Abstract: A voltage follower circuit includes a first MOS transistor which has a source connected to an input port, a second MOS transistor which has a source connected to an output port and has a gate and a drain connected to a gate of the first MOS transistor, a first constant current source connected between a drain of the first MOS transistor and a second power supply terminal, a second constant current source connected between the drain of the second MOS transistor and the second power supply terminal, and a depletion type third MOS transistor which has a gate connected to the drain of the first MOS transistor, has a drain connected to a first power supply terminal, and has a source connected to the output port.

Abstract: A mammalian or avian cell line that expresses high levels of human influenza virus receptors is provided. In one embodiment, the cell line supports human influenza virus, e.g., human A/H3 influenza virus, isolation and growth much more effectively than corresponding conventional (unmodified) cells or in corresponding human virus receptor-overexpressing cells, and the propagated viruses may maintain higher genetic stability than in the corresponding cells.

Abstract: A mammalian or avian cell line that expresses high levels of human influenza virus receptors is provided. In one embodiment, the cell line supports human influenza virus, e.g., human A/H3 influenza virus, isolation and growth much more effectively than corresponding conventional (unmodified) cells or in corresponding human virus receptor-overexpressing cells, and the propagated viruses may maintain higher genetic stability than in the corresponding cells.

Abstract: The voltage regulator includes: an error amplification circuit, outputting a signal amplifying a difference between a reference voltage and a feedback voltage; a source ground amplification circuit, amplifying the signal supplied from the error amplification circuit and outputting the signal as a control signal; and an output transistor, including a gate to which the control signal is supplied and outputting an output voltage. The source ground amplification circuit includes: a phase advance compensation circuit, containing a resistor and a capacitor; a load, containing a resistor and an offset generation element generating an offset voltage; and a transistor, containing: a gate receiving the signal output from the error amplification circuit; a source being connected with a first end of the resistor and a first end of the capacitor, the resistor and the capacitor being contained in the phase advance compensation circuit; and a drain connected with the load.

Abstract: Provided is a constant voltage circuit with which a variation of an output voltage in response to a sudden change of a power supply voltage is small. The constant voltage circuit includes: an ED-type reference voltage circuit including at least two depletion mode transistors and an enhancement mode transistor which are connected in series; a depletion mode transistor connected in series between the power supply terminal and the ED-type reference voltage circuit; a first output terminal or a second output terminal; and a power supply variation suppression circuit which is connected between a connection point and the ground terminal and which suppresses a variation of the power supply voltage. The power supply variation suppression circuit includes a detection circuit which detects whether there is a variation of the power supply voltage, and a pass transistor which is connected in parallel to the detection circuit.

Abstract: A voltage follower circuit includes a first MOS transistor which has a source connected to an input port, a second MOS transistor which has a source connected to an output port and has a gate and a drain connected to a gate of the first MOS transistor, a first constant current source connected between a drain of the first MOS transistor and a second power supply terminal, a second constant current source connected between the drain of the second MOS transistor and the second power supply terminal, and a depletion type third MOS transistor which has a gate connected to the drain of the first MOS transistor, has a drain connected to a first power supply terminal, and has a source connected to the output port.

Abstract: A mammalian or avian cell line that expresses high levels of human influenza virus receptors is provided. In one embodiment, the cell line supports human influenza virus, e.g., human A/H3 influenza virus, isolation and growth much more effectively than corresponding conventional (unmodified) cells or in corresponding human virus receptor-overexpressing cells, and the propagated viruses may maintain higher genetic stability than in the corresponding cells.

Abstract: A laminated body includes a glass substrate, an adhesion layer, and a resin layer in this order. The adhesion layer includes a side-contact portion. The side-contact portion is located outside an outer edge of the resin layer in a part of an entire circumferential of the outer edge when observing the laminated body from a normal direction of a surface of the glass substrate, and is in contact with at least a part of a side surface of the resin layer.

Abstract: An amplifier and a method of outputting a waveform of a music signal capable of outputting a waveform of a music signal exceeding a power supply voltage is provided. An amplifier includes a power supply, an input terminal for a music signal, an amplifying circuit which amplifies the music signal using the power supply, and a jumping-up circuit which is connected to an output end of the amplifying circuit and outputs a waveform exceeding a voltage value of the power supply.

Abstract: A laminated body includes a glass substrate, an adhesion layer, and a resin layer in this order. The adhesion layer includes a side-contact portion. The side-contact portion is located outside an outer edge of the resin layer in a part of an entire circumferential of the outer edge when observing the laminated body from a normal direction of a surface of the glass substrate, and is in contact with at least a part of a side surface of the resin layer.

