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    • 1. 发明专利
    • Adaptable hold current control for led dimmer
    • 适用于LED调光器的保持电流控制
    • JP2014160645A
    • 2014-09-04
    • JP2013254956
    • 2013-12-10
    • Dialog Semiconductor Incダイアログ セミコンダクター インコーポレイテッド
    • WANG XIAOYANCHENGLONG ZHANGFENG GUANGCLARITA POONWANG CHUANGYANGCHEN JIANYAN LIANGDICKSON T WONG
    • H05B37/02
    • H05B33/0848H05B33/0845
    • PROBLEM TO BE SOLVED: To dynamically adjust the amount of additional currents to be supplied to a triac dimmer through a triac dimmer controller for an LED lamp on the basis of a triac dimmer operation mode.SOLUTION: A current controller of a triac dimmer continuously detects a triac dimmer current load and determines a triac dimmer operation mode on the basis of a detected current. The triac dimmer controller compares the detected current with a threshold current value called triac hold current and adjusts the amount of voltage divider currents on the basis of a difference between the detected current and the threshold current value. By continuously detecting the triac dimmer current load, an LED controller uses a single sync current path to adjust the amount of voltage divider currents to be supplied to the triac dimmer, thereby satisfying triac dimmer current demands of a plurality of triac dimmer operation modes.
    • 要解决的问题:通过基于三端双向可控硅调光器运行模式的LED灯的三端双向可控硅调光器控制器动态调整提供给三端双向可控硅调光器的附加电流量。解决方案:三端双向可控硅调光器的电流控制器连续检测 三端双向程序串联调光器电流负载,并且基于检测到的电流确定三端双向可控硅调光器操作模式。 三端双向可控硅开关控制调光器控制器将检测到的电流与称为三端双向可控硅开关保持电流的阈值电流值进行比较,并根据检测到的电流和阈值电流值之差调整分压电流的数量。 通过持续检测三端双向可控硅调光器电流负载,LED控制器使用单个同步电流路径来调节要提供给三端双向可控硅调光器的分压器电流的量,从而满足多路复用器的三端双向可控硅调光器操作模式的三端双向可控硅调光器电流需求。
    • 2. 发明专利
    • Integrated LED dimmer controller
    • 集成LED调光控制器
    • JP2014099393A
    • 2014-05-29
    • JP2013148714
    • 2013-07-17
    • Dialog Semiconductor Incダイアログ セミコンダクター インコーポレイテッド
    • LIANG YANCLARITA POONYIMIN CHENMARK EASONWANG CHUANYANG
    • H05B37/02H01L33/00
    • H05B33/0845
    • PROBLEM TO BE SOLVED: To reduce sensitivity of a system to noise while reducing size and cost in an LED dimmer system.SOLUTION: An integrated LED controller 402 is mounted as a single integrated circuit containing a dimmer drive circuit 404, a dimmer reading circuit 408, and an electronic controller 412, and therefore the size and cost in an LED dimmer system 400 are reduced. The integrated LED controller 402 can also include an integrated timing controller 426 which generates a driver control signal 428 with respect to the dimmer drive circuit 404 and a reader control signal 430 with respect to the dimmer reading circuit 408 in a method in which the noise sensitivity of the controller 402 is reduced, and generates a control signal 432 for the electronic controller 412 which can be used for adjusting the timing of the dimmer drive circuit 404 and the dimmer reading circuit 408 with the timing of an electric power control signal 414.
    • 要解决的问题:降低系统对噪声的灵敏度,同时降低LED调光系统中的尺寸和成本。解决方案:集成LED控制器402作为包含调光器驱动电路404,调光器读取电路408的单个集成电路安装 和电子控制器412,因此减少了LED调光器系统400中的尺寸和成本。 集成LED控制器402还可以包括集成定时控制器426,其在相对于调光器驱动电路404产生驱动器控制信号428和相对于调光器读取电路408的读取器控制信号430,其中噪声敏感度 并且产生用于电子控制器412的控制信号432,其可以用于利用电力控制信号414的定时来调节调光器驱动电路404和调光器读取电路408的定时。
    • 5. 发明申请
    • SENSOR-LESS BUCK CURRENT REGULATOR WITH AVERAGE CURRENT MODE CONTROL
    • 具有平均电流模式控制的无传感器降压型电流调节器
    • WO2017124115A1
    • 2017-07-20
    • PCT/US2017/013828
    • 2017-01-17
    • DIALOG SEMICONDUCTOR (UK) LIMITEDDIALOG SEMICONDUCTOR INC.
    • MERCER, MarkDOWDY, KevinJAYARAMAN, Karthik
    • G01R19/00H02M3/158H02H3/08
    • H02M3/156G01R19/0092H02M2001/0009H03K2217/0027
    • A replica circuit (115) for a buck converter senses a replica of the current through the low-side switch transistor MLS without using a sense resistor. The replica circuit includes a replica transistor (MREP1, MREP2) and a current sense amplifier CSA, which drives the replica transistor with a first replica current, which is a scaled version of the current through the low-side switch transistor MLS, and generates a second replica current. A resistor (305) converts the second replica current into an output voltage (CSAOUT). A sample switch error amplifier integrator circuit (351) including a sample switch (S1) and an error amplifier (EA) samples the second replica current during a sampling window to generate an error signal (VERR). A controller controls the high-side and low-side switch transistors (MLS, MHS) responsive to the error signal.
    • 用于降压转换器的复制电路(115)感测通过低侧开关晶体管MLS的电流的复制而不使用感测电阻器。 该复制电路包括复制晶体管(MREP1,MREP2)和电流感测放大器CSA,其利用第一复制电流驱动复制晶体管,该第一复制电流是通过低侧开关晶体管MLS的电流的缩放版本,并且生成 第二个副本电流。 电阻器(305)将第二复制电流转换为输出电压(CSAOUT)。 包括采样开关(S1)和误差放大器(EA)的采样开关误差放大器积分器电路(351)在采样窗口期间对第二复制电流进行采样以产生误差信号(VERR)。 控制器根据误差信号控制高端和低端开关晶体管(MLS,MHS)。