Supervisory Circuits with Watchdog
and Manual Reset in 5-Lead SOT-23
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J Document Feedback
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FEATURES
26 reset threshold options
2.5 V to 5 V in 100 mV increments
4 reset timeout options
1 ms, 20 ms, 140 ms, and 1120 ms (minimum)
4 watchdog timeout options
6.3 ms, 102 ms, 1600 ms, and 25.6 sec (typical)
Manual reset input
Reset output stages
Push-pull active low
Open-drain active low
Push-pull active high
Low power consumption: 5 μA
Guaranteed reset output valid to VCC = 1 V
Power supply glitch immunity
Specified over industrial temperature range
5-lead SOT-23 package
APPLICATIONS
Microprocessor systems
Computers
Controllers
Intelligent instruments
Portable equipment
FUNCTIONAL BLOCK DIAGRAMS
ADM6316
V
CC
V
CC
MR
GND WDI
RESET
RESET
GENERATOR
WATCHDOG
DETECTOR
DEBOUNCE
V
REF
0
4533-001
Figure 1.
ADM6320
V
CC
MR
GND WDI
RESET
RESET
GENERATOR
WATCHDOG
DETECTOR
DEBOUNCE
V
REF
04533-028
Figure 2.
GENERAL DESCRIPTION
The ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/
ADM6322 are supervisory circuits that monitor power supply
voltage levels and code execution integrity in microprocessor-
based systems. As well as providing power-on reset signals, an
on-chip watchdog timer can reset the microprocessor if it fails
to strobe within a preset timeout period. A reset signal can also
be asserted by an external push button through a manual reset
input. The seven devices feature different combinations of
watchdog input, manual reset input, and output stage
configuration, as shown in Table 1.
Each device is available in a choice of 26 reset threshold options
ranging from 2.5 V to 5 V in 100 mV increments. There are also
four reset timeout options of 1 ms, 20 ms, 140 ms, and 1120 ms
(minimum) and four watchdog timeout options of 6.3 ms, 102 ms,
1600 ms, and 25.6 sec (typical). Not all device options are released
for sale as standard models. See the Ordering Guide for details.
The ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/
ADM6322 are available in 5-lead SOT-23 packages and
typically consume only 3 μA, making them suitable for use in
low power portable applications.
Table 1. Selection Table
Part No. Watchdog Manual Reset
Output Stage
RESET RESET
ADM6316 Yes Yes Push-pull No
ADM6318 Yes No Push-pull Push-pull
ADM6319 No Yes Push-pull Push-pull
ADM6320 Yes Yes Open-drain No
ADM6321 Yes No Open-drain Push-pull
ADM6322 No Yes Open-drain Push-pull
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 2 of 14
TABLE OF CONTENTS
Features .............................................................................................. 1
Applications ....................................................................................... 1
Functional Block Diagrams ............................................................. 1
General Description ......................................................................... 1
Revision History ............................................................................... 2
Specifications ..................................................................................... 3
Absolute Maximum Ratings ............................................................ 5
ESD Caution .................................................................................. 5
Pin Configurations and Function Descriptions ........................... 6
Typical Performance Characteristics ............................................. 7
Circuit Description ........................................................................... 9
Reset Output ................................................................................. 9
Open-Drain RESET Output ........................................................9
Manual Reset Input .......................................................................9
Watchdog Input .............................................................................9
Applications Information .............................................................. 10
Watchdog Input Current ........................................................... 10
Negative Going VCC Transients ................................................. 10
Ensuring Reset Valid to VCC = 0 V ........................................... 10
Watchdog Software Considerations ......................................... 10
Device Model Options ................................................................... 11
Outline Dimensions ....................................................................... 13
Ordering Guide .......................................................................... 13
REVISION HISTORY
7/2018—Rev. I to Rev. J
Deleted ADM6317 ......................................................... Throughout
Deleted Figure 4, Renumbered Sequentially ................................. 6
