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CTX50-1P 参数 Datasheet PDF下载

CTX50-1P图片预览
型号: CTX50-1P
PDF下载: 下载PDF文件 查看货源
内容描述: 500毫安低电压降压型同步 [500mA Low Voltage Step-Down Synchronous]
分类和应用:
文件页数/大小: 12 页 / 96 K
品牌: Linear [ Linear ]
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LTC1504A  
U
W U U  
APPLICATIONS INFORMATION  
Table 1. Representative Surface Mount Input Bypass Capacitors  
Ideally, the LTC1504A requires a low impedance bypass  
rightatthechipandalargerreservoircapacitorthatcanbe  
located somewhat farther away. This requirement usually  
can be met with a ceramic capacitor right next to the  
LTC1504A and an electrolytic capacitor (usually 10µF to  
100µF,dependingonexpectedloadcurrent)locatedsome-  
where nearby. In certain cases, the bulk capacitance  
requirement can be met by the output bypass of the input  
supply. Applications running at very high load currents or  
at input supply voltages greater than 6V may require the  
local ceramic capacitor to be 1µF or greater. In some  
cases, both the low impedance and bulk capacitance  
requirements can be met by a single capacitor, mounted  
very close to the LTC1504A. Low ESR organic semicon-  
ductor (OS-CON) electrolytic capacitors or surge tested  
surface mount tantalum capacitors can have low enough  
impedance to keep the LTC1504A happy in some circuits.  
PART  
VALUE ESR MAX RMS  
TYPE  
HEIGHT  
AVX  
TPSC226M016R0375 22µF 0.38Ω  
TPSD476M016R0150 47µF 0.15Ω  
TPSE107M016R0125 100µF 0.13Ω  
0.54A  
0.86A  
1.15A  
>1A  
Tantalum 2.6mm  
Tantalum 2.9mm  
Tantalum 4.1mm  
X7R Ceramic 1.5mm  
Y5V Ceramic 1.7mm  
1206YC105M  
1210YG106Z  
1µF  
10µF  
Low  
Low  
>1A  
Sanyo  
16SN33M  
16SN68M  
16CV100GX  
16CV220GX  
33µF 0.15Ω  
68µF 0.1Ω  
100µF 0.440.23A* Electrolytic 6mm  
220µF 0.340.28A* Electrolytic 7.7mm  
1.24A  
1.65A  
OS-CON  
OS-CON  
7mm  
7mm  
Sprague  
593D476X0016D2W  
593D107X0016E2W  
47µF 0.17Ω  
100µ 0.15Ω  
0.93A  
1.05A  
Tantalum 2.8mm  
Tantalum 4mm  
*Note: Use multiple devices in parallel or limit output current to prevent capacitor overload.  
where the load is connected. Inductor requirements are  
fairly straightforward; it must be rated to handle continu-  
ous DC current equal to the maximum load current plus  
half the ripple current and its value should be chosen  
based on the desired ripple current and/or the output  
current transient requirements. Large value inductors  
lower ripple current and decrease the required output  
capacitance, but limit the speed that the LTC1504A can  
change the output current, limiting output transient re-  
sponse. Small value inductors result in higher ripple  
currents and increase the demands on the output capaci-  
tor, butallowfasteroutputcurrentslewrates andareoften  
smaller and cheaper for the same DC current rating. A  
typical inductor used in an LTC1504A application might  
have a maximum current rating between 500mA and 1A  
and an inductance between 33µH and 220µH.  
OftentheRMScurrentcapacityoftheinputbypass capaci-  
tors is more important to capacitor selection than value.  
Buck converters like the LTC1504A are hard on input  
capacitors, since the current flow alternates between the  
full load current and near zero during every clock cycle. In  
the worst case (50% duty cycle or VOUT = 0.5V ) the RMS  
IN  
current flow in the input capacitor is half of the total load  
current plus half the ripple current in the inductor—  
perhaps 300mA in a typical 500mA load current applica-  
tion. This current flows through the ESR of the input  
bypass capacitor, heating it up and shortening its life,  
sometimes dramatically. Many ordinary electrolytic ca-  
pacitors that look OK at first glance are not rated to  
withstand such currentscheck the RMS current rating  
before you specify a device! If the RMS current rating isnt  
specified, it should not be used as an input bypass capaci-  
tor.Again,lowESRelectrolyticandsurgetestedtantalums  
usually do well in LTC1504A applications and have high  
RMS current ratings. The local ceramic bypass capacitor  
usually has negligible ESR, allowing it to withstand large  
RMS currents without trouble. Table 1 shows typical  
surface mount capacitors that make acceptable input  
bypass capacitors in LTC1504A applications.  
Different core materials and shapes will change the size/  
current and price/current relationship of an inductor.  
Toroid or shielded pot cores in ferrite or permalloy mate-  
rials are small and dont radiate much energy, but gener-  
ally cost more than powdered iron rod core inductors with  
similarelectricalcharacteristics. Thechoiceofwhichstyle  
inductor to use often depends more on the price vs size  
requirements and any radiated field/EMI requirements  
than on what the LTC1504A requires to operate. Table 2  
shows some typical surface mount inductors that work  
well in LTC1504A applications.  
Inductor  
The LTC1504A requires an external inductor to be con-  
nected from the switching node SW to the output node  
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