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MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/
Quad-Voltage μP Supervisors
General Description
Benefits and Features
The MAX16132–MAX16135 are low-voltage, ±1% accurate, single, dual, triple, and quad-voltage μP supervisors
that monitor up to 4 system-supply voltages for undervoltage and overvoltage faults. The MAX16132–MAX16134
feature independent reset outputs, while the MAX16135
features dual reset outputs. For the MAX16132–
MAX16134, a reset output asserts when the voltage at
its corresponding input falls outside a factory-trimmed undervoltage and overvoltage window threshold. The reset
is maintained for a minimum timeout period after voltage
at the input falls within the factory-set window threshold.
For the MAX16135, a reset output asserts when either,
or both, of the corresponding inputs fall outside the factory-trimmed undervoltage and overvoltage window thresholds. See the Selector Guide for available options. These
integrated supervisory circuits significantly improve system reliability and reduce size compared to separate ICs
or discrete components.
● High Precision
• ±1% Threshold Accuracy over Temperature
The MAX16132–MAX16135 are fixed-threshold devices.
The nominal input voltage for any input is factory-programmable from 1.0V to 5.0V, providing a wide range of threshold selections. The window threshold levels are factoryprogrammable from ±4% to ±11%, with ±1% resolution
and 0.25% or 0.50% hysteresis. The ±1% threshold accuracy over temperature and window threshold monitoring
make these devices ideal for automotive ADAS applications.
The reset outputs are active-low, open-drain, and are
guaranteed to be in the correct reset output logic state
when VDD remains greater than 1.07V. All devices are
offered with 23 reset timeout periods ranging from 20µs
(min) to 1200ms (min). All reset outputs share the same
factory-set reset timeout period.
The MAX16132–MAX16135 are available in a small 8-pin
SOT23 package and specified over the automotive temperature range of -40°C to +125°C.
Applications
●
●
●
●
ADAS
Multivoltage ASICs
Storage Equipment
Servers
19-8708; Rev 24; 8/21
●
●
●
●
●
●
●
●
●
●
●
Programmable OV Threshold: 104% to 111%
Programmable UV Threshold: 89% to 96%
Programmable Input Voltage from 1.0V to 5.0V
Low 15μA Supply Current
Quad-Input Monitor
23 Programmable Reset Timeout Periods
Immune to Short Monitored Supply Transients
Guaranteed Correct Logic State Down to VDD = 1.07V
Open-Drain Outputs
Small SOT23 Package
-40°C to +125°C Automotive Operating Temperature
Range
● AEC-Q100 Qualified (/V Part Numbers, See Ordering
Information)
Ordering Information appears at end of data sheet.
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Simplified Block Diagram
MAX16132
IN
VREF
TRIM
RESET
RESET
TIMEOUT
PERIOD
UVLO
VREF
TRIM
VOLTAGE
REFERENCE
VREF
VREF
UVLO
VDD
GND
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Maxim Integrated | 2
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Absolute Maximum Ratings
VDD to GND.............................................................. -0.3V to +6V
VIN1, VIN2, VIN3, VIN4 to GND ................................. -0.3V to +6V
VRESET1, VRESET2, VRESET3 to GND .................... -0.3V to +6V
Maximum Input/Output Current (all pins) ......................... ±20mA
Continuous Power Dissipation (TA = +70°C).................... 408mW
Operating Temperature Range ...........................-40°C to +125°C
Junction Temperature ....................................................... +150°C
Soldering Temperature (Reflow) ....................................... +260°C
Storage Temperature Range ..............................-65°C to +150°C
Lead Temperature ........................................................... +300ºC
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 Information
8 SOT23
8 SOT23 Package Drawing Link
Package Code
K8+5/K8+5A
Outline Number
21-0078
Land Pattern Number
90-0176
THERMAL RESISTANCE, FOUR-LAYER BOARD
Junction to Ambient (θJA)
196
Junction to Case (θJC)
70
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 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
(VDD = 1.71V to 5.5V, TA = TA = TJ = -40°C to +125°C. Typical values are at TA = +25°C, unless otherwise noted. (Note 1))
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
5.5
V
1.65
V
SUPPLY VOLTAGE
Operating Voltage
Range
VDD
1.71
Undervoltage-Lockout
Threshold
VUVLO
VDD rising
Undervoltage-Lockout
Threshold Hysteresis
VUVLO_HYS
VDD falling
1.35
1.50
47
mV
SUPPLY CURRENT
Supply Current
IDD
RESET_ not asserted
