MP5013A
The Future of Analog IC Technology
5 V, 5 A Programmable Current-Limit
Switch with Over-Voltage Clamp and
Slew-Rate Control in TSOT23-8
DESCRIPTION
FEATURES
The MP5013A is a protection device designed to
protect circuitry on the output (source) from
transients on the input (VCC). Also, it protects the
input from undesired shorts and transients
coming from the source.
A small capacitor on DV/DT controls the slew
rate that limits the inrush current at the source.
DV/DT has an internal circuit that allows the
customer to float this pin (no connection) and still
receive 1.4 ms ramp time at the source. The
maximum load at the source is current limited
using a sense FET topology. An external resistor
between I-LIMIT and SOURCE controls the
magnitude of the current limit.
An internal charge pump drives the gate of the
power device, allowing the DMOS power FET to
have a very low on resistance of just 36 mΩ.
The MP5013A protects the source from the input
becoming too low or too high. Under-voltage
lockout ensures that the input remains above the
minimum operating threshold before the power
device turns on. If the input rises above the high
output threshold, the MP5013A limits the source
voltage.
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•
•
•
•
•
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3 V to 5.5 V Operating Input Range
5.7 V Typical Output Over-Voltage Clamp
Absolute Maximum Voltage of 22 V
Input Under-Voltage Lockout
Low Inrush Current during Start-Up
Integrated 36 mΩ Power FET
Enable/Fault Pin
Adjustable Output Voltage Slew Rate
Adjustable Current Limit
Thermal Shutdown Protection
TSOT23-8 Package
APPLICATIONS
•
•
•
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Storage (HDDs, SSDs)
Hot-Swap Systems
Set-Top Boxes
USB Ports/Hubs
Gaming
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.
TYPICAL APPLICATION
MP5013A Rev. 1.0
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
ORDERING INFORMATION
Part Number*
MP5013AGJ
Package
TSOT23-8
Top Marking
See Below
* For Tape & Reel, add suffix –Z (e.g. MP5013AGJ–Z)
TOP MARKING
AMK: Product code of MP5013AGJ
Y: Year code
PACKAGE REFERENCE
ABSOLUTE MAXIMUM RATINGS (1)
VCC, SOURCE, I-LIMIT...............–0.3 V to 22 V
DV/DT, ENABLE/FAULT................–0.3 V to 6 V
Storage temperature ............... –65°C to +155°C
Junction temperature................................. +150°C
Lead temperature...................................... +260°C
(2)
Continuous power dissipation (TA=+25°C)
............................................................... .1.25 W
Recommended Operating Conditions
(3)
Input voltage operating range ......... 3 V to 5.5 V
0.5 in2 pad ................................................. 4.2 A
For minimum copper, TA = 80°C ................ 2.3 A
Operating junction temp. (TJ)........ -40°C to +125°C
Thermal Resistance
(4)
θJA
θJC
TSOT23-8 ..............................100 ..... 55 ... °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 power dissipation at any ambient
temperature is calculated using: PD(MAX)=(TJ(MAX)-TA)/ θJA.
Exceeding the maximum allowable power dissipation will
produce an excessive die temperature, causing the regulator
to go into thermal shutdown. Internal thermal shutdown
circuitry protects the device from permanent damage.
o
Reduce 0.1 watts for every 10 C ambient temperature
increase.
3) The device is not guaranteed to function outside of its
operating conditions.
4) Measured on JESD51-7 4-layer board.
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
ELECTRICAL CHARACTERISTICS
VCC = 5 V, RLIMIT = 22 Ω, Capacitive Load = 10 μF, TJ = 25°C, unless otherwise noted.
