General Description
The MAX6715A–MAX6729A are ultra-low-voltage micro-
processor (µP) supervisory circuits designed to monitor two
or three system power-supply voltages. These devices
assert a system reset if any monitored supply falls below its
factory-trimmed or adjustable threshold and maintain reset
for a minimum timeout period after all supplies rise above
their thresholds. The integrated dual/triple supervisory cir-
cuits significantly improve system reliability and reduce size
compared to separate ICs or discrete components.
These devices monitor primary supply voltages (VCC1)
from 1.8V to 5.0V and secondary supply voltages (VCC2)
from 0.9V to 3.3V with factory-trimmed reset threshold
voltage options (see the Reset Voltage Threshold Suffix
Guide). An externally adjustable RSTIN input option
allows customers to monitor a third supply voltage down
to 0.62V. These devices are guaranteed to be in the cor-
rect reset output logic state when either VCC1 or VCC2
remains greater than 0.8V.
A variety of push-pull or open-drain reset outputs along
with watchdog input, manual reset input, and power-fail
input/output features are available (see the Selector
Guide). Select reset timeout periods from 1.1ms to
1120ms (min) (see the Reset Timeout Period Suffix
Guide). The MAX6715A–MAX6729A are available in small
5-, 6-, and 8-pin SOT23 packages and operate over the
-40°C to +125°C temperature range.
Applications
Features
♦VCC1 (Primary Supply) Reset Threshold Voltages
from 1.58V to 4.63V
♦VCC2 (Secondary Supply) Reset Threshold
Voltages from 0.79V to 3.08V
♦Externally Adjustable RSTIN Threshold for
Auxiliary/Triple-Voltage Monitoring
(0.62V Internal Reference)
♦Watchdog Timer Option
35s (min) Long Startup Period
1.12s (min) Normal Timeout Period
♦Manual Reset Input Option
♦Power-Fail Input/Power-Fail Output Option
(Push-Pull and Open-Drain Active-Low)
♦Guaranteed Reset Valid Down to VCC1 or
VCC2 = 0.8V
♦Reset Output Logic Options
♦Immune to Short VCC Transients
♦Low Supply Current 14µA (typ) at 3.6V
♦Watchdog Disable Feature
♦Small 5-, 6-, and 8-Pin SOT23 Packages
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
________________________________________________________________ Maxim Integrated Products 1
Ordering Information
IN
OUT2
OUT1
DC/DC
CONVERTER
UNREGULATED
DC
R1
R2
VCC1V
CC2
RSTIN/PFI
MR
RST
WDI
PFO
MAX67_ _
PUSHBUTTON
SWITCH
I/O
SUPPLY
CORE
SUPPLY
RESET
I/O
NMI
µP
1.8V 0.9V
MAX6715A-
MAX6729A
Typical Operating Circuit
19-0536; Rev 1; 7/06
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
Pin Configurations and Selector Guide appear at end of
data sheet.
PART TEMP
RANGE
PIN-
PACKAGE
PKG
CODE
MAX6715AUT_ _D_+T
-40°C +125°C 6 SOT23-6
U6-1
MAX6716AUT_ _D_+T
-40°C +125°C 6 SOT23-6
U6-1
MAX6717AUK_ _D_+T
-40°C +125°C 5 SOT23-5
U5-1
MAX6718AUK_ _D_+T
-40°C +125°C 5 SOT23-5
U5-1
MAX6719AUT_ _D_+T
-40°C +125°C 6 SOT23-6
U6-1
MAX6720AUT_ _D_+T
-40°C +125°C 6 SOT23-6
U6-1
Note: The first “_ _” are placeholders for the threshold voltage
levels of the devices. Desired threshold levels are set by the part
number suffix found in the Reset Voltage Threshold Suffix Guide.
The “_” after the D is a placeholder for the reset timeout delay
time. Desired delay time is set using the timeout period suffix
found in the Reset Timeout Period Suffix Guide. For example, the
MAX6716AUTLTD3-T is a dual-voltage supervisor VTH1 =
4.625V, VTH2 = 3.075V, and 210ms (typ) timeout period.
Ordering Information continued at end of data sheet.
+Denotes lead-free package.
Multivoltage Systems
Telecom/Networking
Equipment
Computers/Servers
Portable/Battery-
Operated Equipment
Industrial Equipment
Printers/Fax Machines
Set-Top Boxes
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
2_______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS
(VCC1 = VCC2 = 0.8V to 5.5V, GND = 0V, TA= -40°C to +125°C, unless otherwise noted. Typical values are at TA= +25°C.) (Note 1)
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.