5
(Note 2)
Reset occurs when VIN_NOM falls outside
of VIN_NOM x (1 ± TOL%)
12.5
30
μA
1
5.0
V
4
11
%
INPUT VOLTAGE
Nominal Input Voltage
Programming Range
VIN_NOM
Tolerance Programming
Range
TOL
Tolerance Programming
Resolution
TOLRES
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1
%
VIN_NOM
Maxim Integrated | 3
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Electrical Characteristics (continued)
(VDD = 1.71V to 5.5V, TA = TA = TJ = -40°C to +125°C. Typical values are at TA = +25°C, unless otherwise noted. (Note 1))
PARAMETER
SYMBOL
Undervoltage/
Overvoltage Threshold
Hysteresis
MIN
TYP
MAX
(Note 3) (Note 4)
CONDITIONS
0.04
0.25
0.47
UNITS
(Note 3)
0.20
0.50
0.80
%
VIN_NOM
Undervoltage Threshold
Accuracy
VUV_TH_AC
VIN_NOM falling, VUV_TH = VIN_NOM x (1
- TOL%)
-1
VUV_TH
+1
%
Overvoltage Threshold
Accuracy
OVTH_AC
VIN_NOM rising, VOV_TH = VIN_NOM x (1
+ TOL%)
-1
VOV_TH
+1
%
VIN_ = VIN_NOM
1.30
2
μA
VDD = 5V, ISINK = 3mA, RESET_
asserted
0.1
0.3
VDD = 1V, ISINK = 8μA, RESET_
asserted
0.1
0.3
IN_ Input Current
IIN_
RESET OUTPUTS (Note 3)
Reset Output Voltage
Low
VOL
Reset Output Leakage
Current
Reset Timeout Period
IN_ to
RESET_Propagation
Delay
Note 1:
Note 2:
Note 3:
Note 4:
VRESET_ = 5.5V, TA = +25°C
0.001
VRESET_ = 5.5V, TA = +125°C
0.01
1
tRP
+30
tRP
tD
V
-40
(VUV_TH+1%) to (VUV_TH-1%)
15
(VOV_TH -1%) to (VOV_TH+1%)
15
μA
%
μs
Devices are tested at TA = +25°C and guaranteed by design for TA = -40°C to +125°C.
The sum of nominal input voltage, tolerance percentage, and threshold accuracy percentage must not exceed 5.5V.
Contact factory for the desired option.
Guaranteed by characterization.
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Maxim Integrated | 4
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Typical Operating Characteristics
(VDD = 5V, TA = +25°C, unless otherwise noted.)
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Maxim Integrated | 5
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Typical Operating Characteristics (continued)
(VDD = 5V, TA = +25°C, unless otherwise noted.)
Pin Configurations
VDD
1
8
RESET
IN
2
7
N.C.
N.C.
3
6
N.C.
GND
4
5
N.C.
MAX16132
SOT23-8
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Maxim Integrated | 6
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
VDD
1
8
RESET1
IN1
2
7
RESET2
IN2
3
6
N.C.
GND
4
5
N.C.
MAX16133
SOT23-8
VDD
1
8
RESET1
IN1
2
7
RESET2
IN2
3
6
RESET3
GND
4
5
IN3
MAX16134
SOT23-8
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Maxim Integrated | 7
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
VDD
1
8
RESET1
IN1
2
7
RESET2
IN2
3
6
IN4
GND
4
5
IN3
MAX16135
SOT23-8
Pin Description
PIN
NAME
FUNCTION
MAX16132
MAX16133
MAX16134
MAX16135
1
1
1
1
VDD
2
—
—
—
IN
3, 5, 6, 7
5, 6
—
—
N.C.
No Connect. Connect to ground.
4
4
4
4
GND
Ground
8
—
—
—
2
3
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—
2
3
—
2
3
RESET
Supply Input. Bypass with a 0.1µF capacitor to
GND.
Monitoring Input. Connect IN to its nominal input
voltage. When VIN falls outside overvoltage/
undervoltage window threshold, RESET asserts.
Active-Low, Open-Drain Reset Output. RESET
asserts when VIN falls outside of the
undervoltage/overvoltage window threshold.
RESET stays asserted for the reset timeout
period after VIN fall within the undervoltage/
overvoltage window threshold. RESET requires a
pullup resistor.
IN1
Monitoring Input 1. Connect IN1 to its nominal
input voltage. When VIN1 falls outside the
undervoltage/overvoltage window threshold,
RESET1 asserts. For the quad input,
(MAX16135), RESET1 asserts when either IN1
and/or IN2 falls outside the undervoltage/
overvoltage window threshold.
IN2
Monitoring Input 2. Connect IN2 to its nominal
input voltage. When VIN2 falls outside the
undervoltage/overvoltage window threshold,
RESET2 asserts. For the quad input
(MAX16135), RESET1 asserts when either IN2
and/or IN1 falls outside the undervoltage/
overvoltage window threshold.
Maxim Integrated | 8
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Pin Description (continued)
PIN
MAX16132
—
—
—
—
—
MAX16133
7
8
—
—
—
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MAX16134
7
8
5
6
—
MAX16135
7
8
5
—
6
NAME
FUNCTION
RESET2
Active-Low, Open-Drain Reset Output 2. RESET2
asserts when VIN2 falls outside the undervoltage/
overvoltage window threshold. RESET2 stays
asserted for the reset timeout period after VIN2
falls within the undervoltage/overvoltage window
threshold. RESET2 requires a pullup resistor. For
the MAX16135, RESET2 asserts when either IN3
and/or IN4 falls outside the undervoltage/
overvoltage window threshold.
