单相定时同步的PWM控制器CXSD62102驱动N通道mosfet瞬态响应和准确的直流电压以PFM或PWM模式输出

首页 > 产品中心 > 电源管理 > DC降压型芯片 > Buck降压型芯片 >单相定时同步的PWM控制器CXSD62102驱动N通道mosfet瞬态响应和准确的直流电压以PFM或PWM模式输出

CXSD62102提供出色的瞬态响应和准确的直流电压以PFM或PWM模式输出。在脉冲频率模式（PFM）中，CXSD62102在轻到重负载的负载下提供非常高的效率-调制开关频率。在脉宽调制模式下，转换器几乎在用于低噪声要求的恒定频率

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产品简介

目录MYp嘉泰姆

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

一,产品概述(General Description) MYp嘉泰姆
The CXSD62102 is a single-phase, constant on-time, synchronous PWMMYp嘉泰姆
controller, which drives N-channel MOSFETs. The CXSD62102 steps down highMYp嘉泰姆
voltage to generate low-voltage chipset or RAM supplies in notebook computers.MYp嘉泰姆
The CXSD62102 provides excellent transient response and accurate DC voltageMYp嘉泰姆
output in either PFM or PWM Mode.In Pulse Frequency Mode (PFM), theCXSD62102 provides very high efficiency over light to heavy loads with loading-MYp嘉泰姆
modulated switching frequencies. In PWM Mode, the converter works nearly atMYp嘉泰姆
constant frequency for low-noise requirements. CXSD62102 is built in remoteMYp嘉泰姆
sense function for applications that require remote sense.The CXSD62102 isMYp嘉泰姆
equipped with accurate positive current limit, output under-voltage, and outputMYp嘉泰姆
over-voltage protections, perfect for NB applications. The Power-On-ResetMYp嘉泰姆
function monitors the voltage on VCC to prevent wrong operation duringMYp嘉泰姆
power-on. The CXSD62102 has a 1ms digital soft start and built-in an integratedMYp嘉泰姆
output discharge device for soft stop. An internal integrated soft-start ramps upMYp嘉泰姆
the output voltage with programmable slew rate to reduce the start-up current.MYp嘉泰姆
A soft-stop function actively discharges the output capacitors.MYp嘉泰姆
The CXSD62102 is available in 16pin TQFN3x3-16 package respectively.MYp嘉泰姆
二.产品特点(Features)MYp嘉泰姆
1.)Adjustable Output Voltage from +0.6V to +3.3VMYp嘉泰姆
- 0.6V Reference VoltageMYp嘉泰姆
- ±0.6% Accuracy Over-TemperatureMYp嘉泰姆
2.)Operates from An Input Battery Voltage Range of +1.8V to +28VMYp嘉泰姆
3.)Remote Feedback Sense for Excellent Output VoltageMYp嘉泰姆
4.)REFIN Function for Over-clocking Purpose from 0.5V~2.5V rangeMYp嘉泰姆
5.)Power-On-Reset Monitoring on VCC pinMYp嘉泰姆
6.)Excellent line and load transient responsesMYp嘉泰姆
7.)PFM mode for increased light load efficiencyMYp嘉泰姆
8.)Programmable PWM Frequency from 100kHz to 500kHzMYp嘉泰姆
9.)Selectable Forced PWM or automatic PFM/PWM modeMYp嘉泰姆
10.)Built in 30A Output current driving capabilityIntegrate MOSFET DriversMYp嘉泰姆
11.)Integrated Bootstrap Forward P-CH MOSFETMYp嘉泰姆
12.)Adjustable Integrated Soft-Start and Soft-Stop Power Good MonitoringMYp嘉泰姆
13.)70% Under-Voltage ProtectionMYp嘉泰姆
14.)125% Over-Voltage Protection TQFN3x3-16 PackageMYp嘉泰姆
15.)Lead Free and Green Devices AvailableMYp嘉泰姆
三,应用范围 (Applications)MYp嘉泰姆
NotebookMYp嘉泰姆
Table PCMYp嘉泰姆
Hand-Held PortableMYp嘉泰姆
AIO PCMYp嘉泰姆
四.下载产品资料PDF文档 MYp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！MYp嘉泰姆