Terminal Voltage (with respect to GND)
VCC1, VCC2..........................................................-0.3V to +6V
Open-Drain RST, RST1, RST2, PFO, RST ................-0.3V to +6V
Push-Pull RST, RST1, PFO, RST...............-0.3V to (VCC1 + 0.3V)
Push-Pull RST2.........................................-0.3V to (VCC2 + 0.3V)
RSTIN, PFI, MR, WDI ................................................-0.3V to +6V
Input Current/Output Current (all pins) ...............................20mA
Continuous Power Dissipation (TA= +70°C)
5-Pin SOT23-5 (derate 7.1mW/°C above +70°C) ........571mW
6-Pin SOT23-6 (derate 8.7mW/°C above +70°C) ........696mW
8-Pin SOT23-8 (derate 8.9mW/°C above +70°C) ........714mW
Operating Temperature Range .........................-40°C to +125°C
Storage Temperature Range .............................-65°C to +150°C
Junction Temperature......................................................+150°C
Lead Temperature (soldering, 10s) .................................+300°C
PARAMETER
SYMBOL
CONDITIONS
MIN TYP MAX
UNITS
Supply Voltage VCC 0.8 5.5 V
VCC1 < 5.5V all I/O connections open,
outputs not asserted 15 39
ICC1 VCC1 < 3.6V all I/O connections open,
outputs not asserted 10 28
VCC2 < 3.6V all I/O connections open,
outputs not asserted 411
Supply Current
ICC2 VCC2 < 2.75V all I/O connections open,
outputs not asserted 39
µA
L (falling)
4.500 4.625 4.750
M (falling)
4.250 4.375 4.500
T (falling)
3.000 3.075 3.150
S (falling)
2.850 2.925 3.000
R (falling)
2.550 2.625 2.700
Z (falling)
2.250 2.313 2.375
Y (falling)
2.125 2.188 2.250
W (falling)
1.620 1.665 1.710
VCC1 Reset Threshold VTH1
V (falling)
1.530 1.575 1.620
V
T (falling)
3.000 3.075 3.150
S (falling)
2.850 2.925 3.000
R (falling)
2.550 2.625 2.700
Z (falling)
2.250 2.313 2.375
Y (falling)
2.125 2.188 2.250
W (falling)
1.620 1.665 1.710
V (falling)
1.530 1.575 1.620
I (falling)
1.350 1.388 1.425
H (falling)
1.275 1.313 1.350
G (falling)
1.080 1.110 1.140
F (falling)
1.020 1.050 1.080
E (falling)
0.810 0.833 0.855
VCC2 Reset Threshold VTH2
D (falling)
0.765 0.788 0.810
V
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
_______________________________________________________________________________________ 3
ELECTRICAL CHARACTERISTICS (continued)
(VCC1 = VCC2 = 0.8V to 5.5V, GND = 0V, TA= -40°C to +125°C, unless otherwise noted. Typical values are at TA= +25°C.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN TYP MAX
UNITS
Reset Threshold Tempco
∆VTH/°C
20
ppm/°C
Reset Threshold Hysteresis
VHYST
Referenced to VTH typical 0.5 %
VCC to Reset Output Delay tRD V
C C
1 = ( V
TH
1 + 100m V ) to ( V
TH
1 - 100m V ) or
V
C C
2 = ( V
TH
2 + 75m V ) to ( V
TH
2 - 75m V ) 20 µs
D1 1.1
1.65
2.2
D2 8.8
13.2 17.6
D3
140 210 280
D5
280 420 560
D6
560 840 1120
Reset Timeout Period tRP
D4
1120 1680 2240
ms
ADJUSTABLE RESET COMPARATOR INPUT (MAX6719A/MAX6720A/MAX6723A–MAX6727A)
RSTIN Input Threshold
VRSTIN 611 626.5 642
mV
RSTIN Input Current
IRSTIN -100 +100
nA
RSTIN Hysteresis 3mV
RSTIN to Reset Output Delay
tRSTIND
VRSTIN to (VRSTIN - 30mV) 22 µs
POWER-FAIL INPUT (MAX6728A/MAX6729A)
PFI Input Threshold VPFI
611 626.5 642
mV
PFI Input Current IPFI
-100 +100
nA
PFI Hysteresis VPFH 3mV
PFI to PFO Delay tDPF (VPFI + 30mV) to (VPFI - 30mV) 2 µs
MANUAL RESET INPUT (MAX6715A–MAX6722A/MAX6725A–MAX6729A)
VIL
0.3 ✕ VCC1
MR Input Voltage VIH
0.7 ✕ VCC1
V
MR Minimum Pulse Width 1µs
MR Glitch Rejection
100
ns
MR to Reset Delay tMR
200
ns
MR Pullup Resistance 25 50 80 kΩ
WATCHDOG INPUT (MAX6721A–MAX6729A)
First watchdog period after reset timeout
period 35 54 72
Watchdog Timeout Period tWD
Normal mode
1.12 1.68 2.24
s
WDI Pulse Width tWDI (Note 2) 50 ns
VIL
0.3 ✕ VCC1
WDI Input Voltage VIH
0.7 ✕ VCC1
V
WDI Input Current IWDI WDI = 0V or VCC1-1+1µA
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
4_______________________________________________________________________________________
Note 1: Devices tested at +25°C. Overtemperature limits are guaranteed by design and not production tested.
Note 2: Parameter guaranteed by design.
ELECTRICAL CHARACTERISTICS (continued)
(VCC1 = VCC2 = 0.8V to 5.5V, GND = 0V, TA= -40°C to +125°C, unless otherwise noted. Typical values are at TA= +25°C.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN TYP MAX
UNITS
RESET/POWER-FAIL OUTPUTS
VCC1 or VCC2 ≥ 0.8V, ISINK = 1µA,
output asserted 0.3
VCC1 or VCC2 ≥ 1.0V, ISINK = 50µA,
output asserted 0.3
