MP5403GQBU
更新时间:2024-09-18 22:17:17
品牌:MPS
描述:Configurable 2.7V-6V Mini PMIC with Dual 2.5A/3.5A Buck, One Load Switch, and Input Power Supervisory
MP5403GQBU 概述
Configurable 2.7V-6V Mini PMIC with Dual 2.5A/3.5A Buck, One Load Switch, and Input Power Supervisory
MP5403GQBU 数据手册
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PDF下载MP5403
Configurable 2.7V-6V Mini PMIC
with Dual 2.5A/3.5A Buck, One Load Switch,
and Input Power Supervisory
DESCRIPTION
FEATURES
The MP5403 is
a
monolithic power
Low Iq: 85µA for Two Switchers Total
Two Buck Converters
o 3.5A with 55mΩ/20mΩ RDS(ON)
o 2.5A with 60mΩ/22mΩ RDS(ON)
o 1.5MHz Switching Frequency
o 180° Interleaving Operation
o 100% Duty Cycle
o Load Switch Mode by Pulling FB Low
o Latch-Off Short-Circuit Protection (SCP)
o Parallel Capability by Connecting SW
Nodes Together
o Internal Soft Start and Output Discharge
o Optimized Light-Load Efficiency
Available Fixed Output Options via Package
Trim:
management unit containing two high-
efficiency, step-down, switching converters and
a load switch. The two regulators supply current
up to 3.5A and 2.5A separately, and the load
switch supplies up to 3A of load current with an
extremely low RDS(ON). With an input range of up
to 6V, the MP5403 is ideal for powering ASIC
and SOC for solid-state drives and other
compact power systems.
The peak-current-mode control scheme with
pulse-skip-mode operation provides the two
switchers with fast transient response, high
light-load efficiency, and minimum capacitance
by using an interleaving PWM clock between
the two switchers. The 3A load switch with a
low 20mΩ on resistance provides flexible
system configuration.
Ch1: 0.9V, 1.1V, 2.5V, 2.85V
Ch2: 0.9V, 1.2V, 1.8V, 2.5V
One Load Switch
o 3A with 20mΩ RDS(ON)
A full set of enable control pins and power good
o Soft Start and Output Discharge
o Over-Current Protection (OCP)
EN and Power Good for Power Sequencing
Input Power Failure Indicator (PFL) with
Adjustable Threshold and Delay
Thermal Shutdown
open-drain
indicators
allow
for
easy
implementation of the start-up and shutdown
sequences.
Full protection features include over-current
protection (OCP) and thermal shutdown.
Available in Ultra-Thin UTQFN-20
(2.5mmx3mm) Package
The MP5403 requires a minimal number of
readily
available,
standard,
external
components and is available in a small UTQFN-
20 (2.5mmx3mm) package.
APPLICATIONS
Solid-State Drives
Hybrid Drives
Low Voltage System Power
All MPS parts are lead-free, halogen-free, and adhere to the RoHS directive. For
MPS green status, please visit the MPS website under Quality
Assurance. “MPS” and “The Future of Analog IC Technology” are registered
trademarks of Monolithic Power Systems, Inc.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
1
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL APPLICATION
VSUS
PFL
CDELAY
Output Voltage 1
3.5A DC
L1
L2
SW1
FB1
R6
R5
C1A
C1B
R1
R2
PFL_ADJ
VIN1
Input Voltage
C1
MP5403
Output Voltage 2
2.5A DC
C2
SW2
FB2
R3
R4
VIN2
VIN3
EN1
EN2
EN3
Output Voltage 3
3A DC
OUT3
PG1
PG2
PG3
C2A
GND, AGND
Two Bucks and One Load Switch
VSUS
PFL
CDELAY
L1
SW1
SW2
R6
R5
C1A
C1B
R1
R2
PFL_ADJ
VIN1
FB1
FB2
Input Voltage
C1
MP5403
C2
VIN2
VIN3
EN1
EN2
EN3
OUT3
PG1
PG2
PG3
C2A
GND, AGND
One Parallel Buck and One Load Switch
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
2
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
ORDERING INFORMATION
Part Number*
Package
Top Marking
MP5403GQBU
UTQFN-20 (2.5mmx3mm)
See Below
* For Tape & Reel, add suffix –Z (e.g. MP5403GQBU–Z)
TOP MARKING
APZ: Product code of MP5403GQBU
Y: Year code
WW: Week code
LLL: Lot number
PACKAGE REFERENCE
TOP VIEW
20
19
18
CDELAY
PG3
PG2
1
2
3
4
5
6
7
17
16
PFL_ADJ
VIN1
15 PG1
AGND
GND
SW1
VSUS
SW2
EN3
14
13
12
11
VIN2
FB1
8
9
10
UTQFN-20 (2.5mmx3mm)
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
3
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
Thermal Resistance (4)
UTQFN-20 (2.5mmx3mm)..... 60.......13 ... °C/W
θJA
θJC
ABSOLUTE MAXIMUM RATINGS (1)
Supply voltage (VIN1/2/3)...........................6.5V
VSW1/2 ................................-0.3V (-5V for <10ns)
to 6.5V (10V for <10ns)
NOTES:
1) Exceeding these ratings may damage the device.