QQ截图20160419174301.jpg MYp嘉泰姆

五,产品封装图 (Package)MYp嘉泰姆

MYp嘉泰姆

六.电路原理图MYp嘉泰姆

MYp嘉泰姆
MYp嘉泰姆

七,功能概述MYp嘉泰姆

Input Capacitor Selection (Cont.)MYp嘉泰姆
higher than the maximum input voltage. The maximum RMS current rating requirement is approximately IOUT/2,where IOUT is the load current. During power-up, the input capacitors have to handle great amount of surge current.For low-duty notebook appliactions, ceramic capacitor is recommended. The capacitors must be connected be-tween the drain of high-side MOSFET and the source of low-side MOSFET with very low-impeadance PCB layout. MYp嘉泰姆
MOSFET SelectionMYp嘉泰姆
The application for a notebook battery with a maximum voltage of 24V, at least a minimum 30V MOSFETs shouldMYp嘉泰姆
be used. The design has to trade off the gate charge with the RDS(ON) of the MOSFET:For the low-side MOSFET, before it is turned on, the body diode has been conducting. The low-side MOSFET driver will not charge the miller capacitor of this MOSFET.MYp嘉泰姆
In the turning off process of the low-side MOSFET, the load current will shift to the body diode first. The high dv/dt of the phase node voltage will charge the miller capaci-tor through the low-side MOSFET driver sinking current path. This results in much less switchingMYp嘉泰姆
loss of the low-side MOSFETs. The duty cycle is often very small in high battery voltage applications, and the low-side MOSFET will conduct most of the switching cycle; therefore, when using smaller RDS(ON) of the low-side MOSFET, the con-verter can reduce power loss. The gate charge for this MOSFET is usually the secondary consideration. The high-side MOSFET does not have this zero voltage switch-ing condition; in addition, it conducts for less time com-pared to the low-side MOSFET, so the switching loss tends to be dominant. Priority should be given to the MOSFETs with less gate charge, so that both the gate driver loss and switching loss will be minimized.MYp嘉泰姆
The selection of the N-channel power MOSFETs are determined by the R DS(ON), reversing transfer capaci-tance (CRSS) and maximum output current requirement.The losses in the MOSFETs have two components:MYp嘉泰姆
conduction loss and transition loss. For the high-side and low-side MOSFETs, the losses are approximatelyMYp嘉泰姆
given by the following equations:MYp嘉泰姆
Phigh-side = IOUT (1+ TC)(RDS(ON))D + (0.5)( IOUT)(VIN)( tSW)FSWMYp嘉泰姆
Plow-side = IOUT (1+ TC)(RDS(ON))(1-D) is the load current TC is the temperature dependency of RDS(ON)MYp嘉泰姆
FSW is the switching frequency tSW is the switching interval D is the duty cycleNote that both MOSFETs have conduction losses while the high-side MOSFET includes an additional transition loss.The switching interval, tSW, is the function of the reverse transfer capacitance CRSS. The (1+TC) term is a factor in the temperature dependency of the RDS(ON) and can be extracted from the “RDS(ON) vs. Temperature” curve of the power MOSFET.MYp嘉泰姆
Layout ConsiderationMYp嘉泰姆
In any high switching frequency converter, a correct layout is important to ensure proper operation of the regulator.MYp嘉泰姆
With power devices switching at higher frequency, the resulting current transient will cause voltage spike acrossMYp嘉泰姆
the interconnecting impedance and parasitic circuit elements. As an example, consider the turn-off transitionMYp嘉泰姆
of the PWM MOSFET. Before turn-off condition, the MOSFET is carrying the full load current. During turn-off,MYp嘉泰姆
current stops flowing in the MOSFET and is freewheeling by the low side MOSFET and parasitic diode. Any parasiticMYp嘉泰姆
inductance of the circuit generates a large voltage spike during the switching interval. In general, using short andMYp嘉泰姆
wide printed circuit traces should minimize interconnect-ing impedances and the magnitude of voltage spike.MYp嘉泰姆
Besides, signal and power grounds are to be kept sepa-rating and finally combined using ground plane construc-MYp嘉泰姆
tion or single point grounding. The best tie-point between the signal ground and the power ground is at the nega-MYp嘉泰姆
tive side of the output capacitor on each channel, where there is less noise. Noisy traces beneath the IC are notMYp嘉泰姆

