured to alternate between an evaluate state and a reset state. Upon the digital cell being in the reset state and the detection, the digital cell is switched from the reset state to the evaluate state in which the evaluation block generates a difference in its output signals, and the sense-amplifier block amplifies the difference so that the output signals encode at least one valid bit. Upon the digital cell being in the evaluate state, the digital cell can be triggered to reset to the reset state. | 12-26-2013 |
20140002159 | FLIP-FLOP CIRCUIT HAVING SET/RESET CIRCUIT | 01-02-2014 |
20140002160 | INTEGRATED CIRCUIT AND METHOD FOR REDUCING AN IMPACT OF ELECTRICAL STRESS IN AN INTEGRATED CIRCUIT | 01-02-2014 |
20140035644 | ADAPTIVE MULTI-STAGE SLACK BORROWING FOR HIGH PERFORMANCE ERROR RESILIENT COMPUTING - Adaptive scaling digital techniques attempt to place the system close to the timing failure so as to maximize energy efficiency. Rapid recovery from potential failures is usually by slowing the system clock and/or providing razor solutions (instruction replay.) These techniques compromise the throughput. This application presents a technique to provide local in-situ fault resilience based on dynamic slack borrowing. This technique is non-intrusive (needs no architecture modification) and has minimal impact on throughput. | 02-06-2014 |
20140077853 | RACE FREE SEMI-DYNAMIC D-TYPE FLIP FLOP - Some of the embodiments of the present disclosure provide a D-type flip-flop, comprising a first latch configured to generate a sample enable signal, based on logical states of an input signal, and generate a sampled signal, based on logical states of the input signal and the sample enable signal; and a second latch configured to generate an output signal responsively to the sampled signal. Other embodiments are also described and claimed. | 03-20-2014 |
20140103983 | GATE DRIVING CIRCUIT - A shift register of a gate driving circuit includes a pull-up unit for pulling up a first output signal and a first gate signal to a high voltage level according to a driving voltage and a high-frequency clock signal, a start-up unit for transmitting a second gate signal, an energy-store unit for providing the driving voltage to the pull-up unit according to the second gate signal, a first discharging unit for pulling down the driving voltage to a first voltage level according to a first control signal, a first leakage-preventing unit for turning off the first discharging unit when the first gate signal reaches the high voltage level, a first pull-down unit for respectively pulling down the first output and first gate signals to the first and a second voltage levels according to the first control signal, and a first control unit for generating the first control signal. | 04-17-2014 |
20140240016 | LOW CLOCK ENERGY DOUBLE-EDGE-TRIGGERED FLIP-FLOP CIRCUIT - A double-edge-triggered flip-flop circuit and a method for operating the double-edge-trigger flip-flop circuit are provided. Sub-circuits of a flip-flop circuit are coupled to a ground supply and decoupled the sub-circuits from a power supply when a clock signal is asserted. The sub-circuits generate trigger signals including a first pair of signals and a second pair of signals. The first pair of signals is evaluated, levels of the second pair of signals are maintained when the clock signal is asserted, and an output signal is transitioned to equal an input signal based on the trigger signals when the clock signal is asserted. | 08-28-2014 |
20140285248 | CURRENT-MODE D LATCH WITH RESET FUNCTION AND ASSOCIATED CIRCUIT - A current-mode D latch includes a first load element, a second load element, a first bias current source, a first switch transistor, a second switch transistor, a first stage circuit and a second stage circuit. The first switch transistor is controlled by an inverted reset signal. The second switch transistor is controlled by a reset signal. When an inverted clock signal is in a first level state and the reset signal is inactive, the first input signal is converted into the first output signal and the first inverted input signal is converted into the first inverted output signal by the first stage circuit. When a clock signal is in the first level state and the reset signal is inactive, the first output signal and the first inverted output signal are maintained by the second stage circuit. | 09-25-2014 |
20140333362 | SLEEP MODE CIRCUIT AND A METHOD FOR PLACING A CIRCUIT INTO SLEEP MODE - A first circuit is configured to communicatively couple to a second circuit including an analog circuit and a digital circuit. The first circuit comprises a lock unit and a sleep unit. The lock unit is configured to receive a lock enable signal and to lock a configuration signal of the digital circuit in response to the lock enable signal. The sleep unit is configured to receive a sleep triggering signal indicating to switch into sleep mode and to generate an off signal to switch off the digital circuit in response to the sleep triggering signal, while the analog circuit remains on. | 11-13-2014 |
