Maxim MAX6310UK49D3-T 5-pin, multiple-input, programmable reset ic Datasheet

19-1145; Rev 1; 8/98
5-Pin, Multiple-Input,
Programmable Reset ICs
Features
♦ Small 5-Pin SOT23 Package
♦ Precision Factory-Set VCC Reset Thresholds;
Available in 0.1V Increments from 2.5V to 5V
♦ Immune to Short VCC Transients
♦ Guaranteed RESET Valid to VCC = 1V
♦ Guaranteed Over Temperature
♦ 8µA Supply Current
♦ Factory-Set Reset Timeout Delay from
1ms (min) to 1120ms (min)
♦ No External Components
♦ Manual Reset Input
♦ Under/Overvoltage Supply Monitoring
Applications
Ordering Information
Portable Computers
PART†
TEMP. RANGE
Computers
MAX6305UK00D_-T
0°C to +70°C
5 SOT23-5
Controllers
MAX6306UK_ _D_-T
MAX6307UK_ _D_-T
0°C to +70°C
0°C to +70°C
5 SOT23-5
5 SOT23-5
Intelligent Instruments
Portable/Battery-Powered Equipment
Multivoltage Systems: 3V/5V, 5V/12V, 5V/24V
Embedded Control Systems
Pin Configurations and Typical Operating Circuit appear at
end of data sheet.
PIN-PACKAGE
† The MAX6306/MAX6307/MAX6309/MAX6310/MAX6312/
MAX6313 are available with factory-set VCC reset thresholds from
2.5V to 5V, in 0.1V increments. Insert the desired nominal reset
threshold (from Table 1) into the blanks following the letters UK.
All parts also offer factory-programmed reset timeout periods.
Insert the number corresponding to the desired nominal timeout
period index following the “D” in the part number (D1 = 1ms min,
D2 = 20ms min, D3 = 140ms min, and D4 = 1120ms min). Contact
factory for availability and minimum order sizes.
Ordering Information continued at end of data sheet.
_______________________________________________________________Selector Table
PART
OPEN-DRAIN
RESET
OUTPUT
PUSH/PULL
RESET
OUTPUT
PUSH/PULL
RESET
OUTPUT
MAX6305
✔
—
—
MAX6306
✔
—
—
MAX6307
✔
MAX6308
—
—
✔
MAX6309
—
✔
—
MAX6310
—
✔
MAX6311
—
—
—
✔
MAX6312
—
—
MAX6313
—
—
FACTORYADDITIONAL
NEGATIVE/
MANUALSET RESET
UNDERVOLTAGE OVERVOLTAGE
RESET
THRESHOLD
RESET INPUTS
RESET INPUT
INPUT
ON VCC
—
✔
2
—
1
—
✔
1
—
✔
—
—
✔
2
—
1
✔
1
—
✔
2
—
✔
—
✔
1
✔
✔
1
—
✔
—
✔
—
—
✔
—
—
✔
—
________________________________________________________________ Maxim Integrated Products
1
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For small orders, phone 408-737-7600 ext. 3468.
MAX6305–MAX6313
General Description
The MAX6305–MAX6313 CMOS microprocessor (µP)
supervisory circuits are designed to monitor more than
one power supply. Ideal for monitoring both 5V and
3.3V in personal computer systems, these devices
assert a system reset if any of the monitored supplies
falls outside the programmed threshold. Low supply
current (15µA) and a small package suit them for
portable applications. The MAX6305–MAX6313 are
specifically designed to ignore fast transients on
any monitored supply.
These devices are available in a SOT23-5 package,
have factory-programmed reset thresholds from 2.5V to
5.0V (in 100mV increments), and feature four power-on
reset timeout periods.
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
ABSOLUTE MAXIMUM RATINGS
VCC ...........................................................................-0.3V to +6V
All Other Pins..............................................-0.3V to (VCC + 0.3V)
Input/Output Current, All Pins .............................................20mA
Rate of Rise, VCC ............................................................100V/µs
Continuous Power Dissipation (TA = +70°C)
SOT23-5 (derate 7.1mW/°C above +70°C).................571mW
Operating Temperature Range...............................0°C to +70°C
Storage Temperature Range .............................-65°C to +160°C
Lead Temperature (soldering, 10sec) .............................+300°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 = +2.5V to +5.5V for the MAX6305/MAX6308/MAX6311, VCC = (VTH + 2.5%) to +5.5V for the MAX6306/MAX6307/MAX6309/
MAX6310/MAX6312/MAX6313; TA = 0°C to +70°C; unless otherwise noted. Typical values are at TA = +25°C.)
PARAMETER
SYMBOL
VCC Range
CONDITIONS
TA = 0°C to +70°C (Note 1)
MIN
TYP
MAX
1.0
UNITS
5.5
V
8
16
µA
VTH
VTH + 1.5%
Supply Current
ICC
VCC = 5.5V
Reset Threshold
(Note 2)
VTH
MAX6306/MAX6307/
MAX6309/MAX6310/
MAX6312/MAX6313
Reset Threshold
Tempco
∆VTH/°C
40
ppm/°C
Reset Threshold
Hysteresis
VTH HYST
2 x VTH
mV
Reset Timeout Period
tRP
TA = +25°C
VTH - 1.5%
TA = 0°C to +70°C
VTH - 2.5%
V
D1
1
1.4
2
D2
20
28
40
D3
140
200
280
1120
1570
2240
D4
VOL
MAX6305–MAX6310
RESET Output
Voltage
VOH
MAX6308/MAX6309/
MAX6310
VOL
RESET Output
Voltage
MAX6311/MAX6312/
MAX6313
VOH
2
VTH + 2.5%
VCC > 4.25V, ISINK = 3.2mA
0.4
VCC > 2.5V, ISINK = 1.2mA
0.3
TA = 0°C to +70°C,
VCC > 1.2V, ISINK = 500µA
0.3
TA = 0°C to +70°C,
VCC > 1.0V, ISINK = 50µA
0.3
VCC > 4.25V,
ISOURCE = 800µA
VCC - 1.5
VCC > 2.5V,
ISOURCE = 500µA
0.8 x VCC
VCC > 4.25V, ISINK = 3.2mA
0.4
VCC > 2.5V, ISINK = 1.2mA
0.3
VCC > 1.8V,
ISOURCE = 150µA
0.8 x VCC
TA = 0°C to +70°C,
VCC > 1.0V, ISOURCE = 10µA
0.8 x VCC
_______________________________________________________________________________________
ms
V
V
5-Pin, Multiple-Input,
Programmable Reset ICs
(VCC = +2.5V to +5.5V for the MAX6305/MAX6308/MAX6311, VCC = (VTH + 2.5%) to +5.5V for the MAX6306/MAX6307/MAX6309/
MAX6310/MAX6312/MAX6313; TA = 0°C to +70°C; unless otherwise noted. Typical values are at TA = +25°C.)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
MANUAL-RESET INPUT (MAX6306/MAX6309/MAX6312)
VIL
VIH
MR Input
VIL
VIH
VTH > 4.0V
VTH < 4.0V
MR Minimum Input
Pulse
0.8
2.4
0.3 x VCC
V
0.7 x VCC
1
µs
MR Glitch Rejection
0.1
µs
MR to Reset Delay
500
nsV
MR Pull-Up Resistance
32
63.5
100
TA = +25°C
1.21
1.23
1.25
TA = 0°C to +70°C
1.20
0V < VRST IN_ < VCC - 0.3V
-25
kΩ
ADJUSTABLE RESET COMPARATOR INPUTS
RST IN Input Threshold
VRSTH
RST IN Input Current
IRST IN_
RST IN Hysteresis
1.26
25
2.5
V
nA
mV
Note 1: The MAX6305/MAX6308/MAX6311 switch from undervoltage reset to normal operation between 1.5V < VCC < 2.5V.
