IC Phoenix
 
Home ›  II19 > IP2003A-IP2003APBF-IP2003ATRPBF,Fully optimized solution for high current synchronous buck multiphase applications in a LGA power block.
IP2003A-IP2003APBF-IP2003ATRPBF Fast Delivery,Good Price
Part Number:
If you need More Quantity or Better Price,Welcom Any inquiry.
We available via phone +865332716050 Email
Partno Mfg Dc Qty AvailableDescript
IP2003AIRN/a4avaiFully optimized solution for high current synchronous buck multiphase applications in a LGA power block.
IP2003APBFIORN/a1929avaiFully optimized solution for high current synchronous buck multiphase applications in a LGA power block.
IP2003ATRPBFIRN/a84655avaiFully optimized solution for high current synchronous buck multiphase applications in a LGA power block.


IP2003ATRPBF ,Fully optimized solution for high current synchronous buck multiphase applications in a LGA power block.           ..
IP2005APBF , High Frequency Synchronous Buck Optimized LGA Power Stage
IP2005ATRPBF ,High Frequency Synchronous Buck Optimized LGA Power Stage with Integrated Power Semiconductors, Driver IC, & Passivesapplications where component integration offers QuantityDescription Connection Orientationbenefits ..
IP2005CPBF ,The iP2005C is a fully optimized solution for high current synchronous buck multiphase applications.Applications output inductors, and the input and output • Multi-phase Architectures capacitors. • L ..
IP3048CX5 ,Integrated dual channel passive LC-filter network with ESD protection to IEC61000-4-2 level 4Pin configuration for WLCSP52.2 Pin description Table 1. Pinning Pin DescriptionA1 channel 1A2 chan ..
IP3088CX15 ,Integrated 2, 4, 6 and 8-channel passive LC-filter network with ESD protection to IEC61000-4-2 level 4Pin configuration IP3088CX202.2 Pin description Table 1. Pinning Pin DescriptionIP3088CX5 IP3088CX1 ..
IRFZ48VPBF ,60V Single N-Channel HEXFET Power MOSFET in a TO-220AB packagePD - 93959AIRFZ48V®HEXFET Power MOSFETl Advanced Process TechnologyDV = 60Vl Ultra Low On-Resistanc ..
IRFZ48VS ,60V Single N-Channel HEXFET Power MOSFET in a D2-Pak packageapplications because of its low internal connection resistance andcan dissipate up to 2.0W in a typ ..
IRFZ48VSPBF ,60V Single N-Channel HEXFET Power MOSFET in a D2-Pak packageapplications because of its low internal connection resistance andcan dissipate up to 2.0W in a typ ..
IRFZ48Z ,55V Single N-Channel HEXFET Power MOSFET in a TO-220AB packageapplications.IRFZ48ZIRFZ48ZS IRFZ48ZLAbsolute Maximum RatingsParameter Max. UnitsI @ T = 25°C Conti ..
IRFZ48ZS ,55V Single N-Channel HEXFET Power MOSFET in a D2-Pak packageFeaturesIRFZ48ZLO Advanced Process Technology®HEXFET Power MOSFETO Ultra Low On-ResistanceO Dynamic ..
IRG4BC10KD ,600V UltraFast 8-25 kHz Copack IGBT in a TO-220AB packageFeatures High short circuit rating optimized for motor control,V = 600VCES t =10µs, @360V V (st ..


IP2003A-IP2003APBF-IP2003ATRPBF
Fully optimized solution for high current synchronous buck multiphase applications in a LGA power block.
International
P D-97051 A
TOR Rectifier iP2003APbF
tPa/Wi"' Synchronous Buck
Multiphase Optimized LGA Power Block
TECHNOLOGY
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
iP2003APbF Power Block
Description
The iP2003APbF 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 V Supply voltage for the internal circuitry.
iP2003APbF Internal Block Diagram DD '
When set to logic level high, internal circuitry
Vsws, Vsws2 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 lOpA.
3 PWM TTL-level input signal to MOSFET drivers.
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
Vsw 4 PRDY is less than 4.4V (typ.). When ENABLE is
logic high and VDD is greater than 4.4V (typ.),
this output is driven high. This output has a
lOmA source and lmA sink capability.
ENABLE o-i- MOSFET
PWM C.' I Driverwith
dead time
Va, QT control
Power Ground - connection to the ground of
PGND 5, 7 PGND bulk and filter capacitors.
F---------------------------- 6 V Switching Node - connection to the output
sw inductor.
Input voltage pin. External bypass ceramic
PACKAGE INTERFACE PARTS 'tT' T & R 8 VIN capacitors must be added directly next to the
DESCRIPTION CONNECTION PER BAG ORIENTATION block.
REEL 9 V Floating pin. For internal use. Externally, short
SWSI V
iP2003APbF LGA 10 - . to Vsws2 pm only,
Fig 12 10 V Floating pin. For internal use. Externally, short
iP2003ATRPbF LGA --- 1000 SWS2 to Vsws, pin only.

International
iP2003APbF TOR Rectifier
All specifications @25°C (unless otherwise specified)
Absolute Maximum Ratings:
Parameter Symbol Min Typ Max Units Conditions
VIN to PGND VIN - - 16 v
VDD to PGND VDD - - 6.0 v
PWM to PGND PWM -0.3 - vDD +0.3 v Not to exceed 6.0V
Enable to PGND ENABLE -0.3 - VDD +0.3 v Not to exceed 6.0V
Output RMS Current IOUT - - 40 A Measured at sz
Recommended Operating Conditions:
Parameter Symbol Min Typ Max Units Conditions
Supply Voltage Va, 4.6 5.0 5.5 V
Input Voltage VIN 3.0 - 13.2 V
Output Voltage Vow 0.8 - 3.3 V
Output Current IOUT - - 40 A
Operating Frequency fsw 300 - 1000 kHz
Operating Duty Cycle D - - 85 %
Block Temperature TBLK -40 - 125 ''C
Electrical Specifications tii) VDD = 5V (unless otherwise specified):
Parameter Symbol Min Typ Max Units Conditions
Block Power Loss OD PLOSS - 9.4 11.7 W v.N=12v, VOUT=1-3V
Turn On Delay © tdwn) - 63 - ns lou-r--40A, fsw=1MHZ
Turn Off Delay © tdwm - 26 - L = 0.3pH
Ihr, Quiescent Current lQ-VIN - - 1.0 mA Enable = ov, VIN=12V
VDD Quiescent Current lavoo - IO - p A Enable = 0V, VDD=5V
Under-Voltage Lockout UVLO
Start Threshold VSTART 4.2 4.4 4.5 V
Hysteresis VHvs-UVLO - 150 - mV
Enable ENABLE
Input Voltage High VI... 2.1 - - V
Input Voltage Low Ihr, - - 0.8
Power Ready PRDY
Logic Level High Vor., 4.5 4.6 - V VDD--4.6V, |Load=10mA
Logic Level Low VOL - 0.1 0.2 VDD PWM Input PWM
Logic Level High VOH 2.1 - - V
Logic Level Low VOL - - 0.8
co Measurement made using six 10uF (TDK C3225X5R1C106KT or equiv.) capacitors across the input (see
Fig. 8).
© Not associated with the rise and fall times. Does not affect Power Loss (see Fig. 9).


ic,good price


TEL:86-533-2716050      FAX:86-533-2716790
   

©2020 IC PHOENIX CO.,LIMITED