IRDCIP1206-A International Rectifier, IRDCIP1206-A Datasheet

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IRDCIP1206-A

Manufacturer Part Number
IRDCIP1206-A
Description
BOARD DEMO SYNC BUCK CONVETER
Manufacturer
International Rectifier
Datasheet
1.IRDCIP1206-A.pdf (14 pages)

Specifications of IRDCIP1206-A

Package
Design Kit
Featured Part
iP1206
Input Voltage (v)
7.5V - 14.5V
Output Voltage (v)
0.8V - 5.5V
Total Current
30A
Phases
2
Switching Frequency (khz)
300kHz
R
IRDCiP1206-A: 300 kHz, 30A, Synchronous
Overview
This reference design is capable of delivering a continuous
current of 30A (at an ambient temperature of 25ºC and no
airflow. Figures 1–16 provide performance graphs, thermal
images, and waveforms. Figures 17–27, and Table 1 are
provided to engineers as design references for implementing
an iP1206 solution.
demoboard were selected based on operation at an input
voltage of 12V and at a switching frequency of 300 kHz.
Changes from these set points may require optimizing the
control loop and/or adjusting the values of input/output filters in
order to meet the user’s specific application requirements.
Refer to the iP1206 datasheet User Design Guidelines section
for more information.
Note:
production test purposes and should not be used for
evaluation of this demoboard.
Demoboard Quick Start Guide
Initial Settings:
VOUT is set to 1.2V, but can be adjusted from 0.8V to 5.5V by changing the values of R5 and R6 according to the following
formula:
The switching frequency is set to 300kHz, but can be adjusted by changing the value of R
relationship between R
Power Up Procedure:
1. Apply input voltage across VIN and PGND.
2. Apply load across VOUT pads and PGND pads.
3. Adjust load to desired level. See recommendations below.
IRDCiP1206-A Recommended Operating Conditions
(Refer to the iP1206 datasheet for maximum operating conditions)
Input voltage:
Output voltage:
Switching Freq:
Output current:
R
International Rectifier • 233 Kansas Street, El Segundo, CA 90245 USA
The 16-pin connector (CON1) is used only for
E
E
Buck Converter using iP1206
F
F
E
E
R
R
T
and the switching frequency.
The components installed on this
E
7.5V – 14.5V
0.8 – 5.5V
300kHz
This reference design is capable of delivering a continuous current of 30A (without heatsink) at an
ambient temperature of 45ºC with 200LFM of airflow.
E
R5 = R6 = (10.0k * 0.8) / (VOUT - 0.8)
N
N
C
C
E
E
D
D
E
E
S
S
I
I
G
G
N
N
IRDCiP1206-A
T
. The graph in Figure 18 shows the

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IRDCIP1206-A Summary of contents

Page 1

... International Rectifier • 233 Kansas Street, El Segundo, CA 90245 USA IRDCiP1206-A: 300 kHz, 30A, Synchronous Buck Converter using iP1206 Overview This reference design is capable of delivering a continuous current of 30A (at an ambient temperature of 25ºC and no airflow. Figures 1–16 provide performance graphs, thermal images, and waveforms. Figures 17–27, and Table 1 are provided to engineers as design references for implementing an iP1206 solution ...

Page 2

... IRDCiP1206-A_______ 10 1.2V 1. 10A Output Current (A) 100.00% 90.00% 80.00% 70.00% 60.00% 50.00% 40.00% 1.2V 1.5V 30.00% 20.00% 10.00% 0.00 10A Output Current (A) www.irf.com 1.8V 2.5V 3.3V 15A 20A 25A 30A 1.8V 2.5V 3.3V 15A 20A 25A 30A 2 _____ Fig. 1: Power Loss vs. ...

Page 3

... The Voltage Regulation is better than 0.35% Fig. 3: Output Voltage Regulation vs. Current Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300KHz No Airflow __IRDCiP1206 = KHz GM = 13dB Fig. 4: Bode Plot 3 www.irf.com ...

Page 4

... IRDCiP1206-A_______ Fig. 5: Thermograph (No Heatsink) www.irf.com Fig. 6: Power Up Sequence 4 _____ Conditions: Vin = 12V Vout = 1.2V Iout = 30A Fsw = 300kHz Ambient Temp. = 45ºC Airflow = 200LFM Stabilizing Time = 15 min Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow ...

Page 5

... Fig. 7: Power Down Sequence (Turning off a 30A Load) Fig. 8: Close-up of Power Down when Enable is pulled low __IRDCiP1206-A Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow 5 www.irf.com ...

Page 6

... IRDCiP1206-A_______ Fig. 9: Current Share Mode (Switch Node Waveforms) Peak to Peak Output Ripple = 13mV www.irf.com Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow Fig. 10: Output Voltage Ripple 6 _____ ...

Page 7

... Fig. 11: Short Circuit Protection Fig. 12: Over-voltage Protection __IRDCiP1206-A Short Circuit Current = 62A Tested at Room Temperature ROCSET = 10KΩ Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow 7 www.irf.com ...

Page 8

... IRDCiP1206-A_______ 60 mV Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow Fig. 13: I Transient Step-Up 50% - 75% out 110 mV Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow Fig. 15: I Transient Step-Up 50% - 100% out www.irf.com Vin = 12V Vo = 1.2V Iout = 30A Fsw = 300kHz No Airflow Fig. 14: I ...

Page 9

... Fig. 21. (Note: The trip point will be higher than expected if the reference board is cool and is being used for short circuit testing Fig. 17: R 700 600 500 400 300 200 100 __IRDCiP1206 Peak Inductor Current (A) vs. Over-Current Trip Point OCSET Switching Frequency Vs (Kohm) Fig. 18: R vs. Frequency ...

Page 10

... IRDCiP1206-A_______ Fig. 19: Component Placement Top Layer Fig. 21: Top Copper Layer www.irf.com Fig. 20: Component Placement Bottom Layer st Fig. 22: 1 Mid Copper Layer 10 _____ ...

Page 11

... Fig. 23: 2 Mid Copper Layer th Fig. 25: 4 Mid Copper Layer __IRDCiP1206-A rd Fig. 24: 3 Mid Copper Layer Fig. 26: Bottom Copper Layer 11 www.irf.com ...

Page 12

... IRDCiP1206-A_______ ON DH_ 32 VIN2 3 VIN1 16 VCL 10 VCH 9 www.irf.com 12 _____ PGND 15 PGND 13 PGND 6 PGND 4 AGND 36 ...

Page 13

... _____________ __IRDCiP1206-A 13 www.irf.com ...

Page 14

... IRDCiP1206-A_______ Refer to the following application notes for detailed guidelines and suggestions when implementing iPOWIR Technology products: AN-1028: Recommended Design, Integration and Rework Guidelines for International Rectifier’s iPowIR Technology BGA and LGA and Packages This paper discusses optimization of the layout design for mounting iPowIR BGA and LGA packages on printed circuit boards, accounting for thermal and electrical performance and assembly considerations ...

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