MAXIM MAX14588ETE+T

EVALUATION KIT AVAILABLE
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
General Description
The MAX14588 adjustable overvoltage and overcurrent
protection device is ideal for protecting systems against
positive and negative input voltage faults up to ±40V, and
feature low 190mΩ (typ) RON integrated FETs.
The adjustable overvoltage range is between 6V and 36V,
while the adjustable undervoltage range is between 4.5V
and 24V. The overvoltage lockout (OVLO) and undervoltage
lockout (UVLO) thresholds are set using optional external
resistors. The factory preset internal OVLO threshold is 33V
(typ), and the preset internal UVLO threshold is 19V (typ).
The MAX14588 also features programmable current-limit
protection up to 1A. The device can be set for autoretry,
latch-off, or continuous fault response when an overcurrent event occurs. Once current reaches the threshold, the
MAX14588 turns off after 21ms (typ) blanking time, and
stays off during the retry period when set to autoretry mode.
The device latches off after the blanking time when set to
latch-off mode. The device limits the current continuously
when set to continuous mode. The MAX14588 also features
reverse current and thermal shutdown protection.
The MAX14588 is available in a small, 16-pin (3mm x 3mm)
TQFN package. The MAX14588 operates over the -40°C to
+125°C extended temperature range.
Ordering Information appears at end of data sheet.
Benefits and Features
● Robust Industrial Power Protection
• Wide Input Supply Range: +4.5V to +36V
• Negative Input Tolerance to -36V
• Low RON 190mΩ (typ)
• Reverse Current Flow Control Input
• Thermal Overload Protection
• Extended -40ºC to +125ºC Temperature Range
● Flexible Design Options
• Adjustable OVLO and UVLO Thresholds
• Programmable Forward-Current Limit: 0.15A to 1A
• Programmable Overcurrent Fault Response:
Autoretry, Latch-Off, and Continuous
• Dual Enable Inputs: EN and High Voltage HVEN
● Saves Space
• 16-Pin, 3mm x 3mm, TQFN Package
Applications
●
●
●
●
●
●
Sensor Systems
Condition Monitoring
Factory Sensors
Process Analytics
Process Instrumentation
Weighing and Batching Systems
For related parts and recommended products to use with this part, refer
to www.maximintegrated.com/MAX14588.related.
Typical Application Circuit
VPOWER
0.47µF
IN
OUT
IN
OUT
4.7µF
RIEN
100kΩ
SYSTEM
POWER
SUPPLY
R3
EN
R1
MAX14588
HVEN
GND
OPTIONAL FOR
HIGH INPUT
SURGE
APPLICATIONS
R4
UVLO
FLAG
OVLO
CLHS
SETI
CLTS1
CLTS2
R2
HVEN
19-6551; Rev 0; 12/12
GND
CLTS_MODE
VIO
SYSTEM
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Absolute Maximum Ratings
(All voltages referenced to GND.)
IN to GND................................................................-40V to +40V
IN to OUT................................................................-40V to +40V
OUT........................................................................-0.3V to +40V
HVEN......................................................................-40V to +40V
OVLO, UVLO, FLAG, EN, RIEN,
CLTS1, CLTS2, CLTS_MODE..............................-0.3V to +6V
SETI............................................ -0.3V to min(VIN, 1.22V)+0.3V
CLHS................................................ -0.3V to min(VIN, 5V)+0.3V
IIN (DC Operating)(Note 1)....................................................1.0A
Continuous Power Dissipation (TA = +70ºC)
TQFN (derate 20.8mW/ºC above +70ºC)....................1667mW
Operating Temperature Range...........................-40ºC to +125ºC
Maximum Junction Temperature...................................... +150ºC
Storage Temperature Range..............................-65ºC to +150ºC
Lead Temperature (soldering, 10s).................................. +300ºC
Soldering Temperature (reflow)........................................ +260ºC
Note 1: DC current is also limited by the thermal design of the system.
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these
or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect
device reliability.
Package Thermal Characteristics (Note 2)
TQFN
Junction-to-Ambient Thermal Resistance (θJA).............48ºC/W
Junction-to-Case Thermal Resistance (θJC)..................10ºC/W
Note 2: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a four-layer
board. For detailed information on package thermal considerations, refer to www.maximintegrated.com/thermal-tutorial.