Changes to Table 4 ............................................................................ 6
Changes to Ordering Guide .......................................................... 13
3/2018—Rev. H to Rev. I
Changes to General Description Section ...................................... 1
Added Note 1, Table 2 ...................................................................... 3
Changed Model Options Section to Device Model Options
Section .............................................................................................. 11
Changes to Device Model Options Section and Table 5 ........... 11
Deleted Table 8; Renumbered Sequentially ................................ 12
Changes to Ordering Guide .......................................................... 13
12/2015—Rev. G to Rev. H
Added Endnote 1 and Endnote 2, Table 2 ..................................... 3
Change to Model Options Section Title ...................................... 11
Added Endnote 1, Table 5 ............................................................. 11
Changes to Table 8 .......................................................................... 12
Changes to Ordering Guide .......................................................... 14
1/2015—Rev. F to Rev. G
Changes to Table 8 .......................................................................... 12
5/2013—Rev. E to Rev. F
Changes to Table 8 .......................................................................... 12
Changes to Ordering Guide .......................................................... 13
10/2010—Rev. D to Rev. E
Changes to Table 8 .......................................................................... 12
Updated Outline Dimensions ....................................................... 13
8/2008—Rev. C to Rev. D
Change to Figure 18 .......................................................................... 9
4/2007—Rev. B to Rev. C
Added Figure 2 .................................................................................. 1
Changes to Figure 23...................................................................... 13
Changes to Ordering Guide .......................................................... 13
1/2007—Rev. A to Rev. B
Changes to Functional Block Diagram ........................................... 1
Changes to Figure 18...................................................................... 10
5/2006—Rev. 0 to Rev. A
Updated Format .................................................................. Universal
Changes to Functional Block Diagram ........................................... 1
Changes to Table 8 .......................................................................... 12
Changes to Figure 22...................................................................... 13
Changes to Ordering Guide .......................................................... 13
10/2004—Revision 0: Initial Version
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J | Page 3 of 14
SPECIFICATIONS
VCC = full operating range, TA = TMIN to TMAX, unless otherwise noted.
Table 2.
Parameter Min Typ Max Unit Test Conditions/Comments
SUPPLY
VCC Operating Voltage Range 1 5.5 V
Supply Current 10 20 μA VCC = 5.5 V
5 12 μA VCC = 3.6 V
RESET THRESHOLD VOLTAGE1 VTH − 1.5% VTH V
TH + 1.5% V TA = 25°C
V
TH − 2.5% VTH V
TH + 2.5% V TA = −40°C to +85°C
RESET THRESHOLD TEMPERATURE
COEFFICIENT
40 ppm/°C
RESET THRESHOLD HYSTERESIS 3 mV
RESET TIMEOUT PERIOD1
ADM63xxA2 1 1.4 2 ms
ADM63xxB2 20 28 40 ms
ADM63xxC2 140 200 280 ms
ADM63xxD2 1120 1600 2240 ms
VCC TO RESET DELAY 40 μs VCC falling at 1 mV/μs
PUSH-PULL OUTPUT (ADM6316, ADM6318,
ADM6319, ADM6321, ADM6322)
RESET Output Voltage 0.3 V
VCC 1.0 V, ISINK = 50 μA
0.3 V
VCC 1.2 V, ISINK = 100 μA
0.3 V VCC ≥ 2.7 V, ISINK = 1.2 mA
0.4 V VCC ≥ 4.5 V, ISINK = 3.2 mA
0.8 × VCC V VCC ≥ 2.7 V, ISOURCE = 500 μA
V
CC − 1.5 V VCC ≥ 4.5 V, ISOURCE = 800 μA
RESET Rise Time 5 25 ns From 10% to 90% VCC, CL = 5 pF,
VCC = 3.3 V
RESET Output Voltage 0.3 V VCC ≥ 2.7 V, ISINK = 1.2 mA
0.4 V VCC ≥ 4.5 V, ISINK = 3.2 mA
0.8 × VCC V VCC ≥ 1.8 V, ISOURCE = 150 μA
0.8 × VCC V VCC ≥ 2.7 V, ISOURCE = 500 μA
V
CC − 1.5 V VCC ≥ 4.5 V, ISOURCE = 800 μA
OPEN-DRAIN OUTPUT (ADM6320, ADM6321,
ADM6322)
RESET Output Voltage 0.3 V VCC ≥ 1.0 V, ISINK = 50 μA
0.3 V VCC ≥ 1.2 V, ISINK = 100 μA
0.3 V VCC ≥ 2.7 V, ISINK = 1.2 mA
0.4 V VCC ≥ 4.5 V, ISINK = 3.2 mA
Open-Drain Reset Output Leakage Current 1 μA
WATCHDOG INPUT (ADM6316, ADM6318,
ADM6320, ADM6321)
Watchdog Timeout Period1
ADM63xxxW3 4.3 6.3 9.3 ms
ADM63xxxX3 71 102 153 ms
ADM63xxxY3 1.12 1.6 2.4 sec
ADM63xxxZ3 17.9 25.6 38.4 sec
WDI Pulse Width 50 ns VIL = 0.3 × VCC, VIH = 0.7 × VCC
WDI Input Threshold 0.3 × VCC 0.7 × VCC V
WDI Input Current 120 160 μA VWDI = VCC, time average
−20 −15 μA VWDI = 0, time average
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 4 of 14
Parameter Min Typ Max Unit Test Conditions/Comments
MANUAL RESET INPUT (ADM6316, ADM6319,
ADM6320, ADM6322)