RESET1
Active-Low, Open-Drain Reset Output 1. RESET1
asserts when VIN1 falls outside the undervoltage/
overvoltage window threshold. RESET1 stays
asserted for the reset timeout period after VIN1
falls within the undervoltage/overvoltage window
threshold. RESET1 requires a pullup resistor. For
the MAX16135, RESET1 asserts when either IN1
and/or IN2 falls outside the undervoltage/
overvoltage window threshold.
IN3
RESET3
IN4
Monitoring Input 3. Connect IN3 to its nominal
input voltage. When VIN3 falls outside
overvoltage/undervoltage window threshold,
RESET3 asserts. For the MAX16135, RESET2
asserts when either IN3 and/or IN4 falls outside
the undervoltage/overvoltage window threshold.
Active-Low, Open-Drain Reset Output 3. RESET3
asserts when VIN3 falls outside the undervoltage/
overvoltage window threshold. RESET3 stays
asserted for the reset timeout period after the
VIN3 falls within the undervoltage/overvoltage
window threshold. RESET3 requires a pullup
resistor.
Monitoring Input 4. Connect IN4 to its nominal
input voltage. When VIN4 falls outside the
overvoltage/undervoltage window threshold,
RESET2 asserts, RESET2 asserts when either
IN4 and/or IN3 falls outside the undervoltage/
overvoltage window threshold.
Maxim Integrated | 9
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Functional Diagrams
Single-Input Functional Block Diagram
MAX16132
IN
VREF
TRIM
RESET
RESET
TIMEOUT
PERIOD
UVLO
VREF
TRIM
VOLTAGE
REFERENCE
VREF
VREF
UVLO
VDD
GND
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Maxim Integrated | 10
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Dual-Input Functional Block Diagram
MAX16133
IN1
VREF
TRIM
RESET1
RESET
TIMEOUT
PERIOD
UVLO
VREF
TRIM
VREF
TRIM
IN2
RESET2
RESET
TIMEOUT
PERIOD
UVLO
VREF
TRIM
VREF
UVLO
VOLTAGE
REFERENCE
VDD
VREF
GND
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Maxim Integrated | 11
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Triple-Input Functional Block Diagram
MAX16134
IN1
VREF
TRIM
RESET1
RESET
TIMEOUT
PERIOD
UVLO
VREF
TRIM
VREF
TRIM
IN2
RESET2
VREF
UVLO
RESET
TIMEOUT
PERIOD
UVLO
RESET
TIMEOUT
PERIOD
TRIM
IN3
VREF
TRIM
RESET3
VREF
TRIM
VREF
UVLO
VOLTAGE
REFERENCE
VDD
VREF
GND
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Maxim Integrated | 12
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Quad-Input Functional Block Diagram
MAX16135
IN1
VREF
TRIM
UVLO
VREF
TRIM
VREF
TRIM
IN2
RESET1
RESET
TIMEOUT
PERIOD
UVLO
VREF
TRIM
IN3
VREF
TRIM
RESET2
UVLO
VREF
RESET
TIMEOUT
PERIOD
TRIM
IN4
VREF
TRIM
UVLO
VREF
TRIM
VREF
UVLO
VDD
VOLTAGE
REFERENCE
VREF
GND
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Maxim Integrated | 13
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Detailed Description
Detailed Description
The MAX16132–MAX16135 are single, dual, triple, and quad-voltage μP supervisors designed to maintain system
integrity in multi-supply systems. These devices offer undervoltage and overvoltage window threshold monitoring within
±1% accuracy over temperature.
Input Voltage
The MAX16132–MAX16135 feature factory-programmable input-voltage-level options from 1.0V to 5V. See Table 1
thru Table 4, as well as the Selector Guide for standard voltage options. The selection of nominal input voltage does
not set the voltage threshold levels. For the MAX16132–MAX16135, the undervoltage and overvoltage thresholds are
determined by the selection of input tolerance. See the Electrical Characteristics table and Input Tolerance/Hysteresis
section for more detail.
Input Tolerance/Hysteresis
The MAX16132–MAX1635 are designed to offer eight factory-programmable input tolerance levels from ±4% to ±11%
in ±1% increment. The input tolerance level sets the undervoltage and overvoltage threshold levels with respect to the
selected nominal input voltage. See Table 5 thru Table 8 for hysteresis and tolerance values.
The MAX16132–MAX16135 are immune to short IN_ transients. Each of the internal comparators are factory-set to
either 0.5% or 0.25% hysteresis with respect to the selected nominal input voltage. Hysteresis provides input immunity to
ambient noise without significantly reducing the input threshold accuracy. See the Maximum IN_ Transient Duration vs.
Reset Threshold Overdrive graph in the Typical Operating Characteristics section.
Reset Outputs
The MAX16132–MAX16134 feature independent, active-low, open-drain reset outputs, while the MAX16135 features
dual reset outputs. For the MAX16132–MAX16134, when an input voltage falls outside the set window threshold, the
corresponding reset outputs asserts. The reset output deasserts after the reset timeout period when the input voltage
falls within the window threshold. See Figure 1 below for more detail.