VCC1 or VCC2 ≥ 1.2V, ISINK = 100µA,
output asserted 0.3
VCC1 or VCC2 ≥ 2.7 V, ISINK = 1.2mA,
output asserted 0.3
RST/RST1/RST2/PFO
Output LOW
(Push-Pull or Open-Drain)
VOL
VCC1 or VCC2 ≥ 4.5V, ISINK = 3.2mA,
output asserted 0.4
V
VCC1 ≥ 1.8V, ISOURCE = 200µA, output not
asserted
0.8 ✕ VCC1
VCC1 ≥ 2.7V, ISOURCE = 500µA, output not
asserted
0.8 ✕ VCC1
RST/RST1/PFO
Output HIGH
(Push-Pull Only)
VOH
VCC1 ≥ 4.5V, ISOURCE = 800µA, output not
asserted
0.8 ✕ VCC1
V
VCC1 ≥ 1.8V, ISOURCE = 200µA, output not
asserted
0.8 ✕ VCC2
VCC1 ≥ 2.7V, ISOURCE = 500µA, output not
asserted
0.8 ✕ VCC2
RST2
Output HIGH
(Push-Pull Only)
VOH
VCC1 ≥ 4.5V, ISOURCE = 800µA, output not
asserted
0.8 ✕ VCC2
V
VCC1 ≥ 1.0V, ISOURCE = 1µA, reset asserted 0.8 ✕ VCC1
VCC1 ≥ 1.8V, ISOURCE = 150µA,
reset asserted
0.8 ✕ VCC1
VCC1 ≥ 2.7V, ISOURCE = 500µA,
reset asserted
0.8 ✕ VCC1
RST
Output HIGH
(Push-Pull Only)
VOH
VCC1 ≥ 4.5V, ISOURCE = 800µA,
reset asserted
0.8 ✕ VCC1
V
VCC1 or VCC2 ≥ 1.8V, ISINK = 500µA,
reset not asserted 0.3
VCC1 or VCC2 ≥ 2.7V, ISINK = 1.2mA,
reset not asserted 0.3
RST
Output LOW
(Push-Pull or Open Drain)
VOL
VCC1 or VCC2 ≥ 4.5V, ISINK = 3.2mA,
reset not asserted 0.4
V
RST/RST1/RST2/PFO Output
Open-Drain Leakage Current Output not asserted 0.5 µA
RST Output Open-Drain
Leakage Current Output asserted 0.5 µA
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
_______________________________________________________________________________________ 5
0
2
6
4
12
10
8
18
16
14
20
-40 20-10 50 805-25 35 65 11095 125
SUPPLY CURRENT vs. TEMPERATURE
(VCC1 = +5V, VCC2 = +3.3V)
MAX6715A-29A toc01
TEMPERATURE (°C)
SUPPLY CURRENT (µA)
TOTAL
ICC1
ICC2
0
4
2
10
8
6
18
16
14
12
20
SUPPLY CURRENT vs. TEMPERATURE
(VCC1 = +3.3V, VCC2 = +2.5V)
MAX6715A-29A toc02
TEMPERATURE (°C)
SUPPLY CURRENT (µA)
-40 20-10 50 805-25 35 65 11095 125
TOTAL
ICC1
ICC2
0
2
6
4
12
10
8
18
16
14
20
-40 20-10 50 805-25 35 65 11095 125
SUPPLY CURRENT vs. TEMPERATURE
(VCC1 = +2.5V, VCC2 = +1.8V)
MAX6715A-29A toc03
TEMPERATURE (°C)
SUPPLY CURRENT (µA)
TOTAL
ICC1
ICC2
0
2
6
4
12
10
8
18
16
14
20
-40 20-10 50 805-25 35 65 11095 125
SUPPLY CURRENT vs. TEMPERATURE
(VCC1 = +1.8V, VCC2 = +1.2V)
MAX6715A-29A toc04
TEMPERATURE (°C)
SUPPLY CURRENT (µA)
TOTAL
ICC1
ICC2
0.980
0.984
0.992
0.988
1.004
1.000
0.996
1.016
1.012
1.008
1.020
-40 20-10 50 805-25 35 65 11095 125
NORMALIZED/RESET WATCHDOG
TIMEOUT PERIOD vs. TEMPERATURE
MAX6715A-29A toc05
TEMPERATURE (°C)
RESET/WATCHDOG TIMEOUT PERIOD
10,000
1000
100
10
110010 1000
MAXIMUM VCC TRANSIENT DURATION
vs. RESET THRESHOLD OVERDRIVE
MAX6715A-29A toc06
RESET THRESHOLD OVERDRIVE (mV)
MAXIMUM VCC TRANSIENT DURATION (µs)
RESET OCCURS ABOVE
THIS LINE
0.998
0.999
1.001
1.000
1.004
1.003
1.002
1.007
1.006
1.005
1.008
-40 20-10 50 805-25 35 65 11095 125
NORMALIZED VCC RESET THRESHOLD
vs. TEMPERATURE
MAX6715A-29A toc07
TEMPERATURE (°C)
RESET THRESHOLD
628
630
629
633
632
631
637
636
634
635
638
-40 20-10 50 805-25 35 65 11095 125
RESET INPUT AND POWER-FAIL INPUT
THRESHOLD vs. TEMPERATURE
MAX6715A-29A toc08
TEMPERATURE (°C)
RESET THRESHOLD
10
11
13
12
16
15
14
19
18
17
20
-40 20-10 50 805-25 35 65 11095 125
VCC TO RESET DELAY
vs. TEMPERATURE
MAX6715A-29A toc09
TEMPERATURE (°C)
VCC TO RESET DELAY (µs)
75mV OVERDRIVE
Typical Operating Characteristics
(VCC1 = 5V, VCC2 = 3.3V, TA= +25°C, unless otherwise noted.)
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
6_______________________________________________________________________________________
Pin Description
12
16
14
22
20
18
24
-40 20-10 50 805-25 35 65 11095 125
RSTIN INPUT TO RESET OUTPUT DELAY
vs. TEMPERATURE
MAX6715A-29A toc10
TEMPERATURE (°C)
RSTIN TO RESET DELAY (µs)
30mV OVERDRIVE
1.0
1.2
1.8
1.6
1.4
1.3
1.1
1.9
1.7
1.5
2.0
-40 20-10 50 805-25 35 65 11095 125
POWER-FAIL INPUT TO POWER-FAIL
OUTPUT DELAY vs. TEMPERATURE
MAX6715A-29A toc11
TEMPERATURE (°C)
POWER-FAIL DELAY (µs)
30mV OVERDRIVE
0V
0V
VRST
2V/div
MAX6715A-29A toc12
50ns/div
MR TO RESET OUTPUT DELAY
VMR
2V/div
Typical Operating Characteristics (continued)
(VCC1 = 5V, VCC2 = 3.3V, TA= +25°C, unless otherwise noted.)
PIN
M A X6 7 1 5A /
M A X6 7 1 6A
M A X6 7 1 7A
/
M A X6 7 1 8A
M A X6 7 1 9A /
M A X6 7 2 0A
M A X6 7 2 1A /
M A X6 7 2 2A
M A X6 7 2 3A /
M A X6 7 2 4A
M A X6 7 2 5A /
M A X6 7 2 6A M A X6 7 2 7A
M A X6 7 2 8A /
M A X6 7 2 9A
NAME
FUNCTION
1111111, 4 1
RST/
RST1
Active-Low Reset Output,
Open-Drain or Push-Pull.
