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    • 1. 发明授权
    • RC oscillator based on delay-free comparator
    • RC振荡器基于无延迟比较器
    • US09385649B2
    • 2016-07-05
    • US14290665
    • 2014-05-29
    • QUALCOMM INCORPORATED
    • Le WangArash Mehrabi
    • H03K3/26H03B5/04H03B5/20H04B5/04H03K3/30H03K3/0231H03K4/50
    • H03B5/04H03B5/20H03K3/0231H03K3/30H03K4/50H04B5/04
    • Cancelling a delay in a comparator of an RC oscillator configured to generate a clock pulse, including: selectively coupling a plurality of current sources to a first capacitor, a second capacitor, and a resistor, wherein the plurality of current source charge and discharge the first capacitor and the second capacitor, and charge the resistor; charging the first capacitor at a higher rate during a first phase of the clock pulse than a second phase of the clock pulse, and charging the second capacitor at a higher rate during a third phase of the clock pulse than a fourth phase of the clock pulse; and generating the clock pulse by enabling the comparator to compare a voltage on the first or second capacitor with a voltage on the resistor.
    • 取消被配置为产生时钟脉冲的RC振荡器的比较器中的延迟,包括:选择性地将多个电流源耦合到第一电容器,第二电容器和电阻器,其中所述多个电流源对第一 电容器和第二电容器,并对电阻充电; 在时钟脉冲的第一相位期间以比时钟脉冲的第二相位更高的速率对第一电容器充电,并且在时钟脉冲的第三相位期间以比时钟脉冲的第四相位更高的速率对第二电容器充电 ; 并通过使比较器将第一或第二电容器上的电压与电阻器上的电压进行比较来产生时钟脉冲。
    • 4. 发明授权
    • Operating circuit for gas discharge lamps
    • 气体放电灯操作电路
    • US5510681A
    • 1996-04-23
    • US227999
    • 1994-04-15
    • Ole K. Nilssen
    • Ole K. Nilssen
    • H02M7/5383H02M7/53846H02M7/53862H02M7/5387H03K3/30H05B41/24H05B41/28H05B41/282H05B41/295H05B41/38H05B41/392H05B37/02
    • H02M7/53862H02M7/53832H02M7/53835H02M7/53846H02M7/53873H03K3/30H05B41/245H05B41/28H05B41/2827H05B41/295H05B41/38H05B41/3925Y10S315/05Y10S315/07
    • A half-bridge inverter is powered from a constant-magnitude DC supply voltage and provides at the inverter's output a first AC output voltage that is describable as a modified squarewave voltage. This first AC voltage is applied across a series-combination of an inductor and a capacitor, the junction between which is clamped to the DC supply voltage. As a result, a second AC voltage gets established across the capacitor; which second AC voltage is also describable as being a modified squarewave voltage. However, the phasing of the second AC voltage is delayed by approximately 90 degrees with respect to the first AC voltage; which results in the voltage across the inductor being of approximately sinusoidal waveform. A fluorescent lamp is connected in series with a ballast capacitor; and the lamp-capacitor series combination is connected across the inductor, thereby resulting in a nearly sinusoidal current being provided to the fluorescent lamp. Lamp starting aid is provided by a voltage-doubling circuit supplying a high-magnitude current-limited DC voltage across the ballast capacitor for ignition purposes.
    • 半桥逆变器由恒定直流电源电压供电,并在变频器的输出端提供可被描述为改进的方波电压的第一交流输出电压。 该第一交流电压被施加在电感器和电容器的串联组合上,其结点被钳位到直流电源电压。 结果,跨越电容器建立了第二交流电压; 该第二AC电压也可被描述为改进的方波电压。 然而,相对于第一AC电压,第二AC电压的定相延迟大约90度; 这导致电感器两端的电压大致为正弦波形。 荧光灯与镇流电容串联; 并且灯电容器串联组合连接在电感器两端,从而导致向荧光灯提供近似正弦电流。 灯起动辅助由提供高压限流直流电压的电压倍增电路提供,用于点火目的。
    • 8. 发明授权
    • Bias control for high efficiency inverter circuit
    • 高效逆变电路的偏置控制
    • US4307353A
    • 1981-12-22
    • US103624
    • 1979-12-14
    • Ole K. Nilssen
    • Ole K. Nilssen
    • H02M7/5383H02M7/537H03K3/30
    • H02M7/53835
    • An improved high efficiency push-pull inverter circuit employing a pair of switching transistors that are alternately triggered into conduction by a control circuit, for converting DC voltage into high frequency AC voltage. The control circuit includes a pair of saturable transformers that are non-coupled to each other and are each connected to the base of a respective transistor. The bases are isolated from ground potential by a capacitor, and significant reverse voltage signals are developed and alternately applied to the base of a conducting transistor for rapidly turning it off, thereby increasing device switching speed and overall efficiency of the circuit.
