FAN7362MX

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This literature is subject to all applicable copyright laws and is not for resale in any manner. FAN7361, FAN7362 高侧栅极驱动器 特性 说明  浮动通道专为高达 +600 V 的自举运行而设计 FAN7361/FAN7362 是单片高侧栅极驱动 IC，可以驱动 工作电压最高达 +600 V 的 MOSFET 和 IGBT。飞兆的高 压工艺和共模噪声消除技术可使高侧驱动器在高 dv/dt 噪 声环境下稳定运行。先进的电平转换电路能使高侧栅极驱 动器的工作偏置电压达到 VS= -9.8 V （VBS= 15 V 时的 典型值）。  源 / 灌电流驱动能力典型值为 250 mA/500 mA  共模 dv/dt 噪声消除电路  VCC 和 VBS 供电范围从 10 V 至 20 V  VBS 欠压锁定功能  输出信号与输入信号同相位  8-SOP UVLO 电路可防止 VBS 低于指定的阈值电压时发生故障。 输出驱动器通常提供 250 mA/500 mA 的源电流 / 灌电 流，适合萤光灯镇流器、 PDP 扫描驱动器和电机控制 等。 应用  PDP 扫描驱动器  电机控制  SMPS  电子镇流器 8-SOP 订购信息 器件编号 封装 工作 温度范围 Eco 状态 FAN7361M(1) FAN7361MX(1) FAN7362M(1) 包装方法 塑料管 8-SOP -40°C ~ 125°C RoHS FAN7362MX(1) 卷带和卷盘 塑料管 卷带和卷盘 注： 1. 这些器件通过了 JESD22A-111 波峰焊测试。 对于飞兆公司的 Eco 状态定义，请访问：http://www.fairchildsemi.com/company/green/rohs_green.html。 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com FAN7361, FAN7362 高侧栅极驱动器 2013 年 11 月 FAN7361, FAN7362 高侧栅极驱动器 典型应用电路 15V 600V RBOOT DBOOT 1 NC VB 8 Q1 IN1 2 IN 3 VCC R1 HO 7 R2 CBOOT VS 6 IN2 4 GND NC 5 Q2 R3 Load R4 FAN7361 Rev.04 图 1. 典型应用电路 内部框图 VCC 3 8 VB 7 HO 6 VS UVLO GND 4 R S DRIVER 2 PULSE GENERATOR IN NOISE CANCELLER R Q Pin 1 and 5 are not connection FAN7361 Rev.04 图 2. 功能框图 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com 2 FAN7361, FAN7362 高侧栅极驱动器 引脚配置 NC 1 IN 2 VCC 3 GND 4 FAN7361 FAN7362 8 VB 7 HO 6 VS 5 NC FAN7361 Rev.04 图 3. 引脚配置 （俯视图） 引脚定义 引脚 名称 1 NC 无连接 功能 / 说明 2 IN 高侧栅极驱动器输出的逻辑输入 3 VCC 电源电压 4 GND 逻辑地 5 NC 无连接 6 VS 高侧浮动电源电压返回 7 HO 高侧驱动输出 8 VB 高侧浮动电源 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com 3 应力超过绝对最大额定值，可能会损坏器件。在超出推荐的工作条件的情况下，该器件可能无法正常工作，所以不建议 让器件在这些条件下长期工作。此外，长期在高于推荐的工作条件下工作，会影响器件的可靠性。绝对最大额定值仅是 应力规格值。除非另有说明， TA=25°C。 符号 特性 最小值 最大值 VB-25 VB+0.3 高侧浮动电源电压 -0.3 625 VHO 高侧浮动输出电压 VS-0.3 VB+0.3 VCC 固定逻辑电源电压 -0.3 25 VIN 逻辑输入电压 -0.3 VCC+0.3 VS 高侧偏置电压 VB dVS/dt PD(2)(3)(4) 单位 V 允许的偏置电压变化速率 ± 50 V/ns 功耗 0.625 W JA 结至环境热阻 200 °C/W TJ 结温 +150 °C TS 存储温度 +150 °C TA 环境温度 +125 °C -40 注意： 2. 