ADVANCEINFORMATION
11
UCC256403
,
UCC256404
www.ti.com.cn
ZHCSJY8A –JUNE 2019–REVISED AUGUST 2019
版权 © 2019, Texas Instruments Incorporated
8 Detailed Description
8.1 Overview
The UCC25640x is a fully featured LLC resonant controller for AC/DC power supplies. The high level of
integration of UCC25640x enables significant reduction of component count and solution size without
compromising functionality. UCC25640x achieves very low standby power and low audible noise standby
operation using an optimized burst mode. The device's novel control scheme offers excellent transient
performance.
Many consumer applications, including large screen televisions, AC-DC adapters, industrial power supplies, and
LED drivers, employ PFC + LLC power supplies because they offer improved efficiency, and small size,
compared with a PFC + flyback topology. A disadvantage of the PFC + LLC power supply system is that it has
poor light load efficiency and high no-load power consumption because the LLC stage requires a minimum
amount of circulating current to maintain regulation. To meet light load efficiency and standby power
consumption requirements, traditionally an auxiliary flyback converter is used. It runs continuously to allow the
main PFC + LLC power system to be shut down when the system enters low power or standby mode.
UCC25640x contains a number of novel features that enable it to offer excellent light load efficiency and low no-
load power. This will allow power supply designers to create systems that meet the stringent no-load power
target without needing an auxiliary flyback converter.
UCC25640x uses a novel control algorithm, Hybrid Hysteretic Control (HHC), to achieve regulation. In this
control algorithm, the switching frequency is defined by the resonant capacitor voltage, which carries accurate
input current information. This allows the controller monitors and corrects the input current directly. Compared
with traditional Direct Frequency Control (DFC), HHC makes the system close to a first order system if the
frequency control portion is small. This enables excellent load and line transient response.
UCC25640x adopts an advanced burst mode to meet the stringent requirements on standby power consumption
and audible noise level. At low output power levels UCC25640x automatically transitions into light-load burst
mode. In burst mode, UCC25640x repetitively delivers a burst packet with a fixed number of switching pulses
and a shut-off period. The shut-off time period between burst packets is terminated by the secondary regulator
loop based on the FB pin current. The LLC equivalent load current level during the burst on period is a
programmable value. For each burst packet, the switching frequency slowly ramps down at the first few switching
periods and ramps up at the last few switching periods, to slowly ramp up and ramp down the resonant current
during burst operation. This burst soft-on and soft-off can effectively help to minimize the audible noise during
burst mode operation. In addition, UCC25640x operates in a low power mode during burst mode with a very low
quiescent current and biased optocoupler operation with low current.
UCC25640x monitors the half-bridge switch node to determine the required dead-time for the gate signals. In this
way the dead-time is automatically adjusted to provide optimum efficiency and robust operation. UCC25640x
includes a slew rate detector with improved sensitivity of the switch node voltage for adaptive dead-time that
makes its operation inherently robust compared with alternative parts.
UCC25640x includes high and low-side drivers that can directly drive N-channel MOSFETs in an LLC power
stage. This allows complete and fully featured power systems to be realized with minimum component count.
UCC256404 includes a high-voltage startup JFET to initially charge the VCC capacitor to provide the energy
needed to start the PFC and LLC power system. Once running, power for the PFC and LLC controllers is derived
from a bias winding on the LLC transformer. UCC256404 also includes the active x-capacitor discharge feature
to discharge the remaining voltage on the x-capacitor of the EMC filters after unplugging the AC input.
UCC256403 does not include the high voltage startup and active x-capacitor discharge features. It requires an
auxiliary supply to power the VCC.
UCC25640x includes robust algorithms for avoiding the zero-current switching (ZCS) operation region. When
ZCS operation is detected, UCC25640x overrides the feedback signal and ramps up the switching frequency
until non-capacitive operation is restored. After which the switching frequency is ramped back down at a rate
determined by the soft-start capacitor until control has been handed back to the voltage control loop.
剩余63页未读,继续阅读
不觉明了
- 粉丝: 3277
- 资源: 5614
我的内容管理
收起
- 我的资源
快来上传第一个资源
我的收益 登录查看自己的收益
我的积分
登录查看自己的积分
我的C币
登录后查看C币余额
我的收藏 
我的下载 
下载帮助
会员权益专享
最新资源
- 电力电子系统建模与控制入门
- SQL数据库基础入门:发展历程与关键概念
- DC/DC变换器动态建模与控制方法解析
- 市***专有云IaaS服务:云主机与数据库解决方案
- 紫鸟数据魔方:跨境电商选品神器,助力爆款打造
- 电力电子技术:DC-DC变换器动态模型与控制
- 视觉与实用并重:跨境电商产品开发的六重价值策略
- VB.NET三层架构下的数据库应用程序开发
- 跨境电商产品开发:关键词策略与用户痛点挖掘
- VC-MFC数据库编程技巧与实现
- 亚马逊新品开发策略:选品与市场研究
- 数据库基础知识:从数据到Visual FoxPro应用
- 计算机专业实习经验与项目总结
- Sparkle家族轻量级加密与哈希:提升IoT设备数据安全性
- SQL数据库期末考试精选题与答案解析
- H3C规模数据融合:技术探讨与应用案例解析
资源上传下载、课程学习等过程中有任何疑问或建议,欢迎提出宝贵意见哦~我们会及时处理!
点击此处反馈