Parameters
Power FET
Symbol
Delay time
τDLY
On resistance
RDSon
Off-state output voltage
VOFF
Thermal latch
Shutdown temperature(5)
Under/over-voltage protection
TSD
Output clamp voltage
VCLAMP
Under-voltage lockout
Under-voltage lockout (UVLO)
Hysteresis
Current limit (5)
VUVLO
Hold current
ILIM-SS
Trip current
DV/DT circuit
ILIM-OL
Rise time
VIL
VI (INT)
VIH
VI (MAX)
IIL
Maximum fanout for fault signal
Maximum voltage on EN
Total device
(6)
Min
Enabling of chip to ID = 40 mA
with a 5 Ω resistive load, float
DV/DT
TJ = 25°C
TJ = 85°C(5)
VCC = 18 V, VEN = 0 V,
RL = 500 Ω
Typ
Max
Units
37
μs
36
48
mΩ
120
mV
175
Over-voltage protection
VCC = 8 V
Rising edge
°C
5.5
5.7
5.9
V
2.5
2.7
2.9
V
0.13
VHYST
τr
Enable/fault
Low-level input voltage
Intermediate-level input voltage
High-level input voltage
High-state maximum voltage
Pull-up current (source)
Condition
0 Ω short resistance,
RLIM = 22 Ω
RLIM = 22 Ω
2.1
Float DV/DT, Output rises from
10% to 90%
Output disabled
Thermal fault, output disabled
Output enabled
VENABLE = 0 V
Maximum number of chips for
simultaneous shutdown
0.82
2.5
15
2.8
IBIAS
Device operational
Enable shutdown
Thermal shutdown
Minimum operating voltage for
UVLO
VMIN
Enable < 0.5 V
3.5
A
5
A
1.4
ms
1.3
0.5
1.95
4.95
25
35
V
V
V
V
μA
3
Units
VCC
V
950
650
700
μA
2.5
V
VMAX
Bias current
V
890
580
600
NOTES:
5) Guaranteed by characterization test.
6) Maximum input voltage on ENABLE/FAULT is ≤ 6 V if VCC ≥ 6 V. Maximum input voltage on ENABLE/FAULT is VCC if VCC ≤ 6 V.
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS
VIN = 5 V, VEN = 5 V, RLIMIT = 22 Ω, COUT = 10 μF, CDV/DT = float, TA = 25°C, unless otherwise noted.
7
950
650
6
900
600
5
850
550
4
800
500
3
750
450
2
700
400
1
650
350
0
10 20 30 40 50 60 70 80 90100
600
55
3
3.5
4
4.5
5
5.5
300
3
3.5
4
4.5
5
5.5
3
3.5
4
4.5
5
5.5
4
120
100
50
3.5
80
45
60
40
3
40
2.5
35
20
30
3
3.5
4
4.5
5
5.5
0
0
0.5
1
1.5
2
8
12
16
20
2
15
6
5
12
4
9
3
6
2
3
1
0
3
3.5
4
4.5
5
5.5
0
4
MP5013A Rev. 1.0
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5 V, VEN = 5 V, RLIMIT = 22 Ω, COUT= 10 μF, CDV/DT = Float, TA = 25°C, unless otherwise noted.
Start-Up through Input Voltage
No Load
VOUT
2V/div.
VOUT
2V/div.
VOUT
2V/div.
VIN
5V/div.
VEN
5V/div.
IOUT
1A/div.
VIN
5V/div.
VEN
5V/div.
IOUT
1A/div.
VIN
5V/div.
VEN
5V/div.
VOUT
2V/div.
VOUT
2V/div.
VOUT
2V/div.
VIN
5V/div.
VEN
5V/div.
IOUT
2A/div.
VIN
5V/div.
VEN
5V/div.
IOUT
1A/div.
VIN
5V/div.
VEN
5V/div.
IOUT
2A/div.
Start-Up through Enable
No Load
IOUT
2A/div.
Shutdown through
Input Voltage
Shutdown through Enable
No Load
No Load
VOUT
2V/div.
VOUT
2V/div.
VOUT
2V/div.
VIN
5V/div.
VEN
5V/div.
IOUT
1A/div.
VIN
5V/div.
VEN
5V/div.
IOUT
1A/div.
VIN
5V/div.
VEN
5V/div.
IOUT
1A/div.
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5 V, VEN = 5 V, RLIMIT = 22 Ω, COUT = 10 μF, CDV/DT = float, TA = 25°C, unless otherwise noted.
Short Circuit before Input
Voltage Start-Up and Thermal
Shutdown
VOUT
2V/div.
VOUT
2V/div.
VOUT
2V/div.
VIN
5V/div.
VEN
5V/div.
VIN
5V/div.
VEN
5V/div.
VIN
5V/div.
VEN
5V/div.
IOUT
2A/div.
IOUT
1A/div.
Current Limit
Short Circuit during normal
Operation and Thermal
Shutdown
IOUT
2A/div.
Start-Up into OVP
VIN = 16V
VOUT
2V/div.
VOUT
2V/div.
VIN
5V/div.
VEN
5V/div.
IOUT
2A/div.
IOUT
2A/div.