RST/RST1 changes from
high to low when VCC1 or
VCC2 drops below the
selected reset thresholds,
RSTIN is below threshold,
MR is pulled low, or the
watchdog triggers a
reset. RST/RST1 remains
low for the reset timeout
period after VCC1/
VCC2/RSTIN exceed the
device reset thresholds,
MR goes low to high, or
the watchdog triggers a
reset. Open-drain outputs
require an external pullup
resistor. Push-pull outputs
are referenced to VCC1.
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
_______________________________________________________________________________________ 7
Pin Description (continued)
PIN
MAX6715A
/
MAX6716A
MAX6717A
/
MAX6718A
MAX6719A
/
MAX6720A
MAX6721A
/
MAX6722A
MAX6723A
/
MAX6724A
MAX6725A
/
MAX6726A MAX6727A M A X6 7 2 8A /
M A X6 7 2 9A
NAME
FUNCTION
5—————— —
RST2
Active-Low Reset Output,
Open-Drain or Push-Pull.
RST2 changes from high
to low when VCC1 or
VCC2 drops below the
selected reset thresholds
or MR is pulled low. RST2
remains low for the reset
timeout period after
VCC1/VCC2 exceed the
device reset thresholds
or MR goes low to high.
Open-drain outputs
r eq ui r e an exter nal p ul l up
r esi stor . P ush- p ul l outp uts
are referenced to VCC2.
2222222 2
GND
Ground
3333—55 5
MR
Active-Low Manual Reset
Input. Internal 50kΩ
pullup to VCC1. Pull low
to force a reset. Reset
remains active as long as
MR is low and for the
reset timeout period after
MR goes high. Leave
unconnected or connect
to VCC1 if unused.
4444466 6
VCC2
Secondary Supply
Voltage Input. Powers
the device when it is
above VCC1 and input
for secondary reset
threshold monitor.
6566688 8
VCC1
Primary Supply Voltage
Input. Powers the device
when it is above VCC2
and input for primary
reset threshold monitor.
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
8_______________________________________________________________________________________
Pin Description (continued)
PIN
M A X6 7 1 5A /
M A X6 7 1 6A
M A X6 7 1 7A /
M A X6 7 1 8A
M A X6 7 1 9A /
M A X6 7 2 0A
M A X6 7 2 1A /
M A X6 7 2 2A
M A X6 7 2 3A /
M A X6 7 2 4A
M A X6 7 2 5A /
M A X6 7 2 6A M A X6 7 2 7A
M A X6 7 2 8A /
M A X6 7 2 9A
NAME
FUNCTION
———5 3333
WDI
Watchdog Input. If WDI
remains high or low for
longer than the watchdog
timeout period, the internal
watchdog timer runs out
and the reset output
asserts for the reset
timeout period. The internal
watchdog timer clears
whenever a reset is
asserted or WDI sees a
rising or falling edge. The
watchdog has a long
startup period (35s min)
after each reset event and
a short watchdog timeout
period (1.12s min) after the
first valid WDI transition.
Leave WDI unconnected to
disable the watchdog
timer. The WDI floating-
state detector uses a small
200nA current source.
Therefore, do not connect
WDI to anything that will
source more than 50nA.
—— 5 — 577—
RSTIN
Undervoltage Reset
Comparator Input. High-
impedance input for
adjustable reset monitor.
The reset output is
asserted when RSTIN falls
below the 0.626V internal
reference voltage. Set the
monitored voltage reset
threshold with an external
resistor-divider network.
Connect RSTIN to VCC1
or VCC2 if not used.
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
_______________________________________________________________________________________ 9
Pin Description (continued)
PIN
M A X6 7 1 5A /
M A X6 7 1 6A
M A X6 7 1 7A /
M A X6 7 1 8A
M A X6 7 1 9A /
M A X6 7 2 0A
M A X6 7 2 1A /
M A X6 7 2 2A
M A X6 7 2 3A /
M A X6 7 2 4A
M A X6 7 2 5A /
M A X6 7 2 6A M A X6 7 2 7A
M A X6 7 2 8A /
M A X6 7 2 9A
NAME
FUNCTION
——————— 7
PFI
Power-Fail Voltage Monitor
Input. High-impedance
input for internal power-fail
monitor comparator.
Connect PFI to an external
resistor-divider network to
set the power-fail threshold
voltage (0.626V typical
internal reference voltage).
Connect to GND, VCC1, or
VCC2 if not used.
——————— 4
PFO
Active-Low Power-Fail
Monitor Output, Open-
Drain or Push-Pull. PFO is
asserted low when PFI is
less than 0.626V. PFO
deasserts without a reset
timeout period. Open-drain
outputs require an external
pullup resistor. Push-pull
outputs are referenced to
VCC1.
————— 4 ——
RST
Active-High Reset Output,
Open-Drain or Push-Pull.
RST changes from low to
high when VCC1 or VCC2
drops below selected
reset thresholds, RSTIN is
below threshold, MR is
pulled low, or the
watchdog triggers a reset.
RST remains HIGH for the
reset timeout period after
VCC1/VCC2/RSTIN exceed
the device reset
thresholds, MR goes low
to high, or the watchdog
triggers a reset. Open-
drain outputs require an
external pullup resistor.
Push-pull outputs are
referenced to VCC1.
Detailed Description
Supply Voltages
The MAX6715A–MAX6729A µP supervisory circuits
maintain system integrity by alerting the µP to fault con-
ditions. These ICs are optimized for systems that moni-
tor two or three supply voltages. The output-reset state
is guaranteed to remain valid while either VCC1 or VCC2
is above 0.8V.
Threshold Levels
Input-voltage threshold level combinations are indicat-
ed by a two-letter code in the Reset Voltage Threshold
Suffix Guide (Table 1). Contact factory for availability of
other voltage threshold combinations.