Electrical Characteristics
(VIN = 4.5V to 36V, TA = -40ºC to +125ºC, unless otherwise noted. Typical values are at VIN = 24V, RSETI = 12kΩ, TA = +25ºC.) (Note 3)
PARAMETER
IN Voltage
Shutdown IN Current
Shutdown OUT Current
Reverse IN Current
Supply Current
SYMBOL
CONDITIONS
VIN
MAX
UNITS
36
V
VEN = 0V, VHVEN = 5V
6.6
16
µA
IOFF
VEN = 0V, VHVEN = 5V,
VOUT = 0V
0.1
2
µA
IIN_RVS
IIN
VOVLO
Internal Undervoltage Trip Level
VUVLO
VIN = -40V, VOUT = VGND = 0V
530
800
33
34.3
VIN falling
30.3
32
33.7
VIN falling
17.5
18.5
19.5
VIN rising
18.2
19.2
20.2
(Note 4)
External OVLO Leakage
IOVLO_LEAK
External UVLO Adjustment
Range
3
6
VOVLO < 1.2V
µA
V
V
%
36
V
0.5
V
-100
+100
nA
4.5
24
V
0.5
V
0.3
(Note 4)
VSEL_UVLO
µA
32
% of typical OVLO
VSEL_OVLO
-21
VIN rising
External OVLO Adjustment
Range
External OVLO Select Threshold
Voltage
-35
VIN = 15V, VHVEN = 0V
Overvoltage Lockout Hysteresis
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TYP
4.5
ISHDN
Internal Overvoltage Trip Level
External UVLO Select Threshold
Voltage
MIN
0.3
0.4
0.4
Maxim Integrated │ 2
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Electrical Characteristics (continued)
(VIN = 4.5V to 36V, TA = -40ºC to +125ºC, unless otherwise noted. Typical values are at VIN = 24V, RSETI = 12kΩ, TA = +25ºC.) (Note 3)
PARAMETER
External UVLO Leakage
BG Reference Voltage
CLHS Voltage
SYMBOL
IUVLO_LEAK
CONDITIONS
VUVLO < 1.2V
VBG
VCLHS
Source 100µA
MIN
TYP
-100
1.196
1.220
23
3.5
MAX
UNITS
+100
nA
1.247
V
V
INTERNAL FETs
Internal FETs On-Resistance
RON
Current-Limit Adjustment Range
ILIM
Current-Limit Accuracy
FLAG Assertion Drop Voltage
Threshold
VFA
ILOAD = 100mA, VIN ≥ 8V
370
mΩ
0.15
1.0
A
0.15A ≤ ILIM < 0.3A
-20
+20
0.3A ≤ ILIM < 1.0A
-10
+10
Increase (VIN - VOUT) drop until FLAG
asserts, VIN = 24V
400
FLAG Output Logic-Low Voltage
ISINK = 1mA
FLAG Output Leakage Current
VIN = VFLAG = 5V, flag deasserted
Reverse-Current Blocking
Threshold
VRIB
VOUT - VIN
Reverse-Blocking Supply Current
IRBL
VOUT - VIN > 130mV, current into OUT
190
25
600
%
800
mV
0.4
V
2
µA
100
250
mV
430
700
µA
2
3.5
LOGIC INPUTS
HVEN Threshold Voltage
VHVENTH
1
HVEN Threshold Hysteresis
HVEN Input Current
HVEN Input Reverse Current
2
IHVEN_
IHVEN_R
EN, RIEN, CLTS1, CLTS2,
CLTS_MODE Input Logic-High
VIH
EN, RIEN, CLTS1, CLTS2,
CLTS_MODE Input Logic- Low
VIL
EN, RIEN, CLTS1, CLTS2,
CLTS_MODE Input Leakage
Current
ILEAK
VHVEN = 36V
VIN = VHVEN = -36V
26
-43
41
-28
µA
µA
1.4
VLOGIC = 5V
V
%
V
-1
0.4
V
+1
µA
DYNAMIC (NOTE 5)
Switch Turn-On Time
tON
From OFF to ON (see Table 2),
RLOAD = 240Ω, COUT = 470µF
500
µs
Switch Turn-Off Time
tOFF
From ON to OFF (see Table 2),
RLOAD = 47Ω, COUT = 1µF
3
µs
Overvoltage Switch Turn-Off
Time
tOFF_OVP
From (VIN > VOVLO) to
(VOUT = 80% of VIN_OVLO),
RLOAD = 47Ω
3
µs
Overcurrent Switch Turn-Off Time
tOFF_OCP
After tBLANK
3
µs
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Maxim Integrated │ 3
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Electrical Characteristics (continued)
(VIN = 4.5V to 36V, TA = -40ºC to +125ºC, unless otherwise noted. Typical values are at VIN = 24V, RSETI = 12kΩ, TA = +25ºC.) (Note 3)
PARAMETER
SYMBOL
IN Debounce Time
tDEB
Blanking Time
tBLANK
Autoretry Time
tRETRY
CONDITIONS
From (VIN_UVLO < VIN < VIN_OVLO)
and (EN = high or HVEN = low) to
VOUT = 10% of VIN
After blanking time from IOUT > ILIM to
FLAG deasserted
MIN
TYP
MAX
UNITS
14
16.5
19
ms
17.8
21
24.1
ms
527
620
713
ms
THERMAL PROTECTION
Thermal Shutdown
150
ºC
Thermal Shutdown Hysteresis
30
ºC
Note 3: All devices are 100% production tested at TA = + 25ºC. Specifications over the
operating temperature range are guaranteed by design.