20140340134 | SEMICONDUCTOR DEVICE - To reduce power consumption of a circuit (TEDC) which detects timing errors in a main flip-flop by determining whether or not output data signals of the main flip-flop and a shadow flip-flop correspond. The TEDC includes a power gating circuit (PGC) which performs power gating of the shadow FF and a reset circuit (RSTC) which resets an output signal of the shadow FF. The PGC makes the shadow FF in an active mode only when error detection needs to be performed; other than that, the PGC makes the shadow FF in a power saving mode. The RSTC supplies a certain voltage to an output terminal of the shadow FF in the power saving mode to suppress malfunction of the TEDC. A transistor using an oxide semiconductor is used to supply the voltage to the output terminal. | 11-20-2014 |
20140354337 | I/O DATA RETENTION DEVICE - An apparatus for controlling retention of data includes a logic circuit, a retention control cell circuit, and an I/O cell circuit. The logic circuit generates at least one retention enable signal before a chip enters a reduced power mode. The retention control cell circuit latches the retention enable signal and outputs a retention enable control signal based on a first power signal of the logic circuit and a detection result of a second power signal for inputoutput (I/O). And, the I/O cell circuit latches data based on the retention control signal. | 12-04-2014 |
20140361819 | DIGITAL POWER GATING WITH STATE RETENTION - A digital power gating system for performing power gating to reduce a voltage of a gated supply bus to a state retention voltage level that reduces leakage current while retaining a digital state of a functional circuit. The power gating system includes gating devices and a power gating control system. Each gating device has current terminals coupled between a global supply bus and the gated supply bus, and a control terminal controlled by a bit of a digital control value. The power gating control system successively adjusts the digital control value to reduce a voltage of the gated supply bus to the state retention voltage level. Adjustment gain and/or adjustment periods may be changed, such as when the digital control value reaches certain values or when the gated supply reaches certain voltage levels. Various parameters are programmable to adjust for particular configurations or to achieve desired operation. | 12-11-2014 |
20140361820 | DIGITAL POWER GATING WITH CONTROLLED RESUME - An integrated circuit including a global supply bus, a gated supply bus, and a digital power gating system with controlled resume. The digital power gating system includes gating devices and a power gating control system. Each gating device has a pair of current terminals coupled between the global supply bus and the gated supply bus and each has a control terminal. The power gating control system controls a digital control value which controls activation of the gating devices. The power gating control system is configured to successively adjust the digital control value to increase a voltage of the gated supply bus from a reduced voltage level to a normal operating voltage level in response to a resume indication. The reduced voltage level may be a state retention level or full power gating. Successive adjustment may be with constant or adjusted gain using a constant clock or a dynamically adjusted clock. | 12-11-2014 |
20150048872 | DUAL-PORT POSITIVE LEVEL SENSITIVE RESET DATA RETENTION LATCH - In an embodiment of the invention, a dual-port positive level sensitive reset data retention latch contains a clocked inverter and a dual-port latch. Data is clocked through the clocked inverter when clock signal CKT goes high, CLKZ goes low, reset control signal REN is high and retention control signal RET is low. The dual-port latch is configured to receive the output of the clocked inverter, a second data bit D | 02-19-2015 |
20150054556 | DUAL-PORT NEGATIVE LEVEL SENSITIVE RESET DATA RETENTION LATCH - In an embodiment of the invention, a dual-port negative level sensitive reset data retention latch contains a clocked inverter and a dual-port latch. Data is clocked through the clocked inverter when clock signal CKT goes low, CLKZ goes high, reset control signal REN is high and retention control signal RET is low. The dual-port latch is configured to receive the output of the clocked inverter, a second data bit D | 02-26-2015 |
20150061739 | DUAL-PORT NEGATIVE LEVEL SENSITIVE DATA RETENTION LATCH - In an embodiment of the invention, a dual-port negative level sensitive data retention latch contains a clocked inverter and a dual-port latch. Data is clocked through the clocked inverter when clock signal CKT goes high, CLKZ goes low and retention control signal RET is low. The dual-port latch is configured to receive the output of the clocked inverter, a second data bit D | 03-05-2015 |
20150070061 | DUAL-PORT NEGATIVE LEVEL SENSITIVE RESET PRESET DATA RETENTION LATCH - In an embodiment of the invention, a dual-port negative level sensitive reset preset data retention latch contains a clocked inverter and a dual-port latch. Data is clocked through the clocked inverter when clock signal CKT goes high, CLKZ goes low, preset control signal PRE is low, rest control signal REN is high and retention control signal RET is low. The dual-port latch is configured to receive the output of the clocked inverter, a second data bit D | 03-12-2015 |