The MAX16135 feature dual reset outputs. RESET1 asserts when VIN1 and/or VIN2 falls outside the set window
threshold. RESET2 asserts when VIN3 and/or VIN4 falls outside the set window threshold. RESET1 and RESET2 deassert after the reset timeout period when their corresponding input voltages are within the set window threshold. At
power-up, resets stay asserted for the reset timeout period once VDD is above the UVLO. All reset outputs require a
pullup resistor to VDD.
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Maxim Integrated | 14
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
IN1OV_TH
IN1OV_TH-HYS
VIN1_NOM
IN2OV_TH
VIN2_NOM
IN2OV_TH-HYS
IN2UV_TH
tRP
RESET2 ASSERTS DUE TO UV
EVENT ON IN2
RESET2
RESET2 IGNORES OV EVENT
ON IN1
RESET2 DEASSERTS DUE TO IN COMING
OUT OF OV EVENT
Figure 1. Independent Reset Output Timing Diagram (MAX16133/MAX16134)
Reset Timeout Period
The MAX16132–MAX16135 offer 23 factory-set reset timeout periods. All reset outputs share the same reset timeout
period. See Table 9 for reset timeout period selection.
Configuration Tables
Table 1. Single-Input Nominal Voltage Options (Typ)
SUFFIX
IN_NOM (V)
SUFFIX
IN_NOM (V)
—
—
28
2.800
—
—
29
2.900
—
—
30
3.000
—
—
31
3.100
—
—
32
3.200
04
1.240
—
—
10
1.00
33
3.300
11
1.100
34
3.400
12
1.200
35
3.500
13
1.300
36
3.600
14
1.400
37
3.700
15
1.500
38
3.800
16
1.600
39
3.900
17
1.700
40
4.000
18
1.800
41
4.100
19
1.900
42
4.200
20
2.000
43
4.300
21
2.100
44
4.400
22
2.200
45
4.500
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Maxim Integrated | 15
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Table 1. Single-Input Nominal Voltage Options (Typ) (continued)
SUFFIX
IN_NOM (V)
SUFFIX
IN_NOM (V)
23
2.300
46
4.600
24
2.400
47
4.700
25
2.500
48
4.800
26
2.600
49
4.900
27
2.700
50
5.000
Table 2. Dual-Input Nominal Voltage Options (Typ)
SUFFIX
IN1_NOM (V)
IN2_NOM (V)
A
5.000
3.300
B
5.000
1.800
C
5.000
1.200
D
5.000
1.000
E
3.300
1.800
F
3.300
1.200
G
3.300
1.000
H
2.500
1.200
I
2.500
1.160
J
1.800
1.500
K
1.800
1.200
L
1.800
1.000
M
1.500
1.200
N
1.500
1.000
O
1.200
1.000
P
2.500
1.140
Q
1.25
1.25
Table 3. Triple-Input Nominal Voltage Options (Typ)
SUFFIX
IN1_ NOM (V)
IN2_NOM (V)
IN3_NOM (V)
A
5.000
3.300
1.800
B
5.000
3.300
1.200
C
5.000
3.300
1.000
D
4.800
3.000
1.800
E
4.800
3.000
1.200
F
4.800
1.800
1.200
G
4.800
1.800
1.000
H
4.500
3.300
1.800
I
4.500
3.300
1.200
J
4.500
3.300
1.000
K
3.300
1.800
1.200
L
3.300
1.800
1.000
M
3.000
1.800
1.200
N
3.000
1.800
1.000
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Maxim Integrated | 16
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Table 3. Triple-Input Nominal Voltage Options (Typ) (continued)
SUFFIX
IN1_ NOM (V)
IN2_NOM (V)
IN3_NOM (V)
O
2.500
1.800
1.200
P
2.500
1.800
1.000
Q
3.30
2.50
1.160
Table 4. Quad-Input Nominal Voltage Options (Typ)
SUFFIX
IN1_NOM (V)
IN2_NOM (V)
IN3_NOM (V)
IN4_NOM (V)
A
5.000
3.300
2.500
1.500
B
5.000
3.300
1.800
1.200
C
5.000
3.300
1.200
1.000
D
4.800
3.300
1.800
1.200
E
4.800
2.500
1.800
1.200
F
4.800
