Texas Instruments TPS61150A-150 Evaluation Board TPS61150AEVM-150 TPS61150AEVM-150 TPS61150AEVM-150 データシート
製品コード
TPS61150AEVM-150
www.ti.com
APPLICATION INFORMATION
MAXIMUM OUTPUT CURRENT
I
p
+
1
ƪ
L
ǒ
1
Viout
)
Vf
*
Vin
)
1
Vin
Ǔ
Fs
ƫ
(2)
Iout_max
+
Vin
ǒ
Ilim
*
Ip
2
Ǔ
h
Viout
(3)
WLED BRIGHTNESS DIMMING
ISET
Q1
R1
R
ISET
ON/OFF
Logic
Logic
SLVS706 – OCTOBER 2006
The over-current 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, input voltage, output voltage and efficiency can all change maximum current output.
Since current limit clamps peak inductor current, ripple has to be subtracted to derive maximum DC current. The
ripple current is a function of switching frequency, inductor value and duty cycle. The following equations take
into account of all the above factors for maximum output current calculation.
given input voltage. Maximum output power is less than maximum input power due to power conversion losses.
Therefore, the current limit, input voltage, output voltage and efficiency can all change maximum current output.
Since current limit clamps peak inductor current, ripple has to be subtracted to derive maximum DC current. The
ripple current is a function of switching frequency, inductor value and duty cycle. The following equations take
into account of all the above factors for maximum output current calculation.
where
Ip = inductor peak-to-peak ripple
L = inductor value
Vf = power diode forward voltage
Fs = switching frequency
Viout = boost output voltage. It is equal to 330mV + voltage drop across WLED.
L = inductor value
Vf = power diode forward voltage
Fs = switching frequency
Viout = boost output voltage. It is equal to 330mV + voltage drop across WLED.
where
Iout_max = maximum output current of the boost converter
Ilim = overcurrent limit
Ilim = overcurrent limit
η
= efficiency
To keep a tight range of the overcurrent limit, The TPS61150A uses the Vin and Iout pin voltage to compensate
for the overcurrent limit variation caused by the slope compensation. However, the current threshold still has
residual dependency on the VIN and IOUT voltage. Use
for the overcurrent limit variation caused by the slope compensation. However, the current threshold still has
residual dependency on the VIN and IOUT voltage. Use
and
to identify the typical overcurrent
limit in your application, and use
±
25% tolerance to account for temperature dependency and process variations.
The maximum output current can also be limited by the current capability of the current sink circuitry. It is
designed to provide maximum 35mA current regardless of the current capability of the boost converter.
designed to provide maximum 35mA current regardless of the current capability of the boost converter.
There are three ways to change the output current on the fly for WLED dimming. The first method parallels an
additional resistor with the ISET pin resistor as shown in
additional resistor with the ISET pin resistor as shown in
. The switch (Q1) can change the ISET pin
resistance and therefore, modify the output current. This method is very simple, but can only provide limited
dimming steps.
dimming steps.
Figure 13. Switching In/Out an Additional Resistor to Change Output Current
12