Note 4: All timing is measured using 20% and 80% levels.
Timing Diagrams
AUTORETRY VERSIONS
tBLANK
tRETRY
tBLANK
tRETRY
tBLANK
tBLANK
tRETRY
OUT
CURRENT LIMIT
THE DEVICE COMES
OUT OF THERMAL
SHUTDOWN MODE
LOAD CURRENT
THE DEVICE GOES
TO THERMAL
SHUTDOWN MODE
FLAG
NOTE: TIME NOT IN SCALE
Figure 1. Autoretry Fault Diagram
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Maxim Integrated │ 4
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Timing Diagrams (continued)
LATCH VERSION
tBLANK
tBLANK
OUT
CURRENT LIMIT
LOAD CURRENT
THE DEVICE GOES
TO THERMAL
SHUTDOWN MODE
THE DEVICE COMES
OUT OF THERMAL
SHUTDOWN MODE
INPUT OR EN CYCLE
FLAG
NOTE: TIME NOT IN SCALE
Figure 2. Latchoff Fault Diagram
CONTINUOUS VERSIONS
tBLANK
OUT
THE DEVICE COMES OUT OF
THERMAL SHUTDOWN MODE
CURRENT LIMIT
LOAD CURRENT
THE DEVICE GOES TO
THERMAL SHUTDOWN MODE
FLAG
NOTE: TIME NOT IN SCALE
Figure 3. Continuous Fault Diagram
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Maxim Integrated │ 5
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Timing Diagrams (continued)
< tDEB
< tDEB
tDEB
UVLO
THRESHOLD
VIN
ON
OFF
SWITCH
STATUS
NOTE: TIME NOT IN SCALE
Figure 4. Debounce Timing
Typical Operating Characteristics
(CIN = 1µF, COUT = 1µF, TA = +25°C, unless otherwise noted.)
700
600
500
400
300
200
400
VIN = 12V
VIN = 24V
300
200
100
100
0
500
0
10
20
30
IN VOLTAGE (V)
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40
0
NORMALIZED ON-RESISTANCE
vs. SUPPLY VOLTAGE
1.005
MAX14588 toc03
800
VIN = 32V
VEN = 5V
IOUT = 100mA
1.004
NORMALIZED ON-RESISTANCE
IN SUPPLY CURRENT (µA)
900
600
IN QUIESCENT SUPPLY CURRENT
vs. TEMPERATURE
MAX14588 toc02
VEN = 3V
IN SUPPLY CURRENT (µA)
1000
MAX14588 toc01
IN QUIESCENT SUPPLY CURRENT
vs. IN VOLTAGE
1.003
1.002
1.001
1.000
0.999
0.998
0.997
0.996
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (ºC)
0.995
12
16
20
24
28
32
36
IN VOLTAGE (V)
Maxim Integrated │ 6
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Typical Operating Characteristics (continued)
(CIN = 1µF, COUT = 1µF, TA = +25°C, unless otherwise noted.)
