SIPEX SP6121EB

SP6121
Demo Board Manual
FEATURES
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DC/DC Synchronous Buck Converter
for Distributed Power Systems.
SIP design provides complete, ready
to use solutions for :
Vin=3.0 - 7.0V
Vout=1.25 - 5.0V
I out=8.0A (no air flow required).
High Efficiency: 86 to 95%
Excellent Transient Response
Small Size: 550X2500mils, vertical
mounting
Power Good output
DESCRIPTION
The SP6121 DEMO Board is designed to help the user evaluate the performance of the
SP6121 for use in a distributed power system. The SP6121 operates over an input
voltage range of 3.0V to 7.0V, and can deliver efficiencies as high as 95%. The SP6121
Demo Board is a complete Power Supply ready for use in applications where high
stability, excellent transient response, high efficiency and power density are critical
concerns.
The Demo Board, a completely assembled and tested PCB with surface mount
components, has been designed as a SIP board that can be vertically mounted in an
existing application.
Rev 7/25/01
BOARD SCHEMATIC and LAYOUT
The SP6121 Demo Board is configured as a highly efficient, synchronous DC/DC buck
converter. It has been optimized to deliver excellent thermal and EMI performance.
FIGURE 1. SP6121 Demo Board – layer 1, top view.
FIGURE 2. SP6121 Demo Board, layer 4, top view.
The SP6121 Demo Board has four, 2 oz copper layers that provide improved
noise immunity and minimize power losses. Components are placed on the top and
bottom sides of the PCB as shown on Figures 1and 2. The row of pads (1 to 11) at the
edge of the board is designed for solderable pins such as the NAS Interplex forked pins
(17 x 42 mil cross section). Pin connections to the demo board circuit are indicated in
Figure 3. (Pad 11 is a no connect.)
Rev 7/25/01
2
U2
1
Vin
2
7,8
3
+3.0V-7.0 V
C5
C6
1.0uF
4
47uF
CERAMIC
R6
5.0
RESET
Reset
MR
VCC
NC
PFO
PFI
GND
R5
10K
8
9
7
6
POWER OK
5
SP708
C10
0.1uF
C11
56pF
Q1
R2
U1
1
C1
2.2uF
2
3
4
V cc
PDRV
GND
NDRV
V FB
ISET
COMP
ISENSE
8
FDS6375
L1
2.3K
1.6uH
1,2,3,4
7
V out
6
5
D1
Q2
FDS6690A
R3
10K
SP6121
R4
10K
C7
C8
0.1uF
470uF
R1
10K
C2
56pF
C9
470uF
5,6
GND
10
TRIM
C3
3.9nF
FIGURE 3. SP6121 Demo Board Schematic.
Demo Board Component Selection
The input capacitor, C6, can be either a ceramic or tantalum capacitor. Its choice
depends on the user’s system input voltage transient. If the highest possible efficiency
is required, a ceramic 47uF capacitor is recommended.
The demo board circuit includes a Schottky Diode, D1, across the low side switch. It
prevents Q2’s internal body diode from turning on and dissipating power during the
nonoverlap time when both Q1 and Q2 are off. At a 500kHz switching frequency, these
losses would decrease overall efficiency by 0.5 – 0.6%.
The output voltage is set by the resistor divider: R3/R4. The output voltage is calculated
using the following:
æ R3 ö
VOUT = ç + 1÷VREF ,
è R4 ø
where VREF = 1.25V.
For the SP6121 demo board where VOUT = 2.5V. Choosing R4 equal to 10K, then
R 3 = R 4 = 10 K
The considerations, tradeoffs and calculations required to select the power MOSFETs
(Q1, Q2), the inductor (L1), the input and output capacitors (C1, and C6, C8, and C9,
Rev 7/25/01
3
2.5V
respectively), and the current set resistor (R2), are discussed in detail in the SP6121
data sheet.
USING THE DEMO BOARD
To use the Demo Board, connect the input voltage, VIN to pins 7 and 8 and a ground,
GND, to pins 5 and 6. Connect the load to pins 1, 2, 3, and 4. Pin 9 provides a logic
level “power good” signal and Pin 10 is used for trimming the output voltage.
