Reference Design - International Rectifier

IRDC3839
SupIRBuck
TM
USER GUIDE FOR IR3839 EVALUATION BOARD
DESCRIPTION
The IR3839 SupIRBuckTM is an easy-to-use,
fully integrated and highly efficient DC/DC
regulator. The onboard PWM controller and
MOSFETs make IR3839 a space-efficient
solution, providing accurate power delivery for
low output voltage applications.
IR3839 is a versatile regulator which offers
programmability of switching frequency and
current limit while operates in wide input and
output voltage range.
The switching frequency is programmable
from 250kHz to 1.5MHz for an optimum
solution.
Key features includes: Internal LDO, Pre-Bias
startup, protection functions, such as hiccup
current limit and thermal shutdown to give
required system level security in the event of
fault conditions. An output over-current
protection function is implemented by sensing
the voltage developed across the on-resistance
of the synchronous rectifier MOSFET for
optimum cost and performance.
This user guide contains the schematic and bill
of materials for the IR3839 evaluation board.
The guide describes operation and use of the
evaluation board itself. Detailed application
information for IR3839 is available in the
IR3839 data sheet.
BOARD FEATURES
• Vin = +12V
• Vout = +1.8V @ 0 – 6A
• Fs = 600kHz
• L = 1.0uH
• Cin= 4x10uF (ceramic 1206) + 1x330uF (electrolytic)
• Cout=6x22uF (ceramic 0805)
1
IRDC3839
CONNECTIONS and OPERATING INSTRUCTIONS
A well regulated +12V input supply should be connected to VIN+ and VIN-. A maximum 6A load should be
connected to VOUT+ and VOUT-. The connection diagram is shown in Fig. 1 and inputs and outputs of the
board are listed in Table I.
IR3839 has only one input supply, the input voltage (Vin). Internal LDO circuitry generates Vcc voltage
(=5.2V).
One option for using a separate +5V supply for Vcc voltage, as required in a certain application, is to
remove R15 (zero Ohm resistor), which disables the internal LDO circuit. In this case Vcc input should be a
well regulated 4.5V-7.5V supply and it would be connected to Vcc+ and Vcc-.
Table I. Connections
Connection
Signal Name
VIN+
Vin (+12V)
VIN-
Ground of Vin
VOUT+
Vout (+1.8V)
VOUT-
Ground of Vout
Vref
Internal Reference-Voltage
SEQ
Sequence input
Vcc+
VCC/LDO_out pin
Vcc-
Connected to PGND
Sync
Synchronous input
LAYOUT
The PCB is a 4-layer board. All of layers are 2 Oz. copper. The IR3839 and other components are
mounted on the top and bottom side of the board.
Power supply decoupling capacitors, the Bootstrap capacitor and feedback components are located
close to IR3839. The feedback resistors are connected to the output voltage at the point of regulation
and are located close to IR3839. To improve efficiency, the circuit board is designed to minimize the
length of the on-board power ground current path.
2
IRDC3839
Connection Diagram
Vin
GROUND
Enable
Vref
GROUND
SEQ
VOUT
Vcc/LDO_out
PGood
SYNC
Fig. 1: Connection diagram of IR3839 evaluation board (top and bottom)
3
IRDC3839
Fig. 2: Board layout, top layer
Fig. 3: Board layout, bottom layer
4
IRDC3839
Single point
connection
between AGND
and PGND.
