Patent application number | Description | Published |
20100073023 | SIGNAL LINES WITH INTERNAL AND EXTERNAL TERMINATION - Embodiments of a memory controller are described. This memory controller communicates signals to a memory device via a signal line, which can be a data signal line or a command/address signal line. Termination of the signal line is divided between an external impedance outside of the memory controller and an internal impedance within the memory controller. The memory controller does not activate the external impedance prior to communicating the signals and, therefore, does not deactivate the external impedance after communicating the signals. The internal impedance of the memory controller can be enabled or disabled in order to reduce interface power consumption. Moreover, the internal impedance may be implemented using a passive component, an active component or both. For example, the internal impedance may include either or both an on-die termination and at least one driver. | 03-25-2010 |
20100309964 | ASYMMETRIC COMMUNICATION ON SHARED LINKS - Embodiments of a system that communicates bidirectional data between two devices via shared links is described. In this system, data is transmitted on the shared links by one of the devices using single-ended drivers, and corresponding symbols are received on the shared links by the other device using differential comparison circuits. The data may be encoded as a series of parallel codewords prior to transmission. Each shared link may communicate a respective symbol in each codeword, which can have one of two possible logical values (e.g., a logic 0 or a logic 1). The corresponding symbols received by the other device may comprise a parallel symbol set, and each of the differential comparison circuits may compare symbols received on pairs of the shared links. A decoder in the other device may decode a respective parallel symbol set from the outputs of the differential comparison circuits to recover the encoded data. | 12-09-2010 |
20110084737 | FREQUENCY RESPONSIVE BUS CODING - A data system permits bus encoding based on frequency of the bus and the frequency of switching on the bus so as to avoid undesirable frequency conditions such as a resonant condition or interference with other electrical devices. Transmission frequencies along one or more busses are monitored and used to control the encoding process, for example, an encoding process based on data bus inversion (DBI). The use of both a measure of an absolute number of logic levels (“DBI_DC”) and a measure of a number of logic level transitions relative to a prior signal (“DBI_AC”) provides a measure of control that may be used to compensate for both main and predriver switching noise. | 04-14-2011 |
20110128040 | SIGNAL LINES WITH INTERNAL AND EXTERNAL TERMINATION - Embodiments of a memory controller are described. This memory controller communicates signals to a memory device via a signal line, which can be a data signal line or a command/address signal line. Termination of the signal line is divided between an external impedance outside of the memory controller and an internal impedance within the memory controller. The memory controller does not activate the external impedance prior to communicating the signals and, therefore, does not deactivate the external impedance after communicating the signals. The internal impedance of the memory controller can be enabled or disabled in order to reduce interface power consumption. Moreover, the internal impedance may be implemented using a passive component, an active component or both. For example, the internal impedance may include either or both an on-die termination and at least one driver. | 06-02-2011 |
20110314200 | BALANCED ON-DIE TERMINATION - Termination of a high-speed signaling link is effected by simultaneously engaging on-die termination structures within multiple integrated-circuit memory devices disposed on the same memory module, and/or within the same integrated-circuit package, and coupled to the high-speed signaling link. | 12-22-2011 |
20120081146 | SIGNAL LINES WITH INTERNAL AND EXTERNAL TERMINATION - Embodiments of a memory controller are described. This memory controller communicates signals to a memory device via a signal line, which can be a data signal line or a command/address signal line. Termination of the signal line is divided between an external impedance outside of the memory controller and an internal impedance within the memory controller. The memory controller does not activate the external impedance prior to communicating the signals and, therefore, does not deactivate the external impedance after communicating the signals. The internal impedance of the memory controller can be enabled or disabled in order to reduce interface power consumption. Moreover, the internal impedance may be implemented using a passive component, an active component or both. For example, the internal impedance may include either or both an on-die termination and at least one driver. | 04-05-2012 |
20120182044 | Methods and Systems for Reducing Supply and Termination Noise - Described is a communication system in a first integrated circuit (IC) communicates with a second IC via single-ended communication channels. A bidirectional reference channel extends between the first and second ICs and is terminated on both ends. The termination impedances at each end of the reference channel support different modes for communicating signals in different directions. The termination impedances for the reference channel can be optimized for each signaling direction. | 07-19-2012 |
