UCC28600TDRQ1 供应商
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UCC28600TDRQ1
品牌:TI 封装/批号:原厂原装/22+
UCC28600TDRQ1 属性参数
- 标准包装:2,500
- 类别:集成电路 (IC)
- 家庭:PMIC - AC-DC 转换器,离线开关
- 系列:-
- 输出隔离:隔离
- 频率范围:40kHz ~ 130kHz
- 输入电压:9.3 V ~ 32 V
- 输出电压:-
- 功率(瓦特):-
- 工作温度:-40°C ~ 105°C
- 封装/外壳:8-SOIC(0.154",3.90mm 宽)
- 供应商设备封装:8-SOIC
- 包装:带卷 (TR)
产品特性
- Qualified for Automotive Applications
- Green-Mode Controller With Advanced Energy Saving Features
- Quasi-Resonant Mode Operation for Reduced EMI and Low Switching Losses (Low Voltage Switching)
- Low Standby Current for System No-Load Power Consumption
- Low Startup Current: 25 µA Maximum
- Programmable Overvoltage Protection, Line and Load
- Internal Overtemperature Protection
- Current Limit Protection Cycle-by-Cycle Power Limit Primary-Side Overcurrent Hiccup Restart Mode
- Cycle-by-Cycle Power Limit
- Primary-Side Overcurrent Hiccup Restart Mode
- 1-A Sink TrueDrive™, -0.75-A Source Gate Drive Output
- Programmable Soft-Start
- Green-Mode Status Pin (PFC Disable Function)
- APPLICATIONS Bias Supplies for LCD-Monitors, LCD-TV, PDP-TV, and Set Top Boxes AC/DC Adapters and Offline Battery Chargers Energy Efficient Power Supplies up to 200 W
- Bias Supplies for LCD-Monitors, LCD-TV, PDP-TV, and Set Top Boxes
- AC/DC Adapters and Offline Battery Chargers
- Energy Efficient Power Supplies up to 200 W
产品概述
The UCC28600-Q1 is a PWM controller with advanced energy features to meet stringent world-wide energy efficiency requirements. UCC28600-Q1 integrates built-in advanced energy saving features with high level protection features to provide cost effective solutions for energy efficient power supplies. UCC28600-Q1 incorporates frequency fold back and green mode operation to reduce the operation frequency at light load and no load operations.UCC28600-Q1 is offered in the 8-pin SOIC (D) package. Operating ambient temperature range is –40°C to 105°C.The Design Calculator, (Texas Instruments Literature number SLVC104), located in the Tools and Software section of the UCC28600-Q1 product folder, provides a user-interactive iterative process for selecting recommended component values for an optimal design.