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CXSD6282MYp嘉泰姆	SOP-14MYp嘉泰姆	VMMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	30MYp嘉泰姆	2.2MYp嘉泰姆	13.2MYp嘉泰姆	0.6MYp嘉泰姆	12MYp嘉泰姆	5000MYp嘉泰姆
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CXSD6283MYp嘉泰姆	SOP-14MYp嘉泰姆	VMMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	25MYp嘉泰姆	2.2MYp嘉泰姆	13.2MYp嘉泰姆	0.8MYp嘉泰姆	12MYp嘉泰姆	5000MYp嘉泰姆
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CXSD62101\|LMYp嘉泰姆	TDFN3x3-10MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	30MYp嘉泰姆	3MYp嘉泰姆	25MYp嘉泰姆	0.8MYp嘉泰姆	5~12MYp嘉泰姆	2000MYp嘉泰姆
CXSD62102MYp嘉泰姆	TQFN3x3-16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	30MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.6MYp嘉泰姆	5MYp嘉泰姆	600MYp嘉泰姆
CXSD62102AMYp嘉泰姆	TQFN 3x3 16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	30MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.6MYp嘉泰姆	5MYp嘉泰姆	600MYp嘉泰姆
CXSD62103MYp嘉泰姆	QFN4x4-24MYp嘉泰姆	VMMYp嘉泰姆	2MYp嘉泰姆	1MYp嘉泰姆	50MYp嘉泰姆	4.5MYp嘉泰姆	13.2MYp嘉泰姆	0.6MYp嘉泰姆	5~12MYp嘉泰姆	5000MYp嘉泰姆
CXSD62104MYp嘉泰姆	TQFN4x4-24MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	15MYp嘉泰姆	6MYp嘉泰姆	25MYp嘉泰姆	2MYp嘉泰姆	NMYp嘉泰姆	550MYp嘉泰姆
CXSD62105MYp嘉泰姆	TQFN4x4-24MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	15MYp嘉泰姆	6MYp嘉泰姆	25MYp嘉泰姆	2MYp嘉泰姆	NMYp嘉泰姆	550MYp嘉泰姆
CXSD62106\|AMYp嘉泰姆	TQFN4x4-4MYp嘉泰姆 TQFN3x3-20MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	20MYp嘉泰姆	3MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	800MYp嘉泰姆
CXSD62107MYp嘉泰姆	TQFN3x3-16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	20MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	400MYp嘉泰姆
CXSD62108MYp嘉泰姆	QFN3.5x3.5-14MYp嘉泰姆 TQFN3x3-16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	20MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	400MYp嘉泰姆
CXSD62109MYp嘉泰姆	TQFN3x3-16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	20MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	400MYp嘉泰姆
CXSD62110MYp嘉泰姆	QFN3x3-20MYp嘉泰姆 TQFN3x3-16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	20MYp嘉泰姆	3MYp嘉泰姆	28MYp嘉泰姆	1.8\|1.5\|0.5MYp嘉泰姆	5MYp嘉泰姆	740MYp嘉泰姆