Note 2: The MAX6306/MAX6307/MAX6309/MAX6310/MAX6312/MAX6313 monitor VCC through an internal factory-trimmed voltage
divider, which programs the nominal reset threshold. Factory-trimmed reset thresholds are available in approximately
100mV increments from 2.5V to 5V (Table 1).
_______________________________________________________________________________________
3
MAX6305–MAX6313
ELECTRICAL CHARACTERISTICS (continued)
__________________________________________Typical Operating Characteristics
(VCC = +5V, TA = +25°C, unless otherwise noted.)
7.0
VCC = 3.5V
5.5
40
30
20
10mV
µs
10
VCC = 2.5V
5.0
-40
-20
0
20
40
60
80
40
30
20
-60
-40
-20
0
20
40
60
80
-60
100
-40
-20
0
20
40
60
TEMPERATURE (°C)
TEMPERATURE (°C)
TEMPERATURE (°C)
RST IN_ FALLING PROPAGATION
DELAY vs. TEMPERATURE
RESET TIMEOUT
vs. TEMPERATURE
RESET THRESHOLD
vs. TEMPERATURE
NORMALIZED RESET TIMEOUT
1mV
µs
80
60
40
10mV
µs
20
1.06
1.04
1.02
1.00
0.98
0.96
0.94
0.92
0
20
40
60
80
1.004
1.002
1.000
0.998
0.996
0.994
0.992
-40
-20
0
20
40
60
80
100
-60
-40
-20
TEMPERATURE (°C)
MAXIMUM TRANSIENT DURATION vs.
VCC RESET THRESHOLD OVERDRIVE
10,000
TRANSIENT DURATION (µs)
RESET OCCURS ABOVE LINES
1000
VTH = 5.0V
100
VTH = 2.5V
20
40
60
MAXIMUM TRANSIENT DURATION vs.
RST IN_ THRESHOLD OVERDRIVE
1000
100
0
TEMPERATURE (°C)
MAXIMUM TRANSIENT DURATION vs.
OVRST IN THRESHOLD OVERDRIVE
6305 TOC7
RESET OCCURS ABOVE LINES
100
1.006
0.990
-60
100
TEMPERATURE (°C)
10,000
80
1.008
10,000
RESET OCCURS ABOVE LINES
TRANSIENT DURATION (µs)
-20
6305 TOC8
-40
100
1.010
0.90
0
80
6305 TOC06
1.08
NORMALIZED RESET THRESHOLD (V/V)
1.10
6305 TOC04
100
10
10mV
µs
10
0
100
120
-60
1mV
µs
50
0
-60
RST IN_ PROPAGATION DELAY (ns)
6305 TOC02
50
6.0
60
VTH = 5.0V
10
6305 TOC9
7.5
60
70
PROPAGATION DELAY (ns)
8.0
1mV
µs
6305 TOC05
SUPPLY CURRENT (µA)
VCC = 4.5V
6.5
70
PROPAGATION DELAY (ns)
VCC = 5.5V
8.5
80
6305 TOC01
9.5
9.0
OVRST IN RISING PROPAGATION
DELAY vs. TEMPERATURE
(OVERVOLTAGE RESET INPUT)
VCC FALLING PROPAGATION DELAY
vs. TEMPERATURE
6305 TOC03
SUPPLY CURRENT
vs. TEMPERATURE
TRANSIENT DURATION (µs)
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
1000
100
VTH = 5.0V
VTH = 3.0V
10
VTH = 3.0V
1
1
0
400
800
OVERDRIVE, VTH - VCC (mV)
4
1200
1
0
400
800
OVERDRIVE, VOVRST IN - VREF (mV)
1200
0
400
800
OVERDRIVE, VREF - VRST IN (mV)
_______________________________________________________________________________________
1200
5-Pin, Multiple-Input,
Programmable Reset ICs
PIN
MAX6305
MAX6308
MAX6311
1
MAX6306
MAX6309
MAX6312
1
MAX6307
MAX6310
MAX6313
NAME
FUNCTION
RESET
Active-Low, Open-Drain Reset Output for the MAX6305/MAX6306/
MAX6307. Active-Low, Push/Pull Reset Output (sources and sinks
current) for the MAX6308/MAX6309/MAX6310.
RESET
Active-High, Push/Pull Reset Output for the MAX6311/MAX6312/MAX6313
1
2
2
2
GND
—
3
—
MR
3, 4
—
—
RST IN1,
RST IN2
—
4
3
RST IN
—
—
4
OVRST IN
5
5
5
VCC
System Ground
Manual-Reset Input. Pull low to force a reset. RESET/RESET remains
active as long as MR is low and for the timeout period after MR
goes high. Leave unconnected or connect to VCC if unused.
Undervoltage Reset Comparator Input. Asserts reset when the
monitored voltage falls below the programmed threshold. Set the
reset threshold with an external resistor divider. Connect to VCC if
unused.
Overvoltage Reset Comparator Input. Asserts reset when the monitored
voltage exceeds the programmed threshold. Set the reset threshold
with an external resistor divider. Connect to GND if unused.
System Supply. The MAX6306/MAX6307/MAX6309/MAX6310/
MAX6312/MAX6313 also monitor VCC through an internal factorytrimmed resistor divider to the reset comparator.
_______________Detailed Description
The MAX6305–MAX6313 CMOS microprocessor (µP)
supervisory circuits are designed to monitor more than
one power supply and issue a system reset when any
monitored supply falls out of regulation. The MAX6305/
MAX6308/MAX6311 have two adjustable undervoltage
reset inputs (RST IN1 and RST IN2). The MAX6306/
MAX6307/MAX6309/MAX6310/MAX6312/MAX6313 monitor VCC through an internal, factory-trimmed voltage
divider. The MAX6306/MAX6309/MAX6312 have, in
addition, an adjustable undervoltage reset input and a
manual-reset input. The internal voltage divider sets the
reset threshold as specified in the device part number
(Table 1). The MAX6307/MAX6310/ MAX6313 feature an
adjustable undervoltage reset input (RST IN) and an
adjustable overvoltage reset input (OVRST IN) in addition
to the factory-trimmed reset threshold on the VCC monitor. Program the adjustable reset inputs with an external
resistor divider (see Adjustable Reset Inputs section).
Reset Outputs
A µP’s reset input starts the µP in a known state. These
µP supervisory circuits assert reset to prevent codeexecution errors during power-up, power-down, or
brownout conditions.