20130076425 | INTEGRATED CIRCUIT DEVICE TIMING CALIBRATION - Techniques for performing timing calibration for an integrated circuit (IC) device are described. During operation, a first integrated circuit device transmits a first calibration pattern having differently delayed rising edge transitions with respect to a timing reference. The first integrated circuit device additionally transmits a second calibration pattern having differently delayed falling edge transitions with respect to the timing reference. Next, the first integrated circuit generates a timing offset for transmitting data from the first integrated circuit device. This timing offset is derived from information received from a second integrated circuit device sampling the first calibration pattern and the second calibration pattern. | 03-28-2013 |
20130194854 | MEMORY DEVICE COMPRISING PROGRAMMABLE COMMAND-AND-ADDRESS AND/OR DATA INTERFACES - A memory device comprising a programmable command-and-address (CA) interface and/or a programmable data interface is described. In an operational mode, two or more CA interfaces may be active. In another operational mode, at least one, but not all, CA interfaces may be active. In an operational mode, all of the data interfaces may be active. In another operational mode, at least one, but not all, data interfaces may be active. The memory device can include circuitry to select: an operational mode; a sub-mode within an operational mode; one or more CA interfaces as the active CA interface(s); a main CA interface from multiple active CA interfaces; and/or one or more data interfaces as the active data interfaces. The circuitry may perform these selection(s) based on one or more bits in one or more registers and/or one or more signals received on one or more pins. | 08-01-2013 |
20130307584 | MULTI-VALUED ON-DIE TERMINATION - An integrated circuit memory device stores a plurality of digital values that specify respective termination impedances. The memory device switchably couples respective sets of load elements to a data input/output (I/O) to apply the termination impedances specified by the digital values, including, applying a first termination impedance to the data I/O during an idle state of the memory device, applying a first one of two non-equal termination impedances to the data I/O while the memory device receives write data in a memory write operation and applying a second one of the two non-equal termination impedances to the data I/O while another memory device receives write data in a memory write operation. When outputting read data via the data I/O in a memory read operation, the memory device switchably couples to the data I/O at least a portion of the load elements included in the sets of load elements. | 11-21-2013 |
20130307607 | SIMULTANEOUS SWITCHING NOISE CANCELLATION BY ADJUSTING REFERENCE VOLTAGE AND SAMPLING CLOCK PHASE - A data signal is transmitted from a first circuit to a second circuit, with noise and/or jitter added to the data signal by supply noise in the power distribution network in the first circuit and/or a second circuit being effectively canceled out by adjustment of the reference voltage and/or the phase of the sampling clock used for sampling of the data signal in a manner that effectively mimics such noise and/or jitter added to the data signal. The second circuit uses a filter that has the impedance profile and/or the jitter profile of such power distribution network. The bus weight and/or the number of switching bits in the data pattern transmitted from the first circuit to the second circuit is applied to the filter to determine the adjustment to be made to the reference voltage or the phase of the sampling clock. | 11-21-2013 |
20140019792 | TIMING CALIBRATION FOR MULTIMODE I/O SYSTEMS - Integrated circuit devices that operate in different modes. In a low data rate mode, data is transferred between the integrated circuit devices at a low data rate, or no data is transferred at all. In a high data rate mode, data is transferred between integrated circuit devices at a high data rate. A transition mode facilitates the transition from the low data rate mode to the high data rate mode. During the transition mode data is transferred between the integrated circuit devices at an intermediate data rate greater than the low data rate but lower than the high data rate. Also during the transition mode, parameters affecting the transmission of data between the integrated circuit devices are calibrated at the high data rate. | 01-16-2014 |
20140043069 | POWER SAVING DRIVER DESIGN - In an asymmetrically terminated communication system, the power consumed to transmit a particular bit value is adjusted based on whether the bit being output is the second, third, fourth, etc. consecutive bit with the same value after a transition to output the particular bit value. The adjustment of the power consumed to transmit the two or more consecutive bits with the same value may be made by adjusting the driver strength during the second, or subsequent, consecutive bits with the same value. The adjustment of the power consumed is performed on the bit value that consumes the most DC power and the other value is typically not adjusted. | 02-13-2014 |
