Patent application number | Description | Published |
20080315933 | PULSE SYNTHESIS CIRCUIT - A high-level period of each of n first pulse signals partially or wholly overlaps a period during which all of n second pulse signals are at the low level. A high-level period of each of the n second pulse signals partially or wholly overlaps a period during which all of the n first pulse signals are at the low level. Each of n first drive transistors includes a source connected to a ground node, a drain connected to a first node, and a gate receiving a corresponding one of the first pulse signals. Each of n second drive transistors includes a source connected to the ground node, a drain connected to a second node, and a gate receiving a corresponding one of the second pulse signals. A current mirror circuit allows a current corresponding to a current flowing through the second node to flow through the first node. | 12-25-2008 |
20090278614 | PHASE SYNCHRONIZING CIRCUIT - A constant determination unit ( | 11-12-2009 |
20090295489 | PLL CIRCUIT - In a PLL circuit, a voltage controlled oscillator | 12-03-2009 |
20100244878 | PLL BURN-IN CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - In a PLL which does not include a loop filter, an additional circuit for subjecting a voltage-controlled oscillator to a burn-in test with an appropriate oscillation frequency is realized by a less circuit configuration. | 09-30-2010 |
20110012664 | CLOCK SIGNAL AMPLIFIER CIRCUIT - A clock signal amplifier circuit includes: an inverter; a coupling capacitor connected to the input of the inverter; two resistors connected in series between the power supply potential and the ground potential, a connection node of the two resistors being connected to the input of the inverter; a feedback resistor provided between the input and output of the inverter; and two switches configured to perform a same open/close operation according to a control signal, the two switches being provided on any two of a supply path of the power supply potential to the inverter, a supply path of the ground potential to the inverter, and a feedback path of the inverter via the feedback resistor. | 01-20-2011 |
20110291715 | PHASE ADJUSTMENT CIRCUIT - In a phase adjustment circuit that divides the frequency of a double-frequency clock to obtain a 50% duty-cycle clock, a first 1/2 frequency division circuit having a phase inversion function generates an intermediate reference clock apart in phase from both a phase reference clock and a phase-adjusted clock. A first phase control circuit controls the phase of the intermediate reference clock to be in a desired phase state with respect to the phase reference clock. A second phase control circuit controls the phase of the phase-adjusted clock to be in a desired phase state with respect to the intermediate reference clock. Thus, when the phase-adjusted clock is adjusted to be close in phase to the phase reference clock, the phase difference between these clocks can be determined correctly and stably even if it varies due to clock jitter. | 12-01-2011 |
20120286835 | PLL CIRCUIT - A PLL circuit includes: a frequency division section; a phase detector configured to detect the phase difference between a reference clock signal and an output signal of the frequency division section; a loop filter configured to filter an output signal of the phase detector and output the result as a digital value; a selector configured to select either the digital value or a fixed value; a digitally controlled oscillator configured to oscillate at a frequency corresponding to the value selected by the selector; and a control section configured to instruct the selector to select the fixed value until receiving a start signal, and after receiving the start signal, instruct the selector to select the digital value, and the frequency division section to start output, at timing of an edge of the reference clock signal. | 11-15-2012 |
Patent application number | Description | Published |
20090146273 | SEMICONDUCTOR DEVICE - There is provided a semiconductor device adopting, as a layout of pads connected to an external package on an LSI, a zigzag pad layout in which the pads are arranged shifted alternately, which can avoid occurrences of short-circuiting of wires, an increase in chip size due to avoidance of short-circuiting, propagation of power supply or GND noise due to reduction in IO cell interval, and signal transmission delay difference due to displacement of pad positions. | 06-11-2009 |
20110012245 | SEMICONDUCTOR DEVICE - There is provided a semiconductor device adopting, as a layout of pads connected to an external package on an LSI, a zigzag pad layout in which the pads are arranged shifted alternately, which can avoid occurrences of short-circuiting of wires, an increase in chip size due to avoidance of short-circuiting, propagation of power supply or GND noise due to reduction in IO cell interval, and signal transmission delay difference due to displacement of pad positions. In a semiconductor device wherein plural pads on a semiconductor element which are connected to function terminals on an external package are arranged in two lines along the periphery of the semiconductor element, an arrangement order of the plural pads on the semiconductor element is different from an arrangement order of the function terminals on the external package. | 01-20-2011 |