3.00
1.500
1.000
G
4.500
3.300
2.500
1.800
H
4.500
3.000
1.800
1.200
I
3.300
2.500
1.800
1.500
J
3.300
2.500
1.800
1.200
K
3.300
1.800
1.200
1.000
L
3.000
2.500
1.500
1.200
M
3.000
1.800
1.200
1.000
N
2.500
1.800
1.200
1.000
O
2.300
1.800
1.500
1.200
P
2.300
1.500
1.200
1.000
Q
3.300
1.800
1.160
1.160
R
5.000
3.240
1.220
1.800
S
1.800
1.500
1.360
1.200
T
3.300
1.000
1.000
3.300
Table 5. Single-Input HYS/TOL Options (Typ)
SUFFIX
IN HYS (%)/TOL (±%))
A
0.5/4
B
0.25/4
C
0.5/5
D
0.25/5
E
0.5/6
F
0.25/6
G
0.5/7
H
0.25/7
I
0.5/8
J
0.25/8
K
0.5/9
L
0.25/9
M
0.5/10
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Maxim Integrated | 17
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Table 5. Single-Input HYS/TOL Options (Typ) (continued)
SUFFIX
IN HYS (%)/TOL (±%))
N
0.25/10
O
0.5/11
P
0.25/11
Table 6. Dual-Input HYS/TOL Options (Typ)
SUFFIX
IN1 HYS (%)/TOL (±%)
IN2 HYS (%)/TOL (±%)
A
0.5/4
0.5/4
B
0.25/4
0.25/4
C
0.5/5
0.5/5
D
0.25/5
0.25/5
E
0.5/6
0.5/6
F
0.25/6
0.25/6
G
0.5/7
0.5/7
H
0.25/7
0.25/7
I
0.5/8
0.5/8
J
0.25/8
0.25/8
K
0.5/9
0.5/9
L
0.25/9
0.25/9
M
0.5/10
0.5/10
N
0.25/10
0.25/10
O
0.5/11
0.5/11
P
0.25/11
0.25/11
Table 7. Triple-Input HYS/TOL Options (Typ)
SUFFIX
IN1 HYS (%)/TOL (±%)
IN2 HYS (%)/TOL (±%)
IN3 HYS (%)/TOL (±%)
A
0.5/4
0.5/4
0.5/4
B
0.25/4
0.25/4
0.25/4
C
0.5/5
0.5/5
0.5/5
D
0.25/5
0.25/5
0.25/5
E
0.5/6
0.5/6
0.5/6
F
0.25/6
0.25/6
0.25/6
G
0.5/7
0.5/7
0.5/7
H
0.25/7
0.25/7
0.25/7
I
0.5/8
0.5/8
0.5/8
J
0.25/8
0.25/8
0.25/8
K
0.5/9
0.5/9
0.5/9
L
0.25/9
0.25/9
0.25/9
M
0.5/10
0.5/10
0.5/10
N
0.25/10
0.25/10
0.25/10
O
0.5/11
0.5/11
0.5/11
P
0.25/11
0.25/11
0.25/11
Q
0.25/4
0.25/4
0.25/7
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Maxim Integrated | 18
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Table 8. Quad-Input HYS/TOL Options (Typ)
SUFFIX
IN1 HYS (%)/TOL (±%)
IN2 HYS (%)/TOL (±%)
IN3 HYS (%)/TOL (±%)
IN4 HYS (%)/TOL (±%)
A
0.5/4
0.5/4
0.5/4
0.5/4
B
0.25/4
0.25/4
0.25/4
0.25/4
C
0.5/5
0.5/5
0.5/5
0.5/5
D
0.25/5
0.25/5
0.25/5
0.25/5
E
0.5/6
0.5/6
0.5/6
0.5/6
F
0.25/6
0.25/6
0.25/6
0.25/6
G
0.5/7
0.5/7
0.5/7
0.5/7
H
0.25/7
0.25/7
0.25/7
0.25/7
I
0.5/8
0.5/8
0.5/8
0.5/8
0.25/8
J
0.25/8
0.25/8
0.25/8
K
0.5/9
0.5/9
0.5/9
0.5/9
L
0.25/9
0.25/9
0.25/9
0.25/9
M
0.5/10
0.5/10
0.5/10
0.5/10
N
0.25/10
0.25/10
0.25/10
0.25/10
O
0.5/11
0.5/11
0.5/11
0.5/11
P
0.25/11
0.25/11
0.25/11
0.25/11
Q
0.25/11
0.25/4
0.5/11
0.5/4
R
0.25/8
0.25/5
0.25/5
0.25/4
S
0.5/8
0.5/4
0.5/6
0.5/6
Table 9. Reset Timeout (Min)
SUFFIX
TRP
SUFFIX
TRP
A
20µs
M
70ms
B
1ms
N
100ms
C
2ms
O
140ms
D
3ms
P
150ms
E
5ms
Q
200ms
F
10ms
R
280ms
G
15ms
S
400ms
H
20ms
T
560ms
I
25ms
U
800ms
J
35ms
V
1120ms
K
40ms
W
1200ms
L
50ms
—
—
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Maxim Integrated | 19
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Applications Information
Unused Inputs
The MAX16132–MAX16135 are capable of monitoring inputs for undervoltage and overvoltage events within a very
narrow voltage window. Connect any unused IN_ input to its nominal voltage setting.
