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TPS61160DRVTG4 Datasheet(PDF) 20 Page - Texas Instruments

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Part # TPS61160DRVTG4
Description  White LED Drivers With Digital and PWM Brightness Control in 2-mm x 2-mm WSON Package
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Manufacturer  TI1 [Texas Instruments]
Direct Link  http://www.ti.com
Logo TI1 - Texas Instruments

TPS61160DRVTG4 Datasheet(HTML) 20 Page - Texas Instruments

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OUT
OUT
IN _ DC
IN
V
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IN
LIM
OUT _ MAX
OUT
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20
TPS61160, TPS61161
SLVS791E – NOVEMBER 2007 – REVISED JULY 2016
www.ti.com
Product Folder Links: TPS61160 TPS61161
Submit Documentation Feedback
Copyright © 2007–2016, Texas Instruments Incorporated
Applying Equation 3 and Equation 4, when VIN is 3 V, 10 LEDs output equivalent to VOUT of 32.2 V, the inductor
is 22 μH, the Schottky forward voltage is 0.2 V, the maximum output current is 47 mA in typical condition.
8.2.1.2 Detailed Design Procedure
8.2.1.2.1
Maximum Output Current
The overcurrent limit in a boost converter limits the maximum input current and thus maximum input power for a
given input voltage. Maximum output power is less than maximum input power due to power conversion losses.
Therefore, the current limit setting, input voltage, output voltage and efficiency can all change maximum current
output. The current limit clamps the peak inductor current; therefore, the ripple has to be subtracted to derive
maximum DC current. The ripple current is a function of switching frequency, inductor value and duty cycle.
Equation 3 and Equation 4 take into account of all the above factors for maximum output current calculation.
where
Ip = inductor peak-to-peak ripple
L = inductor value
Vf = Schottky diode forward voltage
Fs = switching frequency
Vout = output voltage of the boost converter. It is equal to the sum of VFB and the voltage drop across
LEDs.
(3)
where
Iout_max = maximum output current of the boost converter
Ilim = overcurrent limit
η = efficiency
(4)
For instance, when VIN is 3 V, 8 LEDs output equivalent to VOUT of 26 V, the inductor is 22 μH, the Schottky
forward voltage is 0.2 V; and then the maximum output current is 65 mA in typical condition. When VIN is 5 V, 10
LEDs output equivalent to VOUT of 32 V, the inductor is 22 μH, the Schottky forward voltage is 0.2 V; and then
the maximum output current is 85 mA in typical condition.
8.2.1.2.2
Inductor Selection
The selection of the inductor affects steady state operation as well as transient behavior and loop stability. These
factors make it the most important component in power regulator design. There are three important inductor
specifications, inductor value, DC resistance and saturation current. Considering inductor value alone is not
enough.
The inductor value determines the inductor ripple current. Choose an inductor that can handle the necessary
peak current without saturating, according to half of the peak-to-peak ripple current given by Equation 3, pause
the inductor DC current given by:
(5)
Inductor values can have ±20% tolerance with no current bias. When the inductor current approaches saturation
level, its inductance can decrease 20% to 35% from the 0A value depending on how the inductor vendor defines
saturation current. Using an inductor with a smaller inductance value forces discontinuous PWM when the
inductor current ramps down to zero before the end of each switching cycle. This reduces the boost converter’s
maximum output current, causes large input voltage ripple and reduces efficiency. Large inductance value


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