MP5013A Rev. 1.0
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
PIN FUNCTIONS
Pin #
Name
1
I-LIMIT
2
ENABLE/FAULT
3
DV/DT
4
5,6
GND
SOURCE
7,8
VCC
Description
Current limit. Use a resistor between I-LIMIT and the SOURCE pins to set the
overload and short-circuit current-limit levels.
A tri-state, bi-directional interface. Leave ENABLE/FAULT floating to enable
the output. Pull ENABLE/FAULT to ground (using an open drain or open
collector device) to disable the output. If a thermal fault occurs, this voltage
enters an intermediate state to signal that the device is in thermal shutdown.
Controls the slew rate of the output voltage at turn on. DV/DT has an
internal capacitor that allows it to ramp up over a period of 1.4 ms. An external
capacitor can be added to DV/DT to increase the ramp time. If an additional
time delay is not required, DV/DT should be left open.
Ground. Internal IC reference.
Source. Internal power FET source. IC output.
Input. Positive input voltage.
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
FUNCTIONAL BLOCK DIAGRAM
VCC
ENABLE/
FAULT
I-LIMIT
Figure 1—Functional block diagram
MP5013A Rev. 1.0
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
OPERATION
The MP5013A limits the inrush current to the
load when a circuit card connects to a live
backplane power source, thereby limiting the
backplane’s voltage drop and the dv/dt of the
voltage to the load. It offers an integrated solution
to monitor the input voltage, output voltage,
output current, and die temperature, eliminating
the external current-sense power resistor, power
MOSFET, and thermal sensor.
Under-Voltage Lockout Operation
If the supply (input) is below the UVLO threshold,
the output is disabled, and the ENABLE/FAULT
line is driven low.
When the supply rises above the UVLO threshold,
the output is enabled, and ENABLE/FAULT is
pulled high through a 25 μA current source
without an external pull-up resistor. The pull-up
voltage is limited to 4.95 V.
Output Over-Voltage Protection (OVP)
If the input voltage exceeds the over-voltage
protection (OVP) threshold, the output is clamped
at 5.7 V (typically).
Current Limiting
When the chip is active, if the load reaches the
over-current protection (OCP) threshold (trip
current), or a short is present, the part switches
to constant-current mode (hold current). The chip
shuts down only if the over-current condition
eventually triggers thermal protection. However,
when the part is powered up by VCC or EN, the
load current should be less than the hold current.
Otherwise, the part cannot be turned on fully.
In a typical application with a current-limiting
resistor of 22 Ω, the trip current is 5 A, and the
hold current is 2.8 A. If the device is in normal
operation and passing 2 A, it will only need to
dissipate 144 mW with the low on resistance of
36 mΩ. For a package dissipation of 100°C/W,
the temperature rise is +14°C. Given a 25°C
ambient temperature, the typical package
temperature is 39°C.
heat dissipation at 100°C/W, the temperature will
exceed the thermal threshold (+175°C), and the
MP5013A will shut down to force the temperature
to drop.
Thermal Protection
If the temperature exceeds the thermal threshold,
the MP5013A disables its output and drives the
ENABLE/FAULT line to the middle (mid) level
(see the following “ENABLE/FAULT” section for
more information). The thermal fault condition is
latched, and the part will remain in a latched-off
state until the power is re-started, or ENABLE/
FAULT is re-set.
ENABLE/FAULT
ENABLE/FAULT is a bi-directional, three-level
I/O with a weak pull-up current (25 μA, typically).
The three levels are low, mid, and high. It
functions to enable/disable the part and to relay
fault information.
ENABLE/FAULT as an input:
1.
Low and mid disable the part.
2.
Low, in addition to disabling the part,
clears the fault flag.
3.
High enables the part (if the fault flag is
clear).
ENABLE/FAULT as an output:
1.
The pull-up current will allow a “wired
nor” pull-up to enable the part (if not
overridden).
2.
An under-voltage condition will cause a
low on ENABLE/FAULT and will clear
the fault flag.
3.
A thermal fault will set a mid on the
ENABLE/FAULT and will set the fault
flag.
The MP5013A requires a heat sink during
constant-current mode (e.g., from a short circuit)
to prevent an unwanted shutdown. (During a
short-circuit condition, the chip must dissipate the
power from a 5 V drop.) Without an additional
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
The ENABLE/FAULT line must remain at a high
level for the output to turn on.
The fault flag is an internal flip-flop that can be
set or re-set under the following conditions:
1.
Thermal Shutdown: sets fault flag.