RESET (MAX6305–MAX6310) and RESET (MAX6311/
MAX6312/MAX6313) are guaranteed to be asserted at
a valid logic level for V CC > 1V (see Electrical
Characteristics). Once all monitored voltages exceed
their programmed reset thresholds, an internal timer
keeps reset asserted for the reset timeout period (tRP);
after this interval, reset deasserts.
If a brownout condition occurs (any or all monitored voltages dip outside their programmed reset threshold),
reset asserts (RESET goes high; RESET goes low). Any
time any of the monitored voltages dip below their reset
threshold, the internal timer resets to zero and reset
asserts. The internal timer starts when all of the monitored voltages return above their reset thresholds, and
reset remains asserted for a reset timeout period. The
MAX6305/MAX6306/MAX6307 feature an active-low,
_______________________________________________________________________________________
5
MAX6305–MAX6313
______________________________________________________________Pin Description
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
open-drain, N-channel output. The MAX6308/MAX6309/
MAX6310 feature an active-low, complementary output
structure that both sinks and sources current, and the
MAX6311/MAX6312/MAX6313 have an active-high complementary reset output.
The MAX6305/MAX6308/MAX6311 switch from undervoltage lockout operation to normal operation between
1.5V < VCC < 2.5V. Below 1.5V, V CC undervoltagelockout mode asserts RESET. Above 2.5V, VCC normaloperation mode asserts reset if RST IN_ falls below the
RST IN_ threshold.
VCC
*
+1.23V
RST IN1
RESET
GENERATOR
RESET**
RESET***
†
+1.23V
+1.23V
RST IN2
OVRST IN
+1.23V
MAX6305–MAX6313
††
VCC
†††
MR
GND
* MAX6306/MAX6307/MAX6309/MAX6310/MAX6312/MAX6313 ONLY
** MAX6305–MAX6310 ONLY
*** MAX6311/MAX6312/MAX6313 ONLY
† MAX6307/MAX6310/MAX6313 ONLY
†† MAX6305/MAX6308/MAX6311 ONLY
††† MAX6306/MAX6309/MAX6312 ONLY
Figure 1. Functional Diagram
Manual-Reset Input
(MAX6306/MAX6309/MAX6312)
Many µP-based products require manual-reset capability,
allowing an operator or external logic circuitry to initiate a
reset. A logic low on MR asserts reset. Reset remains
asserted while MR is low, and for a reset active timeout
period (tRP) after MR returns high. This input has an internal 63.5kΩ pull-up resistor, so it can be left open if it is not
used. MR can be driven with TTL-logic levels in 5V systems, with CMOS-logic levels in 3V systems, or with opendrain/collector output devices. Connect a normally open
momentary switch from MR to GND to create a manualreset function; external debounce circuitry is not required.
If MR is driven from long cables or if the device is used in
a noisy environment, connecting a 0.1µF capacitor from
MR to ground provides additional noise immunity.
The MR pin has internal ESD-protection circuitry that may
be forward biased under certain conditions, drawing
excessive current. For example, assume the circuitry driving MR uses a +5V supply other than VCC. If VCC drops or
browns out lower than +4.7V, MR’s absolute maximum rating is violated (-0.3V to (VCC + 0.3V)), and undesirable
current flows through the ESD structure from MR to VCC.
To avoid this, it is recommended that the supply for the MR
pin be the same as the supply monitored by VCC. In this
way, the voltage at MR will not exceed VCC.
Adjustable Reset Inputs
The MAX6305–MAX6313 each have one or more reset
inputs (RST IN_ /OVRST IN). These inputs are compared to the internal reference voltage (Figure 1).
Connect a resistor voltage divider to RST IN_ such that
VRST IN_ falls below VRSTH (1.23V) when the monitored
voltage (VIN) falls below the desired reset threshold
(VTH) (Figure 2). Calculate the desired reset voltage
with the following formula:
R1 + R2 x V
VTH = ________
RSTH
R2
6
_______________________________________________________________________________________
5-Pin, Multiple-Input,
Programmable Reset ICs
VCC
VCC
R1
MAX6305–
MAX6313
RST IN_
VTH =
R2
(
)
R1 + R2
VRSTH
R3
C*
GND
*ƒC =
(
1
R1 + R2
2π R1 x R2 x C
)
VCC
MAX6305
MAX6306 RESET
MAX6307
RESET
GENERATOR
GND
RESET
µP
GND
*FOR ADDITIONAL NOISE IMMUNITY
Figure 2. Increasing Noise Immunity
Figure 3. Interfacing to µPs with Bidirectional Reset I/O
The ±25nA max input leakage current allows resistors on
the order of megohms. Choose the pull-up resistor in the
divider to minimize the error due to the input leakage current. The error term in the calculated threshold is simply:
±25nA x R1
Negative-Going VCC Transients
In addition to issuing a reset to the µP during power-up,
power-down, and brownout conditions, these devices
are relatively immune to short-duration, negative-going
VCC transients (glitches).
The Typical Operating Characteristics show the
Maximum Transient Duration vs. VCC Reset Threshold
Overdrive, for which reset pulses are not generated.
The graph was produced using negative-going pulses,
starting at V TH max, and ending below the programmed reset threshold by the magnitude indicated
(reset threshold overdrive). The graph shows the maximum pulse width that a negative-going VCC transient
may typically have without causing a reset pulse to be
issued. As the amplitude of the transient increases (i.e.,
goes farther below the reset threshold), the maximum
allowable pulse width decreases.
If you choose R1 to be 1MΩ, the resulting error is
±25 x 10-9 x 1 x 106 = ±25mV.
Like the VCC voltage monitors on the MAX6306/MAX6307/
MAX6309/MAX6310/MAX6312/MAX6313, the RST IN_
inputs (when used with a voltage divider) are designed to
ignore fast voltage transients. Increase the noise immunity
by connecting a capacitor on the order of 0.1µF between
RST IN and GND (Figure 2). This creates a single-pole
lowpass filter with a corner frequency given by:
f = (1/2π) / (R1 + R2)(R1 x R2 x C)
For example, if R1 = 1MΩ and R2 = 1.6MΩ, adding a
0.1µF capacitor from RST IN_ to ground results in a
lowpass corner frequency of f = 2.59Hz. Note that
adding capacitance to RST IN slows the circuit’s overall
response time.
__________Applications Information
Interfacing to µPs with
Bidirectional Reset Pins
Since the RESET output on the MAX6305/MAX6306/
MAX6307 is open drain, these devices interface easily
with µPs that have bidirectional reset pins, such as the
Motorola 68HC11. Connecting the µP supervisor’s
RESET output directly to the microcontroller’s RESET
pin with a single pull-up resistor allows either device to
assert reset (Figure 3).
RST IN_/OVRST IN are also immune to negative/positivegoing transients (see Typical Operating Characteristics).
A 0.1µF bypass capacitor mounted close to the RST IN_,
OVRST IN, and/or the VCC pin provides additional transient immunity.
