MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
General Description
The MAX6443–MAX6452 low-current microprocessor
reset circuits feature single or dual manual reset inputs
with an extended setup period. Because of the extended
setup period, short switch closures (nuisance resets) are
ignored.
On all devices, the reset output asserts when any of
the monitored supply voltages drops below its specified
threshold. The reset output remains asserted for the reset
timeout period (210ms typ) after all monitored supplies
exceed their reset thresholds. The reset output is oneshot pulse asserted for the reset timeout period (140ms
min) when selected manual reset input(s) are held low for
an extended setup timeout period. These devices ignore
manual reset transitions of less than the extended setup
timeout period.
The MAX6443–MAX6448 are single fixed-voltage µP
supervisors. The MAX6443/MAX6444 have a single
extended manual reset input. The MAX6445/MAX6446
have two extended manual reset inputs. The MAX6447/
MAX6448 have one extended and one immediate manual
reset input.
The MAX6449–MAX6452 have one fixed-threshold µP
supervisor and one adjustable-threshold µP supervisor.
The MAX6449/MAX6450 have two delayed manual reset
inputs. The MAX6451/MAX6452 have one delayed and
one immediate manual reset input.
The MAX6443–MAX6452 have an active-low RESET with
push-pull or open-drain output logic options. These devices, offered in small SOT packages, are fully guaranteed
over the extended temperature range (-40°C to +85°C).
Features
●● Single or Dual-Supply Voltage Monitors
●● Precision Factory-Set Reset Thresholds from
1.6V to 4.6V
●● Adjustable Threshold to Monitor Voltages Down to
0.63V (MAX6449–MAX6452)
●● Single or Dual Manual Reset Inputs with Extended
Setup Period
●● Optional Short Setup Time Manual Reset Input
(MAX6447/MAX6448 and MAX6451/MAX6452)
●● Immune to Short Voltage Transients
●● Low 6µA Supply Current
●● Guaranteed Valid Reset Down to VCC = 1.0V
●● Active-Low RESET (Push-Pull or Open-Drain)
Outputs
●● 140ms (min) Reset Timeout Period
●● Small SOT143 and SOT23 Packages
●● AEC-Q100 Qualified (MAX6444US16K/V+T)
Ordering Information at end of data sheet.
Typical Operating Circuit
+3.3V
MAX6444
Applications
●●
●●
●●
●●
●●
●●
●●
●●
Set-Top Boxes
Consumer Electronics
DVD Players
Cable/DSL Modems
MP3 Players
Industrial Equipment
Automotive
Medical Devices
MR1
µP
RESET
RESET
GND
GND
RESET TIMEOUT PERIOD
210ms
MR1 SETUP PERIOD
tMR
MR1
RESET
19-2656; Rev 6; 3/18
VCC
VCC
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Absolute Maximum Ratings
(All voltages referenced to GND.)
VCC .........................................................................-0.3V to +6V
Open-Drain RESET .................................................-0.3V to +6V
Push-Pull RESET ..................................... -0.3V to (VCC + 0.3V)
MR1, MR2, MR2, RSTIN .........................................-0.3V to +6V
Input Current, All Pins.......................................................±20mA
Continuous Power Dissipation (TA = +70°C)
4-Pin SOT143 (derate 4.0mW/°C above +70°C).........320mW
5-Pin SOT23 (derate 7.1mW/°C above +70°C)...........571mW
6-Pin SOT23 (derate 8.7mW/°C above +70°C)...........696mW
Operating Temperature Range............................ -40°C to +85°C
Junction Temperature.......................................................+150°C
Storage Temperature Range............................. -65°C to +150°C
Lead Temperature (soldering, 10s).................................. +300°C
Soldering Temperature (reflow)
Lead(Pb)-free...............................................................+260°C
Containing lead.............................................................+240°C
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.
