MPS MP5016HGQH 2.7 - 22v, 0.7 - 5a, current limit switch with over-voltage clamp and reverse block Datasheet

MP5016H
2.7 - 22V, 0.7 - 5A, Current Limit Switch
with Over-Voltage Clamp and Reverse Block
DESCRIPTION
FEATURES
The MP5016H is a protection device designed
to protect circuitry on the output from transients
on the input. The MP5016H also protects the
input from undesired shorts and transients
coming from the output.


During start-up, the inrush current is limited by
limiting the slew rate at the output. The slew
rate is controlled by the DV/DT pin setting and
MODE pin setting.






The maximum load at the output is currentlimited. The magnitude of the current limit is
controlled by an external resistor from ILIMIT to
GND. There is a fixed 2.5A current limit when
ILIMIT is floating.


Wide 2.7V to 22V Operating Input Range
26V Absolute Maximum Transient Input
Voltage
Selectable Over-Voltage Clamp Threshold
Fast Output Over-Voltage Protection (OVP)
Response
Integrated 43mΩ Power MOSFET
Adjustable Current Limit or Fixed Current
Limit when Floating ILIMIT
Reverse-Blocking MOSFET Driver
Soft-Start Time Programmable through
DV/DT and MODE
Fast Response for Hard Short Protection
Over-Current Protection (OCP) Hiccup
Protection
Thermal Shutdown and Auto-Retry
Available in a QFN-10 (1.5mmx2mm)
Package
The output voltage is limited by the output overvoltage protection (OVP) function. The clamp
voltage can be set by the MODE connection.


The MP5016H offers a GATE drive signal
connected to an external N-channel MOSFET
gate to block current flowing from the output to
the input when the IC is in enable off, power
shutdown, or thermal shutdown.
APPLICATIONS







The MP5016H is available in a QFN-10
(1.5mmx2mm) package.
HDD, SSD
Hot Swaps
Wireless Modem Data Cards
PC Cards
USB Power Distribution
USB Protection
USB3.1 Power Delivery
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
VIN
Optional
C1
1μF
VCC
SOURCE
MODE
MP5016H
L
H EN
ILIMIT
MP5016H Rev.1.0
5/25/2017
GATE
EN
GND
M1
VOUT
C2
10μF
DV/DT
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1
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
ORDERING INFORMATION
Part Number*
MP5016HGQH
Package
QFN10 (1.5mmx2mm)
Top Marking
See Below
* For Tape & Reel, add suffix –Z (e.g.MP5016HGQH-Z)
TOP MARKING
FG: Product code of MP5016HGQH
LL: Lot number
PACKAGE REFERENCE
TOP VIEW
DV/DT
EN
GATE
10
9
8
VCC
1
7
VCC
2
6 SOURCE
3
4
GND
ILIMIT
SOURCE
5
MODE
QFN-10 (1.5mmx2mm)
MP5016H Rev.1.0
5/25/2017
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2
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
ABSOLUTE MAXIMUM RATINGS (1)
Thermal Resistance (4)
VCC, SOURCE .............................. -0.3V to 26V
MODE ............................................ -0.3V to 26V
GATE...................................... SOURCE + 5.5V
All other pins ............................... -0.3V to +5.5V
Junction temperature ............... -40°C to +150°C
Lead temperature .................................... 260°C
Continuous power dissipation (TA = +25°C) (2) (4)
QFN-10 (1.5mmx2mm) ............................ 2.23W
QFN-10 (1.5mmx2mm)
EV5016H-QH-00A (4) ............ 56 ....... 18 ... °C/W
JESD51-7 (5) ........................ 130 ...... 25 ... °C/W
Recommended Operating Conditions (3)
Supply voltage (VCC) ..................... 2.7V to 22V
Output voltage (SOURCE) .............. 2.7V to 22V
Operating junction temp. (TJ) ... -40°C to +125°C
MP5016H Rev.1.0
5/25/2017
θJA
θJC
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 produces an excessive die temperature, causing
the regulator to 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 EV5016H-QH-00A, 2-layer PCB, 50mmx50mm.
