CXSD62117双通道电压模式和同步PWM控制器驱动双N通道mosfet两个通道均采用180度相移

发布时间：2020-04-24 19:35:40 浏览次数：301 作者：oumao18 来源：嘉泰姆

摘要：CXSD62117是双通道电压模式和同步驱动双N通道mosfet的PWM控制器。两个频道在180度相位变化下运行。该装置集成了将控制、监视和保护功能集成到一个包中；提供两个带过电压、过温度和过电流保护

CXSD62117双通道电压模式和同步PWM控制器驱动双N通道mosfet两个通道均采用180度相移

目录uzD嘉泰姆

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

一,产品概述(General Description) uzD嘉泰姆
The CXSD62117 is a dual channel voltage mode and syn-chronousuzD嘉泰姆
PWM controller which drives dual N-channel MOSFETs. The two channelsuzD嘉泰姆
are operated with 180 de-gree phase shift.The device integrates all of theuzD嘉泰姆
control, monitoring, and protecting functions into a single package; providesuzD嘉泰姆
two controlled power output with over-voltage, over-temperature, anduzD嘉泰姆
over-current protections.uzD嘉泰姆
The CXSD62117 provides excellent regulation for output load variation.uzD嘉泰姆
The internal 1.0V temperature-compen- sated reference voltage providesuzD嘉泰姆
high accuracy of 0.8% over line and temperature. The device includes auzD嘉泰姆
50kHz free-running triangle-wave oscillator that is adjustable from 50kHzuzD嘉泰姆
to 400kHz.The CXSD62117 has been equipped with excellent pro-tectionuzD嘉泰姆
functions: POR, OCP, UVP, and OVP protections.The Power-On-Reset (POR)uzD嘉泰姆
circuit can monitor the VCC and OCSET voltage to make sure the supplyuzD嘉泰姆
voltage ex-ceeds their threshold voltage while the controller is running. TheuzD嘉泰姆
Over-Current Protection (OCP) monitors the output current by using theuzD嘉泰姆
voltage drop across the high side MOSFET’s RDS(ON). When the outputuzD嘉泰姆
current reaches the trip point, the controller will be latched. Under-VoltageuzD嘉泰姆

Protection (UVP) and Over-Voltage Protection (OVP) moni-tor the FBuzD嘉泰姆
voltage to protect CXSD62117 from burnout when output voltage isuzD嘉泰姆
under 50% or over 120% of normal out-put voltage. The CXSD62117uzD嘉泰姆
is available in SOP-20 package.uzD嘉泰姆

二.产品特点(Features)uzD嘉泰姆
Single 12V Power Supply RequireduzD嘉泰姆
Excellent Output Voltage RegulationuzD嘉泰姆
- 1.0V±0.8% Internal Reference Over Line and TemperatureuzD嘉泰姆
Simple Single Loop Control DesignuzD嘉泰姆
- Voltage Mode PWM Control 0~100% Duty RatiouzD嘉泰姆
Programmable Frequency Range from 50kHz touzD嘉泰姆
400kHz (Constant 50kHz when Floating)uzD嘉泰姆
Integrated Soft-Start and Soft-Off (Patent Pending)uzD嘉泰姆
Support Pre-Biased Power-OnuzD嘉泰姆
Both Channel with 180o Phase ShiftuzD嘉泰姆
Integrated Boot-Strap DiodeuzD嘉泰姆
Over-Current ProtectionuzD嘉泰姆
- Sense High Side MOSFET’s RDS(ON)uzD嘉泰姆
120% Over-Voltage ProtectionuzD嘉泰姆
50% Under-Voltage ProtectionuzD嘉泰姆
Over-Temperature ProtectionuzD嘉泰姆
Available in SOP-20 PackageuzD嘉泰姆
Lead Free and Green Devices Available (RoHS Compliant)uzD嘉泰姆
三,应用范围 (Applications)uzD嘉泰姆
SMPSuzD嘉泰姆