Electrical Characteristics
(VCC = 1.0V to 5.5V, TA = -40°C to +85°C, unless otherwise specified. Typical values are at TA = +25°C.) (Note 1)
PARAMETER
Operating Voltage Range
VCC Supply Current
VCC Reset Threshold
SYMBOL
CONDITIONS
VCC
ICC
VTH
MIN
1.0
5.5
V
20
VCC = 3.6V, no load
6
16
46
4.50
4.63
4.75
44
4.25
4.38
4.50
31
3.00
3.08
3.15
29
2.85
2.93
3.00
26
2.55
2.63
2.70
23
2.25
2.32
2.38
22
2.12
2.19
2.25
17
1.62
1.67
1.71
16
1.52
1.58
1.62
60
VTH-RSTIN MAX6449–MAX6452
VHYST
MAX6449–MAX6452
RSTIN Input Current
IRSTIN
MAX6449–MAX6452
TA = 0°C to +85°C
0.615
TA = -40°C to +85°C
0.610
Reset Timeout Period
tRP
VCC to RESET Output Delay
tRD
tMR
0.650
-25
V
mV
+25
15
nA
µs
140
210
K
6.72
10.08
13.44
L
4.48
6.72
8.96
S
2.24
3.36
4.48
T
1.12
1.68
2.24
VCC falling at 1mV/µs
V
mV
0.645
2.5
MAX6449–MAX6452, VRSTIN falling at
1mV/µs
RSTIN to Reset Output Delay
0.630
µA
ppm/°C
2 × VTH
RSTIN Threshold Hysteresis
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UNITS
7
Reset Threshold Hysteresis
Manual Reset Minimum Setup
Period Pulse Width
MAX
VCC = 5.5V, no load
Reset Threshold Tempco
RSTIN Threshold
TYP
280
20
ms
µs
s
Maxim Integrated │ 2
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Electrical Characteristics (continued)
(VCC = 1.0V to 5.5V, TA = -40°C to +85°C, unless otherwise specified. Typical values are at TA = +25°C.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MR2 Minimum Setup Period
Pulse Width
MAX6447/MAX6448/MAX6451/MAX6452
MR2 Glitch Rejection
MAX6447/MAX6448/MAX6451/MAX6452
MR2 to RESET Delay
Manual Reset Timeout Period
MR2 to VCC Pullup Impedance
RESET Output High
(Push-Pull)
RESET Open-Drain Leakage
Current
MAX6445/MAX6446/MAX6449/MAX6450
VOL
VOH
ILKG
MR1, MR2, MR2
Input Low Voltage
VIL
MR1, MR2, MR2
Input High Voltage
VIH
TYP
MAX
1
UNITS
µs
100
MAX6447/MAX6448/MAX6451/MAX6452
tMRP
MR1 to VCC Pullup Impedance
RESET Output Low
(Open Drain or Push-Pull)
MIN
ns
200
ns
140
210
280
ms
25
50
75
kW
25
50
75
kW
VCC ≥ 1.00V, ISINK = 50µA, RESET
asserted
0.3
VCC ≥ 1.20V, ISINK = 100µA, RESET
asserted
0.3
VCC ≥ 2.55V, ISINK = 1.2mA, RESET
asserted
0.3
VCC ≥ 4.25V, ISINK = 3.2mA, RESET
asserted
0.4
V
VCC ≥ 1.80V, ISOURCE = 200µA, RESET
deasserted
0.8 × VCC
VCC ≥ 3.15V, ISOURCE = 500µA, RESET
deasserted
0.8 × VCC
VCC ≥ 4.75V, ISOURCE = 800µA, RESET
deasserted
0.8 × VCC
RESET deasserted
V
1
0.3 × VCC
0.7 × VCC
µA
V
V
Note 1: Devices production tested at TA = +25°C. Overtemperature limits are guaranteed by design.
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Maxim Integrated │ 3
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Typical Operating Characteristics
(VCC = 3.3V, TA = +25°C, unless otherwise noted.)
