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TLD5190QV Datasheet, PDF (21/58 Pages) Infineon Technologies AG – H-Bridge DC/DC Controller for High Power LED Lighting
H-Bridge DC/DC Controller
TLD5190QV
Regulator Description
6.2
Adjustable Soft Start Ramp
The soft start behavior limits the current through the inductor and the external MOSFET switches during
initialization (at first turn on and restarting after output fault condition).
The soft start function gradually increases the current of the inductor (LOUT) over tSOFT_START to minimize potential
overvoltage at the output. The soft start ramp is defined by a capacitor placed at the SOFT_START pin.
Selection of the SOFT_START capacitor (CSOFT_START) can be done according to the approximate formula
described in Equation (1):
tSOFT_ START
=
Vss_th_ eff
I
⋅ CSOFT_ START
(1)
SOFT _ START(PU)
Note: Vss_th_eff is the soft start effectiveness threshold, that depends on load condition. Its value is about 0.7V for
the buck mode and 1.4V for the boost mode
The SOFT START pin is also used to define a fault filter time. Once an open load or a short on the output is
detected, a pull-down current source ISOFT_START_PD (P_6.4.20) is activated. Through a pull-up resistor connected
from VREF to the SOFT START pin it is possible to source a current higher than ISOFT_START_PD, the TLD5190QV
will latch OFF until the EN/INUVLO pin is toggled. Without any resistor to VREF the pull-down current decreases
until VSOFT_START_RESET (P_6.4.22) is reached (the pull-up current source turns on again). If the fault condition
hasn’t been removed until VSOFT_START_LOFF (P_6.4.21) is reached, the pull-down current source ISOFT_START_PD
turns on again initiating a new cycle. This will continue until the fault is removed.
6.3
Switching Frequency setup
The switching frequency can be set from 200 kHz to 700 kHz by an external resistor connected from the FREQ
pin to GND or by suppliyng a sync signal as specified in chapter Chapter 11.2. Select the switching frequency with
an external resistor according to the graph in Figure 7 or the following approximate formulas.
fSW [kHz] = 5375 * RFREQ [kΩ]-0.8
(2)
RFREQ[kΩ] = 46023* fSW[kHz]−1.25
(3)
Figure 7 Switching Frequency fSW versus Frequency Select Resistor to GND RFREQ
Data Sheet
21
Rev. 1.0, 2016-05-20