2) The maximum allowable power dissipation is a function of the
maximum junction temperature TJ (MAX), the junction-to-
ambient thermal resistance θJA, and the ambient temperature
TA. The maximum allowable continuous power dissipation at
any ambient temperature is calculated by PD (MAX) = (TJ
(MAX)-TA)/θJA. Exceeding the maximum allowable power
dissipation produces an excessive die temperature, causing
the regulator to go into thermal shutdown. Internal thermal
shutdown circuitry protects the device from permanent
damage.
All other pins................................. -0.3V to 6.5V
Continuous power dissipation (TA = +25°C)
(2)
……………………………………………2.08W
Junction temperature...............................150°C
Lead temperature ....................................260°C
Storage temperature................-65°C to +150°C
Recommended Operating Conditions (3)
Supply voltage (VIN1)....................... 2.7V to 6V
If VIN1 > UVLO, supply voltage (VIN2) ..............
......................................................... 2.0V to 6V
If VIN1 > UVLO, supply voltage (VIN3) ..............
......................................................... 0.5V to 6V
If VIN1 < UVLO, supply voltage (VIN3) ..............
......................................................... 2.7V to 6V
Output voltage (VOUT1/2)...............0.6V to VIN1/2
Output voltage (VOUT3)................................VIN3
Operating junction temp. (TJ) ...-40°C to +125°C
3) The device is not guaranteed to function outside of its
operating conditions.
4) Measured on JESD51-7, 4-layer PCB.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
4
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
ELECTRICAL CHARACTERISTICS
VIN1/2 = 3.6V, VIN3 = 3.6V, TJ = -40°C to 125°C (7), typical value is tested at TJ = 25°C unless
otherwise noted.
Parameters
Symbol Condition
Min
Typ
Max
Units
Buck Regulators (5)
Input voltage range
VIN1
For VIN1
For VIN1
2.7
2.3
6
V
V
Under-voltage lockout threshold
rising
VIN1_R
2.5
2.65
Under-voltage lockout threshold
hysteresis
VIN1_HYS For VIN1
250
mV
V
Input voltage range for Rail2
VIN2
VIN1 > VIN1_R
For VIN2
2
6
VIN2 under-voltage lockout threshold
rising
VIN2_R
1.8
1.85
V
VIN2 under-voltage lockout threshold
hysteresis
VIN2 _HYS For VIN2
300
mV
μA
μA
Supply current (shutdown)
ISD
VEN1/2/3 = 0V, TJ = 25°C
1
VEN1/2 = 2V, VEN3 = 0V,
VFB1/2 = 1V
Supply current (quiescent)
IQ1+Q2
85
55
20
65
22
110
High-side switch on resistance for
3.5A switcher
RDS(ON)1_H
RDS(ON)1_L
RDS(ON)2_H
RDS(ON)2_L
mΩ
mΩ
mΩ
mΩ
Low-side switch on resistance for
3.5A switcher
High-side switch on resistance for
2.5A switcher
Low-side switch on resistance for
2.5A switcher
VEN1/2 = 0V, VIN1/2 = 6V,
Switch leakage current
ILK_SW1/2 VSW1/2 = 0V and 6V,
TJ = 25°C
0
1
μA
High-side current limit for 3.5A
switcher
ILIM1_H
ILIM2_H
Duty = 33%
Duty = 33%
4.5
3.5
5.6
4.7
A
A
High-side current limit for 2.5A
switcher
Low-side zero crossing current
Oscillator frequency
Phase shift
Minimum on time (6)
Minimum off time (6)
Maximum duty cycle (6)
IZCD1/2
FSW1/2
PhS
For both channels
CCM
0.1
1.5
180
70
A
MHz
degree
ns
1.2
1.8
CCM
TMIN_ON
TMIN_OFF
DMAX
100
100
ns
%
TJ = 25°C
594
591
600
606
mV
Feedback voltage
VFB1/2
TJ = -40°C to 125°C (7)
FB1/2 = 0.65V
600
10
609
50
mV
nA
Feedback currents
IFB1/2
TSS1/2
RDIS1/2
From 10% VOUT to 90%
VOUT
Internal soft-start time
Output discharge resistor
0.35
13
ms
Ω
MP5403 Rev. 1.0
www.MonolithicPower.com
5
9/20/2016
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
ELECTRICAL CHARACTERISTICS (continued)
VIN1/2 = 3.6V, VIN3 = 3.6V, TJ = -40°C to 125°C (7), typical value is tested at TJ = 25°C unless
otherwise noted.