5) Measured on JESD51-7, 4-layer PCB.
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3
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
ELECTRICAL CHARACTERISTICS
VCC = 5V, RLIMIT = NS, COUT = 10µF, TJ = -40°C + 125°C
unless otherwise noted.
Parameter
Symbol
(6)
, typical value is tested at TJ = +25°C
Condition
Min
Typ
Max
Units
Supply Current
Supply current (quiescent)
Supply current (shutdown)
Power MOSFET
IQ
IS
On resistance
RDSon
Turn-on delay
Tdelay
Off-state leakage current
IOFF
Under-/Over-Voltage Protection (UVP, OVP)
Under-voltage lockout rising
threshold
UVLO hysteresis
Output over-voltage clamp
voltage
EN = high,
MODE = VCC/GND/float
EN = high, MODE connect
resistor to GND
50
µA
90
µA
9
µA
43
500
0.1
1
mΩ
μs
μA
2.38
2.53
2.68
V
VMODE = GND, TJ = 25°C
VMODE = VCC, TJ = 25°C
RMODE = 76.8kΩ,
VCC = 5V, TJ = 25°C
RMODE = 115kΩ, TJ = 25°C
RMODE = 324kΩ, TJ = 25°C
RMODE = 422kΩ, TJ = 25°C
5.5
14.2
200
5.75
15.2
6
16.2
mV
V
V
3.71
3.95
4.19
V
5.3
14.2
18.2
5.7
15.5
20
6.1
16.7
21.8
V
V
V
DV/DT float, VMODE = GND
DV/DT float, VMODE = VCC
DV/DT float, MODE float
VDV/DT = 0.5V
0.4
1.3
2.8
4.5
0.8
2
3.8
6.5
1.2
2.7
4.8
8.5
Float ILIMIT, TJ = 25°C
2.3
2.5
2.7
A
RLIMIT = 604Ω, TJ = 25°C
RLIMIT = 3kΩ, TJ = 25°C
3.3
0.6
3.5
0.75
3.7
0.9
A
A
1.86
2
350
2.2
2.16
V
mV
MΩ
7
12
μA
1.3
mA
EN = GND
IOUT = 1A
DV/DT float, MODE float
VCC = 12V, EN = 0V
VUVLO
VUVLOHYS
VCLAMP
DV/DT
DV/DT slew rate
DV/DT
DV/DT current
Current Limit
IDV/DT
Current limit at normal
operation
ILimit_NO
V/ms
μA
Enable (EN)
Enable rising threshold
Enable hysteresis
Enable pull-down resistor
GATE
GATE maximum source
current
GATE maximum sink current
MP5016H Rev.1.0
5/25/2017
VEN_RISING
VEN_HYS
REN_DOWN
IG_SOURCE_MAX
IG_SINK_MAX
IOUT = 1A
VCC = VSOURCE = 5.5V,
VGATE = 10.5V
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4
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
ELECTRICAL CHARACTERISTICS (continued)
VCC = 5V, RLIMIT = NS, COUT = 10µF, TJ = -40°C + 125°C
unless otherwise noted.
Parameter
Symbol
Condition
Discharge resistance
OTP
RDIS
VCC = 5V
Thermal shutdown (7)
Thermal hysteresis (7)
TSD
(6)
, typical value is tested at TJ = +25°C
Min
Typ
Max
Units
Output Discharge
TSD_HYS
540
Ω
175
50
°C
°C
NOTES:
6) Not tested in production, guaranteed by over-temperature correlation.
7) Guaranteed by engineering sample characterization.
MP5016H Rev.1.0
5/25/2017
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
TYPICAL CHARACTERISTICS
VIN = VCC = 5V, VEN = 5V, RLIMIT = 604Ω, COUT = 10μF, TA = 25°C, unless otherwise noted.
MP5016H Rev.1.0
5/25/2017
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS
VIN = VCC = 5V, VEN = 5V, RLIMIT = 604Ω, MODE floating, DV/DT floating, COUT = 10μF, TA = 25°C,
unless otherwise noted.