Ensuring a Valid RESET/RESET
Output Down to VCC = 0V
When VCC falls below 1V, push/pull structured RESET/
RESET current sinking (or sourcing) capabilities
decrease drastically. High-impedance CMOS-logic
inputs connected to RESET can drift to undetermined
voltages. This presents no problem in most applications, since most µPs and other circuitry do not operate
with VCC below 1V. In those applications where RESET
must be valid down to 0V, adding a pull-down resistor
between RESET and ground sinks any stray leakage
_______________________________________________________________________________________
7
MAX6305–MAX6313
VIN
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
currents, holding RESET low (Figure 4). The pull-down
resistor’s value is not critical; 100kΩ is large enough not
to load RESET and small enough to pull RESET to
ground. For applications where RESET must be valid to
VCC, a 100kΩ pull-up resistor between RESET and VCC
will hold RESET high when VCC falls below 1V (Figure 5).
Since the MAX6305/MAX6306/MAX6307 have opendrain, active-low outputs, they typically use a pull-up
resistor. With these devices and under these conditions
(V CC < 1V), RESET will most likely not maintain an
active condition, but will drift toward a nonactive level
due to the pull-up resistor and the RESET output’s
reduction in sinking capability. These devices are not
recommended for applications that require a valid
RESET output below 1V.
VCC
MAX6308
MAX6309
MAX6310
VCC
GND
RESET
100k
Figure 4. Ensuring RESET Valid to VCC = 0V
VCC
MAX6311
MAX6312
MAX6313
100k
VCC
GND
Table 1. Factory-Trimmed Reset
Thresholds*
SUFFIX
UK00
TA = +25°C
MIN
TYP
TA = 0°C to +70°C
MAX
Preprogrammed Threshold
Not Available
MIN
Preprogrammed
Threshold Not
Available
UK50
4.925
5.000
5.075
4.875
5.125
UK49
4.827
4.900
4.974
4.778
5.023
UK48
4.728
4.800
4.872
4.680
4.920
UK47
4.630
4.700
4.771
4.583
4.818
UK46
4.561
4.630
4.699
4.514
4.746
UK45
4.433
4.500
4.568
4.388
4.613
UK44
4.314
4.380
4.446
4.270
4.490
UK43
4.236
4.300
4.365
4.193
4.408
UK42
4.137
4.200
4.263
4.095
4.305
UK41
4.039
4.100
4.162
3.998
4.203
UK40
3.940
4.000
4.060
3.900
4.100
UK39
3.842
3.900
3.959
3.803
3.998
UK38
3.743
3.800
3.857
3.705
3.895
UK37
3.645
3.700
3.756
3.608
3.793
UK36
3.546
3.600
3.654
3.510
3.690
UK35
3.448
3.500
3.553
3.413
3.588
UK34
3.349
3.400
3.451
3.315
3.485
UK33
3.251
3.300
3.350
3.218
3.383
UK32
3.152
3.200
3.248
3.120
3.280
UK31
3.034
3.080
3.126
3.003
3.157
UK30
2.955
3.000
3.045
2.925
3.075
UK29
2.886
2.930
2.974
2.857
3.000
UK28
2.758
2.800
2.842
2.730
2.870
UK27
2.660
2.700
2.741
2.633
2.768
UK26
2.591
2.630
2.669
2.564
2.696
UK25
2.463
2.500
2.538
2.438
2.563
* Factory-trimmed reset thresholds are available in approximately
100mV increments with a ±1.5% room-temperature variance.
RESET
Figure 5. Ensuring RESET Valid to VCC = 0V
8
MAX
_______________________________________________________________________________________
5-Pin, Multiple-Input,
Programmable Reset ICs
DEVICE
CODE
DEVICE
CODE
DEVICE
CODE
DEVICE
CODE
MAX6305UK00D1-T
MAX6305UK00D2-T
MAX6305UK00D3-T
MAX6305UK00D4-T
MAX6306UK50D1-T
MAX6306UK50D2-T
MAX6306UK50D3-T
MAX6306UK50D4-T
MAX6306UK49D1-T
MAX6306UK49D2-T
MAX6306UK49D3-T
MAX6306UK49D4-T
MAX6306UK48D1-T
MAX6306UK48D2-T
MAX6306UK48D3-T
MAX6306UK48D4-T
MAX6306UK47D1-T
MAX6306UK47D2-T
MAX6306UK47D3-T
MAX6306UK47D4-T
MAX6306UK46D1-T
MAX6306UK46D2-T
MAX6306UK46D3-T
MAX6306UK46D4-T
MAX6306UK45D1-T
MAX6306UK45D2-T
MAX6306UK45D3-T
MAX6306UK45D4-T
MAX6306UK44D1-T
MAX6306UK44D2-T
MAX6306UK44D3-T
MAX6306UK44D4-T
MAX6306UK43D1-T
MAX6306UK43D2-T
MAX6306UK43D3-T
MAX6306UK43D4-T
MAX6306UK42D1-T
MAX6306UK42D2-T
MAX6306UK42D3-T
MAX6306UK42D4-T
MAX6306UK41D1-T
MAX6306UK41D2-T
ABAK
ABAL
ABAM
ABAN
ABAO
ABAP
ABAQ
ABAR
ABAS
ABAT
ABAU
ABAV
ABAW
ABAX
ABAY
ABAZ
ABBA
ABBB
ABBC
ABBD
ABBE
ABBF
ABBG
ABBH
ABBI
ABBJ
ABBK
ABBL
ABBM
ABBN
ABBO
ABBP
ABBQ
ABBR
ABBS
ABBT
ABBU
ABBV
