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TPS54260DGQR 参数 Datasheet PDF下载

TPS54260DGQR图片预览
型号: TPS54260DGQR
PDF下载: 下载PDF文件 查看货源
内容描述: 3.5V至60V输入, 2.5A降压转换器具有Eco-Mode ™ [3.5V to 60V INPUT, 2.5A, STEP DOWN CONVERTER WITH ECO-MODE™]
分类和应用: 转换器输入元件
文件页数/大小: 47 页 / 1694 K
品牌: TI [ TEXAS INSTRUMENTS ]
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TPS54260  
www.ti.com  
SLVSA86 MARCH 2010  
DETAILED DESCRIPTION (continued)  
Attention must be taken in maximum duty cycle applications which experience extended time periods with light  
loads or no load. When the voltage across the BOOT capacitor falls below the 2.1V UVLO threshold, the high  
side MOSFET is turned off, but there may not be enough inductor current to pull the PH pin down to recharge the  
BOOT capacitor. The high side MOSFET of the regulator stops switching because the voltage across the BOOT  
capacitor is less than 2.1V. The output capacitor then decays until the difference in the input voltage and output  
voltage is greater than 2.1V, at which point the BOOT UVLO threshold is exceeded, and the device starts  
switching again until the desired output voltage is reached. This operating condition persists until the input  
voltage and/or the load current increases. It is recommended to adjust the VIN stop voltage greater than the  
BOOT UVLO trigger condition at the minimum load of the application using the adjustable VIN UVLO feature with  
resistors on the EN pin.  
The start and stop voltages for typical 3.3V and 5V output applications are shown in Figure 25 and Figure 26.  
The voltages are plotted versus load current. The start voltage is defined as the input voltage needed to regulate  
the output within 1%. The stop voltage is defined as the input voltage at which the output drops by 5% or stops  
switching.  
During high duty cycle conditions, the inductor current ripple increases while the BOOT capacitor is being  
recharged resulting in an increase in ripple voltage on the output. This is due to the recharge time of the boot  
capacitor being longer than the typical high side off time when switching occurs every cycle.  
4
5.6  
VO = 3.3 V  
VO = 5 V  
3.8  
3.6  
3.4  
5.4  
5.2  
Start  
Stop  
Start  
Stop  
5
3.2  
3
4.8  
4.6  
0
0.05  
0.10  
IO - Output Current - A  
0.15  
0.20  
0
0.05  
0.10  
IO - Output Current - A  
0.15  
0.20  
Figure 25. 3.3V Start/Stop Voltage  
Figure 26. 5.0V Start/Stop Voltage  
Error Amplifier  
The TPS54260 has a transconductance amplifier for the error amplifier. The error amplifier compares the  
VSENSE voltage to the lower of the SS/TR pin voltage or the internal 0.8V voltage reference. The  
transconductance (gm) of the error amplifier is 310mA/V during normal operation. During the slow start operation,  
the transconductance is a fraction of the normal operating gm. When the voltage of the VSENSE pin is below  
0.8V and the device is regulating using the SS/TR voltage, the gm is 70mA/V.  
The frequency compensation components (capacitor, series resistor and capacitor) are added to the COMP pin  
to ground.  
Voltage Reference  
The voltage reference system produces a precise ±2% voltage reference over temperature by scaling the output  
of a temperature stable bandgap circuit.  
Adjusting the Output Voltage  
The output voltage is set with a resistor divider from the output node to the VSENSE pin. It is recommended to  
use 1% tolerance or better divider resistors. Start with a 10 kfor the R2 resistor and use the Equation 1 to  
calculate R1. To improve efficiency at light loads consider using larger value resistors. If the values are too high  
the regulator will be more susceptible to noise and voltage errors from the VSENSE input current will be  
noticeable  
Copyright © 2010, Texas Instruments Incorporated  
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13  
Product Folder Link(s): TPS54260  
 
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