FOSLINK FSP3128SD

WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
„ FEATURES
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„ GENERAL DESCRIPTION
3A Output Current
Up to 95% Efficiency
4.5V to 30V Input Range
6µA Shutdown Supply Current
400kHz Switching Frequency
Adjustable Output Voltage
Cycle-by-Cycle Current Limit Protection
Thermal Shutdown Protection
Internal Soft-Start Function
Frequency Fold Back at Short Circuit
Stability with Wide Range of Capacitors,
Including Low ESR Ceramic Capacitors
SOP8L/EP(Exposed Pad) Package
The FSP3128 is a current-mode step-down DC/DC
converter that generates up to 3A output current at
400kHz switching frequency. The device can
operate with input voltage up to 30V.
Consuming only 6µA in shutdown mode, the
FSP3128 is highly efficient with peak efficiency at
95% when in operation. Protection features include
cycle-by-cycle current limit, thermal shutdown, and
frequency fold back at short circuit. The device also
includes an internal soft start function to prevent
overshoot.
The FSP3128 is available in SOP8L/EP package and
requires very few external devices for operation.
„ TYPICAL APPLICATION
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TFT LCD Monitors or Televisions and HDTV
Portable DVD Players
Car-Powered or Battery-Powered Equipment
Set-Top Boxes
Telecom Power Supplies
DSL and Cable Modems and Routers
„ PIN ASSIGNMENT
(Top View)
BS 1
8
N/C
2
7
EN
SW 3
6
COMP
5
FB
IN
G
4
EP
„ PIN DESCRIPTION
Pin Number Pin Name
1
BS
2
IN
3
SW
4
G
Ground.
5
FB
Feedback Input. The voltage at this pin is regulated to 1.222V. Connect to the resistor
divider between the output and ground to set output voltage.
6
COMP
Compensation Pin. See Compensation Technique in Application information section.
Input Supply. Bypass this pin to G with a low ESR capacitor. See Input Capacitor in
Application Information section.
Switch Output. Connect this pin to the switching end of the inductor.
7
EN
Enable Input. When higher than 1.3V, this pin turns the IC on. When lower than 0.7V,
this pin turns the IC off. Output Voltage is discharged when the IC is off. This pin has a
small internal pull up current to a high level voltage when pin is not connected.
8
N/C
Not Connected.
EP
Exposed Pad shown as dashed box. The exposed thermal pad should be connected to
board ground plane and pin 4. The ground plane should include a large exposed copper
pad under the package for thermal dissipation. The leads and exposed pad should be
flush with the board, without offset from the board surface.
EP
1/10
Pin Description
Bootstrap. This pin acts as the positive rail for the high-side switch’s gate driver.
Connect a 10nF between this pin and SW.
2007-1-4
WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
„
ABSOLUTE MAXIMUM RATINGS(NOTE)
Parameter
IN to G
Value
-0.3 to +34
Unit
V
EN to G
-0.3 to VIN + 0.3
V
SW to G
BS to SW
FB, COMP to G
-1 to VIN + 1
-0.3 to +8
-0.3 to +6
V
V
V
Continuous SW Current
Internally limited
A
Junction to Ambient Thermal Resistance (θJA)
46
°C/W
Maximum Power Dissipation
Operating Junction Temperature
Storage Temperature
Lead Temperature (Soldering, 10 sec)
1.8
-40 to 150
-55 to 150
300
W
°C
°C
°C
Note : Do not exceed these limits to prevent damage to the device. Exposure to absolute maximum rating conditions
for long periods may affect device reliability.
„
ELECTRICAL CHARACTERISTICS
(VIN = 12V, TA= 25°C, unless otherwise specified.)
Parameter
Symbol
Test Conditions
Min.
VOUT = 2.5V, ILOAD = 0A to 3A
4.5
Typ.
Max.
Unit
30
V
1.246
V
Input Voltage
VIN
Feedback Voltage
VFB
High-Side Switch On Resistance
Low-Side Switch On Resistance
SW Leakage
Current Limit
COMP to Current Limit
Transconductance
RONH
RONL
GCOMP
∆ILOAD/∆ICOMP
3
A/V
Error Amplifier Transconductance
GEA
∆ICOMP = ±10µA
550
µA/V
Error Amplifier DC Gain
AVEA
4000
V/V
Switching Frequency
fSW
1.222
3.5
100
10
0
5
VEN = 0V, VIN = 12V, VSW = 0
ILIM
Short Circuit Switching
Frequency
340
400
10
460
mΩ
Ω
µA
A
KHz
VFB = 0
40
KHz
Maximum Duty Cycle
DMAX
VFB = 1.1V, PWM mode
90
%
Minimum Duty Cycle
DMIN
VFB = 1.4V, PFM mode
Hysteresis = 0.1V
Pin pulled up to VIN when left
unconnected
VEN = 0
0
%
Enable Threshold Voltage
Enable Pull Up Current
Supply Current in Shutdown
IC Supply Current in Operation
Thermal Shutdown Temperature
2/10
1.198
VEN = 3V, not switching
Hysteresis = 10°C
0.7
1
1.3
2
V
µA
6
20
µA
0.85
2
mA
160
2007-1-4
°C
WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
„
FUNCTIONAL BLOCK DIAGRAM
„
FUNCTIONAL DESCROPTION
As seen in the Functional Block Diagram, the FSP3128 is a current mode pulse width modulation (PWM) converter.