四.下载产品资料PDF文档 uzD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！uzD嘉泰姆

QQ截图20160419174301.jpg uzD嘉泰姆

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五,产品封装图 (Package)uzD嘉泰姆

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六.电路原理图uzD嘉泰姆

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七,功能概述uzD嘉泰姆

Layout ConsiderationuzD嘉泰姆
In any high switching frequency converter, a correct lay-out is important to ensure proper operation of theuzD嘉泰姆
regulator. With power devices switching at 200kHz, the resulting current transient will cause voltage spike across the interconnecting impedance and parasitic circuit elements. As an example, consider the turn-off transition of the PWM MOSFET. Before turn-off, the MOSFET is car-rying the full load current. During turn-off, current stops flowing in the MOSFET and is free-wheeling by the lower MOSFET and parasitic diode. Any parasitic inductance of the circuit generates a large voltage spike during the switching interval. In general, using short and wide printed circuit traces should minimize interconnecting imped- ances and the magnitude of voltage spike. And signal and power grounds are to be kept separating till com-bined using the ground plane construction or single point grounding. Figure 8. illustrates the layout, with bold linesuzD嘉泰姆
Layout Consideration (Cont.)uzD嘉泰姆

indicating high current paths; these traces must be short and wide. Components along the bold lines should beuzD嘉泰姆

placed lose together. Below is a checklist for your layout:- Keep the switching nodes (UGATE, LGATE, and PHASE)away from sensitive small signal nodes since these nodes are fast moving signals. Therefore, keep tracesuzD嘉泰姆
to these nodes as short as possible.uzD嘉泰姆
- The traces from the gate drivers to the MOSFETs (UGATEand LGATE) should be short and wide.uzD嘉泰姆

- Place the source of the high-side MOSFET and the drainof the low-side MOSFET as close as possible. Minimiz-ing the impedance with wide layout plane between the two pads reduces the voltage bounce of the node.uzD嘉泰姆

- Decoupling capacitor, compensation component, the resistor dividers, and boot capacitors should be closeuzD嘉泰姆

their pins. (For example, place the decoupling ceramic capacitor near the drain of the high-side MOSFET asuzD嘉泰姆
close as possible. The bulk capacitors are also placed near the drain).uzD嘉泰姆
- The input capacitor should be near the drain of the up-per MOSFET; the output capacitor should be near theuzD嘉泰姆
loads. The input capacitor GND should be close to the lower MOSFET GND.uzD嘉泰姆
- The drain of the MOSFETs (VIN and PHASE nodes)should be a large plane for heat sinking.uzD嘉泰姆
- The ROCSET resistance should be placed near the IC as close as possible.uzD嘉泰姆
- The decoupling capacitor for VCC should be placed near the VCC and GND. CBOOT should be connected asuzD嘉泰姆
close to the BOOT and PHASE pins as possible. uzD嘉泰姆

