ZHCSSX2A August 2023 – September 2023 UCC14340-Q1
PRODUCTION DATA
7.9 典型特性
每个 Vin 下的最大建议平均功率安全工作区面积 (SOA) 由 1.5W 限制(虚线)的较低值和该输入电压下的相应热降额曲线(实线)决定。不建议在高于 125oC 的环境温度下运行。热降额功率通过评估板获得,该评估板与“布局示例”部分中所示的 EVM 类似。Tshut 表示初级侧过热关断上升阈值。如“电气特性”表中所示,典型 Tshut 值为 160oC,最小 Tshut 值为 150oC。下面提供了 Tshut = 160oC 和 150oC 时的 SOA 降额曲线。对四种常见 VDD-VEE 设置(15V、18V、22V 和 25V)下的 SOA 曲线进行了表征。在每个 SOA 曲线中,输入电压范围为 9V 至 18V。为了表示 Tshut = 150oC 时的最坏情况,测试在一个屏蔽盒中进行,以阻断热处理室中的循环空气。
图 7-1 SOA 降额曲线:VVDD-VEE = 15V,VCOM-VEE = 5V,Tshut=160oC,VCOM-VEE 无负载
图 7-3 SOA 降额曲线:VVDD-VEE = 22V,VCOM-VEE = 4V,Tshut=160oC,VCOM-VEE 无负载
图 7-5 SOA 降额曲线:VVDD-VEE = 22V,VCOM-VEE = 4V,Tshut=150oC,VCOM-VEE 无负载,在屏蔽盒中测试。
图 7-7 关断:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,IVDD-VEE = 68mA,VCOM-VEE 无负载。时间标度:2ms/div。
图 7-9 VVDD-VEE 负载调节:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-11 VVDD-VEE 负载调节:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-13 VCOM-VEE 负载调节:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-15 VVDD-VEE 上效率与负载间的关系:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载
图 7-17 VVDD-VEE 上效率与负载间的关系:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载
图 7-19 VVDD-VEE 上输入电流与负载间的关系:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载
图 7-2 SOA 降额曲线:VVDD-VEE = 18V,VCOM-VEE = 3V,Tshut=160oC,VCOM-VEE 无负载
图 7-4 SOA 降额曲线:VVDD-VEE = 25V,VCOM-VEE = 5V,Tshut=160oC,VCOM-VEE 无负载
图 7-6 启动:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,IVDD-VEE = 68mA,VCOM-VEE 无负载。时间标度:1ms/div。
图 7-8 负载瞬态响应:在空载和 1.5W 之间,VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-10 VVDD-VEE 负载调节:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-12 VCOM-VEE 负载调节:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-14 VCOM-VEE 负载调节:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V
图 7-16 VVDD-VEE 上效率与负载间的关系:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载
图 7-18 VVDD-VEE 上输入电流与负载间的关系:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载
图 7-20 VVDD-VEE 上输入电流与负载间的关系:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载
图 7-1 SOA 降额曲线:VVDD-VEE = 15V,VCOM-VEE = 5V,Tshut=160oC,VCOM-VEE 无负载图 7-3 SOA 降额曲线:VVDD-VEE = 22V,VCOM-VEE = 4V,Tshut=160oC,VCOM-VEE 无负载图 7-5 SOA 降额曲线:VVDD-VEE = 22V,VCOM-VEE = 4V,Tshut=150oC,VCOM-VEE 无负载,在屏蔽盒中测试。图 7-7 关断:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,IVDD-VEE = 68mA,VCOM-VEE 无负载。时间标度:2ms/div。图 7-9 VVDD-VEE 负载调节:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-11 VVDD-VEE 负载调节:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-13 VCOM-VEE 负载调节:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-15 VVDD-VEE 上效率与负载间的关系:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载图 7-17 VVDD-VEE 上效率与负载间的关系:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载图 7-19 VVDD-VEE 上输入电流与负载间的关系:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载图 7-2 SOA 降额曲线:VVDD-VEE = 18V,VCOM-VEE = 3V,Tshut=160oC,VCOM-VEE 无负载图 7-4 SOA 降额曲线:VVDD-VEE = 25V,VCOM-VEE = 5V,Tshut=160oC,VCOM-VEE 无负载图 7-6 启动:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,IVDD-VEE = 68mA,VCOM-VEE 无负载。时间标度:1ms/div。图 7-8 负载瞬态响应:在空载和 1.5W 之间,VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-10 VVDD-VEE 负载调节:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-12 VCOM-VEE 负载调节:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-14 VCOM-VEE 负载调节:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V图 7-16 VVDD-VEE 上效率与负载间的关系:VIN = 15V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载图 7-18 VVDD-VEE 上输入电流与负载间的关系:VIN = 13.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载图 7-20 VVDD-VEE 上输入电流与负载间的关系:VIN = 16.5V,VVDD-VEE = 22V,VCOM-VEE = 4V,VCOM-VEE 无负载