SUPPLY CURRENT
vs. SUPPLY VOLTAGE
5
4
TA = -40°C
3
2
1
1.00
0.99
0.98
0.97
MAX6443/52 toc03
MAX6443/52 toc02
1.01
200
150
RESET OCCURS
ABOVE THE CURVE
100
50
VTH = 4.4V
-40
-15
10
35
60
0
85
0
200
400
600
800
1000
RESET THRESHOLD OVERDRIVE (mV)
NORMALIZED VCC RESET THRESHOLD
vs. TEMPERATURE
VCC TO RESET DELAY
vs. TEMPERATURE
RSTIN TO RESET DELAY
vs. TEMPERATURE (RSTIN FALLING)
1.01
1.00
0.99
0.98
VCC = FALLING AT 1mV/µs
23.6
23.2
22.8
22.4
22.0
21.6
21.2
20.8
-40
-15
10
35
60
85
RSTIN FALLING AT 1mV/µs
23.6
23.2
22.8
22.4
22.0
21.6
21.2
20.8
20.4
20.4
20.0
24.0
RSTIN TO RESET DELAY (µs)
1.02
24.0
-40
-15
TEMPERATURE (°C)
10
35
60
85
20.0
-40
-15
MANUAL RESET TO RESET DELAY
(MAX6445L/MAX6446L/MAX6449L/MAX6450L)
MAX6443/52 toc07
MR1
(5V/div)
10
35
60
85
TEMPERATURE (°C)
TEMPERATURE (°C)
VCC = 5V
MAX6443/52 toc06
TEMPERATURE (°C)
MAX6443/52 toc05
SUPPLY VOLTAGE (V)
MAX6443/52 toc04
NORMALIZED VCC RESET THRESHOLD
1.02
0.95
1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5
1.03
0.97
1.03
250
0.96
VCC TO RESET DELAY (µs)
0
1.04
TRANSIENT DURATION (µs)
6
1.05
NORMALIZED TIMEOUT PERIOD
SUPPLY CURRENT (µA)
TA = +85°C
TA = +25°C
7
MAX6443/52 toc01
9
8
MAXIMUM TRANSIENT DURATION
vs. RESET THRESHOLD OVERDRIVE
NORMALIZED RESET TIMEOUT PERIOD
vs. TEMPERATURE
VCC TO RESET DELAY
MAX6443/52 toc08
VCC = 4.5V
VTH = 4.392V
VCC (100mV/div)
VCC = 4.3V
MR2
(5V/div)
RESET
(5V/div)
TIME (1s/div)
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RESET
(2V/div)
TIME (100µs/div)
Maxim Integrated │ 4
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Pin Description
PIN
MAX6443
MAX6444
MAX6445
MAX6446
MAX6447
MAX6448
MAX6449
MAX6450
MAX6451
MAX6452
NAME
1
2
2
2
2
GND
2
1
1
1
1
3
—
3
—
3
RESET
MR1
—
3
—
3
—
4
4
4
4
4
FUNCTION
Ground
Active-Low Push-Pull or Open-Drain Output. RESET
changes from high to low when VCC or RSTIN drops below
its selected reset threshold and remains low for the 210ms
reset timeout period after all monitored power-supply inputs
exceed their selected reset thresholds. RESET is one-shot
pulsed low for the reset timeout period (140ms min) after
selected manual reset inputs are asserted longer than the
specified setup period. For the open-drain output, use a
minimum 20kW pullup resistor to VCC.
Manual Reset Input, Active Low. Internal 50kW pullup to
VCC. Pull MR1 low for the typical input pulse width (tMR)
to one-shot pulse RESET for the reset timeout period.
Manual Reset Input, Active Low. Pull both MR1 and
MR2 low for the typical input pulse width (tMR) to oneshot pulse RESET for the reset timeout period.
VCC
V CC Voltage Input. Power supply and input for the
primary microprocessor voltage reset monitor.
—
5
—
6
—
MR2
Manual Reset Input, Active Low. Internal 50kW pullup to
VCC. Pull both MR1 and MR2 low for the typical input
pulse width (tMR) to one-shot pulse RESET for the reset
timeout period.
—
—
5
—
6
MR2
Manual Reset Input. Pull the MR2 high to immediately
one-shot pulse RESET for the reset timeout period.
—
—
—
5
5
RSTIN
Reset Input. High-impedance input to the adjustable
reset comparator. Connect RSTIN to the center point
of an external resistor-divider to set the threshold of the
externally monitored voltage.
