VISHAY SI9130DB

Si9130DB
Vishay Siliconix
Si9130DB
Si9130 Demonstration Board
FEATURES
•
•
•
•
5- and 3.3-V Step-Down Synchronous Converters
Less than 500-µA Quiescent Current
25-µA Shutdown Current
5.5- to 30-V Input Operating Range
DESCRIPTION
The Si9130 Dual-Output Power-Supply Controller for
Notebook Computers is a system level integration of two stepdown controllers with micropower 5- and 3.3-V linear
regulators. The controllers perform high efficiency conversion
of the battery pack energy (typically 12 V) or the output of an
ac-to-dc wall converter (typically 18 V to 24 V dc) to 5- and
3.3-V system supply voltages.
The micropower linear
regulator can be used to keep power management and backup circuitry alive during the shutdown of the step-down
converters. The 3.3-V output is adjustable to 3.3 V, 3.45 V or
3.6 V by programming control pins 3.45 ADJ and 3.6 ADJ.
Leaving both pins open results in 3.3-V nominal output.
Grounding pin 3.45 ADJ while leaving 3.6 ADJ open delivers
3.45-V nominal output. Grounding pin 3.6 ADJ while leaving
3.45 ADJ open delivers 3.6-V nominal ouput.
On the Demo Board, the Si9130 is configured as a complete
system, ready for operation. It takes 5.5- to 30-V in, and
produces regulated 5 V at any current from no load to 3 A,
and 3.3 V out at any current from no load to 3 A. Included in
this document are the Bill of Materials, Demo Board
Schematic, and PCB layout.
The demonstration board layout is available in Gerber file
format. Please contact your VISHAY sales representative or
distributor for a copy.
ORDERING INFORMATION: PART NUMBER Si9130DB
POWER-UP CHECK LIST—INSTALLED IN VRM MOTHER BOARD SOCKET
1. Start by setting the control switches located in the bottom
right corner of the Demo Board. Set the top switch to the
left, setting the switching frequency to 200 kHz (to the right
is 300 kHz). Set the second switch down to the right,
turning the 5-V converter on (to the left is off). Set the
third switch down to the right, turning the 3.3-V converter
on (to the left is off). Set the bottom switch to the right,
allowing the PWM to operate (to the left is shutdown).
2. Attach an electronic load set in resistive mode to the 3.3-V
output pins. Set the current to 100 mA. Alternatively, you
can use a resistor of value 33 Ω, 1 W.
3. Attach an electronic load set in resistive mode to the 5-V
output pins. Set the current to 100 mA. Alternatively, you
can use a resistor of value 50 Ω, 1 W.
4. Attach a 10-V supply and ground to the pins on the top side
of the board. It is best to use a separate wire from the
supply’s ground to each of the Demo Board’s ground pins,
because of the high currents at low input voltages.
5. Take an oscilloscope probe, and place the ground on the
5-V GND pin, and the probe on the 5-V pin. Set the
vertical scale for this channel at ac coupled at 50 mV/div.
Take a second probe, and place the ground on the 5-V
GND pin, and the probe on pin 17 (LX5) of the Si9130. Set
this channel at dc coupled 2 V/div. Set the time base at
200 µsec/div.
6. Leave the probes in place. Change the scale on the
second probe (the one attached to pin 17) to 10 V/div, and
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the time base to 500 nsec/div. Set the 5-V output current
on the electronic load to 1 A. Set the input power supply to
16 V. Alternatively, first turn off the input power supply, and
replace the 50-W resistor with a 5-Ω, 10-W resistor, and
then turn the input power supply back on, setting it to 16 V.
7. This step should be performed only if an electronic load is
being used. Set the input voltage to 15 V. Remove the
second probe (the one attached to pin 17 of the Si9130), or
turn off the channel displaying it. Place a current probe
around the wire leading from the 5-V output to the
electronic load, and set the oscilloscope and amplifier so
that it will display approximately 2 A/div.
Set the
oscilloscope time base back to 200 µsec/div. Set the 3.3-V
electronic load to have a constant 1-A load. Now set up
the 5-V electronic load so that it cycles between 100 mA
and 3 A at approximately 1 kHz (1 msec period).
8. This step should be performed only if an electronic load is
being used. Set the 5-V electronic load back to a constant
1-A current. Remove the voltage probe from the 5-V
output. Move the ground of the probe onto the GND pin of
the 3.3-V output, and the probe onto the 3.3-V output pin.
Remove the current probe from the 5-V output wire, and
place it around the wire leading from the 3.3-V output to
the electronic load. Now set up the 3.3-V electronic load
so that it cycles between 100 mA and 3 A at approximately
1 kHz (1 msec period).
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Si9130DB
Vishay Siliconix
FIGURE 1. Top Silkscreen
FIGURE 2. Top Layer
FIGURE 3. Bottom Layer
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Si9130DB
Vishay Siliconix
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Si9130DB APPLICATION CIRCUIT
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Si9130DB
Vishay Siliconix
BILL OF MATERIAL FOR Si9130 DUAL-OUTPUT POWER SUPPLY
Part
Used
Reference
Designators
Part Type
Description/Part Number
Pattern
Manufacturer
1
1
U1
Si9130
D-O PWR Supply, Si9130
SSOP-28
Vishay Siliconix
2
2
L1, L2
10 µH
Inductor, 10 µH, CRD125-100
CDR125-100
Sumida
3
4
N1-N4
Si9410DY
N-Channel MOSFET, Si9410DY
SO-8
Vishay Siliconix
4
1
SW1
SPST
SW-SPST
DIP-4
Multi-Source
5
2
D1, D3
1N5819
Diode, 1N5819
SOD-87
Nikon
SOT-23
Central
Semiconductor
6
1
CR2
CMPD2836
Diode, CMPD2836
7
2
R1, R2
0.025 Ω, 1%
Resistor, LR2010-01-R025F
2010
IRC
8
6
R3-R6
1 MΩ
Resistor, CRCW0805105JRT1
0805
Vishay Dale
9
1
R9
1 kΩ
Resistor, CRCW0805102JRT1
0805
Vishay Dale
10
1
R10
Open
Resistor, (Open)
0805
Multi-Source
11
1
R11
100 Ω
Resistor, CRCW0805101JRT1
0805
Vishay Dale
R
Vishay Sprague
12
2
C1, C10
33 µF, 35 V
Capacitor, Tantalum,
595D336X0035SR
13
1
C2
4.7 µF, 6 V
Capacitor, Ceramic,
1206YG475ZAT
1206
AVX
14
2
C3
1 µF, 20 V
Capacitor, Tantalum,
TAJA105M025
A
AVX
15
2
C4, C5
0.1 µF, 16 V
Capacitor, VJ0805Y104KXXAT
0805
Vishay Vitramon
Capacitor, Tantalum,
TPSE337M006R0100
E
AVX
16
1
C6, C7, C11, C12
330 µF, 6 V
17
2
C8, C9
0.01 µF, 16 V
Capacitor, VJ0805Y103KXXAT
0805
Vishay Vitramon
18
1
C13
0.1 µF, 35 V
Capacitor, VJ0805Y104KXAAT
0805
Vishay Vitramon
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