八,相关产品 更多同类产品...... uzD嘉泰姆

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Part_No uzD嘉泰姆	Package uzD嘉泰姆	ArchiuzD嘉泰姆 tectuuzD嘉泰姆	PhaseuzD嘉泰姆	No.ofuzD嘉泰姆 PWMuzD嘉泰姆 OutputuzD嘉泰姆	Output uzD嘉泰姆 CurrentuzD嘉泰姆 (A) uzD嘉泰姆	minuzD嘉泰姆	maxuzD嘉泰姆	ReferenceuzD嘉泰姆 VoltageuzD嘉泰姆 (V) uzD嘉泰姆	Bias uzD嘉泰姆 VoltageuzD嘉泰姆 (V) uzD嘉泰姆	QuiescentuzD嘉泰姆 CurrentuzD嘉泰姆 (uA) uzD嘉泰姆
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CXSD6276uzD嘉泰姆	SOP-8uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	20uzD嘉泰姆	2.2uzD嘉泰姆	13.2uzD嘉泰姆	0.8uzD嘉泰姆	5~12uzD嘉泰姆	2100uzD嘉泰姆
CXSD6276AuzD嘉泰姆	SOP-8uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	20uzD嘉泰姆	2.2uzD嘉泰姆	13.2uzD嘉泰姆	0.8uzD嘉泰姆	5~12uzD嘉泰姆	2100uzD嘉泰姆
CXSD6277/A/BuzD嘉泰姆	SOP8\|TSSOP8uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	5uzD嘉泰姆	5uzD嘉泰姆	13.2uzD嘉泰姆	1.25\|0.8uzD嘉泰姆	5~12uzD嘉泰姆	3000uzD嘉泰姆
CXSD6278uzD嘉泰姆	SOP-8uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	10uzD嘉泰姆	3.3uzD嘉泰姆	5.5uzD嘉泰姆	0.8uzD嘉泰姆	5uzD嘉泰姆	2100uzD嘉泰姆
CXSD6279BuzD嘉泰姆	SOP-14uzD嘉泰姆	VM uzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	10uzD嘉泰姆	5uzD嘉泰姆	13.2uzD嘉泰姆	0.8uzD嘉泰姆	12uzD嘉泰姆	2000uzD嘉泰姆
CXSD6280uzD嘉泰姆	TSSOP-24uzD嘉泰姆 \|QFN5x5-32uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	2uzD嘉泰姆	20uzD嘉泰姆	5uzD嘉泰姆	13.2uzD嘉泰姆	0.6uzD嘉泰姆	5~12uzD嘉泰姆	4000uzD嘉泰姆
CXSD6281NuzD嘉泰姆	SOP14uzD嘉泰姆 QSOP16uzD嘉泰姆 QFN-16uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	30uzD嘉泰姆	2.9uzD嘉泰姆	13.2uzD嘉泰姆	0.9uzD嘉泰姆	12uzD嘉泰姆	4000uzD嘉泰姆
CXSD6282uzD嘉泰姆	SOP-14uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	30uzD嘉泰姆	2.2uzD嘉泰姆	13.2uzD嘉泰姆	0.6uzD嘉泰姆	12uzD嘉泰姆	5000uzD嘉泰姆
CXSD6282AuzD嘉泰姆	SOP-14uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	30uzD嘉泰姆	2.2uzD嘉泰姆	13.2uzD嘉泰姆	0.6uzD嘉泰姆	12uzD嘉泰姆	5000uzD嘉泰姆
CXSD6283uzD嘉泰姆	SOP-14uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	25uzD嘉泰姆	2.2uzD嘉泰姆	13.2uzD嘉泰姆	0.8uzD嘉泰姆	12uzD嘉泰姆	5000uzD嘉泰姆
CXSD6284/AuzD嘉泰姆	LQFP7x7 48uzD嘉泰姆 TQFN7x7-48uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	6uzD嘉泰姆	0.015uzD嘉泰姆	1.4uzD嘉泰姆	6.5uzD嘉泰姆	-uzD嘉泰姆	5uzD嘉泰姆	1800uzD嘉泰姆
CXSD6285uzD嘉泰姆	TSSOP-24PuzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	2uzD嘉泰姆	20uzD嘉泰姆	2.97uzD嘉泰姆	5.5uzD嘉泰姆	0.8uzD嘉泰姆	5~12uzD嘉泰姆	5000uzD嘉泰姆
CXSD6286uzD嘉泰姆	SOP-14uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	10uzD嘉泰姆	5uzD嘉泰姆	13.2uzD嘉泰姆	0.8uzD嘉泰姆	12uzD嘉泰姆	3000uzD嘉泰姆
CXSD6287uzD嘉泰姆	SOP-8-P\|DIP-8uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	1uzD嘉泰姆	30uzD嘉泰姆	2.9uzD嘉泰姆	13.2uzD嘉泰姆	1.2uzD嘉泰姆	12uzD嘉泰姆	3000uzD嘉泰姆
CXSD6288uzD嘉泰姆	SSOP28uzD嘉泰姆 QFN4x4-24uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	2uzD嘉泰姆	20uzD嘉泰姆	5uzD嘉泰姆	24uzD嘉泰姆	0.9uzD嘉泰姆	5uzD嘉泰姆	1200uzD嘉泰姆
CXSD6289uzD嘉泰姆	SOP-20uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	2uzD嘉泰姆	20uzD嘉泰姆	2.2uzD嘉泰姆	13.2uzD嘉泰姆	0.6uzD嘉泰姆	5~12uzD嘉泰姆	4000uzD嘉泰姆
CXSD6290uzD嘉泰姆	SOP8\|DFN3x3-10uzD嘉泰姆	VMuzD嘉泰姆	1uzD嘉泰姆	2uzD嘉泰姆	-uzD嘉泰姆	-uzD嘉泰姆