0.9
VIN = 12V
0.8
0.7
1.01
1.00
0.99
0.98
0.97
0.6
0.96
0.5
0.95
-40 -25 -10 5 20 35 50 65 80 95 110 125
0
10
8
6
VIN = 24V
4
2
0
VIN = 12V
-40 -25 -10 5 20 35 50 65 80 95 110 125
0.3
0.2
VIN = 32V
VIN = 24V
VIN = 12V
0.1
45
VIN = 24V
RL = 24Ω
35
30
25
20
15
10
MAX14588 toc06
0.99
0.98
0.97
-40 -25 -10 5 20 35 50 65 80 95 110 125
20.0
19.5
SWITCH DEBOUNCE TIME
vs. TEMPERATURE
VIN = 24V
RL = 24Ω
19.0
18.5
18.0
17.5
17.0
16.5
15.5
15.0
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (ºC)
TEMPERATURE (ºC)
CURRENT LIMIT vs. RSETI
POWER-UP RESPONSE
MAX14588 toc12
VIN = 24V
1.0
CURRENT LIMIT (A)
TURN-OFF TIME (µs)
40
VIN
10V/div
0.8
0.6
VOUT
10V/div
0.4
0.2
5
0
1.2
MAX14588 toc10
50
1.00
16.0
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (ºC)
SWITCH TURN-OFF TIME
vs. TEMPERATURE
1.01
TEMPERATURE (ºC)
0.4
0
1.02
0.95
40
MAX14588 toc08
VIN = 32V
20
30
IN VOLTAGE (V)
SHUTDOWN FORWARD CURRENT
vs. TEMPERATURE
0.5
SHUTDOWN FORWARD CURRENT (µA)
10
MAX14588 toc07
SHUTDOWN SUPPLY CURRENT (µA)
12
1.03
0.96
TEMPERATURE (ºC)
SHUTDOWN SUPPLY CURRENT
vs. TEMPERATURE
VIN = 24V
MAX14588 toc09
1.0
1.02
1.04
NORMALIZED CURRENT LIMIT
1.1
1.03
1.05
DEBOUNCE TIME (ms)
1.2
MAX14588 toc05
VIN = 24V
RSETI = 12kΩ
1.04
NORMALIZED CURRENT LIMIT
vs. TEMPERATURE
MAX14588 toc11
VIN = 32V
1.3
NORMALIZED CURRENT LIMIT
vs. SUPPLY VOLTAGE
1.05
NORMALIZED CURRENT LIMIT
NORMALIZED ON-RESISTANCE
1.4
MAX14588 toc04
1.5
NORMALIZED ON-RESISTANCE
vs. TEMPERATURE
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (ºC)
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0
0
20
40
60
80
20ms/div
RSETI (kΩ)
Maxim Integrated │ 7
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Typical Operating Characteristics (continued)
(CIN = 1µF, COUT = 1µF, TA = +25°C, unless otherwise noted.)
REVERSE BLOCKING RESPONSE
FLAG RESPONSE
MAX14588 toc13
MAX14588 toc14
VRIEN = 3V
RL = 240Ω
SUDDEN SHORT
APPLIED AT OUT
VIN
20V/div
0V
VOUT
20V/div
0V
VFLAG
5V/div
VIN
20V/div
0V
VOUT
20V/div
0V
VFLAG
5V/div
IOUT
10A/div
1ms/div
200µs/div
CURRENT-LIMIT RESPONSE
MAX14588 toc15
CURRENT LIMIT-RESPONSE
VIN
20V/div
0V
VOUT
20V/div
0V
IOUT
500mA/div
0A
10ms/div
BLANKING TIME
4ms/div
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MAX14588 toc16
100mA
TO SUDDEN
SHORT ON OUT
100mA
TO SHORT
ON OUT WITH 1A/s
VIN
20V/div
0V
VOUT
20V/div
0V
IOUT
500mA/div
0A
100ms/div
RETRY TIME
MAX14588 toc17
MAX14588 toc18
AUTORETRY
AUTORETRY
VOUT
500mV/div
VOUT
500mV/div
100ms/div
Maxim Integrated │ 8
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
GND
SETI
UVLO
TOP VIEW
FLAG
Pin Configuration
12
11
10
9
EN 13
OUT 14
MAX14588
OUT 15
*EP
2
3
CLTS1
OVLO
7
IN
6
IN
5
HVEN
4
CLTS2
1
CLHS
+
CLTS_MODE
RIEN 16
8
TQFN
*CONNECT EP TO GND
Pin Description
PIN
NAME
FUNCTION
1
CLTS_MODE
2
CLHS
Current-Limit-Type-Select Logic-High Voltage. Connect CLTS_MODE/CLTS1/CLTS2 to CLHS for
logic-high.
