Patent application number | Description | Published |
20080295605 | STRESS DETECTION CIRCUIT AND SEMICONDUCTOR CHIP INCLUDING SAME - A stress detection circuit includes a function block and a detection signal generation circuit. The function block outputs a first voltage such that the first voltage is varied depending on an extent that the function block is stressed. The detection signal generation circuit generates a stress detection signal based on the first voltage and a second voltage during a test mode. The stress detection signal represents integration of the function block, and a level of the second voltage corresponds to a level of the first voltage before the function block is stressed. | 12-04-2008 |
20090009228 | CLOCK GENERATING APPARATUS - A clock generating apparatus includes a clock generator and a controllable delay line. The clock generator receives an external clock signal and generates multiple clock signals having different phases by delaying the external clock signal. The controllable delay line receives one of the multiple clock signals as a first clock signal and delays the first clock signal by a first interval in response to an externally applied control signal. The delayed first clock signal is input to the clock generator. | 01-08-2009 |
20090110040 | Transceiver system and associated methods and systems - In the example embodiments, test signals sent from a transmitting system are received at a receiving system. The receiving system generates a determination signal indicating, in one embodiment, whether received signals have a desired relationship with respect to a clock signal at the receiving system. Timing of the clock signal or timing for transmitting signals may be adjusted based on the determination. In another embodiment, the receiving system generates a determination signal indicating whether the pulse width of a lone pulse signal equals a desired time interval. Equalization or pre-emphasis is controlled based on the determination signal. | 04-30-2009 |
20090122904 | Apparatuses and method for multi-level communication - In one embodiment, the apparatus includes a driver circuit configured such that for each symbol in a set of possible symbols, the driver circuit generates at least one data signal at an associated voltage level. Here, adjacent voltage levels defme an associated voltage interval, and the driver circuit is configured to generate the voltage levels such that a central voltage interval is less than at least one of the voltage intervals adjacent to the central voltage interval. | 05-14-2009 |
20090207895 | Data transceiver system and associated methods - A data transceiver system may include an error corrector. The error corrector may include a plurality of delay units, each delay unit being configured to delay a corresponding data signal among a plurality of data signals by a time in response to a corresponding delay code among a plurality of delay codes and outputting the delayed data signal, an error detector configured to receive the plurality of delay codes, determine whether an error has occurred, and output an error signal according to the determination in a data frame lock operation, and a delay controller configured to set initial values of the plurality of delay codes to a predetermined value, vary and output each of the plurality of delay codes in response to a lock signal, and reset initial values the plurality of delay codes in response to the error signal in the data frame lock operation. | 08-20-2009 |
20100097094 | Output circuit having variable output voltage swing level - An output circuit having a variable swing level of a terminated output data signal is disclosed. The output circuit includes a control circuit configured to generate a first control signal and a second control signal in response to a voltage swing level selection signal and an output enable signal. The output circuit further includes an output driving circuit configured to, in response to the first and second control signals, perform on-die termination in an input mode and configured to control swing level of a signal output from the output circuit in an output mode. | 04-22-2010 |
20100153792 | Circuit and method for correcting skew in a plurality of communication channels for communicating with a memory device, memory controller, system and method using the same, and memory test system and method using the same - In a circuit and method for correcting skew among a plurality of communication channels used in communicating with a memory circuit, and in a memory controller and memory controlling method, and in a memory system and method, the circuit for correcting skew includes a transmitting circuit for transmitting a reference signal to input ends of the plurality of channels and through the plurality of channels, and a plurality of receiving circuits for receiving at the input ends of the plurality of channels a respective plurality of reflected signals, the reflected signals being reflected from respective output ends of the plurality of channels. A detection circuit receives the reflected signals and detects relative signal propagation time differences between the plurality of channels. A delay circuit coupled to at least one of the channels sets a signal propagation delay in the at least one of the channels based on the detected relative signal propagation time differences. | 06-17-2010 |
20100253386 | DATA TRANSMITTER AND RELATED SEMICONDUCTOR DEVICE - A semiconductor device transmitting a plurality of data using a multilevel signal includes a parity bit control unit generating a parity bit that varies with a number of data in which a most significant bit (MSB) and least significant bit (LSB) are different. A data conversion unit either inversely outputs the MSB or the LSB, or outputs the data without a change in response to the parity bit. Transmission units transmit data provided by the data conversion unit using the multilevel signal. | 10-07-2010 |
20100296352 | MEMORY CONTROLLER FOR DETECTING READ LATENCY, MEMORY SYSTEM AND TEST SYSTEM HAVING THE SAME - A memory controller includes an I/O circuit, a read latency detector and a clock domain synchronizer. The I/O circuit transmits a first signal to a semiconductor memory device, receives a reflected signal returned from the semiconductor memory device, and delays the reflected signal in response to a delay selection signal to generate a second signal. The reflected signal is provided by reflection of the first signal from the semiconductor memory device. The read latency detector generates the first signal in response to a system clock signal, and generates a read latency signal in response to the system clock signal, a hold signal, and the second signal. The clock domain synchronizer generates the delay selection signal and the hold signal in response to the system clock signal and the second signal. | 11-25-2010 |
20120166894 | CIRCUIT AND METHOD FOR CORRECTING SKEW IN A PLURALITY OF COMMUNICATION CHANNELS FOR COMMUNICATING WITH A MEMORY DEVICE, MEMORY CONTROLLER, SYSTEM AND METHOD USING THE SAME, AND MEMORY TEST SYSTEM AND METHOD USING THE SAME - In a circuit, memory controller, memory system, and method for correcting skew among a plurality of communication channels used in communicating with a memory circuit, the circuit for correcting skew includes a transmitting circuit for transmitting a reference signal to input ends of the plurality of channels and through the plurality of channels, and a plurality of receiving circuits for receiving at the input ends of the plurality of channels a respective plurality of reflected signals, the reflected signals being reflected from respective output ends of the plurality of channels. A detection circuit receives the reflected signals and detects relative signal propagation time differences between the plurality of channels. A delay circuit coupled to at least one of the channels sets a signal propagation delay in the at least one of the channels based on the detected relative signal propagation time differences. | 06-28-2012 |
20120230381 | TRANSCEIVER SYSTEM AND ASSOCIATED METHODS AND SYSTEMS - In the example embodiments, test signals sent from a transmitting system are received at a receiving system. The receiving system generates a determination signal indicating, in one embodiment, whether received signals have a desired relationship with respect to a clock signal at the receiving system. Timing of the clock signal or timing for transmitting signals may be adjusted based on the determination. In another embodiment, the receiving system generates a determination signal indicating whether the pulse width of a lone pulse signal equals a desired time interval. Equalization or pre-emphasis is controlled based on the determination signal. | 09-13-2012 |