ABBW
ABBX
ABBY
ABBZ
MAX6306UK41D3-T
MAX6306UK41D4-T
MAX6306UK40D1-T
MAX6306UK40D2-T
MAX6306UK40D3-T
MAX6306UK40D4-T
MAX6306UK39D1-T
MAX6306UK39D2-T
MAX6306UK39D3-T
MAX6306UK39D4-T
MAX6306UK38D1-T
MAX6306UK38D2-T
MAX6306UK38D3-T
MAX6306UK38D4-T
MAX6306UK37D1-T
MAX6306UK37D2-T
MAX6306UK37D3-T
MAX6306UK37D4-T
MAX6306UK36D1-T
MAX6306UK36D2-T
MAX6306UK36D3-T
MAX6306UK36D4-T
MAX6306UK35D1-T
MAX6306UK35D2-T
MAX6306UK35D3-T
MAX6306UK35D4-T
MAX6306UK34D1-T
MAX6306UK34D2-T
MAX6306UK34D3-T
MAX6306UK34D4-T
MAX6306UK33D1-T
MAX6306UK33D2-T
MAX6306UK33D3-T
MAX6306UK33D4-T
MAX6306UK32D1-T
MAX6306UK32D2-T
MAX6306UK32D3-T
MAX6306UK32D4-T
MAX6306UK31D1-T
MAX6306UK31D2-T
MAX6306UK31D3-T
MAX6306UK31D4-T
ABCA
ABCB
ABCC
ABCD
ABCE
ABCF
ABCG
ABCH
ABCI
ABCJ
ABCK
ABCL
ABCM
ABCN
ABCO
ABCP
ABCQ
ABCR
ABCS
ABCT
ABCU
ABCV
ABCW
ABCX
ABCY
ABCZ
ABDA
ABDB
ABDC
ABDD
ABDE
ABDF
ABDG
ABDH
ABDI
ABDJ
ABDK
ABDL
ABDM
ABDN
ABDO
ABDP
MAX6306UK30D1-T
MAX6306UK30D2-T
MAX6306UK30D3-T
MAX6306UK30D4-T
MAX6306UK29D1-T
MAX6306UK29D2-T
MAX6306UK29D3-T
MAX6306UK29D4-T
MAX6306UK28D1-T
MAX6306UK28D2-T
MAX6306UK28D3-T
MAX6306UK28D4-T
MAX6306UK27D1-T
MAX6306UK27D2-T
MAX6306UK27D3-T
MAX6306UK27D4-T
MAX6306UK26D1-T
MAX6306UK26D2-T
MAX6306UK26D3-T
MAX6306UK26D4-T
MAX6306UK25D1-T
MAX6306UK25D2-T
MAX6306UK25D3-T
MAX6306UK25D4-T
MAX6307UK50D1-T
MAX6307UK50D2-T
MAX6307UK50D3-T
MAX6307UK50D4-T
MAX6307UK49D1-T
MAX6307UK49D2-T
MAX6307UK49D3-T
MAX6307UK49D4-T
MAX6307UK48D1-T
MAX6307UK48D2-T
MAX6307UK48D3-T
MAX6307UK48D4-T
MAX6307UK47D1-T
MAX6307UK47D2-T
MAX6307UK47D3-T
MAX6307UK47D4-T
MAX6307UK46D1-T
MAX6307UK46D2-T
ABDQ
ABDR
ABDS
ABDT
ABDU
ABDV
ABDW
ABDX
ABDY
ABDZ
ABEA
ABEB
ABEC
ABED
ABEE
ABEF
ABEG
ABEH
ABEI
ABEJ
ABEK
ABEL
ABEM
ABEN
ABEO
ABEP
ABEQ
ABER
ABES
ABET
ABEU
ABEV
ABEW
ABEX
ABEY
ABEZ
ABFA
ABFB
ABFC
ABFD
ABFE
ABFF
MAX6307UK46D3-T
MAX6307UK46D4-T
MAX6307UK45D1-T
MAX6307UK45D2-T
MAX6307UK45D3-T
MAX6307UK45D4-T
MAX6307UK44D1-T
MAX6307UK44D2-T
MAX6307UK44D3-T
MAX6307UK44D4-T
MAX6307UK43D1-T
MAX6307UK43D2-T
MAX6307UK43D3-T
MAX6307UK43D4-T
MAX6307UK42D1-T
MAX6307UK42D2-T
MAX6307UK42D3-T
MAX6307UK42D4-T
MAX6307UK41D1-T
MAX6307UK41D2-T
MAX6307UK41D3-T
MAX6307UK41D4-T
MAX6307UK40D1-T
MAX6307UK40D2-T
MAX6307UK40D3-T
MAX6307UK40D4-T
MAX6307UK39D1-T
MAX6307UK39D2-T
MAX6307UK39D3-T
MAX6307UK39D4-T
MAX6307UK38D1-T
MAX6307UK38D2-T
MAX6307UK38D3-T
MAX6307UK38D4-T
MAX6307UK37D1-T
MAX6307UK37D2-T
MAX6307UK37D3-T
MAX6307UK37D4-T
MAX6307UK36D1-T
MAX6307UK36D2-T
MAX6307UK36D3-T
MAX6307UK36D4-T
ABFG
ABFH
ABFI
ABFJ
ABFK
ABFL
ABFM
ABFN
ABFO
ABFP
ABFQ
ABFR
ABFS
ABFT
ABFU
ABFV
ABFW
ABFX
ABFY
ABFZ
ABGA
ABGB
ABGC
ABGD
ABGE
ABGF
ABGG
ABGH
ABGI
ABGJ
ABGK
ABGL
ABGM
ABGN
ABGO
ABGP
ABGQ
ABGR
ABGS
ABGT
ABGU
ABGV
_______________________________________________________________________________________
9
MAX6305–MAX6313
Table 2. Device Marking Codes
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
Table 2. Device Marking Codes (continued)
DEVICE
CODE
DEVICE
CODE
DEVICE
CODE
DEVICE
CODE
MAX6307UK35D1-T
MAX6307UK35D2-T
MAX6307UK35D3-T
MAX6307UK35D4-T
MAX6307UK34D1-T
MAX6307UK34D2-T
MAX6307UK34D3-T
MAX6307UK34D4-T
MAX6307UK33D1-T
MAX6307UK33D2-T
MAX6307UK33D3-T
MAX6307UK33D4-T
MAX6307UK32D1-T
MAX6307UK32D2-T
MAX6307UK32D3-T
MAX6307UK32D4-T
MAX6307UK31D1-T
MAX6307UK31D2-T
MAX6307UK31D3-T
MAX6307UK31D4-T
MAX6307UK30D1-T
MAX6307UK30D2-T
MAX6307UK30D3-T
MAX6307UK30D4-T
MAX6307UK29D1-T
MAX6307UK29D2-T
MAX6307UK29D3-T
MAX6307UK29D4-T
MAX6307UK28D1-T
MAX6307UK28D2-T
MAX6307UK28D3-T
MAX6307UK28D4-T
MAX6307UK27D1-T
MAX6307UK27D2-T
MAX6307UK27D3-T
MAX6307UK27D4-T
MAX6307UK26D1-T
MAX6307UK26D2-T
MAX6307UK26D3-T
MAX6307UK26D4-T
MAX6307UK25D1-T
MAX6307UK25D2-T
ABGW
ABGX
ABGY
ABGZ
ABHA
ABHB
ABHC
ABHD
ABHE
ABHF
ABHG
ABHH
ABHI
ABHJ
ABHK
ABHL
ABHM
ABHN
ABHO
ABHP
ABHQ
ABHR
ABHS
ABHT
ABHU
ABHV
ABHW
ABHX
ABHY
ABHZ
ABIA
ABIB
ABIC
ABID
ABIE
ABIF
ABIG
ABIH
ABII
ABIJ
ABIK
ABIL
MAX6307UK25D3-T
MAX6307UK25D4-T
MAX6308UK00D1-T
MAX6308UK00D2-T