MP5016H Rev.1.0
5/25/2017
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 5V, VEN = 5V, RLIMIT = 604Ω, MODE floating, DV/DT floating, COUT = 10μF, TA = 25°C, unless
otherwise noted.
MP5016H Rev.1.0
5/25/2017
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
PIN FUNCTIONS
Pin #
Name
1, 2
VCC
3
GND
4
ILIMIT
5
MODE
6, 7
SOURCE
8
GATE
9
EN
10
DV/DT
MP5016H Rev.1.0
5/25/2017
Description
Supply voltage. The MP5016H operates from a 2.7V to 22V input rail. A ceramic
capacitor is required to decouple the input rail. Connect VCC using a wide PCB trace.
System ground.
Current limit set. Place a resistor between ILIMIT and ground to set the value of the
current limit. Float ILIMIT to achieve a 2.5A fixed current limit.
Output over-voltage protection (OVP) clamp voltage select. The output OVP
clamp voltage is selected by the MODE connection. A resistor connected from MODE
to ground sets the OVP threshold voltage. Three digital inputs are provided for
MODE. Drive MODE high to VCC to set the output OVP clamp voltage at 15.2V.
Drive MODE low to GND to set the output OVP clamp voltage at 5.75V. Float MODE
for no OVP clamp protection.
Source of the internal power MOSFET and output terminal of the IC.
Gate driver for reverse-current block MOSFET. A 100pF capacitor is required on
GATE if the reverse-current block MOSFET is not being used.
Enable. Force EN high to enable the MP5016H. Float EN or pull EN to ground to
disable the IC. For quick start-up, pull EN up to VCC through a 300kΩ resistor.
DV/DT. Connect a capacitor from DV/DT to ground to set the DV/DT slew rate.
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
BLOCK DIAGRAM
VCC
Charge
Pump
LDO
Current
Sense
VDD
SOURCE
Fast Off Comp
GATE
ILIMIT
1V
Current Limit Amp
Logic for
ILIMIT floating
Ref
Soft Start
SOURCE
Control Logic
OVP
6.5µA
OVP
Limit
MODE
DV/DT
VDD
4µA
Logic
8µA
1kΩ
EN
2.2MΩ
5.5V
Thermal
Sense
80kΩ
GND
Figure 1: Functional Block Diagram
MP5016H Rev.1.0
5/25/2017
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10
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
OPERATION
The MP5016H is designed to limit the inrush
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 dV/dt of the voltage to the load. The
MP5016H offers an integrated solution that
monitors the input voltage, output voltage,
output current, and die temperature, which
eliminates the requirement of an external
current sense power resistor, power MOSFET,
and thermal sense device.
Under-Voltage Lockout (UVLO)
The MP5016H can be used in a 2.7V to 22V
input supply system. There are high-energy
transients during normal operation or hot swaps.
These transients depend on the parasitic
inductance and resistance of the wire and the
capacitor at the VCC node. If a power clamp
(TVS, Tranzorb) diode is not used, the E-fuse
must be able to withstand this transient voltage.
The MP5016H integrates a high-voltage
MOSFET with up to 22V of continuous voltage
and 26V of maximum transient input voltage.
The MP5016H also uses a high-voltage circuit
for the VCC node to guarantee safe operation.
MODE
MODE is used to select the output over-voltage
protection (OVP) threshold.
Three digital inputs are provided for MODE.
Drive MODE high to VCC to set the output OVP
clamp voltage at 15.2V. Drive MODE low to
GND to set the output OVP clamp voltage at
5.75V. Float MODE for no OVP clamp
protection. The OVP threshold can also be set
by connecting a resistor from MODE to ground.
For more details, refer to the Application
Information section on page 13.
Soft Start (SS)
The soft-start time is related to the dV/dt slew
rate and input voltage and can be calculated
with Equation (1):
t_ss(ms)
Vin(V)
dv/dt (V/ms)
(1)
Fast Output and Input OVP
To protect the downstream load when there is a
surge voltage at the input, the MP5016H
provides an output OVP function. An accurate
and fast comparator monitors the over-voltage
condition of the output. If the output voltage
rises above the threshold set by MODE, the
gate of the internal MOSFETs is pulled down
quickly and is regulated to a certain value to
keep the output voltage clamped at the OVP
threshold. The fast loop response speed keeps
the over-voltage overshoot small.