When measuring efficiency, care must be taken to keep leads between measuring
devices, the power supply (VIN) and the demo board as short as possible and the
measurement probes should be connected to pins 4 (VOUT) and 7 (VIN).
The SP708 power management controller IC (U2) on the demo board is used to
generate a Power Good signal. On this demo board, when the voltage on the pin 6 (PFI)
of U2 is 1.25V or less, U2’s pin 7 (PFO) goes LOW. Pin 6 can be connected directly, or
through a resistor divider, to VOUT or VIN.
DEMO BOARD CHARACTERISTICS
96
94
C6=47uF, 3.3/2.5V
Efficiency (%)
92
90
C6=47uF,5.0/1.9V
88
86
C6=330uF,3.3/2.5V
84
82
C6=330uF,5.0/1.9V
80
78
0
1
2
3
4
5
6
7
8
I load (A)
FIGURE 4. EFFICIENCY vs. I load. Vout=2,5V
0.02
Vout Tolerance (%)
0
-0.02 3
4
5
6
-0.04
I load=5.0A
-0.06
I load=3.0A
-0.08
-0.1
-0.12
-0.14
Vin (V)
FIGURE 5. Line Regulation. Vout=2.5V
Rev 7/25/01
4
9
10
0.05
V out Tolerance (%)
0
-0.05 0
2
4
6
8
-0.1
Vin=3.3V
Vin=5.0V
-0.15
-0.2
-0.25
-0.3
-0.35
I LOAD (A)
FIGURE 6. Load Regulation. Vout=2.5V
FIGURE 7. Load Step Response. I load step 0.4A to 6.0A. CH1-Vout;
CH4-I load. Vin=5.0V, Vout=2.5V
FIGURE 8. Output Ripple. Vin=5.0V,Vout=2.5V, Iload=6.0A
Rev 7/25/01
5
DEMO BOARD RECOMMENDED PARTS:
No. Qty
Part
1
2
3
4
5
1
2
1
1
1
6
7
2
2
C1
C2,C11
C3
C5
C6
or
or
C7,C10
C8,C9
8
1
9
Manuf.
Manuf. P/N /
PACKAGE
Capacitor Ceramic 2.2uF/16V/X7R/10%
Capacitor Ceramic 56pF/50V/X7R/10%
Capacitor Ceramic 3.9nF/50V/X7R/10%
Capacitor Ceramic 1uF/16V/X7R/10%
Capacitor Tantalum 220uF/10V/10%
Capacitor Tantalum 330uF/10V/20%
Capacitor Ceramic 47uF/X7R/10V/10%
Capacitor Ceramic 0.1uF/16V/X7R/10%
Capacitor Tantalum 470uF/10V/10%
Any Approved
"-"
"-"
"-"
"-"
"-"
“-“
"-"
"-"
Package 1206
603
805
603
7343
1812
7343
603
7343
D1
Diode Schottky 30V/2.0A
"-"
Package DO-214AA
1
L1
Inductor 1.6uH/15A/3.3 mOhm
PANASONIC
ETQ-P6F1R6SFA
10
11
1
1
Q1
Q2
P-MOSFET 20V/8.0A/32mOhm
N_MOSFET 30V/13A/10mOhm
FAIRCHILD
FAIRCHILD
FDS6375/ SO-8
FDS6690A/ SO-8
12
13
14
15
2
1
2
1
R1,R5
R2
R4,R3
R6
Resistor 10K/63mW/5%
Resistor 2.1K/63mW/5%
Resistor 10K/63mW/1%
Resistor 10 Ohm/0.63mW/5%
Any Appoved
"-"
"-"
"-"
Package 603
603
603
603
16
17
1
1
U1
U2
SIPEX
SIPEX
SP6121/SO-8
SP708/ uSOIC-8
18
11
Pins
SYNCH. BUCK CONTROLLER
Low Power Microprocessor
Supervisory Circuits
17X42 mils Cross Section
Rev 7/25/01
6
NAS Interplex