Reset Outputs
The MAX6715A–MAX6729A provide an active-low reset
output (RST) and the MAX6725A/MAX6726A also pro-
vide an active-high (RST) output. RST, RST, RST1, and
RST2 are asserted when the voltage at either VCC1 or
VCC2 falls below the voltage threshold level, RSTIN
drops below threshold, or MR is pulled low. Once reset
is asserted, it stays low for the reset timeout period
(see Table 2). If VCC1, VCC2, or RSTIN goes below the
reset threshold before the reset timeout period is com-
pleted, the internal timer restarts. The MAX6715A/
MAX6717A/MAX6719A/MAX6721A/MAX6723A/
MAX6725A/MAX6727A/MAX6728A contain open-drain
reset outputs, while the MAX6716A/MAX6718A/
MAX6720A/MAX6722A/MAX6724A/MAX6726A/MAX6729A
contain push-pull reset outputs. The MAX6727A provides
two separate open-drain RST outputs driven by the same
internal logic.
Manual Reset Input
Many µP-based products require manual reset capabil-
ity, allowing the operator, a test technician, or external
logic circuitry to initiate a reset. A logic low on MR
asserts the reset output. Reset remains asserted while
MR is low for the reset timeout period (tRP) after MR
returns high. This input has an internal 50kΩpullup
resistor to VCC1 and can be left unconnected if not
used. MR can be driven with CMOS logic levels, or with
open-drain/collector outputs. Connect a normally open
momentary switch from MR to GND to create a manual
reset function; external debounce circuitry is not
required. If MR is driven from long cables or if the
device is used in a noisy environment, connect a 0.1µF
capacitor from MR to GND to provide additional noise
immunity.
Adjustable Input Voltage
The MAX6719A/MAX6720A and MAX6723A–MAX6727A
provide an additional input to monitor a third system volt-
age. The threshold voltage at RSTIN is typically 626mV.
Connect a resistor-divider network to the circuit as shown
in Figure 1 to establish an externally controlled threshold
voltage, VEXT_TH.
VEXT_TH = 626mV((R1 + R2) / R2)
Low-leakage current at RSTIN allows the use of large-
valued resistors resulting in reduced power consump-
tion of the system.
Watchdog Input
The watchdog monitors µP activity through the watch-
dog input (WDI). To use the watchdog function, con-
nect WDI to a bus line or µP I/O line. When WDI
remains high or low for longer than the watchdog time-
out period, the reset output asserts.
The MAX6721A–MAX6729A include a dual-mode
watchdog timer to monitor µP activity. The flexible time-
out architecture provides a long period initial watchdog
mode, allowing complicated systems to complete
lengthy boots, and a short period normal watchdog
mode, allowing the supervisor to provide quick alerts
when processor activity fails. After each reset event
(VCC power-up/brownout, manual reset, or watchdog
reset), there is a long initial watchdog period of 35s
minimum. The long watchdog period mode provides an
extended time for the system to power-up and fully ini-
tialize all µP and system components before assuming
responsibility for routine watchdog updates.
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
10 ______________________________________________________________________________________
MAX6719A/
MAX6720A/
MAX6723A–
MAX6727A
VEXT_TH
R1
R2
RSTIN
GND
Figure 1. Monitoring a Third Voltage
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
______________________________________________________________________________________ 11
The normal watchdog timeout period (1.12s min)
begins after the first transition on WDI before the con-
clusion of the long initial watchdog period (Figure 2).
During the normal operating mode, the supervisor will
issue a reset pulse for the reset timeout period if the µP
does not update the WDI with a valid transition (high-to-
low or low-to-high) within the standard timeout period
(1.12s min).
Leave WDI unconnected to disable the watchdog timer.
The WDI floating-state detector uses a small (200nA typ)
current source. Therefore, do not connect WDI to any-
thing that will source more than 50nA.
Power-Fail Comparator
PFI is the noninverting input to a comparator. If PFI is
less than VPFI (626.5mV), PFO goes low. Common uses
for the power-fail comparator include monitoring prereg-
ulated input of the power supply (such as a battery) or
providing an early power-fail warning so software can
conduct an orderly system shutdown. It can also be
used to monitor supplies other than VCC1 or VCC2 by
setting the power-fail threshold with a resistor-divider, as
shown in Figure 3. PFI is the input to the power-fail com-
parator. The typical comparator delay is 2µs from PFI to
PFO. Connect PFI to ground of VCC1 if unused.
Ensuring a Valid Reset Output
Down to VCC = 0V
The MAX6715A–MAX6729A are guaranteed to operate
properly down to VCC = 0.8V. In applications that require
valid reset levels down to VCC = 0V, use a pulldown
resistor at RST to ground. The resistor value used is not
critical, but it must be large enough not to load the reset
output when VCC is above the reset threshold. For most
applications, 100kΩis adequate. This configuration does
not work for the open-drain outputs of the MAX6715A/
MAX6717A/MAX6719A/MAX6721A/MAX6723A/MAX6725A/
MAX6727A/MAX6728A. For push-pull, active-high RST
output connect the external resistor as a pullup from RST
to VCC1.