Current Limit (ILIMIT)
The MP5016H provides a constant current limit,
and the current limit can be programmed by an
external resistor.
The desired current limit is a function of the
external current limit resistor and can be
approximated with Equation (2):
ILIMIT (A) 
0.55(V)
 3870
RLIMIT (Ω）
(2)
Where 3870 is the current sense ratio.
Once the current limit threshold is reached, the
internal circuit regulates the gate voltage to hold
the current in the power MOSFET constant. To
limit the current, the gate to the source voltage
must be regulated from 5V to around 1V. The
typical response time is about 15µs. During this
period, the output current may have a small
overshoot.
If the current limit condition lasts longer than
2ms, the IC enters hiccup mode with 2ms of on
time and 700ms of off time.
The MP5016H allows ILIMIT to be floated
during operation. If ILIMIT is floating, the
current limit is set at a fixed 2.5A internally.
When shorting ILIMIT to GND, the normal
current limit is disabled, but the secondary
current limit still works. The secondary current
limit is set to 8A internally. When the secondary
current limit is triggered, the IC shuts down the
power MOSFET.
The dV/dt slew rate is controlled by an external
DV/DT capacitor setting and the MODE setting.
MP5016H Rev.1.0
5/25/2017
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11
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
Short-Circuit Protection (SCP)
If the load current increases rapidly due to a
short-circuit event, the current may exceed the
current-limit threshold before the control loop
can respond. If the current reaches the 8A
secondary current limit level, a fast turn-off
circuit activates to turn off the power MOSFET.
This can help limit the peak current through the
switch, keeping the input voltage from dropping
too much. The total short-circuit response time
is about 1µs. After the MOSFET has switched
off, the part restarts. During the restart process,
if the short still exists, the MP5016H regulates
the gate voltage to hold the current at a normal
current limit level. The IC enters hiccup mode
with 2ms of on time and 700ms of off time.
To prevent safe operating area (SOA) damage
during a high input voltage short-circuit
protection (SCP) condition, the IC current limit
folds back when the power MOSFET VDS
voltage is above the typical 11V and the
junction temperature is over 110°C.
To avoid large input voltage spikes from
damaging the IC during SCP entry, it is
recommended to use a 22μF minimum input
capacitor when VIN is higher than 15V. If the
input surge voltage is higher than the 26V
absolute voltage, the IC may be damaged.
Reverse-Blocking MOSFET Driver
The MP5016H has a GATE pin to provide an
external N-channel MOSFET gate drive signal
for reverse-current protection (RCP). Three
events can pull down the GATE voltage: VIN
below the under-voltage lockout (UVLO), the
enable (EN) voltage below the low level
threshold, or thermal shutdown. If any of these
conditions occur, GATE sinks the current from
the gate of the external MOSFET to initiate a
fast turn-off.
For 3.3V low input voltage applications, choose
an external reverse-blocking MOSFET with a
small gate threshold voltage (VGSth < 1.6V) to
reduce the voltage drop caused by the reverseblocking MOSFET.
Setting an appropriate OVP threshold can also
protect the reverse voltage (from the output to
the input) when using an external N-channel
MOSFET. When VOUT rises too high during
normal operation, the MP5016H SOURCE
MP5016H Rev.1.0
5/25/2017
voltage is higher than the OVP threshold. In this
case, the GATE voltage is regulated to maintain
the SOURCE clamped at the OVP threshold.
This action protects the reverse current from
the high VOUT to the low VIN.
A 100pF capacitor is required on GATE if it is
not connected to the external MOSFET.
Output Discharge
The MP5016H involves a discharge function
that provides a resistive discharge path for the
external output capacitor. The function is active
when the part is disabled (VIN UVLO, EN
shutdown) and is done in a very limited amount
of time. When using the external reversecurrent block MOSFET, the output discharge
path is blocked by the reverse current block
MOSFET. Therefore, the output cannot be
discharged when the reverse-current block
MOSFET is used.