The converter operates as follows :
A switching cycle starts when the rising edge of the Oscillator clock output causes the High-Side Power Switch to turn
on and the Low-Side Power Switch to turn off. With the SW side of the inductor now connected to IN, the inductor
current ramps up to store energy in its magnetic field. The inductor current level is measured by the Current Sense
Amplifier and added to the Oscillator ramp signal. If the resulting summation is higher than the COMP voltage, the
output of the PWM Comparator goes high. When this happens or when Oscillator clock output goes low, the
High-Side Power Switch turns off and the Low-Side Power Switch turns on. At this point, the SW side of the inductor
swings to a diode voltage below ground, causing the inductor current to decrease and magnetic energy to be
transferred to the output. This state continues until the cycle starts again.
The High-Side Power Switch is driven by logic using the BS bootstrap pin as the positive rail. This pin is charged to
VSW + 6V when the Low-Side Power Switch turns on.
The COMP voltage is the integration of the error between the FB input and the internal 1.222V reference. If FB is
lower than the reference voltage, COMP tends to go higher to increase current to the output. Current limit happens
when COMP reaches its maximum clamp value of 2.65V.
The Oscillator normally switches at 400kHz. However, if the FB voltage is less than 0.7V, then the switching frequency
decreases until it reaches a typical value of 40kHz at VFB = 0V.
Shutdown Control
The FSP3128 has an enable input EN for turning the IC on or off. When EN is less than 0.7V, the IC is in 6µA low
current shutdown mode and the output is discharged through the Low-Side Power Switch. When EN is higher than
1.3V, the IC is in normal operation mode. EN is internally pulled up with a 2µA current source and can be left unconnected for always-on operation.
Thermal Shutdown
The FSP3128 automatically turns off when its junction temperature exceeds 160°C and then restarts once the
temperature falls to 150°C.
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WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
„
TYPICAL APPLICATION CIRCUIT
„
APPLICATION INFORMATION
Output Voltage Setting
Figure 1 shows the connections for setting the output voltage. Select the proper ratio of the two feedback resistors
RFB1 and RFB2 based on the output voltage. Typically, use RFB2≈10KΩ and determine RFB1 from the output voltage:
Figure 1 Output Voltage Setting
Inductor Selection
The inductor maintains a continuous current to the output load. This inductor current has a ripple that is dependent on
the inductance value: higher inductance reduces the peak-to-peak ripple current. The trade off for high inductance
value is the increase in inductor core size and series resistance, and the reduction in current handling capability. In
general, select an inductance value L based on ripple current requirement.
where VIN is the input voltage, VOUT is the output voltage, fSW is the switching frequency, IOUTMAX is the maximum output
current, and KRIPPLE is the ripple factor. Typically, choose KRIPPLE = between 20% and 30% to correspond to the
peak-to-peak ripple current being a percentage of the maximum output current. With this inductor value (Table 1), the
peak inductor current is IOUT • (1 + KRIPPLE / 2). Make sure that this peak inductor current is less that the 5A current limit.
Finally, select the inductor core size so that it does not saturate at 5A.
VO U T
1.5V
L
6.8µ H
1.8V
2.5V
3.3V
6.8µ H 6.8µ H 8.5µ H
5V
15µ H
Table 1: Typical Inductor Values
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WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
Input Capacitor
The input capacitor needs to be carefully selected to maintain sufficiently low ripple at the supply input of the
converter. A low ESR capacitor is highly recommended. Since a large current flows in and out of this capacitor during
switching, its ESR also affects efficiency.
The input capacitance needs to be higher than 10µF. The best choice is the ceramic type, however, low ESR tantalum
or electrolytic types may also be used provided that the RMS ripple current rating is higher than 50% of the output
current. The input capacitor should be placed close to the IN and G pins of the IC, with shortest possible traces. In the
case of tantalum or electrolytic types, they can be further away if a small parallel 0.1µF ceramic capacitor is placed
right next to the IC.
Output Capacitor
The output capacitor also needs to have low ESR to keep low output voltage ripple. The output ripple voltage is:
where IOUTMAX is the maximum output current, KRIPPLE is the ripple factor, RESR is the ESR resistance of the output
capacitor, fSW is the switching frequency, L is the inductor value, COUT is the output capacitance.