MAX6308UK00D3-T
MAX6308UK00D4-T
MAX6309UK50D1-T
MAX6309UK50D2-T
MAX6309UK50D3-T
MAX6309UK50D4-T
MAX6309UK49D1-T
MAX6309UK49D2-T
MAX6309UK49D3-T
MAX6309UK49D4-T
MAX6309UK48D1-T
MAX6309UK48D2-T
MAX6309UK48D3-T
MAX6309UK48D4-T
MAX6309UK47D1-T
MAX6309UK47D2-T
MAX6309UK47D3-T
MAX6309UK47D4-T
MAX6309UK46D1-T
MAX6309UK46D2-T
MAX6309UK46D3-T
MAX6309UK46D4-T
MAX6309UK45D1-T
MAX6309UK45D2-T
MAX6309UK45D3-T
MAX6309UK45D4-T
MAX6309UK44D1-T
MAX6309UK44D2-T
MAX6309UK44D3-T
MAX6309UK44D4-T
MAX6309UK43D1-T
MAX6309UK43D2-T
MAX6309UK43D3-T
MAX6309UK43D4-T
MAX6309UK42D1-T
MAX6309UK42D2-T
MAX6309UK42D3-T
MAX6309UK42D4-T
ABIM
ABIN
ABIO
ABIP
ABIQ
ABIR
ABIS
ABIT
ABIU
ABIV
ABIW
ABIX
ABIY
ABIZ
ABJA
ABJB
ABJC
ABJD
ABJE
ABJF
ABJG
ABJH
ABJI
ABJJ
ABJK
ABJL
ABJM
ABJN
ABJO
ABJP
ABJQ
ABJR
ABJS
ABJT
ABJU
ABJV
ABJW
ABJX
ABJY
ABJZ
ABKA
ABKB
MAX6309UK41D1-T
MAX6309UK41D2-T
MAX6309UK41D3-T
MAX6309UK41D4-T
MAX6309UK40D1-T
MAX6309UK40D2-T
MAX6309UK40D3-T
MAX6309UK40D4-T
MAX6309UK39D1-T
MAX6309UK39D2-T
MAX6309UK39D3-T
MAX6309UK39D4-T
MAX6309UK38D1-T
MAX6309UK38D2-T
MAX6309UK38D3-T
MAX6309UK38D4-T
MAX6309UK37D1-T
MAX6309UK37D2-T
MAX6309UK37D3-T
MAX6309UK37D4-T
MAX6309UK36D1-T
MAX6309UK36D2-T
MAX6309UK36D3-T
MAX6309UK36D4-T
MAX6309UK35D1-T
MAX6309UK35D2-T
MAX6309UK35D3-T
MAX6309UK35D4-T
MAX6309UK34D1-T
MAX6309UK34D2-T
MAX6309UK34D3-T
MAX6309UK34D4-T
MAX6309UK33D1-T
MAX6309UK33D2-T
MAX6309UK33D3-T
MAX6309UK33D4-T
MAX6309UK32D1-T
MAX6309UK32D2-T
MAX6309UK32D3-T
MAX6309UK32D4-T
MAX6309UK31D1-T
MAX6309UK31D2-T
ABKC
ABKD
ABKE
ABKF
ABKG
ABKH
ABKI
ABKJ
ABKK
ABKL
ABKM
ABKN
ABKO
ABKP
ABKQ
ABKR
ABKS
ABKT
ABKU
ABKV
ABKW
ABKX
ABKY
ABKZ
ABLA
ABLB
ABLC
ABLD
ABLE
ABLF
ABLG
ABLH
ABLI
ABLJ
ABLK
ABLL
ABLM
ABLN
ABLO
ABLP
ABLQ
ABLR
MAX6309UK31D3-T
MAX6309UK31D4-T
MAX6309UK30D1-T
MAX6309UK30D2-T
MAX6309UK30D3-T
MAX6309UK30D4-T
MAX6309UK29D1-T
MAX6309UK29D2-T
MAX6309UK29D3-T
MAX6309UK29D4-T
MAX6309UK28D1-T
MAX6309UK28D2-T
MAX6309UK28D3-T
MAX6309UK28D4-T
MAX6309UK27D1-T
MAX6309UK27D2-T
MAX6309UK27D3-T
MAX6309UK27D4-T
MAX6309UK26D1-T
MAX6309UK26D2-T
MAX6309UK26D3-T
MAX6309UK26D4-T
MAX6309UK25D1-T
MAX6309UK25D2-T
MAX6309UK25D3-T
MAX6309UK25D4-T
MAX6310UK50D1-T
MAX6310UK50D2-T
MAX6310UK50D3-T
MAX6310UK50D4-T
MAX6310UK49D1-T
MAX6310UK49D2-T
MAX6310UK49D3-T
MAX6310UK49D4-T
MAX6310UK48D1-T
MAX6310UK48D2-T
MAX6310UK48D3-T
MAX6310UK48D4-T
MAX6310UK47D1-T
MAX6310UK47D2-T
MAX6310UK47D3-T
MAX6310UK47D4-T
ABLS
ABLT
ABLU
ABLV
ABLW
ABLX
ABLY
ABLZ
ABMA
ABMB
ABMC
ABMD
ABME
ABMF
ABMG
ABMH
ABMI
ABMJ
ABMK
ABML
ABMM
ABMN
ABMO
ABMP
ABMQ
ABMR
ABMS
ABMT
ABMU
ABMV
ABMW
ABMX
ABMY
ABMZ
ABNA
ABNB
ABNC
ABND
ABNE
ABNF
ABNG
ABNH
10
______________________________________________________________________________________
5-Pin, Multiple-Input,
Programmable Reset ICs
DEVICE
CODE
DEVICE
CODE
DEVICE
CODE
DEVICE
CODE
MAX6310UK46D1-T
MAX6310UK46D2-T
MAX6310UK46D3-T
MAX6310UK46D4-T
MAX6310UK45D1-T
MAX6310UK45D2-T
MAX6310UK45D3-T
MAX6310UK45D4-T
MAX6310UK44D1-T
MAX6310UK44D2-T
MAX6310UK44D3-T
MAX6310UK44D4-T
MAX6310UK43D1-T
MAX6310UK43D2-T
MAX6310UK43D3-T
MAX6310UK43D4-T
MAX6310UK42D1-T
MAX6310UK42D2-T
MAX6310UK42D3-T
MAX6310UK42D4-T
MAX6310UK41D1-T
MAX6310UK41D2-T
MAX6310UK41D3-T
MAX6310UK41D4-T
MAX6310UK40D1-T
MAX6310UK40D2-T
MAX6310UK40D3-T
MAX6310UK40D4-T
MAX6310UK39D1-T
MAX6310UK39D2-T
MAX6310UK39D3-T
MAX6310UK39D4-T
MAX6310UK38D1-T
MAX6310UK38D2-T
MAX6310UK38D3-T
MAX6310UK38D4-T
MAX6310UK37D1-T
MAX6310UK37D2-T
MAX6310UK37D3-T
MAX6310UK37D4-T
MAX6310UK36D1-T
MAX6310UK36D2-T
ABNI
ABNJ
ABNK
ABNL
ABNM
ABNN
ABNO
ABNP
ABNQ
ABNR
ABNS
ABNT
ABNU
ABNV
ABNW
ABNX
ABNY
ABNZ
ABOA
ABOB
ABOC
ABOD
ABOE
ABOF
ABOG
ABOH
ABOI
ABOJ
ABOK
ABOL
ABOM
ABON
ABOO
ABOP
ABOQ
ABOR
ABOS
ABOT
ABOU
ABOV
ABOW
ABOX
MAX6310UK36D3-T
MAX6310UK36D4-T
MAX6310UK35D1-T
MAX6310UK35D2-T
MAX6310UK35D3-T
MAX6310UK35D4-T
MAX6310UK34D1-T
MAX6310UK34D2-T
MAX6310UK34D3-T
MAX6310UK34D4-T
MAX6310UK33D1-T
MAX6310UK33D2-T
MAX6310UK33D3-T
MAX6310UK33D4-T
MAX6310UK32D1-T