Detailed Description
Reset Output
The reset output is typically connected to the reset
input of a microprocessor (µP). A µP’s reset input starts
or restarts the µP in a known state. The MAX6443–
MAX6452 µP supervisory circuits provide the reset
logic to prevent code-execution errors during powerup, power-down and brownout conditions (see the
Typical Operating Circuit).
RESET changes from high to low whenever the monitored voltages (RSTIN or VCC) drop below the reset
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threshold voltages. Once VRSTIN and VCC exceed their
respective reset threshold voltages, RESET remains low
for the reset timeout period and then goes high. RESET
is one-shot pulsed whenever selected manual reset
inputs are asserted. RESET stays asserted for the normal reset timeout period (140ms min).
RESET is guaranteed to be in the proper output logic
state for VCC inputs ≥ 1V. For applications requiring valid
reset logic when VCC is less than 1V, see the Ensuring a
Valid RESET Output Down to VCC = 0V section.
Maxim Integrated │ 5
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Manual Reset Input Options
Unlike typical manual reset functions associated with
supervisors, each device in the MAX6443–MAX6452 family includes at least one manual reset input, which must be
held logic-low for an extended setup period (tMR) before
the RESET output asserts. When valid manual reset input
conditions/setup periods are met, the RESET output is
one-shot pulse asserted low for a fixed reset timeout period (140ms min). Existing front-panel pushbutton switches
(i.e., power on/off, channel up/down, or mode select) can
be used to drive the manual reset inputs. The extended
manual reset setup period prevents nuisance system
resets during normal front-panel usage or resulting from
inadvertent short-term pushbutton closure.
The MAX6443/MAX6444, MAX6447/MAX6448, and
MAX6451/MAX6452 include a single manual reset
input with extended setup period (MR1). The MAX6445/
MAX6446 and MAX6449/MAX6450 include two manual
reset inputs (MR1 and MR2) with extended setup periods. For dual MR1, MR2 devices, both inputs must be
held low simultaneously for the extended setup period
(tMR) before the reset output is pulse asserted. The
dual extended setup provides greater protection from
nuisance resets. (For example, the user or service
technician is informed to simultaneously push both the
on/off button and the channel-select button for 6.72s
(L suffix) to reset the system.)
The MAX6443/MAX6452 RESET output is pulse asserted
once for the reset timeout period after each valid manual
reset input condition. At least one manual reset input
must be released (go high) and then be driven low for
the extended setup period before RESET asserts again.
Internal timing circuitry debounces low-to-high manual
reset logic transitions, so no external circuitry is required.
Figure 1 illustrates the single manual reset function of
the MAX6443/MAX6444 single-voltage monitors, and
Figure 2 represents the dual manual reset function of the
MAX6445/MAX6446 and MAX6449/MAX6450.
The MAX6447/MAX6448 and MAX6451/MAX6452
include both an extended setup period and immediate
setup period manual reset inputs. A low-to-high MR2
rising edge transition immediately pulse asserts the
RESET output for the reset timeout period (140ms min).
If the MAX6447/MAX6448 and MAX6451/MAX6452
MR2 input senses another rising edge before the end
of the 140ms timeout period (Figure 3), the internal
timer clears and begins counting again. If no rising
edges are detected within the 210ms timeout period,
RESET deasserts. The high-to-low transition on MR2
input is internally debounced for 210ms to ensure that
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RESET TIMEOUT PERIOD
210ms
MR1 SETUP PERIOD
tMR
MR1
RESET
Figure 1. MAX6443/MAX6444 Manual Reset Timing Diagram
210ms
MR1
tMR
MR2
RESET
Figure 2. MAX6445/MAX6446/MAX6449/MAX6450 Manual
Reset Timing Diagram
there are no false RESET assertions when MR2 is driven
from high to low (Figure 4). The MR2 input can be used
for system test purposes or smart-card-detect applications (see the Applications Information section).