Enable (EN)
The MP5016H is enabled when EN is high. The
MP5016H is disabled when EN is low. Floating
EN shuts down the MP5016H because there is
an internal 2.2MΩ resistor pulling EN down to
ground. For automatic start-up, connect a pullup resistor from VCC to EN.
EN is clamped internally using a 5.5V Zener
diode (see Figure 2). Connecting the EN input
through a pull-up resistor to VCC limits the EN
input current below 100μA to prevent damage
to the Zener diode. For example, when
connecting a 300kΩ pull-up resistor to 22V VCC,
IZener = (22V - 5.5V) / 300kΩ - 5.5V / 2.2MΩ =
53µA.
EN
1kΩ
2.2MΩ
GND
5.5V
EN
Logic
Figure 2: Zener Diode between EN and GND
When using a pull-up resistor to set the poweron threshold, avoid using a pull-up resistor that
is too small to increase the operational
quiescent current.
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12
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
Thermal Shutdown – Auto-Retry
Thermal shutdown prevents the chip from
operating at exceedingly high temperatures.
When the silicon die temperature exceeds
175°C, the entire chip shuts down, and EN
reports a fail mode. When the temperature
drops below its lower threshold (typically
125°C), the chip is enable again after a 700ms
delay, typically.
MP5016H Rev.1.0
5/25/2017
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
Table 2: MODE High/Low Digital Voltage
APPLICATION INFORMATION
Setting the Current Limit
The MP5016H current limit value should
exceed the normal maximum load current,
allowing for tolerances in the current sense
value. The current limit is a function of the
external current limit resistor. Table 1 and
Figure 3 list examples of typical current limit
values as a function of the resistor value.
Table 1: Typical Current Limit vs. Current Limit
Resistor (8)
RLIMIT (Ω)
ILIMIT (A)
3000
0.75
1050
2
604
3.5
470
4.5
422
5
NOTE:
8) The current limit in Table 1 is a typical value for the
reference design.
Min.
VCC - 0.2V
VMODE_HIGH
VMODE_LOW
Max.
0.2V
The OVP threshold can also be set by
connecting a resistor from MODE to ground. In
this case, the OVP clamp threshold is given by
Equation (3):
Vclamp (V)  0.047  RMODE (KΩ） 0.3(V) (3)
RMODE should be above 68kΩ. For example, an
RMODE value of 76.8kΩ can set the OVP clamp
threshold to 3.9V.
When RMODE is used, place a 39pF capacitor
from MODE to GND.
Setting the Soft-Start Time
The soft-start time is related to the dV/dt slew
rate and input voltage and can be calculated
with Equation (4):
t_ss(ms)
Vin(V)
dv/dt (V/ms)
(4)
The dV/dt slew rate is controlled by the external
DV/DT capacitor setting and MODE setting.
Table 3 shows the dV/dt slew rate value when
DV/DT is floating.
Figure 3: Current Limit vs. Current Limit Resistor
The MP5016H current limit can be programmed
from 0.7A to 5A by connecting the correct
resistor (RLIMIT). The current limit cannot be set
too low, because the MP5016H works in sleep
mode when the load is lower than 0.38A,
typically. The current limit logic is disabled in
sleep mode, also.
Setting the Over-Voltage Clamp Threshold
Drive MODE high to VCC to set the output OVP
clamp voltage at 15.2V. Drive MODE low to
GND to set the output OVP clamp voltage at
5.75V.
Refer to Table 2 to set the MODE high/low
digital voltage.
MP5016H Rev.1.0
5/25/2017
Table 3: dV/dt Slew Rate Value when DV/DT is
Floating
MODE Connection
dV/dt Slew Rate (V/ms)
Low
High
Float
0.8
2
3.8
Vclamp (V)
RMODE
7ms
For cases with an external DV/DT capacitor, the
dV/dt slew rate can be calculated with Equation
(5):
dv/dt (V/ms) 
6.5 μΑ K1
CDV/DT (nF)
(5)
See Table 4 for the K1 factor value.
