MPS MP5087 5.5v, 7a low rdson load switch with current monitoring Datasheet

MP5087
5.5V, 7A Low RDSON Load Switch
with Current Monitoring
DESCRIPTION
FEATURES
The MP5087 is a load switch to provide 7A load
protection covering 0.5V to 5.5V voltage range.
With the small RDSON in tiny package, MP5087
provides very high efficient and space saving
solution in notebook and tablet or other portable
devices application.
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The MP5087 equipped with the very accurate
current monitor function. The gain of the current
monitor can be scaled to different applications.
With the soft start function, the MP5087 can
avoid inrush current during circuit start up.
MP5087 also provides different functions, like
programmable soft start time, output discharge
function, OCP and thermal shutdown features.
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Tiny QFN-12 (2mmx2mm) of MP5087 is
available in space saving package.

Large VIN Range from 0.5V to 5.5V
<1µA Shutdown Current
Integrated 10mΩ Low RDSON FETs
Typical 7A Load Current Range
Output Current Monitoring Accurate High
to 3%
Push Pull PG Indicator
Adjustable Start Up Slew Rate
Output Discharge Function
<200ns Short-Circuitry Response Protection
Thermal Protection
Small QFN-12 (2mmx2mm) Package for
Space Saving
Safety approvals
 UL2361, file no. 20150402-E322138
APPLICATIONS
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Notebook and Tablet Computers
Portable Devices
Solid State Drivers
Handheld Devices
All MPS parts are lead-free and adhere to the RoHS directive. For MPS green
status, please visit MPS website under Quality Assurance.
“MPS” and “The Future of Analog IC Technology” are Registered Trademarks of
Monolithic Power Systems, Inc.
TYPICAL APPLICATION
MP5087 Rev. 1.2
8/16/2017
www.MonolithicPower.com
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1
MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
ORDERING INFORMATION
Part Number*
MP5087GG
Package
QFN-12 (2mmx2mm)
Top Marking
See Blow
* For Tape & Reel, add suffix –Z (e.g. MP5087GG–Z);
TOP MARKING
BD: product code of MP5087GG;
Y: year code;
LLL: lot number;
PACKAGE REFERENCE
TOP VIEW
QFN-12 (2mmx2mm)
MP5087 Rev. 1.2
8/16/2017
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
ABSOLUTE MAXIMUM RATINGS (1)
Thermal Resistance
VIN .............................................. –0.3V to +6.5V
VCC ............................................. –0.3V to +6.5V
VOUT ........................................... –0.3V to +6.5V
EN, SS, IMON .....................–0.3V to Vcc+0.3 V
Junction Temperature .............................. 150°C
Lead Temperature ................................... 260°C
(2)
Continuous Power Dissipation
QFN-12 (2mmx2mm) .................................1.6W
QFN-12 (2mmx2mm) ……....…80
Recommended Operating Conditions
(3)
Supply Voltage VIN ......................... 0.5V to 5.5V
Supply Voltage VCC ........................... 3V to 5.5V
Output Voltage VOUT....................... 0.5V to 5.5V
Operating Junction Temp. ........ -40°C to +125°C
MP5087 Rev. 1.2
8/16/2017
(4)
θJA
θJC
16
°C/W
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-toambient 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 will cause excessive die temperature, and the
regulator will go into thermal shutdown. Internal thermal
shutdown circuitry protects the device from permanent
damage.
3) The device is not guaranteed to function outside of its
operating conditions.
4) Measured on JESD51-7, 4-layer PCB.
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
ELECTRICAL CHARACTERISTICS
VIN = 3.6V, VCC = 3.6V, TA = 25°C, unless otherwise noted.
Parameters
Input and Supply Voltage Range
Input Voltage
Supply Voltage
Supply Current
Symbol
Condition
VIN
VCC
Min
Typ
0.5
3
Max
Units
5.5
5.5
V
V
1
µA
1
300
µA
Off State Leakage Current
IOFF
VIN=5V, EN=0
VCC Standby Current
ISTBY
VCC=5V, EN=0
VCC=5V, Enable, No load
0.1
220
VCC=5.0V
VCC=3.3V
10
12
mΩ
155
30
°C
°C
Power FET
ON Resistance
RDSON
Thermal Shutdown and Recovery
Shutdown Temperature
Hysteresis
Under Voltage Protection
VCC Under Voltage Lockout
Threshold
UVLO Hysteresis
Soft Start
SS pull-up current
Enable
EN Rising Threshold
EN Hysteresis
IMON
Current limit
(5)
TSTD
THYS
VCC_UVLO
2.6
VUVLO_HYS
ISS
Fixed slew rate
VENH
VEN_HYS
IOUT
VIN=3.6V
Current Monitor Accuracy
VIN=1.2V
Discharge Resistance
Discharge Resistance
PG
UVLO Rising Threshold
VPG_R
Power Good Hysteresis
Power Good Delay
Power Good High
Power Good Low
VPG_H
TPG_D
VPG_H
VPG_L
V
200
mV
9
µA
1.3
1.5
400
1.7
V
mV
RIMON=50kΩ, ramp lout
record peak current limit
1.54
1.64
1.74
A
IOUT=3.75A
IOUT=3A
(6)
IOUT=1.5A
IOUT=3.75A
IOUT=3A
(6)
IOUT=1.5A
44.35
35.49
17.39
44.3
35.43
17.54
45.73
36.59
18.3
46.65
37.3
18.66
47.11
37.69
19.22
49
39.2
19.78
µA
RDIS
Power Good Rising Threshold
2.8
Ω
200
Voltage gap between VOUT
and VIN
110
150
250
mV
0.2
mV
µs
V
V
50
90
VCC=3.3V
Sink 1mA
3.2
Notes:
5) Guarantee by design.