In the case of ceramic output capacitors, RESR is very small and does not contribute to the ripple. Therefore, a lower
capacitance value can be used for ceramic type, typically choose a capacitance of about 22µF.
In the case of tantalum or electrolytic type, the ripple is dominated by RESR multiplied by the ripple current. In that case,
the output capacitor is chosen to have sufficiently low due to ESR, typically choose a capacitor with less than 50mΩ
ESR.
Rectifier Diode
Use a Schottky diode as the rectifier to conduct current when the High-Side Power Switch is off. The Schottky diode
must have current rating higher than the maximum output current and the reverse voltage rating higher than the
maximum input voltage.
Stability Compensation
CCOMP2 is needed only for high ESR output capacitor
Figure 2: Stability compensation
The feedback system of the IC is stabilized by the components at COMP pin, as shown in Figure 2. The DC loop gain
of the system is determined by the following equation:
The dominant pole P1 is due to CCOMP
The second pole P2 is the output pole:
The first zero Z1 is due RCOMP and CCOMP
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WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
And finally, the third pole is due to RCOMP and CCOMP2 (if CCOMP2 is used):
Follow the following steps to compensate the IC:
STEP1. Set the cross over frequency at 1/10 of the switching frequency via RCOMP:
but limit RCOMP to 15kΩ maximum.
STEP2. Set the zero fZ1 at 1/4 of the cross over frequency. If RCOMP is less than 15kΩ, the equation for CCOMP is:
If RCOMP is limited to 15kΩ, then the actual cross over frequency is 4.8/(VOUTCOUT). Therefore:
STEP3. If the output capacitor’s ESR is high enough to cause a zero at lower than 4 times the cross over
frequency, an additional compensation capacitor C COMP2 is required. The condition for using CCOMP2 is:
And the proper value for CCOMP2 is:
Though CCOMP2 is unnecessary when the output capacitor has sufficiently low ESR, a small value CCOMP2 such as
220pF may improve stability against PCB layout parasitic effects.
Table 2 shows some calculated results based on the compensation method above.
VOUT
COUT
1.8V
2.5V
5V
1.8V
2.5V
5V
22µF Ceramic
22µF Ceramic
22µF Ceramic
100µF SP CAP
100µF SP CAP
100µF SP CAP
RCOMP
4kΩ
5.6kΩ
12kΩ
15kΩ
15kΩ
15kΩ
CCOMP
3.3nF
3.3nF
1.5nF
1.5nF
2.2nF
4.7nF
CCOMP2
220pF
220pF
220pF
220pF
220pF
220pF
Table 2: Typical Compensation for Different Output voltages and Output Capacitors
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2007-1-4
WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
Figure 3 shows a sample FSP3128 application circuit generating a 2.5V/3A output.
Figure 3: FSP3128 2.5V/3A Output Application
„ TYPICAL CHARACTERISTICS
(Circuit of Figure 3, Unless other specified)
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WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
„ TYPICAL CHARACTERISTICS (CONTINUED)
(Circuit of Figure 3, Unless other specified)
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WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
„
ORDER INFORMATION
FSP3128XXXX
Output Voltage:
Package:
S: SOP8L/EP Blank: ADJ
„
Temperature Grade:
Packing:
Blank: Tube or Bulk D: -40~85℃
A: Tape & Reel
MARKING INFORMATION
Logo
FSP3128
Part number:
YYWWXX
Internal code
Date code:
YY: Year (01=2001)
WW: Nth week (01~52)
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2007-1-4
WIDE INPUT 3A STEP-DOWN CONVERTER
FSP3128
E
H
PACKAGE INFORMATION
E1
„
7ο(4х)
θ
D1
7ο(4х)
D
e
Symbol
A
A1
A2
B
C
D
D1
E
E1
e
H
L
θ
10/10
B
A
A1
A2
0.015х45ο
Dimensions In Millimeters
Nom.
Max.
1.60
1.75
0.15
1.45
1.55
0.41
0.51
0.20
0.25
4.90
5.10
3.402
3.90
4.00
2.513
1.27TYP.
5.80
5.99
6.30
0.38
0.71
1.27
0ο
8ο
Min.
1.35
0.05
1.35
0.33
0.19
4.70
3.202
3.80
2.313
VIEW “A”
Dimensions In Inches
Min.
Nom.
0.053
0.063
0..002
0.053
0.057
0.013
0.016
0.0075
0.008
0.185
0.196
0.126
0.148
0.154
0.091
0.050TYP.
0.228
0.236
0.015
0.028
0ο
2007-1-4
Max.
0.069
0.006
0.061
0.020
0.010
0.200
0.134
0.160
0.099
0.248
0.050
8ο