1.12s MAX
tWDI-NORMAL
1.12s MAX
tWDI-STARTUP
35s MAX
VTH
VCC
WDI
RST tRP
Figure 2. Normal Watchdog Startup Sequence
MAX6728A/
MAX6729A
R1
R2
PFI
GND
VIN
PFO
VTRIP = VPFI R1 + R2
R2
()
MAX6728A/
MAX6729A
R1
R2
PFI
GND
VCC
VIN
PFO
VTRIP = R2 (VPFI) 1
R1
1
R2
+-
VCC
R1
[]
()
VPFI = 626.5mV
A)
B)
Figure 3. Using Power-Fail Input to Monitor an Additional
Power-Supply a) VIN is Positive b) VIN is Negative
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
12 ______________________________________________________________________________________
MAX6728A/
MAX6729A
VEXT
R1
R3
R2
PFI
GND
PFO
A
VGOOD = DESIRED VEXT GOOD VOLTAGE THRESHOLD
VFAIL = DESIRED VEXT FAIL VOLTAGE THRESHOLD
VOH = VCC1 (FOR PUSH-PULL PFO)
R2 = 50kΩ (FOR > 10µA R2 CURRENT)
R1 = R2 ((VGOOD - VPFI) - (VPFI)(VGOOD - VFAIL) / VOH) / VPFI
R3 = (R1 x VOH) / (VGOOD - VFAIL)
VGOOD
VFAIL
VIN
PFO
Figure 5. Adding Hysteresis to Power-Fail for Push-Pull PFO
Applications Information
Interfacing to µPs with Bidirectional
Reset Pins
Most µPs with bidirectional reset pins can interface
directly to open-drain RST output options. Systems
simultaneously requiring a push-pull RST output and a
bidirectional reset interface can be in logic contention.
To prevent contention, connect a 4.7kΩresistor
between RST and the µP’s reset I/O port as shown in
Figure 4.
Adding Hysteresis to the Power-Fail
Comparator
The power-fail comparator has a typical input hysteresis
of 3mV. This is sufficient for most applications where a
power-supply line is being monitored through an external
voltage-divider (see the Power-Fail Comparator section).
If additional noise margin is desired, connect a resistor
between PFO and PFI as shown in Figure 5. Select the
values of R1, R2, and R3 so PFI sees VPFI (626mV) when
VEXT falls to its power-fail trip point (VFAIL) and when VIN
rises to its power-good trip point (VGOOD). The hysteresis
window extends between the specified VFAIL and VGOOD
thresholds. R3 adds the additional hysteresis by sinking
current from the R1/R2 divider network when PFO is logic
low and sourcing current into the network when PFO is
logic high. R3 is typically an order of magnitude greater
than R1 or R2.
The current through R2 should be at least 2.5µA to ensure
that the 100nA (max) PFI input current does not signifi-
cantly shift the trip points. Therefore, R2 < VPFI / 10µA <
62kΩfor most applications. R3 will provide additional hys-
teresis for PFO push-pull (VOH = VCC1) or open-drain
(VOH = VPULLUP) applications.
Monitoring an Additional Power Supply
These µP supervisors can monitor either positive or
negative supplies using a resistor voltage-divider to
PFI. PFO can be used to generate an interrupt to the µP
or cause reset to assert (Figure 3).
Monitoring a Negative Voltage
The power-fail comparator can be used to monitor a
negative supply voltage using the circuit shown in
Figure 3. When the negative supply is valid, PFO is low.
When the negative supply voltage drops, PFO goes
high. The circuit’s accuracy is affected by the PFI
threshold tolerance, VCC, R1, and R2.
Negative-Going VCC Transients
The MAX6715A–MAX6729A supervisors are relatively
immune to short-duration negative-going VCC transients
(glitches). It is usually undesirable to reset the µP when
VCC experiences only small glitches. The Typical
Operating Characteristics show Maximum Transient
Duration vs. Reset Threshold Overdrive, for which reset
pulses are not generated. The graph was produced
using negative-going VCC pulses, starting above VTH
and ending below the reset threshold by the magnitude
MAX6715A–
MAX6729A
GND GND
VCC1V
CC2
VCC2
VCC1
RST
RESET TO OTHER SYSTEM COMPONENTS
RESET
µP
4.7kΩ
Figure 4. Interfacing to µPs with Bidirectional Reset I/O
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
______________________________________________________________________________________ 13
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. A 0.1µF
bypass capacitor mounted close to the VCC pin pro-
vides additional transient immunity.
Watchdog Software Considerations
Setting and resetting the watchdog input at different
points in the program, rather than “pulsing” the watch-
dog input high-low-high or low-high-low, helps the
watchdog timer to closely monitor software execution.
This technique avoids a “stuck” loop where the watch-
dog timer continues to be reset within the loop, keeping
the watchdog from timing out. Figure 6 shows an exam-
ple flow diagram where the I/O driving the watchdog
input is set high at the beginning of the program, set low
at the beginning of every subroutine or loop, then set
high again when the program returns to the beginning. If
the program should “hang” in any subroutine, the I/O is
continually set low and the watchdog timer is allowed to
time out, causing a reset or interrupt to be issued.
Chip Information
TRANSISTOR COUNT: 1072
PROCESS: BiCMOS
START
SET WDI
HIGH
PROGRAM
CODE
SUBROUTINE OR
PROGRAM LOOP
SET WDI LOW
RETURN
SUBROUTINE
COMPLETED
HANG IN
SUBROUTINE
Figure 6. Watchdog Flow Diagram
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
14 ______________________________________________________________________________________
Functional Diagram
VCC1
VREF
VCC2
RSTIN/PFI
VREF VCC1
MR
VCC1
VCC1
VCC1
RESET
TIMEOUT
PERIOD
VCC2
RST
RST
PFO
WATCHDOG
TIMER WDI
VCC1
MR
PULLUP
RESET
OUTPUT
DRIVER
VREF/2
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
______________________________________________________________________________________ 15
Selector Guide
PART
NUMBER
NUMBER OF
VOLTAGE
MONITORS
OPEN-
DRAIN
RESET
OPEN-
DRAIN
RESET
PUSH-
PULL
RESET
PUSH-
PULL
RESET
MANUAL
RESET
WATCH-
DOG
INPUT
POWER-
FAIL
INPUT/
OUTPUT
MAX6715A 2 2 — — — √——
MAX6716A 2 — — 2 — √——
MAX6717A 2 1 — — — √——
MAX6718A 2 — — 1 — √——
MAX6719A 3 1 — — — √——
MAX6720A 3 — — 1 — √——
MAX6721A 2 1 — — — √√—
MAX6722A 2 — — 1 — √√—
MAX6723A 3 1 — — — — √—
MAX6724A 3 — — 1 — — √—
MAX6725A 3 1 1 — — √√—
MAX6726A 3 — — 1 1 √√—
MAX6727A 3 2 — — — √√—
MAX6728A 3 1 — — — √√
√ (open drain)
MAX6729A 3 — — 1 — √√
√ (push-pull)
Ordering Information (continued)
PART TEMP
RANGE
PIN-
PACKAGE
PKG
CODE
MAX6721AUT_ _D_-T
-40°C +125°C 6 SOT23-6
U6-1
MAX6722AUT_ _D_-T
-40°C +125°C 6 SOT23-6
U6-1
MAX6723AUT_ _D_-T
-40°C +125°C 6 SOT23-6
U6-1
MAX6724AUT_ _D_-T
-40°C +125°C 6 SOT23-6
U6-1
MAX6725AKA_ _D_-T
-40°C +125°C 8 SOT23-8
K8S-3
MAX6726AKA_ _D_-T
-40°C +125°C 8 SOT23-8
K8S-3
MAX6727AKA_ _D_-T
-40°C +125°C 8 SOT23-8
K8S-3
MAX6728AKA_ _D_-T
-40°C +125°C 8 SOT23-8
K8S-3
MAX6729AKA_ _D_-T
-40°C +125°C 8 SOT23-8
K8S-3
Note: The first “_ _” are placeholders for the threshold voltage
levels of the devices. Desired threshold levels are set by the part
number suffix found in the Reset Voltage Threshold Suffix Guide.