6) If load current is smaller than 1.5A, the IMON accuracy will be affected by some internal offset.
MP5087 Rev. 1.2
8/16/2017
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
PIN FUNCTIONS
QFN-12
(2mmx2mm)
Pin #
Name Description
1
EN
2
3
GND
VCC
4
5
6, 11
7, 8, 9, 10
12
MP5087 Rev. 1.2
8/16/2017
Enable Input. Pulling this pin below the specified threshold shuts the chip down.
Ground.
Supply Voltage to the Control Circuitry.
Output Current Monitor. Provides a voltage proportional to the current flowing through the
IMON
power device. Place a resistor to ground to set the gain.
Soft Start Pin. An external capacitor connected to this pin sets the slew rate of the output
SS
voltage soft start period.
VIN
Input Power Supply.
VOUT Output to the Load.
PG
Power Good Pin. Push-Pull output.
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
TYPICAL PERFORMANCE CHARACTERISTICS
VIN = 3.6V, VCC = 3.6V, TA = 25°C, RIMON = 10.5kΩ, unless otherwise noted.
MP5087 Rev. 1.2
8/16/2017
www.MonolithicPower.com
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 3.6V, VCC = 3.6V, TA = 25°C, RIMON = 10.5kΩ, unless otherwise noted.
MP5087 Rev. 1.2
8/16/2017
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© 2017 MPS. All Rights Reserved.
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 3.6V, VCC = 3.6V, TA = 25°C, RIMON = 10.5kΩ, unless otherwise noted.
MP5087 Rev. 1.2
8/16/2017
www.MonolithicPower.com
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© 2017 MPS. All Rights Reserved.
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 3.6V, VCC = 3.6V, TA = 25°C, RIMON = 10.5kΩ, unless otherwise noted.
MP5087 Rev. 1.2
8/16/2017
www.MonolithicPower.com
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© 2017 MPS. All Rights Reserved.
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
VIN
Charge
Pump
Current
Sense
VCC
4μA
IMON
VOUT
Fast Off Comp
Soft Start
9μA
1V
Current Limit Amp
SS
UVLO
VCC
Control Logic
4μA
8μA
Thermal
Sense
EN
80k
VOUT
VIN
GND
VCC
PG
Figure 1: Functional Block Diagram
MP5087 Rev. 1.2
8/16/2017
www.MonolithicPower.com
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
OPERATION
The MP5087 is designed to limit the in-rush
current to the load when a circuit card is
inserted into a live backplane power source,
thereby limiting the backplane’s voltage drop
and the slew rate of the voltage to the load. It
provides an integrated solution to monitor the
input voltage, output voltage and output current
to eliminate the need for an external current
power MOSFET, and current sense device.
Enable
When input voltage is greater than the undervoltage lockout threshold (UVLO), typically 0.5V,
MP5087 can be enabled by pulling EN pin to
higher than 1.5V. Pulling down to ground will
disable MP5087.
Current Limit
The MP5087 provides a constant current limit
that can be programmed by an external resistor.
Once the device reaches its current limit
threshold, the internal circuit regulates the gate
voltage to hold the current in the power FET
constant. The typical response time is about
20µs and the output current may have a small
overshoot during this time period.
The pre-set current limit value
calculated by below equation:
ILimit = (1÷RIMON )×S
can
be
(1)
S is the current sense ratio of MP5087, and this
value is typically 82000 in VIN=3.6V. The S is
almost a constant value when Vin is changing
from 1.2V to 5.5V, and when Vin is smaller than
1.2V, a step change will come to S value, the
value will change from 82000 to about 80000.
Meanwhile, when Vcc is changing, there is also
a little shift on S value, for more information,
please refer the curves in typical performance
characteristics.
If the current limit block starts to regulate the
output current, the power loss on power
MOSFET will cause the IC temperature rise. If
the junction temperature rose to high enough, it
will trigger thermal shutdown. After thermal
shutdown happened, it will disable the output
until the over temperature fault remove. The
over temperature threshold is 155°C and
hysteresis is 30°C.
