Abstract: There is provided a variable gain circuit system which is inductorless and capable of achieving a high gain and a wide band by elements for achieving variable gain to prevent decreasing a gain or deteriorating the band. The variable gain circuit includes: transistors; a resistor connected as a load of each transistor; a voltage source applying a bias voltage to each gate of the transistors; a switch selectively connecting the voltage source or a ground potential to each gate of the transistors in accordance with gain setting; and a current source connected to a common input. A drain of each transistor is connected to an input of a circuit in a subsequent stage.

Abstract: The present invention provides a ramp generator capable of appropriately setting a rise starting point of an output voltage of a ramp waveform and an output voltage at the time of stable output. A current adjustment unit including a differential pair of transistors and an amplifier constitute a feedback circuit. By controlling the charging/discharging of an integration capacitor by ON/OFF of a discharge current source connected to a common emitter terminal of the current adjustment unit, an output of the ramp waveform outputted from an output terminal disposed at the connection end of the integration capacitor is controlled.

Abstract: In an output buffer circuit including Inverter 1 to Inverter 3, Delay Circuit 1 to Delay Circuit 3 for delaying an input signal for a specific time, Buffer 1 to Buffer 3, and a function for transmitting a logic signal to a transmission path and in accordance with an amount of signal attenuation in the transmission path, creating at a transmission side a waveform including four or more kinds of signal voltages, the preemphasis amount is made variable and the ON resistance Rs of the buffer is made constant. Selector circuit 1 to Selector circuit 3 are situated before the buffers, the inverter, capable of selecting through selector logic a signal to be inputted to the buffer, inverts a data signal, and the preemphasis amount and the number of preemphasis taps are adjusted through a selection signal for the selector logic.

Abstract: The present invention provides a differential signaling system comprising: a driver circuit that transmits a differential signal; a receiver circuit that receives the differential signal; and two or more signal lines used for the differential signal to be transmitted by the driver circuit and received by the receiver circuit, wherein the driver circuit gives an arbitrary time lag between the two signals that form the differential signal before transmitting them.

Abstract: A photoelectric composite wiring module includes a circuit substrate, an optical device, an LSI having a driver and an amplifier for the optical device, and a thin film wiring layer having an electrical wiring. The optical device is connected with the LSI by means of the electrical wiring. The optical device is formed on the circuit substrate and optically coupled to an optical waveguide formed in the circuit substrate. The thin film wiring layer is formed on the optical device to ensure that the optical device is electrically connected with the electrical wiring of the thin film wiring layer. The LSI is mounted on and electrically connected with the thin film wiring layer.

Abstract: An output buffer circuit, a differential output buffer circuit, an output buffer circuit having a regulation circuit and a regulation function, and a transmission method, to improve resolution of a pre-emphasis amount without increasing power consumption or a circuit area. The output buffer includes a delay circuit, an inverter and output buffers to transmit a logical signal to a transmission line and generate a waveform having four or more types of signal voltages on a transmission side according to a signal attenuation amount of the transmission line. The output buffer has a selector and a variable resistance portion at an output resistance to change a pre-emphasis amount according to a change in a variable resistance value. The inverter is configured to select a signal to input into the output buffer, invert a data signal and adjust a tap pre-emphasis amount by a select signal of the selector logic.

Abstract: In an output buffer circuit including Inverter 1 to Inverter 3, Delay Circuit 1 to Delay Circuit 3 for delaying an input signal for a specific time, Buffer 1 to Buffer 3, and a function for transmitting a logic signal to a transmission path and in accordance with an amount of signal attenuation in the transmission path, creating at a transmission side a waveform including four or more kinds of signal voltages, the preemphasis amount is made variable and the ON resistance Rs of the buffer is made constant. Selector circuit 1 to Selector circuit 3 are situated before the buffers, the inverter, capable of selecting through selector logic a signal to be inputted to the buffer, inverts a data signal, and the preemphasis amount and the number of preemphasis taps are adjusted through a selection signal for the selector logic.

Abstract: An output buffer circuit, a differential output buffer circuit, an output buffer circuit having a regulation circuit and a regulation function, and a transmission method, capable of improving resolution of a pre-emphasis amount without increasing power consumption or a circuit area, in which the output buffer circuit 10 has a function which includes a delay circuit 23, an inverter 22 and output buffers 3 to 7 to transmit a logical signal to a transmission line 2 and generate a waveform having four or more types of signal voltages on a transmission side according to a signal attenuation amount of the transmission line 2 and the output buffer 3 has a variable resistance portion 12 at an on-resistance to change a pre-emphasis amount according to a change in a variable resistance value. The output buffer 3 has a selector 20 on a forward stage and a variable resistance portion 12 at an on-resistance.

Abstract: In a semiconductor circuit, an impedance adjustment circuit having the characteristics same as those of a circuit having the nonlinear resistance characteristics is configured to include an operating point calculation circuit automatically calculating an operating point with a reference resistance through feedback control, and an impedance calculation circuit calculating the impedance at the operating point found by the operating point calculation circuit. The impedance adjustment circuit is also provided with an impedance determination circuit that determines whether or not the impedance found by the impedance calculation circuit is in a predetermined range. These components, i.e., the operating point calculation circuit, the impedance calculation circuit, and the impedance determination circuit, are provided each two for High-side and Low-side impedance adjustment use.

Abstract: A high-speed signal transmission apparatus comprises: a housing; a plurality of daughter boards juxtaposed to one another in the housing; board-side connectors each provided on corresponding each of the juxtaposed daughter boards; and cable-side connectors fixed in the housing; wherein each of the board-side connectors is insertable/removable into/from corresponding each of the cable-side connectors, and wherein a cable group whose impedance matching can be achieved makes connection between the predetermined cable-side connectors.