2.
Under-Voltage: re-sets fault flag.
3.
Low on ENABLE/FAULT: re-sets fault
flag.
4.
Mid on ENABLE/FAULT: no effect.
During a thermal shutdown, ENABLE/FAULT is
driven to the mid level.
There are 4 types of faults, and each fault has a
direct and indirect effect on EANBLE/FAULT
and the internal fault flag (see Table 1). In a
typical application, there are one or more of the
MP5013A chips in a system. ENABLE/FAULT
lines are connected together typically.
Table 1—Fault function influence in application
Fault Description
Internal Action
Effect on Fault Pin
Effect on Flag
Effect on Secondary Part
Short/over current
Limits current
None
None
Under voltage
Output turns off
None
Internally drives
ENABLE/FAULT to
logic low
Flag is re-set
Disables secondary output
and re-sets fault flag
None
None
None
Internally drives
ENABLE/FAULT
to mid level
Flag is set
Disables secondary part
output
Over voltage
Thermal
shutdown
Limits output
voltage
Shutdown. The part
is latched off until a
UVLO or externally
driven to ground.
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
APPLICATION INFORMATION
Current Limit
Rise Time
The rise time is a function of the capacitor (CDV/DT)
on DV/DT. Table 3 lists the typical rise time as a
function of capacitance.
The current limit is a function of the external
current-limit resistor. Table 2 lists examples of
current values as a function of the resistor value.
Table 2—Current limit vs. current limit resistor (VCC = 5 V)
RLIMIT (Ω)
22
51
75
100
220
Trip current (A)
Hold current (A)
5
2.8
3.4
1.2
2.98
0.84
2.7
0.65
2.43
0.33
Table 3—Rise time vs. CDV/DT
CDV/DT
Rise time
(ms, typically)
None
150 pF
470 pF
1 nF
1.4
5.9
15.5
31.4
* NOTE: Rise time(ms) = 0.03ms*CDV/DT(pF)+1.4ms
The rise time is measured from 10% to 90% of
the output voltage (see Figure 2).
Figure 2—Rise time
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
PCB Layout Guidelines
Efficient PCB layout is critical to achieve stable
operation. For best results, please refer to Figure
3 and follow the guidelines below:
1. Place RLIMIT close to the I-LIMIT.
2. Place CDV/DT close to DV/DT.
3. Place the input capacitor close to VCC.
4. Place enough copper area near VCC and
SOURCE for thermal dissipation.
Design Example
Table 4 shows a design example following the
application guidelines for the given specifications:
Table 4—Design example
5V
VIN
5A
Trip current
2.8 A
Hold current
Figure 4 shows the application schematic. The
“Typical Performance Characteristics” section
shows the circuit waveforms. For more device
applications, please refer to the related
evaluation board datasheet.
Top Layer
Bottom Layer
Figure 3—Sample PCB layout
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
TYPICAL APPLICATION CIRCUITS
7
C1
10 µF
C2
NS
5
C3
10 µF
MP5013A
6
8
2
R1
22 Ω
3
1
C4
NS
4
Figure 4—Typical application schematic
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�MP5013A – 5 V, 1 A-5 A PROGRAMMABLE CURRENT LIMIT SWITCH
PACKAGE INFORMATION
TSOT23-8
See note 7
EXAMPLE
TOP MARK
PIN 1 ID
IAAAA
RECOMMENDED LAND PATTERN
TOP VIEW
SEATING PLANE
SEE DETAIL ''A''
FRONT VIEW
SIDE VIEW
NOTE:
DETAIL ''A''
1) ALL DIMENSIONS ARE IN MILLIMETERS.
2) PACKAGE LENGTH DOES NOT INCLUDE MOLD
FLASH, PROTRUSION OR GATE BURR.
3) PACKAGE WIDTH DOES NOT INCLUDE
INTERLEAD FLASH OR PROTRUSION.
4) LEAD COPLANARITY (BOTTOM OF LEADS
AFTER FORMING) SHALL BE 0.10 MILLIMETERS
MAX.
5) JEDEC REFERENCE IS MO-193, VARIATION BA.
6) DRAWING IS NOT TO SCALE.
7) PIN 1 IS LOWER LEFT PIN WHEN READING TOP
MARK FROM LEFT TO RIGHT, (SEE EXAMPLE TOP
MARK)
NOTICE: The information in this document is subject to change without notice. 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.
MP5013A Rev.1.0
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