    • 一种改进的高效率推挽逆变器电路,采用一对开关晶体管,其被控制电路交替地触发导通,用于将直流电压转换为高频交流电压。 控制电路包括彼此不耦合并且各自连接到相应晶体管的基极的一对可饱和变压器。 基极通过电容器与地电位隔离,并且显着的反向电压信号被发展并且交替地施加到导电晶体管的基极以快速地将其关断,从而提高器件切换速度和电路的整体效率。
    • 9. 发明授权
    • High efficiency push-pull inverters
    • 高效率推挽逆变器
    • US4184128A
    • 1980-01-15
    • US890586
    • 1978-03-20
    • Ole K. Nilssen
    • Ole K. Nilssen
    • H02M7/5383H02M7/53846H02M7/53862H03K3/30H05B41/392H02M1/18H02M7/48H05B41/29
    • H02M7/53862H02M7/53846H03K3/30H05B41/3925Y10S315/02
    • High efficiency push-pull inverters minimize undesirable energy losses usually resulting from simultaneous conduction and imperfect switching of the transistor switching means. In each of the disclosed circuits, a saturable inductor and a diode are connected in parallel and across the base-emitter junction of each transistor. Voltage on the base of each transistor causes its associated saturable inductor to saturate, and the saturated inductor then terminates the flow of base current and provides a path for rapid evacuation of the charge carriers stored in the transistor base-emitter junction in order to render the transistor rapidly non-conductive. Each diode provides a drain path for current continuing to flow through its associated saturable inductor after junction evacuation. A novel triggering means initiates oscillation of the inverters. Also disclosed are feedback means operable to prevent premature transistor conduction and a capacitor connected between the collectors of the inverter transistors operable to restrain the rate of change of transistor collector voltage, both of these features also serving to minimize energy dissipation.
    • 高效率推挽逆变器最小化通常由于晶体管开关装置的同时导通和不完全切换导致的不期望的能量损失。 在每个公开的电路中,饱和电感器和二极管并联连接并跨越每个晶体管的基极 - 发射极结。 每个晶体管的基极上的电压导致其相关的可饱和电感饱和,然后饱和电感器终止基极电流,并提供用于快速排出存储在晶体管基极 - 发射极结中的电荷载流子的路径,以使 晶体管快速不导电。 每个二极管提供漏极通路,用于在连接抽真空之后,电流继续流过其相关的可饱和电感器。 一种新颖的触发装置启动逆变器的振荡。 还公开了可操作以防止过早的晶体管导通的反馈装置和连接在反相器晶体管的集电极之间的电容器可操作地抑制晶体管集电极电压的变化率,这两个特征也用于最小化能量耗散。
    • 10. 发明授权
    • Line modulator nondissipative series regulator
    • 线调制器无耗电串联调节器
    • US4150307A
    • 1979-04-17
    • US836092
    • 1977-09-23
    • Richard S. Loucks
    • Richard S. Loucks
    • G01S13/44H03K3/55H03K3/30H03K3/86
    • G01S13/4409H03K3/55
    • A regulating charging circuit for the pulse-forming network in a line-type pulse modulator, such as commonly found in pulsed radar systems. A charging inductor is the primary of a transformer, the secondary of which is open-circuited until the resonant charge of the pulsed-forming network reaches a predetermined voltage. At that time, a sensor generates a trigger enabling a solid state device, of the thyristor genera, to connect the secondary of the charging inductor/transformer to a step-up network, including a second transformer. The output of the step-up network is fed through a diode into the filter/storage capacitor of the high voltage power supply from which the charging inductor draws current. The unused charging conductor energy is thereby recovered and used to help recharge the filter/storage capacitor. The combination including the step-up network relieves the thyristor and control circuits from the requirement of controlling high voltages.
    • 一种线性脉冲调制器中的脉冲形成网络的调节充电电路,如脉冲雷达系统中常见的。 充电电感器是变压器的主要部分,其次级开路直到脉冲形成网络的谐振电荷达到预定电压。 此时,传感器产生触发器,使得晶闸管属的固态器件将充电电感器/变压器的次级连接到包括第二变压器的升压网络。 升压网络的输出通过二极管馈送到高压电源的滤波器/存储电容器中,充电电感从该电容器吸收电流。 因此,未使用的充电导体能量被恢复并用于帮助对过滤器/存储电容器进行再充电。 包括升压网络在内的组合可以缓解晶闸管和控制电路的高压控制。