Fig. 4: Board layout, mid-layer I
Fig. 5: Board layout, mid-layer II
5
Fig.8: Schematic of the IR3839 evaluation board
IRDC3839
6
IRDC3839
Bill of Materials
Item NumQuantity
1
1
2
4
3
5
4
1
5
1
6
1
7
1
8
1
9
6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
15
1
4
1
1
1
1
1
1
1
1
1
1
3
1
Part Reference
C1
C3 C4 C5 C6
C7 C10 C12 C14 C24
C8
C11
C23
C26
C32
C15 C16 C17 C33 C35
C36
C2 C9 C18 C19 C20 C27
C28 C29 C30 C31 C34
C37 C38 C39 C40
L1
R10 R15 R16 R29
R1
R2
R3
R4
R6
R9
R12
R17
R18
R19
R14 R21 R28
U1
Value
330uF/25V
10uF
0.1uF
2200pF
150pF
2.2uF
5.6nF
1.0uF
Description
SMD Elecrolytic, Fsize, 25V, 20%
Ceramic,16V,1206,X7R,20%
0603-50V-X7R-10%
Ceramic,50V,0603,C0G,5%
Ceramic,50V,0603,NP0
Ceramic, 16V, 0603, X5R, 20%
Ceramic,25V,0603,C0G,5%
Ceramic,25V,0603,X5R,10%
Manufacturer
Panasonic
Panasonic - ECG
Panasonic
TDK Corporation
Kemet
AVX Corporation
TDK Corporation
Murata Electronics
Manufacturer Part Number
EEE-FK1E331P
ECJ-3YX1C106K
ECJ-1VB1H104K
C1608C0G1H222J
C0603C151J5GACTU
0603YD225MAT2A
C1608C0G1E562J
GRM188R61E105KA12D
22uF
CAP, Ceramic, 20%, 6.3V X5R 0805
TDK Corporation
C2012X5R0J226M
N/S
1.0uH
0
2.87K
4.02K
2K
127
20
23.7K
5.76K
10K
49.9K
7.5K
N/S
IR3839
No Stuff
SMT-Inductor, 4.7mΩ, 6.5x7x5mm
Thick-film,0603,1/10W,5%
Thick-film,0603,1/10W,1%
Thick-film,0603,1/10W,1%
Thick-film,0603,1/10W,1%
Thick-film,0603,1/10 W,1%
Thick-film,0603,1/10 W,5%
Thick-film,0603,1/10W,1%
Thick-film,0603,1/10 W,1%
Thick-film,0603,1/10W,1%
Thick-film,0603,1/10 W,1%
Thick-film,0603,1/10 W,1%
No Stuff
IR3839 PQFN
TDK Corporation
Vishay/Dale
Rohm
Rohm
Rohm
Rohm
Vishay/Dale
Rohm
Rohm
Rohm
Rohm
Rohm
SPM6550T-1R0M100A
CRCW06030000Z0EA
MCR03EZPFX2871
MCR03EZPFX4021
MCR03EZPFX2001
MCR03EZPFX1270
CRCW060320R0FKEA
MCR03EZPFX2372
MCR03EZPFX5761
MCR03EZPFX1002
MCR03EZPFX4992
MCR03EZPFX7501
IR
IR3839MBF
7
IRDC3839
TYPICAL OPERATING WAVEFORMS
Vin=12V, Vcc/LDO=5.2V, Vo=1.8V, Io=0-6A, Room Temperature, No Air Flow
Fig. 9: Start up at 6A Load (Note 1)
Ch1:Vout Ch2:PGood Ch3:EN Ch4: Vin
Fig. 11: Start up with 1.62V Prebias,
0A Load, Ch1:Vout Ch2: PGood Ch3: EN
Fig. 13: Inductor node at 6A load
Ch3:SW
Fig. 10: Start up at 6A Load (Note 1)
Ch1:Vout Ch2:PGood Ch3:Vcc Ch4: Vin
Fig. 12: Output Voltage Ripple, 6A load
(Note2) Ch1: Vout
Fig. 14: Short (Hiccup) Recovery
Ch1:Vout, Ch2:PGood , Ch4:Iout
8
IRDC3839
TYPICAL OPERATING WAVEFORMS
Vin=12V, Vcc/LDO=5.2V, Vo=1.8V, Room Temperature, No Air Flow
Fig. 15: Transient Response
2.4A-4.2A load (0.5A/us) Ch1:Vout, Ch4:Io
Note1: Enable is tied to Vin via a resistor divider and triggered when Vin is exceeding above 10.2V.
Note2: Vo ripple signal is taken across C17 cap.