3
CLTS1
Current-Limit-Type Select 1. See Table 1.
4
CLTS2
Current-Limit-Type Select 2. See Table 1.
36V Capable Active-Low Enable Input. See Table 2.
Current-Limit-Type Select Mode.
CLTS_MODE = 0: CLTS1 and CLTS2 are sampled only when (VIN – VOUT) < 0.6V.
CLTS_MODE = 1: CLTS1 and CLTS2 are continuously sampled.
5
HVEN
6, 7
IN
8
OVLO
Externally Programmable Overvoltage Lockout Threshold. Connect OVLO to GND to use the
default internal OVLO threshold. Connect OVLO to an external resistor-divider to define a
threshold externally and override the preset internal OVLO threshold.
9
UVLO
Externally Programmable Undervoltage Lockout Threshold. Connect UVLO to GND to use
the default internal UVLO threshold. Connect UVLO to an external resistor-divider to define a
threshold externally and override the preset internal UVLO threshold.
10
SETI
Overload-Current-Limit Adjust. Connect a resistor from SETI to GND to program the overcurrent
limit. SETI must be connected to a resistor. If SETI is connected to GND, the FETs turn off and
FLAG is asserted. Do not connect more than 10pF to SETI.
11
GND
Ground
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Overvoltage Protection Input. Bypass IN to ground with a 0.47µF ceramic capacitor.
Maxim Integrated │ 9
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Pin Description (continued)
PIN
NAME
FUNCTION
12
FLAG
Open-Drain Fault Indicator Output. FLAG goes low when the fault duration exceeds the blanking
time, reverse current is detected, thermal shutdown mode is active, OVLO threshold is reached, or
SETI is connected to GND.
13
EN
14,15
OUT
Output Voltage. Output of internal FETs. Bypass OUT to GND with a 1µF ceramic capacitor placed
as close to the device as possible.
16
RIEN
Reverse-Current Enable Input. Connect RIEN to GND to disable the reverse-current flow
protection. Connect RIEN to logic-high to activate the reverse-current flow protection.
—
EP
Active-High Enable Input. See Table 2.
Exposed Pad. Connect EP to ground. Do not use EP as the only ground connection.
Functional Diagram
IN
OUT
OUT
REVERSE-INPUT
REVERSE-CURRENT
PROTECTION
IN
FLAG
N
CONTROL LOGIC
VBG
EN
RIEN
HVEN
CLHS
UVLO
CLTS1
VSEL
CLTS2
THERMAL
SHUTDOWN
CLTS_MODE
OVLO
VSEL
MAX14588
SETI
GND
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Maxim Integrated │ 10
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Detailed Description
The MAX14588 is an adjustable overvoltage and overcurrent protection device designed to protect systems
against positive and negative input voltage faults up to
±40V, and features a low 190mΩ (typ) on-resistance
FET. If the input voltage exceeds the OVLO threshold
or falls below the UVLO, the internal FETs are turned off
to prevent damage to the protected components. If the
OVLO or the UVLO pin is set below the external OVLO
or UVLO select threshold (VSEL_OVLO, VSEL_UVLO), the
device automatically selects the internal ±5% accurate
trip thresholds. The internal OVLO threshold is preset to
33V (typ), and the internal UVLO threshold is preset to
19V (typ).
Current-Limit Type Select
The MAX14588 power-up current-limit default is continuous mode when CLTS_MODE is low. After power up, the
current-limit type can be programmed externally through
CLTS1 and CLTS2 (Table 1). When CLTS_MODE is high,
CLTS1 and CLTS2 are sampled continuously. When
CLTS_MODE is low, CLTS1 and CLTS2 are sampled
only when VIN-VOUT < 0.6V. Connect CLTS1, CLTS2,
and CLTS_MODE to CLHS for logic-high or to GND for
logic-low.
Autoretry
When the current threshold is reached, the tBLANK timer
begins counting. The FLAG asserts if the overcurrent condition is present for tBLANK .The timer resets if the overcurrent condition disappears before tBLANK has elapsed.