Adjustable Input Voltage (RSTIN)
The MAX6449–MAX6452 monitor the voltage on RSTIN
using an adjustable reset threshold set with an external
resistor voltage-divider (Figure 5). Use the following
formula to calculate the externally monitored voltage
(VMON-TH):
VMON-TH = VTH-RSTIN × (R1 + R2)/R2
where VMON-TH is the desired reset threshold voltage and
VTH-RSTIN is the reset input threshold (0.63V). Resistors
R1 and R2 can have very high values to minimize current
consumption because of low leakage currents. Set R2 to
some conveniently high value (250kΩ, for example), and
calculate R1 based on the desired reset threshold voltage, using the following formula:
R1 = R2 × (VMON-TH/VTH-RSTIN - 1) Ω
Maxim Integrated │ 6
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
t < 210ms
COUNTER RESET
210ms
DEBOUNCING PERIOD
POSITIVE EDGE
t = 210ms
MR2
210ms
TIMEOUT PERIOD
MR2
NO RESET
OUTPUT
ASSERTED
RESET
RESET
Figure 3. MAX6447/MAX6448/MAX6451/MAX6452 MR2
Assertion DebouncingTiming Diagram
VCC
VMON_TH
Figure 4. MAX6447/MAX6448/MAX6451/MAX6452 MR2
Deassertion Debouncing Timing Diagram
+3.3V
MAX6449
MAX6451
R1
RSTIN
VCC
VCC
RESET
RESET
MAX6443L
R2
VCC
µP
LED
GND
RESET
GND
MR1
NMI
VMON_TH = 0.63 x (R1 + R2) / R2
Figure 5. Calculating the Monitored Threshold Voltages
Applications Information
Interrupt Before Reset
To minimize data loss and speed system recovery,
many applications interrupt the processor or reset only
portions of the system before a processor hard reset is
asserted. The extended setup time of the MAX6443–
MAX6452 manual reset inputs allows the same pushbutton (connected to both the processor interrupt and
the extended MR1 input, as shown in Figure 6) to
control both the interrupt and hard reset functions. If the
pushbutton is closed for less than tMR, the processor
is only interrupted. If the system still does not respond
properly, the pushbutton (or two buttons for the dual
manual reset) can be closed for the full extended setup
period to hard reset the processor. If desired, connect
an LED to the RESET output to blink off (or on) for the
reset timeout period to signify when the pushbutton is
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PUSHBUTTON SWITCH:
CLOSE FOR < 4.48s
FOR SYSTEM INTERRUPT;
CLOSE FOR > 6.72s FOR
SYSTEM RESET
Figure 6. Interrupt Before Reset Application Circuit
closed long enough for a hard reset (the same LED might
be used as the front-panel power-on display).
Smart Card Insertion/Removal
The MAX6447/MAX6448/MAX6451/MAX6452 dual manual resets are useful in applications in which both an
extended and immediate setup periods are needed.
Figure 7 illustrates the insertion and removal of a smart
card. MR1 monitors a front-panel pushbutton. When
closed for tMR, RESET one-shot pulses low for 140ms
min. Because MR1 is internally pulled to VCC through a
50kΩ resistor, the front-panel switch can be connected
to a microprocessor for general-purpose I/O control.
MR2 monitors a switch to detect when a smart card is
inserted. When the switch is closed high (card inserted),
Maxim Integrated │ 7
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
+3.3V
+1.5V
3.3V
5V
CORE SUPPLY I/O SUPPLY
VCC
RESET
MAX6451
RSTIN
VCC
µP
MR1
GND
RESET
DIGITAL INPUT
MAX6444
MAX6446
MAX6448
MAX6450
MAX6452
MR2
SMART CARD DETECT:
IMMEDIATE ONE-SHOT
WHEN MANUAL
RESET CLOSES
100kΩ
RESET
µP
RESET
N
GND
FRONT-PANEL SWITCH
STANDARD µP INPUT
AND tMR MANUAL
RESET DELAY
Figure 7. MAX6451/MAX6452 Application Circuit
Figure 8. Interfacing to Other Voltage Levels
RESET one-shot pulses low for 140ms. MR2 is internally
debounced for 210ms to prevent false resets when the
smart card is removed.
Ensuring a Valid RESET Down to
VCC = 0V (Push-Pull RESET)
Interfacing to Other Voltages
for Logic Compatibility
The open-drain RESET output can be used to interface
to a µP with other logic levels. As shown in Figure 8, the
open-drain output can be connected to voltages from 0
to 6V.