Parameters
EN high logic
EN hysteresis
Symbol Condition
EN1/2_H
Min
Typ
1.3
150
1
Max
Units
V
1.05
1.5
EN1/2_HYS
mV
VEN = 2V
IEN1/2
EN1/2 input current
μA
VEN = 0V
0
EN1 turn-on delay
EN2 turn-on delay
ENTD_1
ENTD_2
For channel 1
100
μs
μs
For channel 2,
VIN1 > VIN1_R
100
+30
-10
FB with respect to the
regulation
Power good upper trip threshold
Power good lower trip threshold
PG1/2_H
PG1/2_L
%
%
FB with respect to the
regulation
Power good hysteresis
PGHY
5
%
μs
μs
V
Power good delay for rising
Power good delay for falling
Power good sink current capability
Power good leakage current
Load Switch
PDTD_1/2 H
PDTD_1/2 L
20
60
VPG_LO_1/2 Sink 1mA
PGLK_1/2 VPG = 1.8V
0.4
1
μA
VIN1 > VIN1_R
VIN3
0.6
2.7
6
6
V
V
Input voltage range
VIN1 < VIN1_R
Under-voltage lockout threshold
rising
VIN3_R
For VIN3
2.3
2.5
200
160
2.65
V
Under-voltage lockout threshold
hysteresis
VIN3_HYS For VIN3
mV
μA
From VIN3, VEN1/2 = 0V,
VEN3 = 3.6V
Supply current (quiescent)
IQ3
250
1.5
On resistor
RDSON
EN3_H
20
1.3
150
70
70
1
mΩ
V
EN3 high logic threshold
EN3 hysteresis
1.05
EN3_HYS
mV
VIN1 > VIN1_R
VIN1 < VIN1_R
VEN3 = 2V
EN3 turn-on delay
EN3 input current
ENTD_3
µs
IEN3
μA
VEN3 = 0V
0
VIN3 - VOUT3 is smaller
than the range
PG3 high logic threshold
PG3 low logic threshold
PG3_H
150
200
mV
mV
VIN3 - VOUT3 is larger than
the range
PG3_L
250
40
Power good delay for rising
Power good sink current capability
Power good leakage current
Current limit
PDTD_3
μs
V
VPG_LO_3 Sink 1mA
0.4
PGLK_3
ILIM3
VPG = 1.8V
1
μA
A
5.6
MP5403 Rev. 1.0
www.MonolithicPower.com
6
9/20/2016
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
ELECTRICAL CHARACTERISTICS (continued)
VIN1/2 = 3.6V, VIN3 = 3.6V, TJ = -40°C to 125°C (7), typical value is tested at TJ = 25°C unless
otherwise noted.
Parameters
Symbol Condition
Min
Typ
0.35
13
Max
Units
From 10% VOUT to 90%
VOUT
Internal soft-start time
Tss3
ms
Output resistor
RDIS
Ω
Power Failure Circuitry
VSUS voltage
VSUS
3.6
0
V
VSUS = 3.6V, VIN1 = VIN3
= 3.6V, TJ = 25°C
VSUS leakage current
PFL_ADJ reference
ISUS_LK
1
μA
TA = 25°C
TA = -40°C to 125°C (7)
594
591
600
600
3
606
609
PFL_ADJ
mV
PFL hysteresis
PFL_HYS
TPFL_HL
IDELAY
%
μs
μA
V
PFL high-to-low delay
CDELAY internal current source
Power good sink current capability
Power good leakage current
Thermal shutdown (6)
Thermal hysteresis (6)
NOTES:
1
3.1
VPFL_LO Sink 1mA
0.4
PFLLK
TSD
VPFL = 1.8V
1
μA
°C
°C
160
30
THYS
5) VIN1 provides control voltage if VIN3 is lower than 2.7V.
