Datasheet
÷
÷
÷
÷
÷
ø
ö
ç
ç
ç
ç
ç
è
æ
×
-
×=D
SW
IN
OUT
OUTL
fL
V
V
VI
(min)
(max)
(max)
1
2
(max)
(max)(max)
L
OUTL
I
II
D
+=
÷
÷
ø
ö
ç
ç
è
æ
-= 1
21
REF
OUT
V
V
RR
TLV62130, TLV62130A
www.ti.com
SLVSB74B –FEBRUARY 2012–REVISED JUNE 2013
APPLICATION INFORMATION
The following information is intended to be a guideline through the individual power supply design process.
Programming The Output Voltage
The TLV62130 can be programmed for output voltages from 0.9V to 5V by using a resistive divider from VOUT
to AGND. The voltage at the FB pin is regulated to 800mV. The value of the output voltage is set by the selection
of the resistive divider from Equation 6 (see Figure 3). It is recommended to choose resistor values which allow a
current of at least 2uA, meaning the value of R2 shouldn't exceed 400kΩ. Lower resistor values are
recommended for highest accuracy and most robust design.
(6)
In case the FB pin gets opened, the device clamps the output voltage at the VOS pin internally to about 7.4V.
External Component Selection
The external components have to fulfill the needs of the application, but also the stability criteria of the devices
control loop. The TLV62130 is optimized to work within a range of external components. The LC output filters
inductance and capacitance have to be considered together, creating a double pole, responsible for the corner
frequency of the converter (see Output Filter And Loop Stability). Table 1 can be used to simplify the output filter
component selection.
Table 1. Recommended LC Output Filter Combinations
(1)
4.7µF 10µF 22µF 47µF 100µF 200µF 400µF
0.47µH
1µH √ √ √ √
2.2µH √ √
(2)
√ √ √
3.3µH √ √ √ √
4.7µH
(1) The values in the table are nominal values.
(2) This LC combination is the standard value and recommended for most applications.
spacing
The TLV62130 can be run with an inductor as low as 1µH. FSW should be set Low in this case. However, for
applications running with the low frequency setting (FSW=High) or with low input voltages, 2.2µH is
recommended. More detailed information on further LC combinations can be found in SLVA463.
Inductor Selection
The inductor selection is affected by several effects like inductor ripple current, output ripple voltage, PWM-to-
PSM transition point and efficiency. In addition, the inductor selected has to be rated for appropriate saturation
current and DC resistance (DCR). Equation 7 and Equation 8 calculate the maximum inductor current under
static load conditions.
spacing
(7)
(8)
Copyright © 2012–2013, Texas Instruments Incorporated Submit Documentation Feedback 17
Product Folder Links: TLV62130 TLV62130A