Setting Input Thresholds
The MAX16132–MAX16135 reset devices that monitor input within a window threshold set by the input tolerance
selection. Tolerance setting determines the boundary for undervoltage and overvoltage thresholds. The selected nominal
input voltage must stay within the window threshold for the MAX16132–MAX16135 not to issue a reset signal. See below
for threshold calculation for 2.5V nominal input voltage and ±10% input tolerance:
VINNOM = 2.5V
TOL = ± 10 %
VUVTH = VINNOM(1 − 10 % ) = 2.5V(1 − 0.1) = 2.5V − 0.250V = 2.250V
VOVTH = VINNOM(1 + 10 % ) = 2.5V(1 + 0.1) = 2.5V + 0.250V = 2.750V
Where VINNOM is the selected nominal input voltage, TOL is the input tolerance, VUVTH is undervoltage threshold
voltage and VOVTH is the overvoltage threshold voltage.
The MAX16132–MAX16135 feature ±1% threshold accuracy over temperature. This excursion must be added to the
calculated undervoltage and overvoltage threshold settings to account for the threshold variation as shown below:
VUVTH_EXC = VUVTH(1 ± 1 % ) = 2.250V(1 ± 0.01) = 2.250V ± 0.0225V
VOVTH_EXC = VOVTH(1 ± 1 % ) = 2.750V(1 ± 0.01) = 2.750V ± 0.0275V
Where VUVTH_EXC is the undervoltage threshold variation and VOVTH_EXC is the overvoltage threshold variation.
Undervoltage/Overvoltage-Detection Circuit
The open-drain outputs of the MAX16132–MAX16135 can be configured to detect an undervoltage/overvoltage condition.
Figure 2 shows the MAX16132 reset output deriving an LED when there is an overvoltage/undervoltage event on IN.
Note: The value for the current-limiting resistor R must be chosen such that it does not violate the absolute maximum
ratings of the reset pin.
www.maximintegrated.com
Maxim Integrated | 20
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
1.71V < VDD < 5.5V
R
VDD
0.1µF
RESET
MAX16132
IN
VIN
GND
Figure 2. Undervoltage/Overvoltage Detection Circuit with LED Indicator
Power-Supply Bypassing and Grounding
The MAX16132–MAX16135 operate from a 1.71V to 5.5V supply. An undervoltage lockout ensures that the outputs are
in the correct states when the UVLO is exceeded. Bypass VDD to ground with a 0.1μF capacitor as close to the device
as possible. Additional capacitor improves transient immunity. For fast transients with large voltage excursion, a filter
resistor in series with the bypass capacitor is recommended for proper device operation. See Figure 3 below for more
detail.
1.71V ≤ VIN ≤ 5.5V
*RFILTER
VIN
0.1µF
10kΩ
VDD
VMON1
10kΩ
0.1µF
10kΩ
IN
IN1
RESET1
MAX16134
VMON2
µC
IN2
RESET2
VMON3
RESET3
IN3
GND
GND
* Denotes optional filter resistor in series with the input bypass capacitance. For a transient
excursion of 1.71V ≤ VDD ≤ 5.5V a 500Ω is recommended.
Figure 3. Power Supply Bypassing/Input Filter
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Maxim Integrated | 21
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Selector Guide
MAX161__ _ _ _+T
SUF
32
33
34
35
# OF
CHA N
SINGLE
DUAL
TRIPLE
QUAD
RESET
TIMEOUT (m i n )
A
20µs
B
1ms
C
2ms
D
3ms
E
5ms
F
10ms
G
15ms
H
20ms
I
25ms
J
35ms
K
40ms
L
50ms
M
70ms
N
100ms
O
140ms
P
150ms
Q
200ms
R
280ms
S
400ms
T
560ms
U
800ms
V
1120ms
W
1200ms
SUF
–
–
–
–
–
10
11
12
13
04
14
15
16
17
18
19
20
21
22
23
24
25
26
27
SINGL E-INPUT HYS/TOL (t y p )
SUF
IN
HYS (%)/
T OL ( % )
A
0.5/4
B
0.25/4
C
0.5/5
D
0.25/5
E
0.5/6
F
0.25/6
G
0.5/7
H
0.25/7
I
0.5/8
J
0.25/8
K
0.5/9
L
0.25/9
M
0.5/10
N
0.25/10
O
0.5/11
P
0.25/11
www.maximintegrated.com
SINGL E NOMINA L INPUT (t y p )
VIN_NOM
SUF
VIN_NOM
(V)
(V)
–
28
2.800
–
29
2.900
–
30
3.000
–
31
3.100
–
32
3.200
1.000
33
3.300
1.100
34
3.400
1.200
35
3.500
1.300
36
3.600
1.240
–
–
1.400