MAX6310UK32D2-T
MAX6310UK32D3-T
MAX6310UK32D4-T
MAX6310UK31D1-T
MAX6310UK31D2-T
MAX6310UK31D3-T
MAX6310UK31D4-T
MAX6310UK30D1-T
MAX6310UK30D2-T
MAX6310UK30D3-T
MAX6310UK30D4-T
MAX6310UK29D1-T
MAX6310UK29D2-T
MAX6310UK29D3-T
MAX6310UK29D4-T
MAX6310UK28D1-T
MAX6310UK28D2-T
MAX6310UK28D3-T
MAX6310UK28D4-T
MAX6310UK27D1-T
MAX6310UK27D2-T
MAX6310UK27D3-T
MAX6310UK27D4-T
MAX6310UK26D1-T
MAX6310UK26D2-T
MAX6310UK26D3-T
MAX6310UK26D4-T
ABOY
ABOZ
ABPA
ABPB
ABPC
ABPD
ABPE
ABPF
ABPG
ABPH
ABPI
ABPJ
ABPK
ABPL
ABPM
ABPN
ABPO
ABPP
ABPQ
ABPR
ABPS
ABPT
ABPU
ABPV
ABPW
ABPX
ABPY
ABPZ
ABQA
ABQB
ABQC
ABQD
ABQE
ABQF
ABQG
ABQH
ABQI
ABQJ
ABQK
ABQL
ABQM
ABQN
MAX6310UK25D1-T
MAX6310UK25D2-T
MAX6310UK25D3-T
MAX6310UK25D4-T
MAX6311UK00D1-T
MAX6311UK00D2-T
MAX6311UK00D3-T
MAX6311UK00D4-T
MAX6311UK50D1-T
MAX6312UK50D2-T
MAX6312UK50D3-T
MAX6312UK50D4-T
MAX6312UK49D1-T
MAX6312UK49D2-T
MAX6312UK49D3-T
MAX6312UK49D4-T
MAX6312UK48D1-T
MAX6312UK48D2-T
MAX6312UK48D3-T
MAX6312UK48D4-T
MAX6312UK47D1-T
MAX6312UK47D2-T
MAX6312UK47D3-T
MAX6312UK47D4-T
MAX6312UK46D1-T
MAX6312UK46D2-T
MAX6312UK46D3-T
MAX6312UK46D4-T
MAX6312UK45D1-T
MAX6312UK45D2-T
MAX6312UK45D3-T
MAX6312UK45D4-T
MAX6312UK44D1-T
MAX6312UK44D2-T
MAX6312UK44D3-T
MAX6312UK44D4-T
MAX6312UK43D1-T
MAX6312UK43D2-T
MAX6312UK43D3-T
MAX6312UK43D4-T
MAX6312UK42D1-T
MAX6312UK42D2-T
ABQO
ABQP
ABQQ
ABQR
ABQS
ABQT
ABQU
ABQV
ABQW
ABQX
ABQY
ABQZ
ABRA
ABRB
ABRC
ABRD
ABRE
ABRF
ABRG
ABRH
ABRI
ABRJ
ABRK
ABRL
ABRM
ABRN
ABRO
ABRP
ABRQ
ABRR
ABRS
ABRT
ABRU
ABRV
ABRW
ABRX
ABRY
ABRZ
ABSA
ABSB
ABSC
ABSD
MAX6312UK42D3-T
MAX6312UK42D4-T
MAX6312UK41D1-T
MAX6312UK41D2-T
MAX6312UK41D3-T
MAX6312UK41D4-T
MAX6312UK40D1-T
MAX6312UK40D2-T
MAX6312UK40D3-T
MAX6312UK40D4-T
MAX6312UK39D1-T
MAX6312UK39D2-T
MAX6312UK39D3-T
MAX6312UK39D4-T
MAX6312UK38D1-T
MAX6312UK38D2-T
MAX6312UK38D3-T
MAX6312UK38D4-T
MAX6312UK37D1-T
MAX6312UK37D2-T
MAX6312UK37D3-T
MAX6312UK37D4-T
MAX6312UK36D1-T
MAX6312UK36D2-T
MAX6312UK36D3-T
MAX6312UK36D4-T
MAX6312UK35D1-T
MAX6312UK35D2-T
MAX6312UK35D3-T
MAX6312UK35D4-T
MAX6312UK34D1-T
MAX6312UK34D2-T
MAX6312UK34D3-T
MAX6312UK34D4-T
MAX6312UK33D1-T
MAX6312UK33D2-T
MAX6312UK33D3-T
MAX6312UK33D4-T
MAX6312UK32D1-T
MAX6312UK32D2-T
MAX6312UK32D3-T
MAX6312UK32D4-T
ABSE
ABSF
ABSG
ABSH
ABSI
ABSJ
ABSK
ABSL
ABSM
ABSN
ABSO
ABSP
ABSQ
ABSR
ABSS
ABST
ABSU
ABSV
ABSW
ABSX
ABSY
ABSZ
ABTA
ABTB
ABTC
ABTD
ABTE
ABTF
ABTG
ABTH
ABTI
ABTJ
ABTK
ABTL
ABTM
ABTN
ABTO
ABTP
ABTQ
ABTR
ABTS
ABTT
______________________________________________________________________________________
11
MAX6305–MAX6313
Table 2. Device Marking Codes (continued)
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
Table 2. Device Marking Codes (continued)
DEVICE
CODE
MAX6312UK31D1-T
MAX6312UK31D2-T
MAX6312UK31D3-T
MAX6312UK31D4-T
MAX6312UK30D1-T
MAX6312UK30D2-T
MAX6312UK30D3-T
MAX6312UK30D4-T
MAX6312UK29D1-T
MAX6312UK29D2-T
MAX6312UK29D3-T
MAX6312UK29D4-T
MAX6312UK28D1-T
MAX6312UK28D2-T
MAX6312UK28D3-T
MAX6312UK28D4-T
MAX6312UK27D1-T
MAX6312UK27D2-T
MAX6312UK27D3-T
MAX6312UK27D4-T
MAX6312UK26D1-T
MAX6312UK26D2-T
MAX6312UK26D3-T
MAX6312UK26D4-T
MAX6312UK25D1-T
MAX6312UK25D2-T
MAX6312UK25D3-T
MAX6312UK25D4-T
MAX6313UK50D1-T
MAX6313UK50D2-T
MAX6313UK50D3-T
MAX6313UK50D4-T
MAX6313UK49D1-T
ABTU
ABTV
ABTW
ABTX
ABTY
ABTZ
ABUA
ABUB
ABUC
ABUD
ABUE
ABUF
ABUG
ABUH
ABUI
ABUJ
ABUK
ABUL
ABUM
ABUN
ABUO
ABUP
ABUQ
ABUR
ABUS
ABUT
ABUU
ABUV
ABUW
ABUX
ABUY
ABUZ
ABVA
12
DEVICE
MAX6313UK49D2-T
MAX6313UK49D3-T
MAX6313UK49D4-T
MAX6313UK48D1-T
MAX6313UK48D2-T
MAX6313UK48D3-T
MAX6313UK48D4-T
MAX6313UK47D1-T
MAX6313UK47D2-T
MAX6313UK47D3-T
MAX6313UK47D4-T
MAX6313UK46D1-T
MAX6313UK46D2-T
MAX6313UK46D3-T
MAX6313UK46D4-T
MAX6313UK45D1-T
MAX6313UK45D2-T
MAX6313UK45D3-T
MAX6313UK45D4-T
MAX6313UK44D1-T
MAX6313UK44D2-T
MAX6313UK44D3-T
MAX6313UK44D4-T
MAX6313UK43D1-T
MAX6313UK43D2-T
MAX6313UK43D3-T
MAX6313UK43D4-T
MAX6313UK42D1-T
MAX6313UK42D2-T
MAX6313UK42D3-T
MAX6313UK42D4-T
MAX6313UK41D1-T