6) Guaranteed by design.
7) Guaranteed by characterization test, not production tested.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
7
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL PERFORMANCE CHARACTERISTICS
VIN = 5V, VOUT1 = 1.8V, VOUT2 = 1.2V, L1 = 0.47µH, L2 = 0.47µH, TA = +25°C, unless otherwise noted.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
8
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5V, VOUT1 = 1.8V, VOUT2 = 1.2V, L1 = 0.47µH, L2 = 0.47µH, TA = +25°C, unless otherwise
noted.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
9
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5V, VOUT1 = 1.8V, VOUT2 = 1.2V, L1 = 0.47µH, L2 = 0.47µH, TA = +25°C, unless otherwise
noted.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
10
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5V, VOUT1 = 1.2V, VOUT2 = 1.2V, L1 = 0.47µH, L2 = 0.47µH, TA = +25°C, unless otherwise
noted.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
11
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5V, VOUT1 = 1.2V, VOUT2 = 1.2V, L1 = 0.47µH, L2 = 0.47µH, TA = +25°C, unless otherwise
noted.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
12
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5V, VOUT1 = 1.2V, VOUT2 = 1.2V, L1 = 0.47µH, L2 = 0.47µH, TA = +25°C, unless otherwise
noted.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
13
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
PIN FUNCTIONS
Pin #
Name
Description
Programmable PFL low-to-high delay time. When CDELAY is floated, the delay time is
minimized.
1
CDELAY
Power failure threshold adjust. A resistor divider connected to the voltage rails is
used to program the power failure threshold. The resistor divider needs to be
monitored.
2
3
PFL_ADJ
VIN1
Input supply voltage to the 3.5A switching regulators and internal logic module.
Place a small decoupling capacitor as close to VIN1 and GND as possible.
4
5
AGND
GND
Analog ground.
Ground.
Input supply voltage to the 2.5A switching regulators. Place a small decoupling
capacitor as close to VIN2 and GND as possible.
6
VIN2
Feedback voltage sensing for the 3.5A regulator. Connect the output voltage of the
3.5A regulator through a resistor divider to FB1 to achieve output voltage regulation.
Pull FB1 to ground to operate the 3.5A regulator in 100% duty cycle on mode.
7
FB1
Feedback voltage sensing for the 2.5A regulator. Connect the output voltage of the
2.5A regulator through a resistor divider to FB2 to achieve output voltage regulation.
Pull FB2 to ground to operate the 2.5A regulator in 100% duty cycle on mode.
8
FB2
Enable on/off control for the 3.5A regulator. There is a 2MΩ resistor from EN1 to
GND internally. Float or ground EN1 to turn off the 3.5A regulator.
9
EN1
EN2
EN3
SW2
VSUS
SW1
Enable on/off control for the 2.5A regulator. There is a 2MΩ resistor from EN2 to
GND internally. Float or ground EN2 to turn off the 2.5A regulator.
10
11
12
13
14
Enable on/off control for the load switch. There is a 2MΩ resistor from EN3 to GND
internally. Float or ground EN3 to turn off the load switch.
Switch output for the 2.5A regulator. A thick and wide power routing trace is
recommended for SW2 to conduct current.
Sustain voltage. Place a small decoupling capacitor as close to VSUS and GND as
possible.
Switch output for the 3.5A regulator. A thick and wide power routing trace is
recommended for SW1 to conduct current.
Power good for the 3.5A regulator. PG1 is an open-drain output. When the output
voltage is between -10% to +30% of the regulation, PG1 is pulled high externally.
When there is no supply, PG1 is pulled low internally.
15
PG1
Power good for the 2.5A regulator. PG2 is an open-drain output. When the output
voltage is between -10% to +30% of the regulation, PG2 is pulled high externally.
When there is no supply, PG2 is pulled low internally.
16
17
PG2
PG3
Power good for the load switch. PG3 is an open-drain output. When the output
voltage is below 200mV compared with the input voltage, PG3 is pulled high externally.
18
19
VIN3
Input supply voltage for the load switch.
Output voltage for the load switch.
OUT3
Power failure indicator. PFL is an open-drain output. When the PFL_ADJ voltage is
less than 0.6V, PFL is pulled low immediately.