CXSD62111MYp嘉泰姆	TQFN4x4-24MYp嘉泰姆 \|QFN3x3-20MYp嘉泰姆	CMMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	15MYp嘉泰姆	5MYp嘉泰姆	28MYp嘉泰姆	0.5MYp嘉泰姆	NMYp嘉泰姆	3000MYp嘉泰姆
CXSD62112MYp嘉泰姆	TDFN3x3-10MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	20MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.5MYp嘉泰姆	5MYp嘉泰姆	250MYp嘉泰姆
CXSD62113\|CMYp嘉泰姆	TQFN3x3-20MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	15MYp嘉泰姆	6MYp嘉泰姆	25MYp嘉泰姆	2MYp嘉泰姆	NMYp嘉泰姆	550MYp嘉泰姆
CXSD62113EMYp嘉泰姆	TQFN 3x3 20MYp嘉泰姆	COTMYp嘉泰姆	2MYp嘉泰姆	2MYp嘉泰姆	11MYp嘉泰姆	6MYp嘉泰姆	25MYp嘉泰姆	2MYp嘉泰姆	NMYp嘉泰姆	550MYp嘉泰姆
CXSD62114MYp嘉泰姆	TQFN3x3-20MYp嘉泰姆	COTMYp嘉泰姆	2MYp嘉泰姆	2MYp嘉泰姆	11MYp嘉泰姆	5.5MYp嘉泰姆	25MYp嘉泰姆	2MYp嘉泰姆	NMYp嘉泰姆	280MYp嘉泰姆
CXSD62115MYp嘉泰姆	QFN4x4-24MYp嘉泰姆	VMMYp嘉泰姆	2MYp嘉泰姆	1MYp嘉泰姆	60MYp嘉泰姆	3.1MYp嘉泰姆	13.2MYp嘉泰姆	0.85MYp嘉泰姆	12MYp嘉泰姆	5000MYp嘉泰姆
CXSD62116A\|B\|CMYp嘉泰姆	SOP-8PMYp嘉泰姆	VMMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	20MYp嘉泰姆	2.9MYp嘉泰姆	13.2MYp嘉泰姆	0.8MYp嘉泰姆	12MYp嘉泰姆	16000MYp嘉泰姆
CXSD62117MYp嘉泰姆	SOP-20MYp嘉泰姆	VMMYp嘉泰姆	2MYp嘉泰姆	2MYp嘉泰姆	30MYp嘉泰姆	10MYp嘉泰姆	13.2MYp嘉泰姆	1MYp嘉泰姆	12MYp嘉泰姆	5000MYp嘉泰姆
CXSD62118MYp嘉泰姆	TDFN3x3-10MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	1MYp嘉泰姆	25MYp嘉泰姆	1.8MYp嘉泰姆	28MYp嘉泰姆	0.7MYp嘉泰姆	5MYp嘉泰姆	250MYp嘉泰姆
CXSD62119MYp嘉泰姆	TQFN3x3-20MYp嘉泰姆	COTMYp嘉泰姆	2MYp嘉泰姆	1MYp嘉泰姆	40MYp嘉泰姆	1.8MYp嘉泰姆	25MYp嘉泰姆	REFIN SettingMYp嘉泰姆	5MYp嘉泰姆	700MYp嘉泰姆
CXSD62120MYp嘉泰姆	QFN 3x3 20MYp嘉泰姆 TQFN 3x3 16MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	20MYp嘉泰姆	3MYp嘉泰姆	28MYp嘉泰姆	1.8\|1.5 1.35\|1.2 0.5MYp嘉泰姆	5MYp嘉泰姆	800MYp嘉泰姆
CXSD62121AMYp嘉泰姆	TQFN3x3 20MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	15MYp嘉泰姆	3MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	220MYp嘉泰姆
CXSD62121BMYp嘉泰姆	TQFN3x3 20MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	15MYp嘉泰姆	3MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	220MYp嘉泰姆
CXSD62121MYp嘉泰姆	TQFN3x3-20MYp嘉泰姆	COTMYp嘉泰姆	1MYp嘉泰姆	2MYp嘉泰姆	20MYp嘉泰姆	3MYp嘉泰姆	28MYp嘉泰姆	0.75MYp嘉泰姆	5MYp嘉泰姆	180MYp嘉泰姆

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