A retry time delay, tRETRY, is started immediately after
tBLANK has elapsed and during tRETRY time, the FETs
are off. At the end of tRETRY, the FETs are turned on
again. If the fault still exists, the cycle is repeated and the
FLAG stays low. When the fault is removed, the FETs stay
on. (Figure 1)
Table 1. Current-Limit Type Select
CLTS2
CLTS1
CURRENT-LIMIT TYPE
0
0
LATCH OFF
0
1
AUTORETRY
1
0
CONTINUOUS
1
1
CONTINUOUS
The autoretry feature reduces the system power in case
of overcurrent or short-circuit conditions. During tBLANK
time, when the switch is on, the supply current is held
at the current limit. During tRETRY time, when the switch
is off, there is no current through the switch. Thus, the
output current is much less than the programmed current
limit. Calculate the average output current using the following equation.
t BLANK


ILOAD = ILIM 

 t BLANK + t RETRY 
With a 21ms (typ) tBLANK and 620ms (typ) tRETRY, the
duty cycle is 3.3%, resulting in a 96.7% power saving.
Latch-Off
When the current threshold is reached, the tBLANK timer
begins counting. The FLAG asserts if the overcurrent
condition is present for tBLANK .The timer resets when
the overcurrent condition disappears before tBLANK has
elapsed. The switch turns off and stays off if the overcurrent condition continues beyond the blanking time.
To reset the switch, either toggle the control logic EN or
HVEN or cycle the input voltage. (Figure 2)
Continuous
When the current threshold is reached, the MAX14588
limits the output current to the programmed current limit.
The FLAG asserts if the overcurrent condition is present
for tBLANK and deasserts when the overload condition is
removed. (Figure 3)
Reverse-Current Block Enable (RIEN)
This feature disables the reverse-current protection and
enables reverse-current flow from OUT to IN. The reversecurrent block enable feature is useful in applications with
inductive loads.
Fault Flag Output
FLAG is an open-drain fault indicator output and requires
an external pull-up resistor to a DC supply. FLAG goes
low when any of the following conditions occur:
● The blanking time has elapsed
● The reverse-current protection has tripped
● The die temperature exceeds +150ºC
● SETI is connected to ground
● OVLO threshold is reached
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Maxim Integrated │ 11
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Thermal Shutdown Protection
The MAX14588 has a thermal-shutdown feature to protect the device from overheating. The device turns off and
the FLAG asserts when the junction temperature exceeds
+150ºC (typ). The devices exit thermal shutdown and
resume normal operation after the junction temperature
cools by 30ºC (typ), except when in latch off mode, the
device remains latched off.
The thermal limit behaves similar to the current limit. For
autoretry mode, the thermal limit works with auto retry
timer. When the device comes out of the thermal limit, it
starts after the retry time. For latch off mode, the device
latches off until power or EN cycle. For continuous mode,
the device only disables while the temperature is over the
limit. There is no blanking time for thermal protection.
Overvoltage Lockout (OVLO)
The MAX14588 has a 33V (typ) preset OVLO threshold
when the voltage at OVLO is set below the external
OVLO select voltage (VSEL). Connect OVLO to GND to
activate the preset OVLO threshold. Connect the external
resistors to OVLO pin as shown in the Typical Operating
Circuit to externally adjust the OVLO threshold. Use the
following equation to adjust the OVLO threshold. The recommended value for R3 is 2.2MΩ.
 R3 
VOVLO= VBG × 1 +

 R4 
Undervoltage Lockout (UVLO)
The MAX14588 has a 19V (typ) preset UVLO threshold
when the voltage at UVLO is set below the external OVLO
select voltage (VSEL). Connect UVLO to GND to activate
the preset UVLO threshold. Connect the external resistors
to UVLO pin as shown in the Typical Operating Circuit to
externally adjust the UVLO threshold. Use the following
equation to adjust the UVLO threshold. The recommended value for R1 is 2.2MΩ.
 R1
VUVLO= VBG × 1 +

 R2 
Switch Control
There are two independent enable inputs (HVEN and
EN) for MAX14588. HVEN is a high-voltage capable
input. Toggle HVEN or EN to reset the fault condition
once short-circuit is detected and the device shuts down
(Table 2).
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Input Debounce Protection
The MAX14588 features input debounce protection.
When the input voltage is higher than the UVLO threshold voltage for a period greater than the debounce time
(tDEB), the internal FETs are turned on. This feature is
intended for applications where the EN or HVEN signal
is present when the power supply ramps up (Figure 3).