Generally, the pullup resistor connected to the RESET
connects to the supply voltage that is being monitored
at the IC’s VCC pin. However, some systems may use
the open-drain output to level-shift from the monitored
supply to reset circuitry powered by some other supply
(Figure 8). Keep in mind that as the supervisor’s VCC
decreases toward 1V, so does the IC’s ability to sink
current at RESET. RESET is pulled high as VCC decays
toward 0. The voltage where this occurs depends on
the pullup resistor value and the voltage to which it is
connected.
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When VCC falls below 1V, RESET current-sinking capabilities decline drastically. The high-impedance CMOS-logic
inputs connected to RESET can drift to undetermined
voltages. This presents no problems in most applications,
because most µPs and other circuitry do not operate with
VCC below 1V.
In applications in which RESET must be valid down to 0V,
add a pulldown resistor between RESET and GND for the
push-pull outputs. The resistor sinks any stray leakage
currents, holding RESET low (Figure 9). The value of the
pulldown resistor is not critical; 100kΩ is large enough
not to load RESET and small enough to pull RESET to
ground. The external pulldown cannot be used with the
open-drain reset outputs.
Transient Immunity
In addition to issuing a reset to the µP during power-up, power-down, and brownout conditions, these
supervisors are relatively immune to short-duration falling transients (glitches). The graph Maximum Transient
Duration vs. Reset Threshold Overdrive in the Typical
Operating Characteristics section shows this relationship.
Maxim Integrated │ 8
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
VCC
MAX6443
MAX6445
MAX6447
MAX6449
MAX6451
VCC
RESET
100kΩ
GND
The area below the curves of the graph is the region in
which these devices typically do not generate a reset
pulse. This graph was generated using a falling pulse
applied to VCC, starting above the actual reset threshold
(VTH) and ending below it by the magnitude indicated
(reset threshold overdrive). As the magnitude of the transient increases (VCC goes further below the reset threshold), the maximum allowable pulse width decreases.
Typically, a VCC transient that goes 100mV below the
reset threshold and lasts 20µs or less does not cause a
reset pulse to be asserted.
Figure 9. Ensuring RESET Valid to VCC = 0V
Table 1. Reset Voltage Threshold
PART NO. SUFFIX
(__)
VCC NOMINAL
VOLTAGE
THRESHOLD (V)
46
4.625
44
4.375
31
3.075
29
2.925
26
2.625
23
2.313
22
2.188
17
1.665
16
1.575
Table 2. Manual Reset Setup Period (tMR)
PART NO. SUFFIX
(_)
MANUAL RESET SETUP
PERIOD (s)
K
10.08
L
6.72
S
3.36
T
1.68
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Maxim Integrated │ 9
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Pin Configurations (continued)
TOP VIEW
RESET
1
GND 2
5
MR2
RESET
MAX6445
MAX6446
MR1 3
1
GND 2
4
VCC
RESET 1
GND 2
MAX6449
MAX6450
MR1 3
MR2
4
VCC
6
MR2
5
RSTIN
4
VCC
MAX6447
MAX6448
MR1 3
SOT23-5
5
SOT23-5
RESET 1
6
MR2
5
RSTIN
GND 2
4
VCC
MR1 3
MAX6451
MAX6452
SOT23-6
SOT23-6
4 VCC
GND 1
MAX6443
MAX6444
3 MR1
RESET 2
SOT143
Ordering Information
PART
MAX6443US_ _ _+T
MAX6444US_ _ _+T
TEMP RANGE
-40°C to +85°C
-40°C to +85°C
PIN-PACKAGE
4 SOT143
4 SOT143
MAX6444US_ _ _/V+T*
-40°C to +85°C
4 SOT143
MAX6444US16K/V+T
-40°C to +85°C
4 SOT143
MAX6445UK_ _ _+T
-40°C to +85°C
5 SOT23
MAX6446UK_ _ _+T
-40°C to +85°C
5 SOT23
MAX6447UK_ _ _+T
-40°C to +85°C
5 SOT23
MAX6448UK_ _ _+T
-40°C to +85°C
5 SOT23
MAX6449UT_ _ _+T
-40°C to +85°C
6 SOT23
MAX6450UT_ _ _+T
-40°C to +85°C
6 SOT23
MAX6451UT_ _ _+T
-40°C to +85°C
6 SOT23
MAX6452UT_ _ _+T
-40°C to +85°C
6 SOT23
www.maximintegrated.com
Note: The first “_ _” is a placeholder for the threshold voltage level
of the devices. A desired threshold level is set by the two-number
suffix found in Table 1. The third “_” is a placeholder for the manual
reset setup period of the devices. A desired setup period is set by
the letter suffix found in Table 2. All devices are available in tapeand-reel only. There is a 2500-piece minimum order increment for
standard versions (Table 2). Sample stock is typically held on standard
versions only. Nonstandard versions require a minimum order increment
of 10,000 pieces. Contact factory for availability.