MR Input Threshold 0.8 2.0 V VTH > 4.0 V
0.3 × VCC 0.7 × VCC V VTH < 4.0 V
MR Input Pulse Width 1 μs
MR Glitch Rejection 100 ns
MR Pull-Up Resistance 35 52 75
MR to Reset Delay 230 ns VCC = 5 V
1 Not all device options are released for sale as standard models. See the Ordering Guide for full details.
2 Complete the model code by replacing xx with a device generic number.
3 Complete the model code by replacing xxx with a device generic number and code for the reset timeout period.
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J | Page 5 of 14
ABSOLUTE MAXIMUM RATINGS
TA = 25°C, unless otherwise noted.
Table 3.
Parameter Rating
VCC −0.3 V to +6 V
RESET (ADM6320, ADM6321, ADM6322) −0.3 V to +6 V
All Other Pins −0.3 V to (VCC + 0.3 V)
Output Current (RESET, RESET) 20 mA
Operating Temperature Range −40°C to +85°C
Storage Temperature Range −65°C to +125°C
θJA Thermal Impedance, SOT-23 270°C/W
Lead Temperature
Soldering (10 sec) 300°C
Vapor Phase (60 sec) 215°C
Infrared (15 sec) 220°C
Stresses at or above those listed under Absolute Maximum
Ratings may cause permanent damage to the product. This is a
stress rating only; functional operation of the product at these
or any other conditions above those indicated in the operational
section of this specification is not implied. Operation beyond
the maximum operating conditions for extended periods may
affect product reliability.
ESD CAUTION
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 6 of 14
PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS
ADM6316/
ADM6320
TOP VIEW
(Not to Scale)
RESET
1
GND
2
MR
3
V
CC
WDI
5
4
04533-002
Figure 3. ADM6316/ADM6320 Pin Configuration
ADM6318/
ADM6321
TOP VIEW
(Not to Scale)
RESET
1
GND
2
RESET
3
V
CC
WDI
5
4
04533-004
Figure 4. ADM6318/ADM6321 Pin Configuration
ADM6319/
ADM6322
TOP VIEW
(Not to Scale)
RESET
1
GND
2
RESET
3
V
CC
MR
5
4
04533-005
Figure 5. ADM6319/ADM6322 Pin Configuration
Table 4. Pin Function Descriptions
Pin No. Mnemonic Description
1 RESET Active Low Reset Output. Asserted whenever VCC is below the reset
threshold, VTH.
Push-Pull Output Stage for the ADM6316/ADM6318/ADM6319.
Open-Drain Output Stage for the ADM6320/ADM6321/ADM6322.
2 GND Ground.
3 MR (ADM6316/ADM6320) Manual Reset Input. This is an active low input that when forced low for at
least 1 μs, generates a reset. It features a 52 kΩ internal pull-up.
RESET (ADM6318/ADM6319/ADM6321/ADM6322) Active High Push-Pull Reset Output.
4 WDI (ADM6316/ADM6318/ADM6320/ADM6321)
Watchdog Input. Generates a reset if the logic level on the pin remains low
or high for the duration of the watchdog timeout. The timer is cleared if a
logic transition occurs on this pin or if a reset is generated. Leave this pin
floating to disable the watchdog timer.
MR (ADM6319/ADM6322) Manual Reset Input.