20
PFL
MP5403 Rev. 1.0
9/20/2016
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14
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
BLOCK DIAGRAM
Vsus
PFL
CDELAY
PFL_ADJ
Delay
Control
Vsus
Ctrl
+
_
0.6V
PG1
Ref1
FB1
+
_
ULVO
VIN1
SW1
Internal
Soft Start
HS
Ref1
+
PWM
+
_
Driver
FB1
EN1
LS
Output
Discharge
Mode Ctrl
Slope
Comp
+
_
1.5MHz
Osc
VIN2
SW2
Slope
Comp
EN2
Internal
Soft Start
HS
+
Ref2
PWM
+
_
Driver
FB2
PG2
LS
Output
Discharge
Mode Ctrl
+
_
Ref2
FB2
+
_
Output
Clamping
VIN3
EN3
OUT3
PG3
Charge
Pump
Output
Discharge
VIN1
+
_
Soft Start
Ctrl
GND, AGND
Figure 1: Functional Block Diagram
MP5403 Rev. 1.0
9/20/2016
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15
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
Light-Load Operation
OPERATION
In light load mode, the MP5403 uses a
The MP5403 has two step-down regulators and
one load switch integrated into an ultra-small
UTQFN-20 package. The two buck regulators
are able to run up to 3.5A and 2.5A of load
current, respectively. With a peak current mode
control scheme and an interleaving PWM clock,
the MP5403 minimizes the input voltage ripple
and achieves a fast dynamic load response.
The load switch has 3A and only 20mΩ of
RDS(ON), achieves extremely small conduction
loss, and provides tight regulation with a high
load current. The load switch can also clamp
VOUT to 5.5V. The MP5403 can be used in
compact solid-state drives (SSD), portable
instruments, and battery-powered devices.
proprietary control scheme to save power and
improve efficiency. The MP5403 turns off the
low-side switch when the inductor current
begins reversing. The MP5403 then works in
discontinuous
conduction
mode
(DCM)
operation. With light-load mode control, the
switching loss can be greatly reduced due to
the lower switching frequency.
A zero-current cross detection (ZCD) circuit is
used to detect if the inductor current begins
reversing. Considering the internal circuit
propagation time, the typical delay is 50ns. This
means that the inductor current continues
falling after ZCD is triggered in this delay. If the
inductor current falling slew rate is fast (VOUT is
high or close to VIN), the low-side MOSFET
(LS-FET) is turned off, and the inductor current
may be negative. This prevents the MP5403
from entering DCM operation. If DCM operation
is required, the off time of the LS-FET in CCM
should be longer than 100ns. For example, if
VIN is 3.6V and VOUT is 3.4V, then the off time
in CCM is 37ns. It is difficult to enter DCM at
light load. Using a smaller inductor can improve
this and make it easier to enter DCM.
Peak-Current Mode Control
The two buck regulators of the MP5403 operate
at an 180° phase shift to reduce the input
current ripple and the required input capacitor.
In continuous conduction mode (CCM), two
internal clocks control the switching behavior.
The high-side MOSFET (HS-FET) turns on at
the corresponding clock’s rising edge. The two
clocks are at an 180o phase shift. When the
high-side switch current increases and reaches
the internal compensation voltage, the high-side
switch is turned off, and the low-side switch is
turned on to conduct current.
Enable (EN)
When VIN1 is greater than the under-voltage
lockout (UVLO) threshold (typically 2.5V), the
regulators or the load switch can be enabled by
pulling its EN pins above the EN UVLO
threshold. Leave the EN pins floating or pull the
EN pins down to ground to disable the
corresponding channel. There is an internal
2MΩ resistor from the EN pins to ground. There
is a delay of about 100µs for the VIN1 and VIN2
enable start-up. The VIN3 enable start-up delay
is shorter (around 70µs).
Soft Start (SS) and Output Discharge
The MP5403 has a built-in soft start (SS) that
ramps up the output voltage at a controlled slew
rate to prevent overshooting at start-up for both
step-down regulators and the load switch. For
the step-down regulator, the soft-start time is
about 500µs, typically. For the load switch, the
soft-start time is set to around 350µs. When the
regulators are disabled, the internal discharge
Figure 2: Phase Shift
The switching frequency is 1.5MHz, typically,
running in CCM. With a lower input voltage, the
switching frequency falls and works with a large
duty cycle and a fixed off-time mode.
MP5403 Rev. 1.0
9/20/2016
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16
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
resistor discharges VOUT. The discharge resistor
is biased by VSUS (see Table 1).
schematic in Figure 3 is only active in the 50µs
detection window.