安装到 76.2 x 114.3 x 1.6 mm PCB 板 （FR-4 环氧玻璃材料）。 3. 参考以下标准： JESD51-2: 集成电路热测试方法环境条件 - 自然对流 JESD51-3: 含铅表面贴装封装的低有效导热系数测试板 4. 在任何情况下，都不要超过 PD。 推荐工作条件 推荐的操作条件表明确了器件的真实工作条件。指定推荐的工作条件，以确保器件的最佳性能达到数据表中的规格。 飞兆半导体建议不要超过推荐工作条件，也不能按照绝对最大额定值进行设计。 符号 参数 最小值 最大值 VB 高侧浮动电源电压 VS+10 VS+20 VS 高侧浮动电源偏置电压 6-VCC 600 VB VHO 高侧输出电压 VS VIN 逻辑输入电压 GND VCC VCC 逻辑电源电压 10 20 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 单位 V www.fairchildsemi.com 4 FAN7361, FAN7362 高侧栅极驱动器 绝对最大额定值 除非另有说明， VBIAS(VCC、 VBS)=15.0V、 TA = 25°C。 VIN 和 IIN 参数以 GND 作为基准。 VO 和 IO 参数以 VS 作为基 准，适用于相应的输出 HO。 符号 特性 测试条件 VBSUV+ VBS 电源欠压正向阀值 VBS= 扫描 VBS 电源欠压负向阀值 VBS= 扫描 VBSHYS VBS 电源欠压锁定滞回电压回差 VBS= 扫描 VBSUV- ILK 偏置电源漏电流 VB=VS=600V 最小值 典型值 最大值 单位 FAN7361 8.2 9.2 10.2 FAN7362 7.6 8.6 9.6 FAN7361 7.4 8.6 9.2 FAN7362 7.2 8.2 9.2 FAN7361 0.5 FAN7362 0.4 V 10 IQBS VBS 静态电源电流 VIN= 0 V 或 5 V 50 80 IQCC VCC 静态电源电流 VIN=0V 30 75 IPBS VBS 工作电源电流 CL=1nF, f=10kHz 420 550 VIH 逻辑 “1” 输入电压 FAN7361 3.6 FAN7362 2.9 FAN7361 1.0 FAN7362 0.8 VIL 逻辑 “0” 输入电压 VOH 高电平输出电压， VB-VHO 无负载 VOL 低电平输出电压， VHO 无负载 IIN+ 逻辑 “1” 输入偏置电流 VIN=5V 50 90 IIN- 逻辑 “0” 输入偏置电流 VIN=0V 1.0 2.0 IO+ 输出高电平短路脉冲电流 VHO= 0 V， VIN= 5 V， PW £ 10µs 200 250 IO- 输出低电平短路脉冲电流 VHO=15V, VIN=0V,PW £ 10µs 400 500 VS IN 信号传播到 HO 时允许的 VS 引脚负 电压 µA V 0.1 0.1 -9.8 µA mA -7.0 V 动态电气特性 除非另有说明， VBIAS(VCC、 VBS)=15.0V、 VS=GND、 CL=1000pF 且 TA = 25°C。 符号 特性 测试条件 最小值 典型值 最大值 单位 导通传播延时 VS=0V 120 200 toff 关断传播延时 VS= 0 V 或 600 V 90 180 tr 导通上升时间 70 160 tf 关断下降时间 30 100 ton ns 注： 5. 参数由设计者提供。 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com 5 FAN7361, FAN7362 高侧栅极驱动器 电气特性 200 80 VCC=15V 150 50 IIN [A] -40°C 25°C 125°C 60 IQCC [A] -40°C 25°C 125°C IN=COM=0V 70 100 40 30 50 20 10 0 0 0 5 10 15 20 0 25 2 4 6 PROPAGATION DELAY TIME [nsec] 10.5 VBSUVP1 VBSUVP2 VBSUVN1 VBSUVN2 VBS [V] 9.5 9.0 8.5 8.0 7.5 -20 0 20 40 60 10 12 14 图 5. 输入偏置电流与输入电压的关系 图 4. IQCC 与电源电压的关系 10.0 8 VIN [V] VCC [V] 80 100 120 200 TON 180 TOFF 160 140 120 100 80 60 40 20 0 0 20 AMBIENT TEMPERATURE [°C] 40 60 80 100 120 AMBIENT TEMPERATURE [°C] 图 6. VBS UVLO 与温度的关系 图 7. 