Patent application number | Description | Published |
20090011728 | DCDC converter unit, power amplifier, and base station using the same - A DCDC converter includes a signal splitting unit that splits an input signal into N signal components; N DCDC converter elements that process individually the N split signals; and an adder that adds outputs from the plural DCDC converter elements to generate output signals. Each of the DCDC converter elements has an operation band narrower than an applicable frequency band of the input signal, and selects a design parameter that allows a conversion efficiency of the DCDC converter elements to be optimized for any band of the applicable frequency bands. For example, the parameter of a PMOS transistor and a NMOS transistor, which configure an inverter is designed to optimize the efficiency at any of frequency bands. The frequency band of the input signal is split, and each of the split outputs is input to a DCDC converter element that has a corresponding frequency and high efficiency characteristic. | 01-08-2009 |
20090160565 | SEMICONDUCTOR INTEGRATED CIRCUIT - The semiconductor integrated circuit incorporates a PLL circuit including a phase-frequency comparator | 06-25-2009 |
20090167427 | Power circuit and power amplifier and base station device using the same - Disclosed are a high-efficiency power amplifier and base station device with respect to high-speed, broadband radio communication method. A broadband power supply circuit includes a linear voltage amplifier to which an input signal is applied, a resistor connected to an output side of the linear voltage amplifier, a switching regulator amplifying the voltage difference between both ends of the resistor to convert the amplified voltage difference into current, and a high frequency amplifier. The high frequency amplifier is designed to exhibit high efficiency at a frequency band where the efficiency of the switching regulator starts to be deteriorated, or at a high frequency band where the operation of the linear amplifier is dominant. In this case, the amplification of low frequency components are performed by the switching regulator, and the amplification of high frequency components are performed by the linear amplifier and the high frequency amplifier. | 07-02-2009 |
20100134163 | SEMICONDUCTOR INTEGRATED CIRCUIT - A phase locked loop (PLL) which has a desired frequency characteristic even though a manufacturing process of a semiconductor integrated circuit has fluctuations. The semiconductor integrated circuit includes the PLL and a control unit. The PLL has a phase frequency detector, a loop filter, a voltage controlled oscillator (VCO) and a divider. The VCO comprises a voltage-current converter (VIC) and a ring oscillator. In response to a control voltage, the VIC generates a control current for setting each operating current of the ring oscillator. The control unit switches the PLL to a calibration operating period of its open loop and a normal operating period of its closed loop. | 06-03-2010 |
20100171553 | POWER CIRCUIT - A power circuit used for an amplifier, which includes an amplifier provided with a linear amplifier serving as a voltage source, a DC/DC converter serving as a current source, a hysteresis comparator controlling the DC/DC converter, and a current detector detecting output current from the linear amplifier to output the detected output current to the hysteresis comparator; and a switching restricting means for restricting a switching interval in the DC/DC converter such that the switching interval is not equal to or less than a constant time or is not shorter than the constant time. | 07-08-2010 |
20110037505 | TRANSCEIVER AND OPERATING METHOD THEREOF - A semiconductor chip area is reduced and the possibility of malfunction in generation of reproduction data and a reproduction clock is reduced. A transceiver comprises a clock data recovery circuit, a deserializer, a serializer, a PLL circuit, and a frequency detector. The clock data recovery circuit extracts a reproduction clock and reproduction data in response to a receive signal and a clock signal generated by the PLL circuit. The deserializer generates parallel receive data from the reproduction clock and the reproduction data, and the serializer generates a serial transmit signal from parallel transmit data and the clock signal. The detector detects a difference in frequency of the receive signal and the clock signal, and generates a frequency control signal. In response to the frequency control signal, the PLL circuit controls a cycle of the clock signal so as to reduce the difference in frequency. | 02-17-2011 |
20110063969 | SEMICONDUCTOR INTEGRATED CIRCUIT - The semiconductor integrated circuit incorporates a PLL circuit including a phase-frequency comparator | 03-17-2011 |
20120112843 | SEMICONDUCTOR INTEGRATED CIRCUIT - A phase locked loop (PLL) which has a desired frequency characteristic even though a manufacturing process of a semiconductor integrated circuit has fluctuations. The semiconductor integrated circuit includes the PLL and a control unit. The PLL has a phase frequency detector, a loop filter, a voltage controlled oscillator (VCO) and a divider. The VCO comprises a voltage-current converter (VIC) and a ring oscillator. In response to a control voltage, the VIC generates a control current for setting each operating current of the ring oscillator. The control unit switches the PLL to a calibration operating period of its open loop and a normal operating period of its closed loop. | 05-10-2012 |
20120252377 | HIGH FREQUENCY ANTENNA SWITCH MODULE - In a high frequency antenna switch module, an I/O interface generates various control signals for controlling a switch module on the basis of a system data signal and a system clock, a decoder generates a switch control signal SWCNT for controlling a switch in response to a control signal CNT in the control signals, a timing detector for switch-ports switching generates a switch-port switching detection signal t_sw in response to the switch control signal, a frequency control signal generator generates frequency control signals ICONT and CCONT in response to the signal t_sw, and a negative voltage generation circuit generates a negative voltage output signal NVG_OUT while switching the frequency of the clock signal generated in the negative voltage generation circuit to different frequencies in response to signals ICONT and CCONT. The switch switches the paths among the plural switch ports in response to the signals SWCNT and NVG_OUT. | 10-04-2012 |
20130002360 | SEMICONDUCTOR INTEGRATED CIRCUIT - A phase locked loop (PLL) which has a desired frequency characteristic even though a manufacturing process of a semiconductor integrated circuit has fluctuations. The semiconductor integrated circuit includes the PLL and a control unit. The PLL has a phase frequency detector, a loop filter, a voltage controlled oscillator (VCO) and a divider. The VCO comprises a voltage-current converter (VIC) and a ring oscillator. In response to a control voltage, the VIC generates a control current for setting each operating current of the ring oscillator. The control unit switches the PLL to a calibration operating period of its open loop and a normal operating period of its closed loop. | 01-03-2013 |