During this 50µs time window, the PG1 (M2)
switch is turned off, and an internal 5µA pulled
high current is applied on PG1. The PG2 (M3)
switch (<400Ω) is turned on. If the PG1 voltage
is <150mV, the MP5403 enters parallel mode
(EN1 controls the parallel mode on/off). If the
PG1 voltage is >150mV, the MP5403 enters
independent working mode (EN1 and EN2
control separately).
Table 1: Output Discharge Conditions
Output Discharge
VIN
EN
No
>UVLO
>UVLO
<UVLO
<UVLO
High
Low
High
Low
Yes
Yes
Yes
VIN
Power Good (PG) Indicators
PG1
PG2
5µA current
during 50µs
window
The MP5403 has three separate power good
(PG), open-drain, output indicators for the
regulators and load switch. For the two step-
down regulators, when FB is in the regulation
window (between 90% to 130% of the reference
voltage, 0.6V), PG1 and PG2 are pulled up to
the external bus voltage through external
resistors. The pull-up resistors are recommend
not to be too low to ensure that the leakage
current is small when the PG pins are low and
not too high if the PG pins are used to drive the
downstream signals. Normally, pull-up resistors
between 10kΩ to 400kΩ are sufficient. The PG
rising delay is around 20µs. If the FB voltage
drops below 90% or above 130% of the
reference voltage, the PG pins are pulled down
to ground by an internal MOSFET. The
MOSFET has a maximum RDS(ON) of less than
400Ω. There is also a 60µs delay for the PG
falling threshold trigger.
I1
V1
OP1
M1
M2
M3
0.2V clamp
voltage
Turn off PG pull
down MOSFET
during 50µs window
Controlled by PG2
logic, if FB2 is low,
turn on MOSFET
OP2
Low logic enter
parallel capability
mode
V2
0.15V compare
voltage
Figure 3: PG Functional Schematic
If PG1 is connected to PG2 externally, the PG1
voltage is pulled below 150mV to make the
MP5403 enter parallel mode.
The PG1 connection
requires special
consideration (see Figure 4). If PG1 is
connected to another IC’s PG to control the
other device together, a resistor (RT) is
required to prevent the MP5403 from entering
parallel mode. RT is suggested to be 50kΩ.
The power good pin for the load switch (PG3) is
pulled high when the input voltage of the load
switch (VIN3) is higher than its UVLO threshold,
the output voltage (VOUT3) is less than 200mV
compared with the input voltage of the load
switch, and there is around 40µs of rising delay
for the PG3 indicator. If any of these three
conditions are not met, PG3 is pulled low.
External
pull up
voltage
RP
MP5403
Other IC
RT
The PG indicators are pulled low when VIN1 is
below UVLO. In this condition, the PG pins are
self-driven low (around 0.6V).
PG1
PG
To other
PG
There is another important feature on PG to
detect the parallel capability usage (see Figure
3). After VIN rises above ULVO and either EN1
or EN2 is high, the MP5403 uses an internal
50µs detection time window to determine if the
buck regulator is entering parallel mode. The
control
Figure 4: PG Connection Example
MP5403 Rev. 1.0
9/20/2016
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17
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
Power Failure Indicator (PFL)
For the load switch, the current limit begins
working when the load switch current reaches
the current limit threshold. The gate is pulled
low to regulate the load switch current to the
current limit. The output voltage drops until
thermal shutdown occurs.
The power failure indicator (PFL) senses the
external voltage rails. When the input voltage is
below the programmed threshold, the PFL
open-drain output is pulled low immediately to
indicate the monitored power failure. This
function is enabled by pulling any of the EN
pins (EN1, EN2, or EN3) high and disabled by
pulling all of the EN pins low. For example, if all
EN pins are low, PFL is zero, even if VIN is
above the UVLO threshold and PFL_ADJ is
higher than 0.6V. Ensure that there is at least
one EN pin that is high before using it to control
the other pins.
Short Circuit and Recovery
When CH1 or CH2 is in buck mode, the
MP5403 enters short-circuit protection (SCP)
mode when the inductor current reaches the
current limit for 300µs continuously or the
output voltage drops below 50% of the
regulation voltage. In SCP mode, the MP5403
disables the output power stage, discharges the
soft-start capacitor, and enters latch-off
protection mode. The MP5403 restarts by
recycling the power.