9
IRDC3839
TYPICAL OPERATING WAVEFORMS
Vin=12V, Vcc/LDO=5.2V, Vo=1.8V, Io=0-6A, Room Temperature, No Air Flow
Fig.16: Bode Plot at 6A load shows a bandwidth of 104kHz and phase margin of 51 degrees
10
IRDC3839
TYPICAL OPERATING WAVEFORMS
Vin=12V, Vcc/LDO=5.2V, Vo=1.8V, Io=0-6A, Room Temperature, No Air Flow
91
Efficiency [%]
89
87
85
83
81
79
77
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
4
4.5
5
5.5
6
Io [A]
1.4
PLoss [W]
1.2
1
0.8
0.6
0.4
0.2
0.5
1
1.5
2
2.5
3
3.5
Io [A]
Fig.17: Efficiency and power loss vs. load current
11
IRDC3839
THERMAL IMAGES
Vin=12V, Vcc/LDO=5.2V, Vo=1.8V, Io=6A, Room Temperature, No Air Flow
Fig.18: Thermal Image at 6A load
Test Point 1: IR3839, Test Point 2: Inductor
12
IRDC3839
PCB Metal and Components Placement
The lead lands (the 13 IC pins) width should be equal to the nominal part lead width. The minimum
lead to lead spacing should be ≥ 0.2mm to minimize shorting.
Lead land length should be equal to the maximum part lead length + 0.3 mm outboard extension. The
outboard extension ensures a large and inspectable toe fillet.
The pad lands (the 4 big pads other than the 13 IC pins) length and width should be equal to
maximum part pad length and width. However, the minimum metal to metal spacing should be no less
than 0.17mm for 2 oz. Copper; no less than 0.1mm for 1 oz. Copper and no less than 0.23mm for 3 oz.
Copper.
IRDC3839
Solder Resist
It is recommended that the lead lands are Non Solder Mask Defined (NSMD). The solder resist
should be pulled away from the metal lead lands by a minimum of 0.025mm to ensure NSMD
pads.
The land pad should be Solder Mask Defined (SMD), with a minimum overlap of the solder resist
onto the copper of 0.05mm to accommodate solder resist mis-alignment.
Ensure that the solder resist in between the lead lands and the pad land is ≥ 0.15mm due to the
high aspect ratio of the solder resist strip separating the lead lands from the pad land.
IRDC3839
Stencil Design
•
•
The Stencil apertures for the lead lands should be approximately 80% of the area of the
lead lads. Reducing the amount of solder deposited will minimize the occurrences of lead
shorts. If too much solder is deposited on the center pad the part will float and the lead
lands will be open.
The maximum length and width of the land pad stencil aperture should be equal to the
solder resist opening minus an annular 0.2mm pull back to decrease the incidence of
shorting the center land to the lead lands when the part is pushed into the solder paste.
IRDC3839
DIM
A
A1
b
b1
c
D
E
e
e1
e2
MILIMITERS
MIN
MAX
0.800
1.000
0.000
0.050
0.375
0.475
0.250
0.350
0.203 REF.
5.000 BASIC
6.000 BASIC
1.033 BASIC
0.650 BASIC
0.852 BASIC
INCHES
MIN
MAX
0.0315 0.0394
0.0000 0.0020
0.1477 0.1871
0.0098 0.1379
0.008 REF.
1.969 BASIC
2.362 BASIC
0.0407 BASIC
0.0256 BASIC
0.0335 BASIC
DIM
L
M
N
O
P
Q
R
S
t1, t2, t3
t4
t5
MILIMITERS
MIN
MAX
0.350
0.450
2.441
2.541
0.703
0.803
2.079
2.179
3.242
3.342
1.265
1.365
2.644
2.744
1.500
1.600
0.401 BASIC
1.153 BASIC
0.727 BASIC
INCHES
MIN
MAX
0.0138 0.0177
0.0961 0.1000
0.0277 0.0316
0.0819 0.0858
0.1276 0.1316
0.0498 0.0537
0.1041 0.1080
0.0591 0.0630
0.016 BACIS
0.045 BASIC
0.0286 BASIC
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
TAC Fax: (310) 252-7903
Visit us at www.irf.com for sales contact information
Data and specifications subject to change without notice. 03/10