Applications Information
Setting the Current Limit / Threshold
A resistor from SETI to ground programs the current-limit/
threshold value for the MAX14588. Leaving SETI unconnected selects a 0A current limit/threshold. Connecting
SETI to ground asserts FLAG.
Use the following formula to calculate the current limit:
6100
R SETI (kΩ ) =
ILIM (mA)
IN Bypass Capacitor
Connect a minimum of 0.47µF capacitor from IN to GND
to limit the input voltage drop during momentary output
short-circuit conditions. Larger capacitor values further
reduce the voltage undershoot at the input.
Hot Plug IN
In many system powering applications, an input filtering capacitor is required to lower the radiated emission,
enhance the ESD capability, etc. In hot plug applications,
parasitic cable inductance along with the input capacitor
causes overshoot and ringing when the powered cable is
connected to the input terminal.
This effect causes the protection device to see almost
twice the applied voltage. An input voltage of 24V can
easily exceed the absolute maximum rating of 40V, which
may permanently damage the device. A transient voltage
suppressor (TVS) is often used for industrial applications
to protect the system from these conditions. We recommend using a TVS that is capable of limiting the input
surge to 40V placed close to the input terminal.
Table 2. Enable Inputs
HVEN
0
EN
SWITCH STATUS
0
ON
0
1
ON
1
0
OFF
1
1
ON
Maxim Integrated │ 12
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
OUT Bypass Capacitor
For stable operation over the full temperature range and
over the entire programmable current-limit range, connect a 4.7µF ceramic capacitor from OUT to ground.
Excessive output capacitance can cause a false overcurrent condition due to decreased dv/dt across the capacitor. Calculate the maximum capacitive load (CMAX) value
that can be connected to OUT by using the following
formula:
C MAX (µF) =
ILIM (mA) x t BLANK (TYP) (ms)
VIN (V)
For example, for VIN = 24V, tBLANK(TYP) = 20ms, and
ILIM = 1A, CMAX equals 833µF.
Output Freewheeling Diode for
Inductive Hard Short to Ground
In applications that require protection form a sudden short
to ground with an inductive load or a long cable, a schottky
diode between the OUT terminal and ground is recommended. This is to prevent a negative spike on the OUT
due to the inductive kickback during a short-circuit event.
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Layout and Thermal Dissipation
To optimize the switch response time to output shortcircuit conditions, it is very important to keep all traces
as short as possible to reduce the effect of undesirable
parasitic inductance. Place input and output capacitors as
close as possible to the device (no more than 5mm). IN
and OUT must be connected with wide short traces to the
power bus. During normal operation, the power dissipation is small and the package temperature change is minimal. If the output is continuously shorted to ground at the
maximum supply voltage, the switches with the autoretry
option do not cause thermal shutdown detection to trip:
P(MAX) =
VIN(MAX) × I OUT(MAX) × t BLANK
t RETRY + t BLANK
Attention must be given to continuous current-limit mode
when the power dissipation during a fault condition can
cause the device to reach the thermal shutdown threshold.
Thermal vias from the exposed pad to ground plane are
highly recommended to increase the system thermal capacitance while reducing the thermal resistance to the ambient.
Maxim Integrated │ 13
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Package Information
Ordering Information
PART
TEMP
RANGE
TOP
MARK
PINPACKAGE
MAX14588ETE+T
-40ºC to
+125ºC
AJZ
16 TQFNEP*
+ Denotes a lead(Pb)-free package/RoHS-compliant package.
T = Tape and reel
*EP = Exposed Pad
For the latest package outline information and land patterns
(footprints), go to www.maximintegrated.com/packages. Note
that a “+”, “#”, or “-” in the package code indicates RoHS status
only. Package drawings may show a different suffix character, but
the drawing pertains to the package regardless of RoHS status.
PACKAGE
TYPE
PACKAGE
CODE
OUTLINE
NO.
LAND
PATTERN NO.
16 TQFN-EP
T1633+5
21-0136
90-0032
Chip Information
PROCESS: BiCMOS
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Maxim Integrated │ 14
MAX14588
1A Adjustable Overcurrent and Overvoltage
Protector with High Accuracy
Revision History
REVISION
NUMBER
REVISION
DATE
0
12/12
DESCRIPTION
Initial release
PAGES
CHANGED
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For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com.
Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses
are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits)
shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.
Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.
© 2012 Maxim Integrated Products, Inc. │ 15