37
3.700
1.500
38
3.800
1.600
39
3.900
1.700
40
4.000
1.800
41
4.100
1.900
42
4.200
2.000
43
4.300
2.100
44
4.400
2.200
45
4.500
2.300
46
4.600
2.400
47
4.700
2.500
48
4.800
2.600
49
4.900
2.700
50
5.000
SUF
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
SUF
DUA L -INPUT HYS/TOL (t y p )
IN1
IN2
HYS (%)/
HYS (%)/
T OL ( % )
T OL ( % )
0.5/4
0.5/4
0.25/4
0.25/4
0.5/5
0.5/5
0.25/5
0.25/5
0.5/6
0.5/6
0.25/6
0.25/6
0.5/7
0.5/7
0.25/7
0.25/7
0.5/8
0.5/8
0.25/8
0.25/8
0.5/9
0.5/9
0.25/9
0.25/9
0.5/10
0.5/10
0.25/10
0.25/10
0.5/11
0.5/11
0.25/11
0.25/11
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
DUA L NOMINA L INPUT (t y p )
VIN1_NOMM
VIN2_NOMM
(V)
(V)
5.000
3.300
5.000
1.800
5.000
1.200
5.000
1.00
3.300
1.800
3.300
1.200
3.300
1.000
2.500
1.200
2.500
1.160
1.800
1.500
1.800
1.200
1.800
1.000
1.500
1.200
1.500
1.100
1.250
1.000
2.500
1.140
1.250
1.250
SUF
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
SUF
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
TRIPL E NOMINA L INPUT (t y p )
VIN1_NOMM
VIN2_NOMM
VIN3_NOMM
(V)
(V)
(V)
5.000
3.300
1.800
5.000
3.300
1.200
5.000
3.300
1.000
4.800
3.000
1.800
4.800
3.000
1.200
4.800
1.800
1.200
4.800
1.800
1.000
4.500
3.300
1.800
4.500
3.300
1.200
4.500
3.300
1.000
3.300
1.800
1.200
3.300
1.800
1.000
3.000
1.800
1.200
3.000
1.800
1.000
2.500
1.800
1.200
2.500
1.800
1.000
3.300
2.500
1.160
TRIPL E-INPUT HYS/TOL (t y p )
IN1
IN2
IN3
HYS (%)/
HYS (%)/
HYS (%)/
T OL ( % )
T OL ( % )
T OL ( % )
0.5/4
0.5/4
0.5/4
0.25/4
0.25/4
0.25/4
0.5/5
0.5/5
0.5/5
0.25/5
0.25/5
0.25/5
0.5/6
0.5/6
0.5/6
0.25/6
0.25/6
0.25/6
0.5/7
0.5/7
0.5/7
0.25/7
0.25/7
0.25/7
0.5/8
0.5/8
0.5/8
0.25/8
0.25/8
0.25/8
0.5/9
0.5/9
0.5/9
0.25/9
0.25/9
0.25/9
0.5/10
0.5/10
0.5/10
0.25/10
0.25/10
0.25/10
0.5/11
0.5/11
0.5/11
0.25/11
0.25/11
0.25/11
0.25/4
0.25/4
0.25/7
SUF
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
SUF
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
QUA D-NOMINA L INPUT (t y p )
VIN1_NOMM
VIN2_NOMM
VIN3_NOMM
(V)
(V)
(V)
5.000
3.300
2.500
5.000
3.300
1.800
5.000
3.300
1.200
4.800
3.300
1.800
4.800
2.500
1.800
4.800
3.000
1.500
4.500
3.300
2.500
4.500
3.000
1.800
3.300
2.500
1.800
3.300
2.500
1.800
3.300
1.800
1.200
3.000
2.500
1.500
3.000
1.800
1.200
2.500
1.800
1.200
2.300
1.800
1.500
2.300
1.500
1.200
1.160
1.800
3.300
5.000
3.240
1.220
1.800
1.500
1.360
3.300
1.000
1.000
QUA D-INPUT HYS/TOL (t y p )
IN1
IN2
IN3
HYS (%)/
HYS (%)/
HYS (%)/
T OL ( % )
T OL ( % )
T OL ( % )
0.5/4
0.5/4
0.5/4
0.25/4
0.25/4
0.25/4
0.5/5
0.5/5
0.5/5
0.25/5
0.25/5
0.25/5
0.5/6
0.5/6
0.5/6
0.25/6
0.25/6
0.25/6
0.5/7
0.5/7
0.5/7
0.25/7
0.25/7
0.25/7
0.5/8
0.5/8
0.5/8
0.25/8
0.25/8
0.25/8
0.5/9
0.5/9
0.5/9
0.25/9
0.25/9
0.25/9
0.5/10
0.5/10
0.5/10
0.25/10
0.25/10
0.25/10
0.5/11
0.5/11
0.5/11
0.25/11
0.25/11
0.25/11
0.25/11
0.25/4
0.5/11
0.25/8
0.25/5
0.25/5
0.5/6
0.5/8
0.5/4
VIN4_NOMM
(V)
1.500
1.200
1.000
1.200
1.200
1.000
1.800
1.200
1.500
1.200
1.000
1.200
1.000
1.000
1.200
1.000
1.160
1.800
1.200
3.300
IN4
HYS (%)/
T OL ( % )
0.5/4
0.25/4
0.5/5
0.25/5
0.5/6
0.25/6
0.5/7
0.25/7
0.5/8
0.25/8
0.5/9
0.25/9
0.5/10
0.25/10
0.5/11
0.25/11
0.5/4
0.25/4
0.5/6
Maxim Integrated | 22
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Typical Operating Circuit
1.71V ≤ VDD ≤ 5.5V
0.1µF
10kΩ
VDD
VMON1
IN1
RESET1
www.maximintegrated.com
VMON2
IN2
VMON3
IN3
VMON4
IN4
MAX16135
RESET2
RST1
µP
10kΩ
RST2
GND
GND
Maxim Integrated | 23
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Ordering Information
PART NUMBER
TEMP RANGE
PIN-PACKAGE
MAX16132 B11A/V+T
-40°C to +125°C
8 SOT23
MAX16132B33A+T
-40°C to +125°C
8 SOT23
MAX16132B33F/V+T
