Datasheet
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Voutmin Ontimemin Fsmax Vinmax Ioutmin 2 RDS Ioutmin RL RDS= ´ ´ - ´ ´ - ´ +
-
Vref
R7 = R6
Vo Vref
-
×
- + × ´
6
STOP
1.18 R1
R2 =
V 1.18 R1 3.2 10
-
× -
´
START STOP
6
0.944 V V
R1 =
2.59 10
Tss(ms) Iss( A)
Css(nF) =
Vref(V)
´ m
TPS54418
www.ti.com
SLVS946C –MAY 2009–REVISED JULY 2013
SLOW START CAPACITOR
The slow start capacitor determines the minimum amount of time it takes for the output voltage to reach its
nominal programmed value during power up. This is useful if a load requires a controlled voltage slew rate. This
is also used if the output capacitance is very large and would require large amounts of current to quickly charge
the capacitor to the output voltage level. The large currents necessary to charge the capacitor may make the
TPS54418 reach the current limit or excessive current draw from the input power supply may cause the input
voltage rail to sag. Limiting the output voltage slew rate solves both of these problems.
The slow start capacitor value can be calculated using Equation 28. For the example circuit, the slow start time is
not too critical since the output capacitor value is 44 μF which does not require much current to charge to 1.8 V.
The example circuit has the slow start time set to an arbitrary value of 4ms which requires a 10 nF capacitor. In
TPS54418, Iss is 2 μA and Vref is 0.8 V. TI recommends keeping the soft-start time in the range of 1 to 10 ms.
(28)
BOOTSTRAP CAPACITOR SELECTION
A 0.1 μF ceramic capacitor must be connected between the BOOT to PH pin for proper operation. It is
recommended to use a ceramic capacitor with X5R or better grade dielectric. The capacitor should have 10 V or
higher voltage rating.
UNDER VOLTAGE LOCK OUT SET POINT
The Under Voltage Lock Out (UVLO) can be adjusted using an external voltage divider on the EN pin of the
TPS54418. The UVLO has two thresholds, one for power up when the input voltage is rising and one for power
down or brown outs when the input voltage is falling. For the example design, the supply should turn on and start
switching once the input voltage increases above 3.1 V (V
START
). After the regulator starts switching, it should
continue to do so until the input voltage falls below 2.8 V (V
STOP
).
The programmable UVLO and enable voltages are set using a resistor divider between Vin and ground to the EN
pin. Equation 29 and Equation 30 can be used to calculate the resistance values necessary. From Equation 29
and Equation 30, a 48.7 kΩ between Vin and EN and a 32.4 kΩ between EN and ground are required to produce
the 3.1 and 2.8 volt start and stop voltages.
(29)
(30)
OUTPUT VOLTAGE AND FEEDBACK RESISTORS SELECTION
For the example design, 100 kΩ was selected for R6. Using Equation 31, R7 is calculated as 80 kΩ. The nearest
standard 1% resistor is 80.5 kΩ.
(31)
Due to the internal design of the TPS54418, there is a minimum output voltage limit for any given input voltage.
The output voltage can never be lower than the internal vlotage reference of 0.8 V. Above 0.8 V, the output
voltage may be limited by the minimum controllable on time. The minimum output voltage in this case is given by
Equation 32
Where:
Voutmin = minimum achieveable output voltage
Ontimemin = minimum contollable on-time (60 ns typical. 110 nsec no load)
Fsmax = maximum switching frequency including tolerance
Vinmax = maximum input voltage
Ioutmin = minimum load current
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