20150084680 | STATE RETENTION POWER GATED CELL FOR INTEGRATED CIRCUIT - A state retention power gated (SRPG) cell includes a retention circuit coupled to a power gated circuit. The retention circuit stores state information of the power gated circuit before a low power period is started. A gated power supply coupled to the power gated circuit and to a first end of a power supply switch supplies a gated supply voltage to the power gated circuit during a non-low power period. A local power supply coupled to the retention circuit and to a second end of the power supply switch is coupled to the gated power supply in the non-low power period, and a non-gated power supply is coupled to the local power supply via an isolation element to isolate the non-gated power supply from the local power supply during the non-low power period, and to couple the non-gated power supply to the local power supply during the low power period. | 03-26-2015 |
20150097607 | INTEGRATED CIRCUIT AND OPERATION METHOD THEREOF - An integrated circuit and an operation method thereof are provided. The integrated circuit includes a voltage detecting unit, a central processing unit, a memory unit and a control unit. The voltage detecting unit detects a system voltage and correspondingly outputs a voltage state signal. The central processing unit has at least one register. When the system voltage is downed to a voltage level lower than or equal to a brown-out voltage and greater than a reset low voltage, the control unit stores values of the registers into the memory unit. | 04-09-2015 |
20150303900 | ISOLATION CIRCUIT - An isolation circuit includes a first multiplexer, a D flip-flop, a second multiplexer, an OR gate, and an AND gate. The first multiplexer selects a data signal or a scan-in signal as a first element output signal according to a scan enable signal. The D flip-flop generates a second element output signal according to the first element output signal. The second element output signal is fed back to the first multiplexer and is used as the data signal. The second multiplexer selects an isolation signal or the second element output signal as a third element output signal according to a test enable signal. The OR gate generates a fourth element output signal according to the scan enable signal and the third element output signal. The AND gate generates a second power domain signal according to a first power domain signal and the fourth element output signal. | 10-22-2015 |
20160036419 | METHOD AND APPARATUS FOR CALIBRATING CMOS INVERTER - A circuit and method for calibrating CMOS (complementary metal-oxide semiconductor) inverters are provided. In a circuit, a first tunable CMOS inverter, controlled by a control signal, receives a first voltage from a first circuit node and outputs a second voltage to a second circuit node. A second tunable CMOS inverter, controlled by the control signal, receives the second voltage from the second circuit node and outputs the first voltage to the first circuit node. A resistor couples the first circuit node to the second circuit node. A switch, controlled by a reset signal, conditionally shorts the first circuit node to the second circuit node. A finite state machine receives the first voltage and the second voltage and outputs the reset signal and the control signal, wherein the control signal is adjusted based on a difference between the first voltage and the second voltage. | 02-04-2016 |
20160118963 | LATCH CIRCUIT AND LATCH CIRCUIT ARRAY INCLUDING THE SAME - A latch circuit may include: first to Nth storage nodes where N is an even number equal to or more than four; first to Nth pairs of transistors each including a PMOS transistor and an NMOS transistor which are coupled in series through a corresponding storage node among the first to Nth storage nodes, wherein each of the first to Nth storage nodes is coupled to a gate of the NMOS transistor of the transistor pair at the previous stage and a gate of the PMOS transistor of the transistor pair at the next stage; first to Nth PMOS transistors suitable for driving corresponding storage nodes among the first to Nth storage nodes to a high level; and first to Nth NMOS transistors suitable for driving corresponding storage nodes among the first to Nth storage nodes to a low level. | 04-28-2016 |
20160126936 | Data Storage Element and Signal Processing Method - A data storage element comprises a master stage (MS) with a first and a second latch (LI, L | 05-05-2016 |
20160164501 | SEMICONDUCTOR APPARATUS - A semiconductor apparatus includes a pipe input/output signal generation block configured to generate a plurality of pipe input signals and a plurality of pipe output signals according to a pipe enable signal, and be initialized according to an error detection signal; a pipe latch group including a plurality of pipe latches, each of the plurality of pipe latches being configured to receive and store an input signal according to a corresponding pipe input signal and output a stored signal as an output signal according to a corresponding pipe output signal; and an error detection block configured to generate the error detection signal according to a pipe end signal, the pipe enable signal, the plurality of pipe input signals and the plurality of pipe output signals. | 06-09-2016 |
20160182020 | RESET SELECTION CELL TO MITIGATE INITIALIZATION TIME | 06-23-2016 |