The “_” after the D is a placeholder for the reset timeout delay
time. Desired delay time is set using the timeout period suffix
found in the Reset Timeout Period Suffix Guide. For example, the
MAX6716AUTLTD3-T is a dual-voltage supervisor VTH1 =
4.625V, VTH2 = 3.075V, and 210ms (typ) timeout period.
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
16 ______________________________________________________________________________________
Table 1. Reset Voltage Threshold Suffix
Guide**
PART NUMBER
SUFFIX
(_ _)
VCC1 NOMINAL
VOLTAGE
THRESHOLD (V)
VCC2 NOMINAL
VOLTAGE
THRESHOLD (V)
LT 4.625 3.075
MS 4.375 2.925
MR 4.375 2.625
TZ 3.075 2.313
SY 2.925 2.188
RY 2.625 2.188
TW 3.075 1.665
SV 2.925 1.575
RV 2.625 1.575
TI 3.075 1.388
SH 2.925 1.313
RH 2.625 1.313
TG 3.075 1.110
SF 2.925 1.050
RF 2.625 1.050
TE 3.075 0.833
SD 2.925 0.788
RD 2.625 0.788
ZW 2.313 1.665
YV 2.188 1.575
ZI 2.313 1.388
YH 2.188 1.313
ZG 2.313 1.110
YF 2.188 1.050
ZE 2.313 0.833
YD 2.188 0.788
WI 1.665 1.388
VH 1.575 1.313
WG 1.665 1.110
VF 1.575 1.050
WE 1.665 0.833
VD 1.575 0.788
Table 2. Reset Timeout Period Suffix
Guide
ACTIVE TIMEOUT PERIOD
TIMEOUT
PERIOD SUFFIX
MIN (ms) MAX (ms)
D1 1.1 2.2
D2 8.8 17.6
D3 140 280
D5 280 560
D6 560 1120
D4 1120 2240
**Standard versions are shown in bold and are available in a D3
timeout option only. Standard versions require 2,500 piece order
increments and are typically held in sample stock. There is a
10,000 order increment on nonstandard versions. Other thresh-
old voltages may be available, contact factory for availability.
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
______________________________________________________________________________________ 17
Pin Configurations
GND
VCC2
16VCC1
5
MAX6715A/
MAX6716A
SOT23
TOP VIEW
2
34
RST1
MR
RST2
GND
VCC2
16VCC1
5
MAX6721A/
MAX6722A
SOT23
2
34
RST
MR
WDI GND
VCC2
16VCC1
5
MAX6723A/
MAX6724A
SOT23
2
34
RST
WDI
RSTIN
5RSTINGND
VCC2
15VCC1
MAX6717A/
MAX6718A
SOT23
2
34
RST
MR
GND
VCC2
16VCC1
MAX6719A/
MAX6720A
SOT23
2
34
RST
MR
VCC2
MRRST
1
2
8
7
VCC1
RSTINGND
WDI
RST
SOT23
3
4
6
5
MAX6725A/
MAX6726A
VCC2
MR
1
2
8
7
VCC1
RSTINGND
WDI
RST
SOT23
3
4
6
5
MAX6727A
RST
VCC2
MR
1
2
8
7
VCC1
PFIGND
WDI
RST
SOT23
3
4
6
5
MAX6728A/
MAX6729A
PFO
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
18 ______________________________________________________________________________________
SOT-23 5L .EPS
E
11
21-0057
PACKAGE OUTLINE, SOT-23, 5L
Package Information
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information
go to www.maxim-ic.com/packages.)
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
______________________________________________________________________________________ 19
6LSOT.EPS
PACKAGE OUTLINE, SOT 6L BODY
21-0058
1
1
G
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information
go to www.maxim-ic.com/packages.)
MAX6715A–MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 µP
Supervisory Circuits
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.
20 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
©2006 Maxim Integrated Products is a registered trademark of Maxim Integrated Products, Inc.
Heaney
SOT23, 8L .EPS
REV.DOCUMENT CONTROL NO.APPROVAL
PROPRIETARY INFORMATION
TITLE:
3.002.60E
CE1
E
BETWEEN 0.08mm AND 0.15mm FROM LEAD TIP.
