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LP3906SQ-JXXI Datasheet, PDF (39/47 Pages) Texas Instruments – Dual High-Current Step-Down DC/DC and Dual Linear Regulator with I2C ompatible
LP3906
www.ti.com
SNVS456M – AUGUST 2006 – REVISED MAY 2013
Output Capacitor Selection for SW1, SW2
A 10 µF, 6.3V ceramic capacitor should be used on the output of the sw1 and sw2 magnetic dc/dc converters.
The output capacitor needs to be mounted as close as possible to the output of the device. A large value may be
used for improved input voltage filtering. The recommended capacitor types are X7R or X5R. Y5V type
capacitors should not be used. DC bias characteristics of ceramic capacitors must be considered when selecting
case sizes like 0805 and 0603. DC bias characteristics vary from manufacturer to manufacturer and DC bias
curves should be requested from them and analyzed as part of the capacitor selection process.
The output filter capacitor of the magnetic dc/dc converter smoothes out current flow from the inductor to the
load, helps maintain a steady output voltage during transient load changes and reduces output voltage ripple.
These capacitors must be selected with sufficient capacitance and sufficiently low ESD to perform these
functions.
The output voltage ripple is caused by the charging and discharging of the output capacitor and also due to its
ESR and can be calculated as follows:
Iripple
Vpp-c = 4 x f x C
(8)
Voltage peak-to-peak ripple due to ESR can be expressed as follows:
VPP–ESR = 2 × IRIPPLE × RESR
(9)
Because the VPP-C and VPP-ESR are out of phase, the rms value can be used to get an approximate value of the
peak-to-peak ripple:
Vpp-rms = Vpp-c2 + Vpp-esr2
(10)
Note that the output voltage ripple is dependent on the inductor current ripple and the equivalent series
resistance of the output capacitor (RESR). The RESR is frequency dependent as well as temperature dependent.
The RESR should be calculated with the applicable switching frequency and ambient temperature.
Capacitor
CLDO1
CLDO2
CSW1
CSW2
Min Value
0.47
0.47
10.0
10.0
Unit
Description
µF
LDO1 output capacitor
µF
LDO2 output capacitor
µF
SW1 output capacitor
µF
SW2 output capacitor
Recommended Type
Ceramic, 6.3V, X5R
Ceramic, 6.3V, X5R
Ceramic, 6.3V, X5R
Ceramic, 6.3V, X5R
I2C Pullup Resistor
Both I2C_SDA and I2C_SCL terminals need to have pullup resistors connected to VINLDO12 or to the power
supply of the I2C master. The values of the pull-up resistors (typ. ∼1.8kΩ) are determined by the capacitance of
the bus. Too large of a resistor combined with a given bus capacitance will result in a rise time that would violate
the max. rise time specification. A too small resistor will result in a contention with the pull-down transistor on
either slave(s) or master.
Operation without I2C Interface
Operation of the LP3906 without the I2C interface is possible if the system can operate with default values for the
LDO and Buck regulators. (See Factory Programmable Options .) The I2C-less system must rely on the correct
default output values of the LDO and Buck converters.
Factory Programmable Options
The following options are EPROM programmed during final test of the LP3906. The system designer that needs
specific options is advised to contact the local Texas Instruments sales office.
Factory programmable options
Enable delay for power on
SW1 ramp speed
SW2 ramp speed
Current value
code 010 (see BUCK VOLTAGE CHANGE CONTROL REGISTER 1 (VCCR) – 0X20)
8 mV/µs
8 mV/µs
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