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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  
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APPLICATIONS INFORMATION  
output voltage is very close to ground. Under this condi-  
tion, the LTC1504A must run at extremely narrow duty  
cycles (<5%) to keep the current under control. When the  
on-time falls below the time required to sense the current  
in Q1, the LTC1504A responds by reducing the oscillator  
frequency, increasing the off-time to decrease the duty  
cycle and allow it to maintain some control of the output  
current. The oscillator frequency may drop by as much as  
a factor of 10 under severe current overloads.  
allows the part to operate normally. A logic Low at SHDN  
stops all internal switching, pulls COMP, SS and SW to  
GND and drops quiescent current below 1µA typically.  
Note that the internal N-channel power MOSFET from SW  
toGNDturns onwhenSHDNis asserted. This ensures that  
the output voltage drops to zero when the LTC1504A is  
shut down, but prevents other devices from powering the  
output when the LTC1504A is disabled.  
External Clock Synchronization  
Under extreme short circuits (e.g., screwdriver to ground)  
the on-time will reduce to the point where the LTC1504A  
will lose control of the output current. At this point, output  
current will rise until the inductor saturates, and the  
current will be limited by the parasitic ESL of the inductor  
and the RON of Q2 inside the LTC1504A. This current is  
usually nondestructive and dissipates a limited amount of  
power since the output voltage is very low. A typical  
LTC1504A circuit can withstand such a short for many  
seconds without damage. The test circuit in Figure 1 will  
typically withstand a direct output short for more than 30  
seconds without damage to the LTC1504A. Eventually,  
however, a continuous short may cause the die tempera-  
ture to rise to destructive levels.  
The LTC1504A SHDN pin can double as an external clock  
input for applications that require a synchronized clock or  
a faster switching speed. The SHDN pin terminates the  
internal sawtooth wave and resets the oscillator immedi-  
ately when it goes low, but waits 50µs before shutting  
down the rest of the internal circuitry. A clock signal  
applied directly to the SHDN pin will force the LTC1504A  
internal oscillator to lock to its frequency as long as the  
external clock runs faster than the internal oscillator  
frequency. Attempting to synchronize to a frequency  
lower than the 250kHz maximum internal frequency may  
result in inconsistent pulse widths and is not recom-  
mended.  
Because the sawtooth waveform rises at a fixed rate  
internally, terminating it early by synchronizing to a fast  
external clock will reduce the amplitude of the sawtooth  
wave that the PWM comparator sees, effectively raising  
the gain from COMP to SW. 500kHz is the maximum  
recommendedsynchronizationfrequency;higherfrequen-  
cies will reduce the sawtooth amplitude to the point that  
the LTC1504A may run erratically.  
Note that the current limit is primarily designed to protect  
theLTC1504Afromdamageandis notintendedtobeused  
to generate an accurate constant-current output. As the  
die temperature varies in a current limited condition, the  
RON of the internal switches will change and the current  
limit threshold will move around. RON will also vary from  
part to part due to manufacturing tolerance. The external  
IMAX resistor should be chosen to allow enough room to  
account for these variations without allowing the current  
limit to engage at the maximum expected load current. A  
current limit setting roughly double the expected load is  
often a good compromise, eliminating unintended current  
limit operation while preventing circuit destruction under  
actual fault conditions. If desired, current limit can be  
disabled by floating the IMAX pin; the internal current source  
will pull IMAX to GND and the ILIM amplifier will be disabled.  
THERMAL CONSIDERATIONS  
Each of the LTC1504A internal power switches has ap-  
proximately 1.3of resistance at room temperature and  
will happily carry more than the rated maximum current if  
the current limit is set very high or is not connected. Since  
the inductor current is always flowing through one or the  
other of the internal switches, a typical application supply-  
ing 500mA of load current will cause a continuous dissi-  
pation of approximately 325mW. The SO-8 package has a  
thermal resistance of approximately 90°C/W, meaning  
that the die will begin to rise toward 30°C above ambient  
Shutdown  
The LTC1504A includes a micropower shutdown mode  
controlledbythelogiclevelatSHDN. AlogicHighatSHDN  
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