5 VCC (all models) Power Supply Voltage Being Monitored.
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J | Page 7 of 14
TYPICAL PERFORMANCE CHARACTERISTICS
TEMPERATURE C)
–40 –20 0 20 40 60 80
I
CC
(µA)
10.0
9.0
9.5
8.0
7.5
8.5
7.0
6.5
6.0
5.5
5.0
4.5
4.0
3.5
V
CC
=5V
V
CC
=3V
V
CC
=1.5V
0
4533-006
Figure 6. Supply Current vs. Temperature
(ADM6316/ADM6318/ADM6320/ADM6321)
V
CC
(V)
5.502.01.51.00.5 2.5 3.0 3.5 4.0 4.5 5.0
I
CC
(µA)
80
70
75
60
55
65
50
45
40
35
30
20
10
25
15
5
0
0
4533-007
Figure 7. Supply Current vs. Supply Voltage
TEMPERATURE C)
–40 40200–20 60 80
NORMALIZED RESET THRESHOLD
1.05
1.03
1.04
1.01
1.00
1.02
0.99
0.98
0.97
0.96
0.95
0
4533-008
Figure 8. Normalized Reset Threshold vs. Temperature
TEMPERATURE C)
–40 40200–20 60 80
V
CC
TO RESET DELAY s)
100
80
90
60
50
70
40
30
20
10
0
0
4533-009
Figure 9. VCC Falling to Reset Propagation Delay vs. Temperature
TEMPERATURE C)
–40 40200–20 60 80
MANUAL RESET TO RESET DELAY (ns)
340
300
320
260
240
280
220
200
180
160
140
120
100
0
4533-010
Figure 10. Manual Reset to Reset Propagation Delay vs. Temperature
(ADM6316/ADM6319/ADM6320/ADM6322)
TEMPERATURE C)
–40 40200–20 60 80
NORMALIZED RESET TIMEOUT
1.20
1.10
1.15
1.00
0.95
1.05
0.90
0.85
0.80
0
4533-011
Figure 11. Normalized Reset Timeout Period vs. Temperature
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 8 of 14
TEMPERATURE C)
–40 6040 80200–20
NORMALIZED WATCHDOG TIMEOUT
1.20
1.15
1.10
1.05
1.00
0.95
0.90
0
4533-012
Figure 12. Normalized Watchdog Timeout Period vs. Temperature
(ADM6316/ADM6318/ADM6320/ADM6321)
OVERDRIVE VOLTAGE (mV)
100010 100
MAXIMUM TRANSIENT DURATION (µs)
160
120
140
100
60
80
40
20
0
V
TH
= 4.63V
V
TH
= 2.93V
RESET OCCURS ABOVE CURVE
04533-013
Figure 13. Maximum VCC Transient Duration vs. Reset
Threshold Overdrive
TEMPERATURE (°C)
–50 0 50
MR MINIMUM PULSE WIDTH (ns)
190
160
180
170
150
130
140
120
110
100
0
4533-014
Figure 14. Manual Reset Minimum Pulse Width vs. Temperature
(ADM6316/ADM6319/ADM6320/ADM6322)
TEMPERATURE C)
–40 10 60
MINIMUM PULSE WIDTH (ns)
3.8
3.2
3.6
3.4
3.0
2.6
2.8
2.4
2.2
2.0
NEGATIVE PULSE
POSITIVE PULSE
0
4533-015
Figure 15. Watchdog Input Minimum Pulse Width vs. Temperature
(ADM6316/ADM6318/ADM6320/ADM6321)
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J | Page 9 of 14
CIRCUIT DESCRIPTION
The ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/
ADM6322 provide microprocessor supply voltage supervision by
controlling the reset input of the microprocessor. Code execution
errors are avoided during power-up, power-down, and brownout
conditions by asserting a reset signal when the supply voltage is
below a preset threshold and by allowing supply voltage stabiliza-
tion with a fixed timeout reset pulse after the supply voltage rises
above the threshold. In addition, problems with microprocessor
code execution can be monitored and corrected with a watchdog
timer (ADM6316/ADM6318/ADM6320/ADM6321). If the user
detects a problem with the system’s operation, a manual reset input
is available (ADM6316/ADM6319/ADM6320/ADM6322) to reset
the microprocessor, for example, by means of an external push
button.
RESET OUTPUT
The ADM6316 features an active low push-pull reset output,
while the ADM6321/ADM6322 have active high push-pull reset
outputs. The ADM6318/ADM6319 feature dual active low and
active high push-pull reset outputs. For active low and active
high outputs, the reset signal is guaranteed to be logic low and
logic high, respectively, for VCC down to 1 V.