PFL_ADJ is used to adjust the power failure
threshold voltage. A resistor divider is used to
monitor the voltage rail. When the PFL_ADJ
voltage is lower than 0.6V, PFL is pulled down
to indicate the sense power failure. When the
PFL_ADJ voltage is higher than the 0.6V
reference voltage, PFL is pulled high with the
Parallel Capability
By connecting SW1 and SW2 together and
connecting PG1 and PG2 together, the two
step-down regulators can run in parallel mode
to increase the output power capability. In this
mode, only FB1 is used to program the output
voltage. Keep FB2 floating.
delay, which is set by CDELAY
.
Choose CDELAY using Equation (1):
CDELAY(pF)×0.62
TDELAY(μs) =
(1)
+3.5μs
IDELAY(μA)
Load-Switch Mode of Buck1/2
By pulling FB1 or FB2 to ground, the step-down
regulator 1 or 2 can enter load-switch mode
without having to install an inductor. The
MP5403 pulses a smaller current to the FB pins
before the system starts up. If a low impedance
is connected to the FB pins, the MP5403 enters
load-switch mode, where the high-side switch is
turned on gradually to achieve a soft start, and
short-circuit protection is equipped.
Where TDELAY is the PFL delay time, and IDELAY
is the CDELAY internal current source (typically
3.1µA).
Current Limit
The MP5403 has a high-side 5.6A current limit
for the first regulator and a 4.7A current limit for
the second regulator. When the high-side
switch reaches the current limit threshold, the
regulators shut down the high-side switch and
force the low-side switch on until the low-side
current drops to the low-side valley current
threshold (5A and 4A for the two regulators).
After the low-side current reaches the valley
current threshold, the high-side switch is
allowed to turn on again. If the high load current
persists, the high side turns on again, and the
current limit mechanism repeats until the output
voltage drops to the short-circuit threshold. If
the high-load current does not persist, then the
regulator runs back to normal condition.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
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© 2016 MPS. All Rights Reserved.
18
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
Inductor Selection
APPLICATION INFORMATION
Output Voltage Setting
The inductor has a great impact on several key
performances for the step-down switcher, such as
inductor current ripple, output voltage ripple,
efficiency, and load transient response.
The output voltage of the two switchers can be
adjusted with external resistor dividers (see
Figure 5). The typical reference voltage of both
FB1 and FB2 is 600mV. The maximum allowed
voltage for the outputs is close to the input
voltage minus the voltage drop when the high-
side switch is 100% turned on.
Calculate the inductor current ripple with Equation
(3):
VOUT (V VOUT
)
IN
(3)
IL
V LfSW
IN
Calculate the inductor peak current with Equation
(4):
SW1
R1
IL
2
FB1
ILpk ILoad
(4)
R2
Choosing the inductance is a trade-off between the
output ripple, efficiency, and transient response. The
larger the inductance is, the smaller the output
ripple, but the slower the response. Choose an
inductance to make the ripple current 30% to 40% of
the max load current.
SW2
R3
FB2
R4
The inductor saturation current must be higher than
the inductor peak current.
Figure 5: Feedback Resistor Dividers to Set the
Output Voltages
The inductor also impacts the solution efficiency in
terms of conduction loss and coil-related loss.
Generally, the DC resistance provides DC
conduction loss information. For AC conduction loss
and coil-related loss, please refer to the vendor
datasheet for more detailed information.
The divider current is recommended to be
higher than 500nA to avoid influence from the
feedback node leakage current (which is in the
10nA level). Additionally, considering control
loop optimization, the pull-up resistor is
recommended to be between 100kΩ to 500kΩ.
Then, the pull-down resistor can be calculated
with Equation (2):
Input Capacitor Selection
The input capacitor reduces the surge current
drawn from the input and the switching noise
from the device. Select an input capacitor with a
switching frequency impedance less than the
input source impedance to prevent high-
frequency switching current from passing to the
input source. Use low ESR ceramic capacitors
with X5R or X7R dielectrics and small
temperature coefficients. For most applications,
a 22μF capacitor is sufficient.
R1(orR3)
(2)
R2(orR4)
VOUT
1
0.6V
Table 2 shows some typical output voltages
and their corresponding recommended resistor
divider values.
Table 2: Output Voltage vs. Resistor Values
VOUT
1.2V
1.5V
1.8V
2.5V
3.3V
R1
R2
300kΩ
300kΩ
300kΩ
300kΩ
300kΩ
300kΩ
200kΩ
150kΩ
95.3kΩ
66.5kΩ
NOTE: COUT is 22µF for each channel.
MP5403 Rev. 1.0
www.MonolithicPower.com
19
9/20/2016
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MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
Output Capacitor Selection
The output capacitor limits the output voltage
ripple and ensures a stable regulation loop.