8. MEETS JEDEC MO178 VARIATION BA.
8°
0.60
1.75
0.30
L2
0°
e1
e
L
1.50E1
0.65 BSC.
1.95 REF.
0.25 BSC.
GAUGE PLANE
SEATING PLANE C
C
L
PIN 1
I.D. DOT
(SEE NOTE 6)
L
C
L
C
A2
e1
D
DETAIL "A"
5. COPLANARITY 4 MILS. MAX.
NOTE:
7. SOLDER THICKNESS MEASURED AT FLAT SECTION OF LEAD
6. PIN 1 I.D. DOT IS 0.3 MM Ø MIN. LOCATED ABOVE PIN 1.
4. PACKAGE OUTLINE INCLUSIVE OF SOLDER PLATING.
3. PACKAGE OUTLINE EXCLUSIVE OF MOLD FLASH & METAL BURR.
HEEL OF THE LEAD PARALLEL TO SEATING PLANE C.
2. FOOT LENGTH MEASURED FROM LEAD TIP TO UPPER RADIUS OF
1. ALL DIMENSIONS ARE IN MILLIMETERS.
L2
L
A1
A
0.38
1.30
0.15
1.45
MAX
0.22b
0.90A2
0.00A1
0.90A
MINSYMBOL
3.00
0.22
2.80D
0.08C
SEE DETAIL "A"
L
C
be
E
1
21-0078
1
PACKAGE OUTLINE, SOT-23, 8L BODY
0
0
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information
go to www.maxim-ic.com/packages.)
Revision History
Pages changed at Rev 1: 1, 15, 20
ENGLISH • ???? • ??? • ???
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SOLUTIONS
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APPNOTES
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Maxim > Products > Supervisors , V oltage Monitors, Sequencers
MAX6715A, MAX6716A, MAX6717A, MAX6718A,
MAX6719A, MAX6720A, MAX6721A, MAX6722A,
MAX6723A, MAX6724A, MAX6725A, MAX6726A,
MAX6727A, MAX6728A, MAX6729A
Dual/Triple, Ultra-Low-Voltage, SOT23 P Supervisory Circuits
Dual/Triple-Voltage, P Supervisors with Watchdog, Manual Reset Input, and/or Power-Fail
Comparator
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2.
Part number suffixes: T or T&R = tape and reel; + = RoHS/lead-free; # = RoHS/lead-exempt. More: SeeFull Data
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MAX6715AUTWID2+T
Devices: 1-500 of 2756
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Package:
TYPE PINS FOOTPRINT
DRAWING CODE/VAR *
Temp
RoHS/Lead-Free?
Materials Analysis
MAX6715AUTWID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTWD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTWD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTWD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTWD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTWD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTWD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTVDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTZD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTZD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTZD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTZD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTZD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTZD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZWD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZWD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZWD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZWD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZWD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTZID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYVD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYVD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTYFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTWID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRHD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRVD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRYD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRYD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRYD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRYD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRYD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRYD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMRD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMRD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMRD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMRD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMRD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTLTD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTLTD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTLTD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTLTD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMRD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMSD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMSD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRDD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTRDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMSD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMSD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMSD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTMSD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTLTD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSYD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSVD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSYD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSYD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSYD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTTED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTSYD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6715AUTLTD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTZGD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTTGD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTZWD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTZGD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTLTD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTTGD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTZWD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSYD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTRVD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTRVD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTYDD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTYDD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSDD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSVD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSDD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTWGD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTVHD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTVHD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSHD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6715AUTSYD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTWGD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTVDD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTVDD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSVD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTYHD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTYHD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6715AUTSHD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716A
Free
Sam ple
Buy
Package:
TYPE PINS FOOTPRINT
DRAWING CODE/VAR *
Temp
RoHS/Lead-Free?
Materials Analysis
MAX6716AUTVHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTWD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTWD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTWD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTWD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTWD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTWD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTVDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTZD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTZD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTZD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTZD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTZD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTZD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZWD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZWD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZWD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZWD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZWD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTZID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYVD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYVD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTYFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTWID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRHD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRVD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRYD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRYD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRYD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRYD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRYD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRYD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMRD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMRD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMRD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMRD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMRD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMRD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTLTD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTLTD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTLTD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTLTD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMSD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMSD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRDD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTRDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMSD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMSD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMSD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTMSD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTLTD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSYD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSYD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSVD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSYD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSYD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSYD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTSFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6716AUTTGD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTZGD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTLTD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTTGD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTZWD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTZWD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTSDD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTSDD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTLTD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTWGD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTWGD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTZGD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTYHD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTVHD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTYHD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTVHD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTRVD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTSVD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTRVD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTSHD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTVDD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTVDD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTYDD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTYDD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6716AUTSVD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTSYD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTSYD3+T
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: Lead Free
Materials Analysis
MAX6716AUTSHD3+
SOT-23;6 pin;9 mm
Dwg: 21-0058I (PDF)
Use pkgcode/variation: U6+1*
-40C to +85C
RoHS/Lead-Free: See data sheet
Materials Analysis
MAX6717A
Free
Sam ple
Buy
Package:
TYPE PINS FOOTPRINT
DRAWING CODE/VAR *
Temp
RoHS/Lead-Free?
Materials Analysis
MAX6717AUKTID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKLTD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVHD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVHD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVHD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVHD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVHD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVFD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTWD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTWD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTWD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTWD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTWD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTWD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKVDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTZD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTZD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTZD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTZD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTZD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKTGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZWD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZGD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZGD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZGD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZED6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZED5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZED4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZED3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZED2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZED1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZGD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZGD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZID1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZWD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZWD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZWD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZWD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZID5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZID3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKZID2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYVD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYVD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYVD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYFD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYFD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYDD6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYDD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYDD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYDD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYDD1+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWID6+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKWID4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYFD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYFD4+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYFD5+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYVD3+T
-40C to +85C
RoHS/Lead-Free: See data sheet
MAX6717AUKYVD2+T
-40C to +85C
RoHS/Lead-Free: See data sheet
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Document Ref.: 1 9-0536; Rev 1; 2006-08-02
This page last modified: 200 6-08-23
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