Abstract: A semiconductor device according to the present invention has a liquid crystal driver circuit, and when gray-scale voltage thereof is tested, the gray-scale voltage (Vx) generated in a gray-scale voltage generator circuit provided therein is compared with reference voltage (e.g., Vx+?V) generated for testing the gray-scale voltage and the test result is output as binarized voltage from external terminals of the semiconductor device. This can speed up the gray-scale voltage test even in the case of higher gray scale in the liquid crystal driver circuit or increased number of output terminals of the semiconductor device. Therefore, it becomes possible to reduce the time and cost required for the test.

Abstract: An output buffer circuit which transmits a logic signal to a transmission line includes a transmission pre-emphasis output circuit and a transmission pre-emphasis amount determination circuit. The transmission pre-emphasis output circuit controls a pre-emphasis amount according to an output signal from the transmission pre-emphasis amount determination circuit. The transmission pre-emphasis amount determination circuit adjusts a pre-emphasis amount and the number of pre-emphasis taps according to a pseudo loss control signal, controls a pre-emphasis amount of a transmission signal so that a signal amplitude is made smaller in a signal component with a high frequency than that of a signal component with a low frequency, and imparts signal degradation to a received waveform to realize transmission loss in a pseudo manner.

Abstract: In an output buffer circuit including Inverter 1 to Inverter 3, Delay Circuit 1 to Delay Circuit 3 for delaying an input signal for a specific time, Buffer 1 to Buffer 3, and a function for transmitting a logic signal to a transmission path and in accordance with an amount of signal attenuation in the transmission path, creating at a transmission side a waveform including four or more kinds of signal voltages, the preemphasis amount is made variable and the ON resistance Rs of the buffer is made constant. Selector circuit 1 to Selector circuit 3 are situated before the buffers, the inverter, capable of selecting through selector logic a signal to be inputted to the buffer, inverts a data signal, and the preemphasis amount and the number of preemphasis taps are adjusted through a selection signal for the selector logic.

Abstract: A problem, which one of the inventions included in the present application solves, is to provide a semiconductor device that can simultaneously test a plurality of output pins by less channels of a semiconductor test equipment in number than the integrated output pins of the semiconductor device. Representative one of the inventions has such a configuration that an LCD driver, which is the semiconductor device having a function of driving a gate line of a liquid crystal display panel, comprises: an exclusive-OR circuit for inverting polarities of positive and negative voltages for driving the gate line; a tri-state type inverter circuit capable of changing and controlling, to a high-impedance state, an output circuit for driving the gate line; and at least one of test control terminals TEST for controlling the exclusive-OR circuit and the tri-state type inverter circuit.

Abstract: The present invention provides a ramp generator capable of appropriately setting a rise starting point of an output voltage of a ramp waveform and an output voltage at the time of stable output. A current adjustment unit including a differential pair of transistors and an amplifier constitute a feedback circuit. By controlling the charging/discharging of an integration capacitor by ON/OFF of a discharge current source connected to a common emitter terminal of the current adjustment unit, an output of the ramp waveform outputted from an output terminal disposed at the connection end of the integration capacitor is controlled.

Abstract: In an adjustment method of waveform equalization coefficient, one of jitter and amplitude is measured only in a case of an arbitrary signal sequence and a waveform equalization coefficient is adjusted. Particularly, using a signal of received signals other than a 010 signal or a 101 signal, code inversion time is measured. Since the code inversion time in a case where such signals are used becomes steeper in comparison with that in the conventional technique, adjustment time of the waveform equalization coefficient can be reduced.

Abstract: A semiconductor device having a liquid crystal driving circuit is disclosed. The driving circuit includes a digital functional unit and an analog functional unit. The digital functional unit is comprised of a display controller and a display data storage RAM, while the analog functional unit is made up of a gradation voltage generating circuit and a gradation voltage selecting circuit. The digital and analog function units are functionally divided from each other and testing of the digital function and testing of the analog function unit are performed in an overlapping manner independently from each other.

Abstract: A transmitting and receiving technique in which a load on data signal lines is reduced while maintaining a communication quality, thereby making it possible to improve the throughput of data channels. In a transceiver, a transmitter side has an encoder circuit that transmits a bit sequence obtained by encoding link information to a clock signal line, and a receiver side has a clock and data recovery circuit 17 that extracts a clock component from a signal received from the clock signal line, a decoder circuit 19 that decodes the extracted signal to reproduce the link information, and a bit deskew circuit 21 that adjusts a skew that is lower than one bit on the basis of a clock component.

Abstract: A signal delay circuit includes: a first inverter circuit; a second inverter circuit connected to an output terminal of the first inverter; and a feedback circuit extending from an output terminal of the second inverter to its input terminal. A delay time of the first inverter circuit is adjusted by controlling the amount of feedback through the feedback circuit. Here, the feedback circuit is formed by MOS transistors and the delay time is adjusted by controlling the gate voltages of the MOS transistors. The feedback amount is adjusted in relation to a variation in a power supply voltage and a variation in the delay time of the signal delay circuit is suppressed.

Abstract: A probe sheet or a connecting sheet with good transmission characteristics and flexibility comprising contact terminals capable of contacting at a plurality of points and in high density, without applying damages on an electrode pad which is a contact subject is provided. Further, a high-speed transmission circuit capable of designing signal wirings with aligned impedance to have wide width even with a thin insulating film is achieved to provide a probe sheet or a connecting sheet with reduced loss of high-speed transmission signals. Moreover, the transmission circuit is applied to a probe card using a probe sheet, an inspecting method of (a method of manufacturing) a semiconductor device using the same, and a connecting sheet having an excellent high-frequency characteristic.