-40°C to +125°C
8 SOT23
MAX16132E33B/V+T
-40°C to +125°C
8 SOT23
MAX16132F04E/V+T
-40°C to +125°C
8 SOT23
MAX16132F33G/V+T
-40°C to +125°C
8 SOT23
MAX16132G04D+T
-40°C to +125°C
8 SOT23
MAX16132G04D/V+T
-40°C to +125°C
8 SOT23
MAX16132H10B+T
-40°C to +125°C
8 SOT23
MAX16132H10B/V+T
-40°C to +125°C
8 SOT23
MAX16133AEG/V+T
-40ºC to +125ºC
8 SOT23
MAX16133 BFM+T
-40°C to +125°C
8 SOT23
MAX16133BFM/V+T
-40°C to +125°C
8 SOT23
MAX16133BHA+T
-40°C to +125°C
8 SOT23
MAX16133EEM/V+T
-40°C to +125°C
8 SOT23
MAX16133FQP/V+T
-40°C to +125°C
8 SOT23
MAX16133HPB/V+
-40°C to +125°C
8 SOT23
MAX16133HPB+T
-40°C to +125°C
8 SOT23
MAX16133HIB/V+T
-40°C to +125°C
8 SOT23
MAX16133LFM/V+T
-40°C to +125°C
8 SOT23
MAX16133LFM+T
-40°C to +125°C
8 SOT23
MAX16134 MLG+T
-40°C to +125°C
8 SOT23
MAX16134NKQ/V+T
-40°C to +125°C
8 SOT23
MAX16135 ATI+T
-40°C to +125°C
8 SOT23
MAX16135GQS/V+T
-40°C to +125°C
8 SOT23
MAX16135HRB+T
-40°C to +125°C
8 SOT23
MAX16135HRB/V+T
-40°C to +125°C
8 SOT23
MAX16135HRR/V+T
-40°C to +125°C
8 SOT23
+ Denotes a lead(Pb)-free/RoHS-compliant package.
T = Tape-and-reel.
/V denotes an automotive qualified part.
Note:
See the Selector Guide for Reset Timeout Period, Nominal Input Voltages, and Hysteresis/Tolerance options.
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Maxim Integrated | 24
MAX16132–MAX16135
Low-Voltage, Precision, Single/Dual/Triple/QuadVoltage μP Supervisors
Revision History
REVISION
NUMBER
REVISION
DATE
PAGES
CHANGED
0
11/16
Initial release
—
1
1/17
Corrected part numbers in Figure 3 and Typical Application Circuit
20
2
2/17
Updated Selector Guide
21
3
6/17
Updated Electrical Characteristics table, Selector Guide, and Ordering Information table
4
8/17
Updated Ordering Information table
5
11/17
Added released part numbers to Ordering Information table and AEC-Q100 statement to
Benefits and Features section
1, 22
6
12/17
Updated Electrical Characteristics table and Ordering Information
6, 22
7
1/18
Updated Ordering Information
8
2/18
Updated Ordering Information
9
3/18
Updated the General Description, Benefits and Features, and Input Voltage sections,
Electrical Characteristics table, Table 1 and Table 4, and Selector Guide.
10
7/18
Updated Ordering Information table
11
7/18
Updated Absolute Maximum Ratings and Ordering Information
5, 22
12
10/18
Updated Electrical Characteristics table and Applications Information
6, 19
13
12/18
Updated Ordering Information table
14
2/19
Updated Ordering Information table
15
10/19
Updated Table 2, Selector Guide, and Ordering Information
16
10/19
Updated Pin Description and Applications Information
17
11/19
Updated Table 2, Selector Guide, and Ordering Information
14, 19, 20
14–16, 19,
20
DESCRIPTION
22
22
22
22
22
14, 19, 20
8, 17
12/19
Updated Table 1–9, Selector Guide, and Ordering Information
19
2/20
Updated General Description, Benefits and Features, and Package Information
20
4/20
Updated Typical Operating Characteristics, Pin Description table, Detailed Description,
Applications Information, Selector Guide, and Ordering Information table
21
9/20
Updated Ordering Information table
22
3/21
Updated Electrical Characteristics table, Ordering Information table
23
6/21
Updated Ordering Information table
8/21
1, 6,
15–17, 21
22
18
24
6, 16–18,
21, 22
1, 3
5, 8, 9,
13–15,
17, 19, 20
25
3, 4, 24
24
Updated Ordering Information table, Configuration Tables, and Selector Guide
15, 17, 19,
22, 24
For pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https://www.maximintegrated.com/en/storefront/storefront.html.
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.
© 2021 Maxim Integrated Products, Inc.