20140112084 | On-Die Termination of Address and Command Signals - A memory controller is disclosed. The memory controller is configured to be connected to one or more memory devices via an address and control (RQ) bus. Each of the memory devices have on-die termination (ODT) circuitry connected to a subset of signal lines of the RQ bus, and the memory controller is operable to selectively disable the ODT circuitry in at least one memory device of the one or more memory devices. | 04-24-2014 |
20140169438 | Receiver with Clock Recovery Circuit and Adaptive Sample and Equalizer Timing - A receiver is equipped with an adaptive phase-offset controller and associated timing-calibration circuitry that together shift the timing for a data sampler and a digital equalizer. The sample and equalizer timing is shifted to a position with less residual inter-symbol interference (ISI) energy relative to the current symbol. The shifted position may be calculated using a measure of signal quality, such as a receiver bit-error rate or a comparison of filter-tap values, to optimize the timing of data recovery. | 06-19-2014 |
20140258768 | CHANGING SETTINGS FOR A TRANSIENT PERIOD ASSOCIATED WITH A DETERMINISTIC EVENT - Disclosed embodiments relate to a system that changes transmitter and/or receiver settings to deal with reliability issues caused by a predetermined event, such as a change in a power state or a clock start event. One embodiment uses a first setting while operating a transmitter during a normal operating mode, and a second setting while operating the transmitter during a transient period following the predetermined event. A second embodiment uses similar first and second settings in a receiver, or in both a transmitter and a receiver employed on one side of a bidirectional link The first and second settings can be associated with different swing voltages, edge rates, equalizations and/or impedances. | 09-11-2014 |
20140285232 | Methods and Systems for Reducing Supply and Termination Noise - Described is a communication system in a first integrated circuit (IC) communicates with a second IC via single-ended communication channels. A bidirectional reference channel extends between the first and second ICs and is terminated on both ends. The termination impedances at each end of the reference channel support different modes for communicating signals in different directions. The termination impedances for the reference channel can be optimized for each signaling direction. | 09-25-2014 |
20140374877 | Integrated Circuits With On-Die Decoupling Capacitors - An integrated circuit includes a decoupling capacitor and an internal circuit. The decoupling capacitor is coupled to a first external terminal of the integrated circuit. The internal circuit in the integrated circuit is coupled to a second external terminal of the integrated circuit. The decoupling capacitor is coupled to provide supply voltage current to the internal circuit through the first and the second external terminals and through external conductors. The external conductors are outside the integrated circuit. | 12-25-2014 |
20150042378 | BUFFERED MEMORY MODULE HAVING MULTI-VALUED ON-DIE TERMINATION - In a memory module having an integrated-circuit buffer device coupled to one or more integrated-circuit memory devices, the buffer device receives write data signals from an external control component via a set of data inputs, the write data signals indicating write data to be stored within one or more of the memory devices. Logic within the buffer device sequentially applies controllable termination impedance configurations at the data inputs based on an indication received from the control component and an internal state of the buffer device, applying a first controllable termination impedance configuration at each of the data inputs during a first internal state of the buffer device corresponding to the reception of the write data signals on the data inputs, and applying a second controllable termination impedance configuration at each of the data inputs during a second internal state of the buffer device that succeeds the first internal state. | 02-12-2015 |
20150084672 | COMMAND-TRIGGERED ON-DIE TERMINATION - An integrated circuit device transmits to a dynamic random access memory (DRAM) one or more commands that specify programming of a digital control value within the DRAM, the digital control value indicating a termination impedance that the DRAM is to couple to a data interface of the DRAM in response to receiving a write command and during reception of write data corresponding to the write command, and that the DRAM is to decouple from the data interface after reception of the write data corresponding to the write command. Thereafter, the integrated circuit device transmits to the DRAM a write command indicating that write data is to be sampled by a data interface of the DRAM during a first time interval and that cause the DRAM to couple the termination impedance to the data interface during the first time interval and decouple the termination impedance from the data interface after the first time interval. | 03-26-2015 |