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PDF IP2003A Data sheet ( Hoja de datos )

Número de pieza IP2003A
Descripción Synchronous Buck Multiphase Optimized LGA Power Block Integrated Power Semiconductors
Fabricantes International Rectifier 
Logotipo International Rectifier Logotipo



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PD-96987A
iP2003A
Synchronous Buck
Multiphase Optimized LGA Power Block
Features:
Integrated Power Semiconductors, Drivers & Passives
• Full function multiphase building block
• Output current 40A continuous with no derating up to
TPCB = 100°C and TCASE = 100°C
• Operating frequency up to 1.0 MHz
• Proprietary packaging enables ultra low Rthj-case top
• Efficient dual sided cooling
• Small footprint low profile (9mm x11mm x 2.2mm) package
• Optimized for very low power losses
• LGA interface
• Ease of design
iP2003A Power Block
Description
The iP2003A is a fully optimized solution for high current synchronous buck multiphase applications.
Board space and design time are greatly reduced because most of the components required for each
phase of a typical discrete-based multiphase circuit are integrated into a single 9mm x 11mm x 2.2mm
power block. The only additional components required for a complete multiphase converter are a PWM
controller, the output inductors, and the input and output capacitors.
iPOWIR technology offers designers an innovative board space saving solution for applications
requiring high power densities. iPOWIR technology eases design for applications where component integration
offers benefits in performance and functionality. iPOWIR technology solutions are also optimized internally for
layout, heat transfer and component selection.
Pin # Pin Name
Pin Function
1
VDD
Supply voltage for the internal circuitry.
iP2003A Internal Block Diagram
VSWS1
VSWS2
When set to logic level high, internal circuitry
of the device is enabled. When set to logic
2 ENABLE level low, the PRDY pin is forced low, the
Control and Sychronous switches are turned
off, and the supply current reduces to 10µ A.
3 PW M TTL-level input signal to M OSFET drivers.
PRDY
ENABLE
PWM
VDD
MOSFET
Driver with
dead time
control
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VIN
4
VSW
PGND
5, 7
6
8
9
10
10/19/05
PRDY
PGND
V SW
V IN
V SWS1
V SWS2
Power Ready - This pin indicates the status of
ENABLE or VDD. This output will be driven
low when ENABLE is logic low or when VDD
is less than 4.4V (typ.). W hen ENABLE is
logic high and VDD is greater than 4.4V (typ.),
this output is driven high. This output has a
10mA source and 1mA sink capability.
Power Ground - connection to the ground of
bulk and filter capacitors.
Switching Node - connection to the output
inductor.
Input voltage pin. External bypass ceramic
capacitors must be added directly next to the
block.
Floating pin. For internal use. Externally, short
to VSWS2 pin only.
Floating pin. For internal use. Externally, short
to VSWS1 pin only.
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IP2003A pdf
iP2003A
Applying the Safe Operating Area (SOA) Curve
The SOA graph incorporates power loss and thermal resistance information in a way that allows one to solve for maximum
current capability in a simplified graphical manner. It incorporates the ability to solve thermal problems where heat is drawn
out through the printed circuit board and the top of the case.
Case Temperature (ºC)
Procedure
0 10 20 30 40 50 60 70 80 90 100 110 120
42
40
1) Draw a line from Case Temp axis at TCASE to the PCB
Temp axis at TPCB.
38
36
34
32
30
2) Draw a vertical line from the TX axis intercept to the SOA
curve.
3) Draw a horizontal line from the intersection of the vertical
line with the SOA curve to the Y-axis. The point at which
the horizontal line meets the Y-axis is the SOA current.
28
26
24
22
20
18
16
14
12
10
8
6
4
VIN = 12V
VOUT = 1.3V
fSW = 1MHz
L=0.3uH
Safe
Operating
Area
TX
2
0
0 10 20 30 40 50 60 70 80 90 100 110 120
PCB Temperature (ºC)
Calculating Power Loss and SOA for Different Operating Conditions
To calculate power loss for a given set of operating conditions, the following procedure should be followed:
Determine the maximum current for each iP2003A and obtain the maximum power loss from Fig 1. Use the curves in
Figs. 3, 4, 5 and 6 to obtain normalized power loss values that match the operating conditions in the application. The
maximum power loss under the operating conditions is then the product of the power loss from Fig. 1 and the normal-
ized values.
To calculate the SOA for a given set of operating conditions, the following procedure should be followed:
Determine the maximum PCB temperature and Case temperature at the maximum operating current of each iP2003A.
Obtain the SOA temperature adjustments that match the operating conditions in the application from Figs. 3, 4, 5 and
6. Then, add the sum of the SOA temperature adjustments to the Tx axis intercept in Fig 2.
The example below explains how to calculate maximum power loss and SOA.
Example:
Operating Conditions
Output Current = 40A
Sw Freq= 900kHz
Calculating Maximum Power Loss:
Input Voltage = 10V
Inductor = 0.2µH
Output Voltage = 3.3V
TPCB = 100°C, TCASE = 110°C
(Fig. 1)
(Fig. 3)
(Fig. 4)
(Fig. 5)
(Fig. 6)
Maximum power loss = 15W
Normalized power loss for input voltage 0.98
Normalized power loss for output voltage 1.14
Normalized power loss for frequency 0.94
Normalized power loss for inductor value 1.013
Calculated Maximum Power Loss for given conditions = 15W x 0.98 x 1.14 x 0.94 x 1.013 15.96W
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