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MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
Table 4: K1 Factor Value at External DV/DT
Capacitor
Large Output Capacitor
With large output capacitors, if the charge
current during soft start triggers the current limit,
the MP5016H enters hiccup mode when the
current limit is triggered for 2ms.To avoid startup failure with a large output capacitor, a proper
dV/dt slew rate must be set during the soft start
to avoid triggering the current limit.
PCB Layout Guidelines
Efficient PCB layout is critical for stable
operation. For best results, refer to Figure 4 and
follow the guidelines below.
1. Place the high-current paths (VCC, VOUT)
close to the device using short, direct, and
wide traces.
GATE
EN
2
7
6
C2
C1
7 μ* RMODE
For example, when the external DV/DT cap is
47nF and RMODE is 76.8kΩ, the dV/dt slew rate
is 1V/ms.
SOURCE
1
SOURCE
MODE
RMODE
VCC
ILIMIT
5.75
15.2
27
Vclamp
R2
DV/DT
Low
High
Float
C3
VCC
K1
GND
MODE Connection
VCC
C4
Top Layer
R1
GND
GND
Bottom Layer
VCC
Figure 4: Recommended Layout
Design Example
Table 5 is a design example following the
application
guidelines
for
the
given
specifications.
Table 5: Design Example
VIN (V)
Current Limit (A)
DV/DT Slew Rate (V/ms)
2.7 to 22
3.5
3.8
The detailed application circuits are shown in
Figure 5 and Figure 6. The typical performance
and circuit waveforms is shown in the Typical
Performance Characteristics section. For more
detailed device applications, please refer to the
related evaluation board datasheet.
2. Place the input capacitors close to VCC and
GND.
3. Connect the VCC and VOUT pads to a
large VCC and VOUT plane respectively to
achieve better thermal performance.
4. Place a current-limit resistor close to ILIMIT.
5. Place the DV/DT capacitor close to DV/DT.
MP5016H Rev.1.0
5/25/2017
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2017 MPS. All Rights Reserved.
15
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
TYPICAL APPLICATION CIRCUITS
VIN
1,2
C1
1μF
5 MODE
R2
300kΩ
VCC
6,7
SOURCE
MP5016H
GATE
R1
604Ω
GND
C2
10μF
8
C4
100pF
9 EN
4 ILIMIT
VOUT
DV/DT 10
C3
NS
3
Figure 5: Typical Application Circuit without Reverse-Current Blocking MOSFET
(9)
VIN
1,2
C1
1μF
5 MODE
R2
300kΩ
M1
VCC
6,7
SOURCE
MP5016H
GATE
VOUT
C2
10μF
8
9 EN
4 ILIMIT
R1
604Ω
3
GND
DV/DT 10
C3
NS
Figure 6: Typical Application Circuit with Reverse-Current Blocking MOSFET
(9) (10)
NOTES:
9) To avoid large input voltage spikes from damaging the IC during SCP entry, it is recommended to use a 22μF minimum input capacitor
when VIN is higher than 15V.
10) For 3.3V low input voltage applications, it is recommended to choose an external reverse-blocking MOSFET with a small gate threshold
voltage (VGSth < 1.6V) to reduce the voltage drop caused by the reverse-blocking MOSFET.
MP5016H Rev.1.0
5/25/2017
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2017 MPS. All Rights Reserved.
16
MP5016H – 2.7 - 22V, 0.7 - 5A, PROGRAMMABLE, CURRENT-LIMITED SWITCH
PACKAGE INFORMATION
QFN-10 (1.5mmx2mm)
PIN 1 ID
MARKING
PIN 1 ID
0.15X45º TYP
PIN 1 ID INDEX
AREA
BOTTOM VIEW
TOP VIEW
SIDE VIEW
0.15 X 45°
NOTE:
1) ALL DIMENSIONS ARE IN MILLIMETERS.
2) LEAD COPLANARITY SHALL BE 0.10 MILLIMETERS
MAX.
3) JEDEC REFERENCE IS MO-220.
4) DRAWING IS NOT TO SCALE.
RECOMMENDED LAND PATTERN
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.
MP5016H Rev.1.0
5/25/2017
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.
© 2017 MPS. All Rights Reserved.
17