Abstract: A constant voltage circuit includes a depletion transistor having a drain, a gate, and a source, the drain connected to a first power supply terminal, and the gate connected to the source, a voltage division circuit connected between the first power supply terminal and an output terminal, a first enhancement transistor having a drain connected to the source of the depletion transistor, a source connected to the output terminal, and a gate connected to an output terminal of the voltage division circuit, a second enhancement transistor having a source connected to the first power supply terminal, a drain connected to the output terminal, and a gate connected to the drain of the first enhancement transistor, and a pull-down element having one end connected to the output terminal and the other end connected to a second power supply terminal.

Abstract: A guitar amplifier and a control method of a guitar amplifier in which a setting of a performance mode can be easily changed without an interruption to a sound is provided. The guitar amplifier, which performs musical sound processing on an input musical sound and outputs it, includes a storage device which stores a plurality of information sets including a set value for each of one or two or more types of musical sound processing used in a performance mode, and a control device which changes the setting of the one or two or more types of musical sound processing to a setting according to a set value of a selected information set when information indicating ON of the performance mode, to which the selected information set from the plurality of information sets has been applied, is input.

Abstract: A distortion imparting device capable of obtaining a natural distortion effect even when output is decreased is provided. The distortion imparting device includes a first amplification part which attenuates an input audio signal on the basis of an attenuation factor set by a user and amplifies the attenuated audio signal, a second amplification part serially connected to the first amplification part, and a limiting part which is connected between an output terminal of the first amplification part and an input terminal of the second amplification part and limits an input voltage of the second amplification part to a predetermined clip voltage, wherein the limiting part determines the clip voltage on the basis of the attenuation factor.

Abstract: A switching regulator has an error amplifier supplying an error current, a phase compensation portion generating an error voltage, a clamper clamping the error voltage, a PFM detector supplying a comparison result signal of a first level or a comparison result signal of a second level based on the error current, an oscillator supplying a clock signal in response to the comparison result signal at the second level and fixing the clock signal in response to the comparison result signal at the first level, and a PWM converter turning on/off a switching element with a desired pulse width based on the error voltage and the output from the oscillator.

Abstract: A guitar amplifier and a control method of a guitar amplifier in which a setting of a performance mode can be easily changed without an interruption to a sound is provided. The guitar amplifier, which performs musical sound processing on an input musical sound and outputs it, includes a storage device which stores a plurality of information sets including a set value for each of one or two or more types of musical sound processing used in a performance mode, and a control device which changes the setting of the one or two or more types of musical sound processing to a setting according to a set value of a selected information set when information indicating ON of the performance mode, to which the selected information set from the plurality of information sets has been applied, is input.

Abstract: An amplifier and a method of outputting a waveform of a music signal capable of outputting a waveform of a music signal exceeding a power supply voltage is provided. An amplifier includes a power supply, an input terminal for a music signal, an amplifying circuit which amplifies the music signal using the power supply, and a jumping-up circuit which is connected to an output end of the amplifying circuit and outputs a waveform exceeding a voltage value of the power supply.

Abstract: A constant voltage circuit includes a depletion transistor having a drain, a gate, and a source, the drain connected to a first power supply terminal, and the gate connected to the source, a voltage division circuit connected between the first power supply terminal and an output terminal, a first enhancement transistor having a drain connected to the source of the depletion transistor, a source connected to the output terminal, and a gate connected to an output terminal of the voltage division circuit, a second enhancement transistor having a source connected to the first power supply terminal, a drain connected to the output terminal, and a gate connected to the drain of the first enhancement transistor, and a pull-down element having one end connected to the output terminal and the other end connected to a second power supply terminal.

Abstract: A mammalian or avian cell line that expresses high levels of human influenza virus receptors is provided. In one embodiment, the cell line supports human influenza virus, e.g., human A/H3 influenza virus, isolation and growth much more effectively than corresponding conventional (unmodified) cells or in corresponding human virus receptor-overexpressing cells, and the propagated viruses may maintain higher genetic stability than in the corresponding cells.

Abstract: Provided is an switching regulator including: an error amplification circuit configured to output a first error voltage based on an output voltage and a first reference voltage; a PFM comparison circuit configured to compare the first error voltage with a second reference voltage to output a comparison result signal; an oscillation circuit configured to output a clock signal, and to stop output of the clock signal depending on the comparison result signal; a frequency characteristics separation circuit to which the first error voltage is provided, and from which a second error voltage is supplied; a phase compensation circuit connected to the frequency characteristics separation circuit; and a PWM conversion circuit configured to turn the switching element on and off at a desired pulse width, based on the second error voltage and on the output from the oscillation circuit.

Abstract: A distortion imparting device capable of obtaining a natural distortion effect even when output is decreased is provided. The distortion imparting device includes a first amplification part which attenuates an input audio signal on the basis of an attenuation factor set by a user and amplifies the attenuated audio signal, a second amplification part serially connected to the first amplification part, and a limiting part which is connected between an output terminal of the first amplification part and an input terminal of the second amplification part and limits an input voltage of the second amplification part to a predetermined clip voltage, wherein the limiting part determines the clip voltage on the basis of the attenuation factor.