Select an output capacitor with low impedance
at the switching frequency. Use ceramic
capacitors with X5R or X7R dielectrics. Using
an electrolytic capacitor may result in additional
output voltage ripple, thermal issues, and
require additional care in selecting the feedback
resistor (R1) due to the large ESR. For most
applications, a 22µF capacitor is sufficient.
GND
VIN1
GND
C2
VIN2
C1A
C1B
R1
R3
R2
C4
C3
VIN3
PG3
PG2
PG1
EN1
EN2
EN3
R4
GND
VOUT3
PCB Layout Guidelines
C7
Efficient PCB layout of the switching power
supplies is critical for stable operation. If the
layout is not done carefully, regarding the high
switching frequency converter especially, the
regulator could show poor line or load
regulation and stability issues. For best results,
refer to Figure 6 and follow the guideline below.
L2
L1
C6
GND
C5
VOUT1
VOUT2
Top Layer
1. Place the input capacitor as close to the IC
pins as possible for the high-speed step-
down regulator to provide clean control
voltage.
GND
VIN3
Vout2 Sense
Vout1 Sense
Bottom Layer
Figure 6: Recommended PCB Layout
MP5403 Rev. 1.0
9/20/2016
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20
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
TYPICAL APPLICATION CIRCUITS
U1
VSUS
PFL
PFL
C6
0.1µF
CDELAY
C7
10nF
1.8V
L1
SW1
FB1
VOUT1
VOUT2
100kΩ
100kΩ
R6
R5
300kΩ R1
PFL_ADJ
VIN1
C2
R2
150kΩ
22µF
2.7V-6V
VIN
1.2V
MP5403
L2
SW2
FB2
C1A
C1B
100
100
kΩ
R7
100
kΩ
R9
kΩ
22µF
22µF
300kΩ R3
300kΩ R4
R11
C3
22µF
VIN2
R8
R10 R12
100 100
100kΩ
kΩ
kΩ
VIN3
EN1
EN2
VIN3
C4
10µF
EN3
OUT3
VOUT3
PG1
PG2
PG3
PG1
PG2
PG3
C5
10µF
GND, AGND
Figure 7: Typical System Architecture Using 2 Units
U1
VSUS
PFL
PFL
C6
0.1µF
CDELAY
C5
10nF
1.2V
L1
SW1
SW2
VOUT1
100kΩ
100kΩ
R3
R4
C2A
22µF
C2B
22µF
PFL_ADJ
VIN1
300kΩ R1
FB1
FB2
R2
300kΩ
2.7V-6V
C1A
VIN
MP5403
C1B
100kΩ
22µF
22µF
R5
VIN2
R6
100kΩ
R7
R8
100kΩ 100kΩ
VIN3
EN1
EN2
VIN3
C3
10µF
EN3
OUT3
VOUT3
PG1
PG2
PG3
PG1
PG3
C4
10µF
GND, AGND
Figure 8: Typical System Architecture Using Parallel
MP5403 Rev. 1.0
9/20/2016
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© 2016 MPS. All Rights Reserved.
21
MP5403 – CONFIGURABLE 2.7V-6V MINI PMIC WITH DUAL 2.5A/3.5A BUCK,
ONE LOAD SWITCH, AND INPUT POWER SUPERVISORY
PACKAGE INFORMATION
UTQFN-20 (2.5mmx3mm)
PIN 1 ID
MARKING
PIN 1 ID
INDEX AREA
TOP VIEW
BOTTOM VIEW
SIDE VIEW
NOTE:
1) LAND PATTERN OF PIN3,5,12 AND 14 HAVE THE SAME
LENGTH AND WIDTH.
2) LAND PATTERN OF PIN4,6,13 AND 15 HAVE THE SAME
LENGTH AND WIDTH.
3)ALL DIMENSIONS ARE IN MILLIMETERS.
4) EXPOSED PADDLE SIZE DOES NOT INCLUDE MOLD
FLASH.
5) LEAD COPLANARITY SHALL BE 0.10 MILLIMETERS MAX.
6) DRAWING CONFIRMS TO JEDEC MO-220.
7) DRAWING IS NOT TO SCALE.
RECOMMENDED LAND PATTERN
NOTICE: The information in this document is subject to change without notice. Please contact MPS for current specifications.
Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS
products into any application. MPS will not assume any legal responsibility for any said applications.
MP5403 Rev. 1.0
9/20/2016
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2016 MPS. All Rights Reserved.
22
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