MP5087 Rev. 1.2
8/16/2017
Power-Good Function
The PG pin is the push pull of a MOSFET that
can be pulled high to VCC. The MOSFET turns
on with the application of an input voltage so
that the PG pin is pulled to GND. After the
voltage gap between VIN and VOUT is smaller
than 150mV, the PG pin is pulled high after a
90µs delay. When the voltage gap is higher
than 200mV, the PG pin will be pulled low. The
PG pin has a nominal pull down resistance of
200Ω and a pull-up resistance of 250KΩ.The
maximum sink current when the pin is pulled to
GND through the internal pull-down resistor
should be <10mA
Short-Circuit Protection
If the load current increases rapidly due to a
short circuit, the current may exceed the current
limit threshold by a lot before the control loop
can respond. If the current reaches an internal
secondary current limit level (about 13A), a fast
turn-off circuit activates to turn off the power
FET. This limits the peak current through the
switch to limit the input voltage drop. The total
short circuit response time is about 200ns. If
fast off works, it will keep off the power FET for
80µs. After that time period, it will re-turn on
power FET, if the part is still in short-circuit
condition. MP5087 will reduce the current limit
to 2/3 of pre-set value, and hold it until the part
is so hot and thermal shutdown. After the shortcircuit condition removed, the current limit will
recover to the pre-set value automatically.
Output Discharge
MP5087 has output discharge function. This
function can discharge the VOUT by internal pull
down resistance when IC disabled and the load
is very light.
Soft-Start
A capacitor connected to the SS pin determines
the soft-start time. There is an internal 9µA
constant current source charge SS cap and
ramps up the voltage on the SS pin. The output
voltage rises at 3 times the slew rate to the SS
voltage.
The soft-start time can be calculated by below
equation:
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
1 VOUT (V)  CSS (nF)
(2)

3
ISS (uA)
TSS is the soft-start time, ISS is internal 9µA
constant current, CSS is external soft-start cap.
The suggestion minimum SS cap should be
bigger than 4.7nF. If the SS pin is floated or SS
cap is too small, the VOUT rising time will be just
limited by power MOS charge time.
TSS (ms) 
MP5087 Rev. 1.2
8/16/2017
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
APPLICATION INFORMATION
IMON Resistor Selection
The current limit value can be set by IMON
resistor. The current limit can be gotten by
equation (1).
The current limit threshold is suggested to 10%
~ 20% higher than maximum load current. For
example, if the system’s full load is 7A, set the
current limit to 7.7A.
IMON Capacitor Selection
The internal advanced auto-zero comparator
bring a high accuracy of current monitor. The
auto-zero will also cause some little jitter on
IMON pin. To get a more stable IMON, a small
ceramic capacitor can be mounted between
IMON and ground. Suggested place an IMON
capacitor less than 1nF.
Soft Start Capacitor Selection
There is an internal 9µA constant current
source charge SS cap and ramps up the
voltage on the SS pin. The output voltage rises
follow the slew rate of SS voltage.
If the inrush on output current reached the
current limit during start up (like with large
output cap or very large load), MP5087 will limit
the output current and the same time, SS time
will be increased (Fig 2 and Fig 3).
Component Selection
Soft Start @ Different Load
VOUT
Current Limit
IIN
Soft Start @ No Load
VOUT
Current Limit
IIN
Soft Start @ Half Load
VOUT
Current Limit
IIN
Soft Start @ Very large Load
Figure 2: Soft Start Periods at different load
MP5087 Rev. 1.2
8/16/2017
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
Soft Start @ Different Output Capacitance
VOUT
Current Limit
IIN
Figure 4: Typical Application Schematic
Layout Guide
Soft Start @ Small Capacitance
VOUT
Current Limit
IIN
PCB layout is very important to achieve stable
operation. Please follow these guidelines and
take below figure for reference. Place RIMON
close to IMON pin, input cap close to VCC pin.
Put enough vias around IC to achieve better
thermal performance.
Soft Start @ Large Capacitance
GND
Vin
C1
GND
PG
VOUT
Current Limit
C3
C5
EN
VCC
Vout
GND
IMON
R1
IIN
C4
C6
Soft Start @ Very large
Capacitance
GND
Vin
C2
GND
Figure 3: Soft Start Periods at different
output capacitance
Figure 5: Recommended Layout
Design Example
Some design example and are provided below.
See Table 1 and Figure 4.
Table 1
VIN
(V)
5
5
5
Max Load Range Rlimit
(A)
(kΩ)
3
26.1
5
15.8
7.5
10.5
MP5087 Rev. 1.2
8/16/2017
SS cap
(nF)
22
47
100
SS time
(ms)
4
9
20
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MP5087 – 5.5V, 7A LOW RDSON LOAD SWITCH WITH CURRENT MONITORING
PACKAGE INFORMATION
QFN-12 (2mmx2mm)
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.
MP5087 Rev. 1.2
8/16/2017
www.MonolithicPower.com
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© 2017 MPS. All Rights Reserved.
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