导通 / 关断传播时间与温度的关系 90 OUTPUT CAPABILITY [mA] TR 80 TF tr/tf [nsec] 70 60 50 40 30 20 10 -20 0 20 40 60 80 100 IOH- 500 400 300 200 -20 120 AMBIENT TEMPERATURE [°C] 0 20 40 60 80 100 120 AMBIENT TEMPERATURE [°C] 图 8. 上升 / 下降时间与温度的关系 图 9. 输出灌电流 / 源电流与温度的关系 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 IOH+ 600 www.fairchildsemi.com 6 FAN7361, FAN7362 高侧栅极驱动器 典型特性 5V IN 50% 50% VCC=15V VB 10F 0.1F 0.1F 10F HVIC GND IN tr 15V tf ton VS toff 90% CL 90% HO-V S HO 10% 10% FAN7361 Rev.02 FAN7361 Rev.03 图 10. 开关时间测试电路 图 11. 输入 / 输出时序图 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com 7 FAN7361, FAN7362 高侧栅极驱动器 开关时间定义 5.00 4.80 A 0.65 3.81 8 5 6.20 5.80 PIN ONE INDICATOR B 1.75 4.00 3.80 1 5.60 4 1.27 (0.33) 0.25 M 1.27 C B A LAND PATTERN RECOMMENDATION 0.25 0.10 SEE DETAIL A 1.75 MAX R0.10 0.10 0.51 0.33 0.50 x 45° 0.25 C OPTION A - BEVEL EDGE GAGE PLANE R0.10 8° 0° 0.90 0.406 0.25 0.19 C 0.36 OPTION B - NO BEVEL EDGE NOTES: UNLESS OTHERWISE SPECIFIED SEATING PLANE (1.04) DETAIL A SCALE: 2:1 A) THIS PACKAGE CONFORMS TO JEDEC MS-012, VARIATION AA, ISSUE C, B) ALL DIMENSIONS ARE IN MILLIMETERS. C) DIMENSIONS DO NOT INCLUDE MOLD FLASH OR BURRS. D) LANDPATTERN STANDARD: SOIC127P600X175-8M. E) DRAWING FILENAME: M08AREV13 图 12. 8- 引脚小尺寸封装 (SOP) 封装图纸是作为一项服务而提供给考虑选用飞兆半导体产品的客户。具体参数可能会有变化，且不会做出相应通知。请注意图纸上的 版本和 / 或日期，并联系飞兆半导体代表核实或获得最新版本。封装规格并不超出飞兆公司全球范围内的条款与条件，尤其指保修， 保修涵盖飞兆半导体的全部产品。 随时访问飞兆半导体在线封装网页，可以获取最新的封装图纸： http://www.fairchildsemi.com/packaging/. © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com 8 FAN7361, FAN7362 高侧栅极驱动器 物理尺寸 FAN7361, FAN7362 高侧栅极驱动器 © 2005 飞兆半导体公司 FAN7361, FAN7362 Rev. 1.0.8 www.fairchildsemi.com 9 ON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent−Marking.pdf. ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. “Typical” parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. 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