IR3475MTR1PBF International Rectifier, IR3475MTR1PBF Datasheet - Page 16
IR3475MTR1PBF
Manufacturer Part Number
IR3475MTR1PBF
Description
IC BUCK SYNC ADJ 10A PQFN
Manufacturer
International Rectifier
Series
SupIRBuck™r
Type
Step-Down (Buck), PWM - Current Moder
Datasheet
1.IR3475MTRPBF.pdf
(21 pages)
Specifications of IR3475MTR1PBF
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
1
Voltage - Output
0.5 V ~ 12 V
Current - Output
10A
Frequency - Switching
Up to 750kHz
Voltage - Input
3 V ~ 27 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
*
Package / Case
*
Primary Input Voltage
27V
No. Of Outputs
1
Output Voltage
12V
Output Current
10A
No. Of Pins
17
Operating Temperature Range
-40°C To +125°C
Peak Reflow Compatible (260 C)
Yes
Rohs Compliant
Yes
Leaded Process Compatible
Yes
Part Status
Preferred
Package
PQFN / 4 x 5
Circuit
Single Output
Iout (a)
10
Switch Freq (khz)
0 - 750
Input Range (v)
3.0 - 27
Output Range (v)
0.5 - 12
Ocp Otp Uvlo Pre-bias Soft Start And
Constant On-Time + PGOOD + EN + Temp Comp OCP
Digital Home Media
Yes
Mobile Computing
Yes
Industrial 24v Input
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
DESIGN EXAMPLE
DESIGN CRITERIA
Find R
Pick a standard value 158 kΩ, 1% resistor.
Find RSET:
Pick a 10.5kΩ, 1% standard resistor.
Find a resistive voltage divider for V
R
Choose the soft start capacitor:
Once the soft start time has chosen, such as 1000µs to
reach to the reference voltage, a 22nF for C
meet 1000µs.
Choose an inductor to meet the design specification:
Choose the inductor with the lowest DCR and AC power
2
= 1.33kΩ, R
Input Voltage, VIN = 6V to 21V
Output Voltage, VOUT = 1.25V
Switching Frequency, Fs = 400kHz
Inductor Ripple Current, 2ΔI = 2.5A
Maximum Output Current, IOUT = 10A
Over Current Trip, IOC = 15A
Current Transient Step Size = 4A
Overshoot Allowance, VOS = VOUT + 50mV
Undershoot Allowance, VDROP = 50mV
FF
:
R
R
FF
L
V
SET
16
FB
1
= 1.96 kΩ, both 1% standard resistors.
1
1.18
1.25
V
V
21
13m
OUT
R
February 16, 2011 | ADVANCED DATASHEET | V1.8 | PD97602
V
V
20
R
2
V
IN
2
H
9 1
2.5
1.25
pF
R
V
2
21
1
IN
15
ΔI
A
A
V
V
400k
V
A
400k
V
-
OUT
F
1.25
OUT
s
Hz
OUT
Hz
V
0.5
0 1
= 1.25V:
156
V
.3k
SS
is used to
k
10A Highly Integrated SupIRBuck
loss as possible to increase the overall system efficiency.
For instance, choose a PIMB104T‐1R5MS‐39 manufactured by
CYNTEC. The inductance of this part is 1.5µH and has 3.8mΩ
DCR. Ripple current needs to be recalculated using the chosen
inductor.
Choose an input capacitor:
A Panasonic 10µF (ECJ3YB1E106M) accommodates 6 Arms of
ripple current at 300kHz. Due to the chemistry of multilayer
ceramic capacitors, the capacitance varies over temperature
and operating voltage, both AC and DC. One 10µF capacitor is
recommended. In a practical solution, one 1µF capacitor is
required along with 10µF. The purpose of the 1µF capacitor is
to suppress the switching noise and deliver high frequency
current.
Choose an output capacitor:
To meet the undershoot and overshoot specification,
equations 7b and 8 will be used to calculate the minimum
output capacitance. As a result, 190μF will be needed for 4A
load removal. To meet the stability requirement, choose an
output capacitor with ESR larger than 9mΩ. Combine those
two requirements, one can choose a set of output capacitors
from manufactures such as SP‐Cap (Specialty Polymer
Capacitor) from Panasonic or POSCAP from Sanyo. A 220μF
(4TPE220MIC2) from Sanyo with 18mΩ ESR will meet both
requirements.
If an all ceramic output capacitor solution is desired, the
external slope injection circuit composed of R6, C13, and C14
is required as explained in the Stability Considerations
section. In this design example, we can choose C14 = 1nF and
C13 = 100nF. To calculate the value of R6 with PIMB104T‐
1R5MS‐39 as our inductor:
Pick a standard value for R6 = 3.92kΩ.
I
IN_RMS
2Δ
10
I
A
21
1.25
1.25
V
R
21
V
6
1.5
V
V
. 3
3
21
DCR
8 .
H
95
V
1
m
1
k
L
-
400k
5 .
TM
1.25
1
3
C
100
13
H
V
Hz
10
1
nF
A
A
IR3475
2
2
A
2
4 .
A