目录y1b嘉泰姆

1.产品概述                       2.产品特点y1b嘉泰姆
3.应用范围                       4.下载产品资料PDF文档 y1b嘉泰姆
5.产品封装图                     6.电路原理图                   y1b嘉泰姆
7.功能概述                        8.相关产品y1b嘉泰姆

一,产品概述(General Description)   y1b嘉泰姆

       The CXSD6290 is designed to drive two high-side P-chan-nely1b嘉泰姆
MOSFETs and two low-side N-channel MOSFETs in a full-bridgey1b嘉泰姆
configuration. The outputs are independently controlled by PWM1y1b嘉泰姆
and PWM2 input signals.The other features include VCC power-y1b嘉泰姆
on-reset and ther-mal shutdown.y1b嘉泰姆
二.产品特点(Features)y1b嘉泰姆

1.)Wide Input Voltage Range: 4.5V to 13.2Vy1b嘉泰姆
2.)Drives a Full-Bridge Inverter(High-Side P-y1b嘉泰姆
3.)Channel MOSFETs and Low-Side N-Channel MOSFETs)y1b嘉泰姆
4.)Thermal Shutdown Protectiony1b嘉泰姆
5.)VCC Power-On-Reset SOP-8 Packagey1b嘉泰姆
6.)Lead Free and Green Devices Availabley1b嘉泰姆
三,应用范围 (Applications)y1b嘉泰姆

 LCD Monitor and LCD TVy1b嘉泰姆
四.下载产品资料PDF文档 y1b嘉泰姆

需要详细的PDF规格书请扫一扫微信联系我们，还可以获得免费样品以及技术支持！y1b嘉泰姆

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五,产品封装图 (Package)y1b嘉泰姆

y1b嘉泰姆
FUNCTIONy1b嘉泰姆
y1b嘉泰姆

六.电路原理图y1b嘉泰姆

y1b嘉泰姆

七,功能概述y1b嘉泰姆

Thermal Shutdowny1b嘉泰姆
shutdown circuit will pull PGATE outputs high and NGATE outputs low thus turning high-side and low-sidey1b嘉泰姆
MOSFET off. When the driver cools down below 110ïC after a ther-mal shutdown, it resumes normal operationy1b嘉泰姆
and follows the PWM input signals.y1b嘉泰姆
Power-On-Reset (POR)y1b嘉泰姆
The CXSD6290 provides the power-on-reset function that keeps the driver disable when the VCC voltagey1b嘉泰姆
is insuffi-cient to driver external MOSFETs reliably. The PGATE out-puts remain high and the NGATE outputsy1b嘉泰姆
remain low until the VCC voltage exceeds POR threshold. Once the POR threshold is reached, the conditiony1b嘉泰姆
of gate driver outputs is defined by the PWM signals.y1b嘉泰姆
Layout Considerationy1b嘉泰姆
In any high switching frequency application, a correct lay-out is important to ensure proper operation of they1b嘉泰姆
device.With power devices switching at high frequency, the re-sulting current transient will cause voltagey1b嘉泰姆
spike across the interconnecting impedance and parasitic circuit elements. As an example, consider they1b嘉泰姆
turn-off transition of the PWM MOSFET. Before turn-off, the MOSFET is car-rying the full load current. Duringy1b嘉泰姆
turn-off, current stops flowing in the MOSFET and is free-wheeling by the lower MOSFET and parasitic diode.y1b嘉泰姆
Any parasitic inductance of the circuit generates a large voltage spike during the switching interval. In general,y1b嘉泰姆
using short and wide printed circuit traces should minimize interconnecting imped-ances and the magnitude ofy1b嘉泰姆
voltage spike. Below is a checklist for your layout :y1b嘉泰姆
- Keep the switching nodes (PGATE, NGATE and the drain of the MOSFETs) away from sensitive small sig-y1b嘉泰姆
nal nodes (PWM1, PWM2, MS, and DTC ) since these nodes are fast moving signals. Therefore, keep tracesy1b嘉泰姆
to these nodes as short as possible.y1b嘉泰姆
- Place the drain of the P-MOSFET and the drain of the N-MOSFET as close as possible to minimize the impedy1b嘉泰姆
ance with wide layout plane between the two pads and reduce the voltage bounce of the node.y1b嘉泰姆
- The traces from the gate drivers to the MOSFETs (PGATE and NGATE) should be short and wide.y1b嘉泰姆
- The VCC decoupling capacitor (C7), C5, C6, and RDTC should be close to their pins.y1b嘉泰姆
- The input capacitor should be near the source of the P-MOSFET.y1b嘉泰姆
- The drain of the MOSFETs should be a large plane for heat sinking.y1b嘉泰姆
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