MAX6313UK41D2-T
CODE
DEVICE
CODE
DEVICE
CODE
ABVB
ABVC
ABVD
ABVE
ABVF
ABVG
ABVH
ABVI
ABVJ
ABVK
ABVL
ABVM
ABVN
ABVO
ABVP
ABVQ
ABVR
ABVS
ABVT
ABVU
ABVV
ABVW
ABVX
ABVY
ABVZ
ABWA
ABWB
ABWC
ABWD
ABWE
ABWF
ABWG
ABWH
MAX6313UK41D3-T
MAX6313UK41D4-T
MAX6313UK40D1-T
MAX6313UK40D2-T
MAX6313UK40D3-T
MAX6313UK40D4-T
MAX6313UK39D1-T
MAX6313UK39D2-T
MAX6313UK39D3-T
MAX6313UK39D4-T
MAX6313UK38D1-T
MAX6313UK38D2-T
MAX6313UK38D3-T
MAX6313UK38D4-T
MAX6313UK37D1-T
MAX6313UK37D2-T
MAX6313UK37D3-T
MAX6313UK37D4-T
MAX6313UK36D1-T
MAX6313UK36D2-T
MAX6313UK36D3-T
MAX6313UK36D4-T
MAX6313UK35D1-T
MAX6313UK35D2-T
MAX6313UK35D3-T
MAX6313UK35D4-T
MAX6313UK34D1-T
MAX6313UK34D2-T
MAX6313UK34D3-T
MAX6313UK34D4-T
MAX6313UK33D1-T
MAX6313UK33D2-T
MAX6313UK33D3-T
ABWI
ABWJ
ABWK
ABWL
ABWM
ABWN
ABWO
ABWP
ABWQ
ABWR
ABWS
ABWT
ABWU
ABWV
ABWW
ABWX
ABWY
ABWZ
ABXA
ABXB
ABXC
ABXD
ABXE
ABXF
ABXG
ABXH
ABXI
ABXJ
ABXK
ABXL
ABXM
ABXN
ABXO
MAX6313UK33D4-T
MAX6313UK32D1-T
MAX6313UK32D2-T
MAX6313UK32D3-T
MAX6313UK32D4-T
MAX6313UK31D1-T
MAX6313UK31D2-T
MAX6313UK31D3-T
MAX6313UK31D4-T
MAX6313UK30D1-T
MAX6313UK30D2-T
MAX6313UK30D3-T
MAX6313UK30D4-T
MAX6313UK29D1-T
MAX6313UK29D2-T
MAX6313UK29D3-T
MAX6313UK29D4-T
MAX6313UK28D1-T
MAX6313UK28D2-T
MAX6313UK28D3-T
MAX6313UK28D4-T
MAX6313UK27D1-T
MAX6313UK27D2-T
MAX6313UK27D3-T
MAX6313UK27D4-T
MAX6313UK26D1-T
MAX6313UK26D2-T
MAX6313UK26D3-T
MAX6313UK26D4-T
MAX6313UK25D1-T
MAX6313UK25D2-T
MAX6313UK25D3-T
MAX6313UK25D4-T
ABXP
ABXQ
ABXR
ABXS
ABXT
ABXU
ABXV
ABXW
ABXX
ABXY
ABXZ
ABYA
ABYB
ABYC
ABYD
ABYE
ABYF
ABYG
ABYH
ABYI
ABYJ
ABYK
ABYL
ABYM
ABYN
ABYO
ABYP
ABYQ
ABYR
ABYS
ABYT
ABYU
ABYV
______________________________________________________________________________________
5-Pin, Multiple-Input,
Programmable Reset ICs
PART†
TEMP. RANGE
MAX6308UK00D_-T
0°C to +70°C
5 SOT23-5
MAX6309UK_ _D_-T
0°C to +70°C
5 SOT23-5
__________Typical Operating Circuit
PIN-PACKAGE
MAX6310UK_ _D_-T
MAX6311UK00D_-T
MAX6312UK_ _D_-T
0°C to +70°C
0°C to +70°C
0°C to +70°C
5 SOT23-5
5 SOT23-5
5 SOT23-5
MAX6313UK_ _D_-T
0°C to +70°C
5 SOT23-5
3.3V
3.3V
VCC
RESET
RESET IN
5V
MAX6309
† The MAX6306/MAX6307/MAX6309/MAX6310/MAX6312/
MAX6313 are available with factory-set VCC reset thresholds from
2.5V to 5V, in 0.1V increments. Insert the desired nominal reset
threshold (from Table 1) into the blanks following the letters UK.
All parts also offer factory-programmed reset timeout periods.
Insert the number corresponding to the desired nominal timeout
period index following the “D” in the part number (D1 = 1ms min,
D2 = 20ms min, D3 = 140ms min, and D4 = 1120ms min). Contact
factory for availability and minimum order sizes.
RST IN
µP
MR
GND
___________________Chip Information
TRANSISTOR COUNT: 800
___________________________________________________________Pin Configurations
TOP VIEW
(RESET) RESET 1
5
VCC
MAX6305
MAX6308
MAX6311
GND 2
RST IN1 3
(RESET) RESET 1
GND 2
4
RST IN2
(RESET) RESET 1
RST IN
5
VCC
4
OVRST IN
MAX6307
MAX6310
MAX6313
GND 2
4
SOT23-5
( ) ARE FOR MAX6312
VCC
MAX6306
MAX6309
MAX6312
MR 3
SOT23-5
( ) ARE FOR MAX6311
5
RST IN 3
SOT23-5
( ) ARE FOR MAX6313
______________________________________________________________________________________
13
MAX6305–MAX6313
Ordering Information (continued)
________________________________________________________Package Information
SOT5L.EPS
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
14
______________________________________________________________________________________
5-Pin, Multiple-Input,
Programmable Reset ICs
______________________________________________________________________________________
MAX6305–MAX6313
NOTES
15
MAX6305–MAX6313
5-Pin, Multiple-Input,
Programmable Reset ICs
NOTES
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
16 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 1998 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.
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