IRF ERJ-3EKF20R0V User guide for ir3894 evaluation board Datasheet

IRDC3894-P1V2
SupIRBuck
TM
USER GUIDE FOR IR3894 EVALUATION BOARD
1.2Vout
DESCRIPTION
The IR3894 is a synchronous buck
converter, providing a compact, high
performance and flexible solution in a small
5mm X 6 mm Power QFN package.
Key features offered by the IR3894 include
internal Digital Soft Start/Soft Stop, precision
0.5Vreference voltage, Power Good,
thermal protection, programmable switching
frequency, Enable input, input under-voltage
lockout for proper start-up, enhanced line/
load regulation with feed forward, external
frequency synchronization with smooth
clocking, smart internal LDO and pre-bias
start-up.
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 and the current limit is thermally
compensated.
This user guide contains the schematic and bill
of materials for the IR3894 evaluation board.
The guide describes operation and use of the
evaluation board itself. Detailed application
information for IR3894 is available in the
IR3894 data sheet.
BOARD FEATURES
• Vin = +12V (+ 13.2V Max)
•Vout = +1.2V @ 0- 12A
• Fs=600kHz
• L= 0.51uH
• Cin= 4x10uF (ceramic 1206) + 1X330uF (electrolytic)
• Cout=8x22uF (ceramic 0805)
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IRDC3894-P1V2
CONNECTIONS AND OPERATING INSTRUCTIONS
A well regulated +12V input supply should be connected to VIN+ and VIN-. A maximum of 12A load should
be connected to VOUT+ and VOUT-. The input and output connections of the board are listed in Table I.
IR3894 has only one input supply and internal LDO generates Vcc from Vin. If operation with external Vcc
is required, then R15 can be removed and external Vcc can be applied between Vcc+ and Vcc- pins. Vin pin
and Vcc/LDOout pins should be shorted together for external Vcc operation (use zero ohm resistor for R29).
The output can track voltage at the Vp pin. For this purpose, Vref pin is to be connected to ground (use zero
ohm resistor for R21). The value of R14 and R28 can be selected to provide the desired tracking ratio
between output voltage and the tracking input.
Table I. Connections
Connection
Signal Name
VIN+
Vin (+12V)
VIN-
Ground of Vin
Vout+
Vout(+1.2V)
Vout-
Ground for Vout
Vcc+
Vcc/ LDO_out Pin
Vcc-
Ground for Vcc input
Enable
Enable
PGood
Power Good Signal
Gnd
Analog ground
LAYOUT
The PCB is a 4-layer board (2.23”x2”) using FR4 material. All layers use 2 Oz. copper. The PCB
thickness is 0.062”. The IR3894 and other major power components are mounted on the top side of the
board.
Power supply decoupling capacitors, the bootstrap capacitor and feedback components are located
close to IR3894. The feedback resistors are connected to the output at the point of regulation and are
located close to the SupIRBuck IC. To improve efficiency, the circuit board is designed to minimize the
length of the on-board power ground current path.