Most devices are available in lead(Pb)-free packaging only. See
Ordering Information for devices available in both leaded and
lead(Pb)-free packaging.
/V denotes an automotive qualified part.
*Future product—contact factory for availability.
+Denotes Lead(Pb)-free packages and - denotes leaded packages.
For top mark information, please go to https://www.maximintegrated.com/en/design/packaging/topmark/.
Maxim Integrated │ 10
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Selector Guide
PART
MR1 EXT.
SETUP
MR2
(NO SETUP)
MR2 EXT.
SETUP
RSTIN
PUSH-PULL RESET
OPEN-DRAIN RESET
MAX6443
✔
—
—
—
✔
—
MAX6444
✔
—
—
—
—
✔
MAX6445
✔
—
✔
—
✔
—
MAX6446
✔
—
✔
—
—
✔
MAX6447
✔
✔
—
—
✔
—
MAX6448
✔
✔
—
—
—
✔
MAX6449
✔
—
✔
✔
✔
—
MAX6450
✔
—
✔
✔
—
✔
MAX6451
✔
✔
—
✔
✔
—
MAX6452
✔
✔
—
✔
—
✔
Functional Diagram
VCC
MAX6443–
MAX6452
RESET
TIMEOUT PERIOD
(210ms typ)
MAX6449– RSTIN
MAX6452
VCC
MANUAL RESET
SETUP PERIOD
tMR
0.63V
1.23V
VCC
GND
MR2 ONE-SHOT
DEBOUNCE
CIRCUIT
RESET
MR2
MAX6447
MAX6448
MAX6451
MAX6452
VCC
MR1
MR2
MAX6445
MAX6446
MAX6449
MAX6450
www.maximintegrated.com
Maxim Integrated │ 11
MAX6443–MAX6452
Chip Information
PROCESS: BiCMOS
µP Reset Circuits with Long Manual Reset
Setup Period
Package Information
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
www.maximintegrated.com
PACKAGE
CODE
OUTLINE
NO.
LAND
PATTERN NO.
4 SOT143
U4+1
21-0052
90-0183
5 SOT23
U5+1, U5-1
21-0057
90-0174
6 SOT23
U6+1
21-0058
90-0175
Maxim Integrated │ 12
MAX6443–MAX6452
µP Reset Circuits with Long Manual Reset
Setup Period
Revision History
REVISION
NUMBER
REVISION
DATE
PAGES
CHANGED
0
10/02
Initial release
3
6/10
Revised the General Description, Features, Applications, Ordering Information,
Absolute Maximum Ratings, Electrical Characteristics, Typical Operating
Characteristics, Pin Description, the Manual Reset Input Options, Interrupt Before
Reset, and Smart Card Insertion/Removal sections, Functional Diagram, Typical
Operating Circuit, Selector Guide, Figures 1, 6, and 7, as well as Tables 2 and 3 to
add extended setup timeout specifications
4
3/14
Added the automotive MAX6444US_ _ _/V+T to the Ordering Information table
5
12/15
Added lead-free package part numbers, removed top mark table and added
reference to top mark information on website
6
3/18
Updated Ordering Information table and Benefits and Features section
DESCRIPTION
—
1, 2, 4, 5–12
1
1, 10, 12
1. 10
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.
© 2018 Maxim Integrated Products, Inc. │ 13