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IRDC3894-P1V2
Vin
Gnd
Gnd
Vout
Enable
Top View
VDDQ
Vref
Sync
PGood
AGnd
S_Ctrl Vsns Vcc+ Vcc-
Bottom View
Fig. 1: Connection Diagram of IR3895/94 Evaluation Boards
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IRDC3894-P1V2
Fig. 2: Board Layout-Top Layer
Single point connection between
Analog Gnd and PGnd
Fig. 3: Board Layout-Bottom Layer
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IRDC3894-P1V2
Fig. 4: Board Layout-Mid Layer 1
Fig. 5: Board Layout-Mid Layer 2
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Fig. 6: Schematic of the IR3894 evaluation board
IRDC3894-P1V2
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IRDC3894-P1V2
Bill of Materials
Item Qty
Part Reference
Value
1
1
C1
330uF
Description
Manufacturer
SMD Electrolytic F size 25V 20% Panasonic
Part Number
2
4
C2 C3 C4 C5
10uF
1206, 25V, X5R, 20%
TDK
C3216X5R1E106M
3
3
C7 C14 C24
0.1uF
0603, 25V, X7R, 10%
0603, 25V, COG, 5%
Murata
GRM188R71E104KA01B
Murata
GRM1885C1E102JA01D
0603,50V,X7R,10%
0603, 50V, COG, 5%
Murata
Murata
GRM188R71H222KA01B
GRM1885C1H2201JA01D
EEV-FK1E331P
4
1
C12
1nF
4
1
C8
2200pF
5
1
C11
220pF
6
8
C15 C16 C17 C18 C19 C20
C33 C34
22uF
TDK
C2012X5R0J226M
7
1
C23
2.2uF
0603, 16V, X5R, 20%
TDK
C1608X5R1C475M
8
1
C26
10nF
0603, 25V, X7R, 10%
Murata
GRM188R71E103KA01J
9
1
C32
1.0uF
0603, 25V, X5R, 10%
Murata
GRM188R61E105KA12D
10
1
L1
0.51uH
Vitec
59PR9876N
11
1
R1
1.82k
SMD 11.0x7.2x7.5mm,0.29mΩ
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF1821V
12
2
R2 R11
4.02k
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF4021V
13
2
R3 R12
2.87k
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF2871V
14
1
R4
100
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF1000V
15
1
R6
20
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF20R0V
16
1
R9
39.2k
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF3922V
17
5
R10 R13 R14 R15 R50
0
Thick Film, 0603,1/10W
Panasonic
ERJ-3GEY0R00V
18
2
R17 R18
49.9k
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF4992V
19
1
R19
7.5k
Thick Film, 0603,1/10W,1%
Panasonic
ERJ-3EKF7551V
20
1
U1
IR3894
PQFN 5x6mm
IR
IR3894MPBF
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0805, 6.3V, X5R, 20%
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IRDC3894-P1V2
TYPICAL OPERATING WAVEFORMS
Vin=12.0V, Vo=1.2V, Io=0-12A, Room Temperature, no airflow
Fig. 7: Start up at 12A Load
Ch1:Vout, Ch2:Vin, Ch3:PGood,Ch4:Enable
Fig. 9: Start up with Pre Bias , 0A Load,
Ch1:Vo
Fig. 11: Inductor node at 12A load
Ch1:Switch Node
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Fig. 8: Start up at 12A Load
Ch1:Vout, Ch2:Vin, Ch3: PGood,Ch4:Vcc
Fig. 10: Output Voltage Ripple, 12A load
Ch1: Vout ,
Fig. 12: Short circuit (Hiccup) Recovery
Ch1:Vout , Ch4:Iout
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IRDC3894-P1V2
TYPICAL OPERATING WAVEFORMS
Vin=12.0V, Vo=1.2V, Io=0-12A, Room Temperature, no air flow
Fig. 13: Transient Response, 6A to 12A step @2.5A/usec slew rate
Ch4-Iout
Ch1:Vout
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IRDC3894-P1V2
TYPICAL OPERATING WAVEFORMS
Vin=12.0V, Vo=1.2V, Io=0-12A, Room Temperature
Fig. 14: Bode Plot at 12A load shows a bandwidth of 99.9kHz and phase margin of 55.2º
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IRDC3894-P1V2
TYPICAL OPERATING WAVEFORMS
Vin=12.0V, Vo=1.2V, Io=0-12A, Room Temperature, no air flow
Fig (15) Soft start and soft stop using S_Ctrl pin
Fig (16) Feed Forward for Vin change from 6.8 to 16V and back to 6.8V
Ch1-Vout Ch4-Vin
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IRDC3894-P1V2
TYPICAL OPERATING WAVEFORMS
Vin=12.0V, Vo=1.2V, Io=0-12A, Room Temperature, no air flow
Fig.17: Efficiency versus load current
Fig.18: Power loss versus load current
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IRDC3894-P1V2
THERMAL IMAGES
Vin=12.0V, Vo=1.2V, Io=0-12A, Room Temperature, No Air flow
Fig. 19: Thermal Image of the board at 12A load
Test point 1 is IR3894
Test point 2 is inductor
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IRDC3894-P1V2
PACKAGE INFORMATION
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
Figure 20: Package Dimensions
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
TAC Fax: (310) 252-7903
This product has been designed and qualified for the Industrial market
Visit us at www.irf.com for sales contact information
Data and specifications subject to change without notice. 12/11
12/22/2011
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