The reset output is asserted when VCC is below the reset thresh-
old (VTH), when MR is driven low, or when WDI is not serviced
within the watchdog timeout period (tWD). Reset remains asserted
for the duration of the reset active timeout period (tRP) after VCC
rises above the reset threshold, after MR transitions from low to
high, or after the watchdog timer times out. Figure 16 illustrates
the behavior of the reset outputs.
V
CC
1V
V
CC
0V
V
CC
0V
V
TH
V
TH
0V
V
CC
RESET
RESET
t
RD
t
RD
1V
t
RP
t
RP
04533-019
Figure 16. Reset Timing Diagram
OPEN-DRAIN RESET OUTPUT
The ADM6320/ADM6321/ADM6322 have an active low, open-
drain reset output. This output structure requires an external
pull-up resistor to connect the reset output to a voltage rail no
higher than 6 V. The resistor must comply with the micropro-
cessor’s logic low and logic high voltage level requirements while
supplying input current and leakage paths on the RESET line. A
10 kΩ resistor is adequate in most situations.
MANUAL RESET INPUT
The ADM6316/ADM6319/ADM6320/ADM6322 feature a manual
reset input (MR), which when driven low, asserts the reset output.
When MR transitions from low to high, reset remains asserted for
the duration of the reset active timeout period before deasserting.
The MR input has a 52 kΩ, internal pull-up so that the input is
always high when unconnected. An external push-button switch
can be connected between MR and ground so that the user can
generate a reset. Debounce circuitry for this purpose is integrated
on chip. Noise immunity is provided on the MR input, and fast,
negative going transients of up to 100 ns (typical) are ignored. A
0.1 μF capacitor between MR and ground provides additional
noise immunity.
WATCHDOG INPUT
The ADM6316/ADM6318/ADM6320/ADM6321 feature a
watchdog timer that monitors microprocessor activity. A timer
circuit is cleared with every low-to-high or high-to-low logic
transition on the watchdog input pin (WDI), which detects pulses
as short as 50 ns. If the timer counts through the preset watchdog
timeout period (tWD), reset is asserted. The microprocessor is
required to toggle the WDI pin to avoid being reset. Failure of
the microprocessor to toggle WDI within the timeout period,
therefore, indicates a code execution error, and the reset pulse
generated restarts the microprocessor in a known state.
As well as logic transitions on WDI, the watchdog timer is also
cleared by a reset assertion due to an undervoltage condition on
VCC or due to MR being pulled low. When reset is asserted, the
watchdog timer is cleared and does not begin counting again until
reset deasserts. The watchdog timer can be disabled by leaving
WDI floating or by three-stating the WDI driver.
VCC
1V
VCC
0V
VCC
0V
VTH
0V
VCC
WDI
RESET tRP tRP
tWD
04533-022
Figure 17. Watchdog Timing Diagram
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 10 of 14
APPLICATIONS INFORMATION
WATCHDOG INPUT CURRENT
To minimize watchdog input current (and minimize overall power
consumption), leave WDI low for the majority of the watchdog
timeout period. When driven high, WDI can draw as much as
160 μA. Pulsing WDI low-to-high-to-low at a low duty cycle
reduces the effect of the large input current. When WDI is
unconnected, a window comparator disconnects the watchdog
timer from the reset output circuitry so that reset is not asserted
when the watchdog timer times out.
NEGATIVE GOING VCC TRANSIENTS
To avoid unnecessary resets caused by fast power supply transients,
the ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/
ADM6322 are equipped with glitch rejection circuitry. The typical
performance characteristic in Figure 13 plots VCC transient du-
ration vs. the transient magnitude. The curves show combinations
of transient magnitude and duration for which a reset is not
generated for 4.63 V and 2.93 V reset threshold parts. For example,
with the 2.93 V threshold, a transient that goes 100 mV below
the threshold and lasts 8 μs typically does not cause a reset, but
if the transient is any larger in magnitude or duration, a reset is
generated. An optional 0.1 μF bypass capacitor mounted close to
VCC provides additional glitch rejection.
ENSURING RESET VALID TO VCC = 0 V
Both active low and active high reset outputs are guaranteed to
be valid for VCC as low as 1 V. However, by using an external resistor
with push-pull configured reset outputs, valid outputs for VCC as
low as 0 V are possible. For an active low reset output, a resistor
connected between RESET and ground pulls the output low when
it is unable to sink current. For the active high case, a resistor
connected between RESET and VCC pulls the output high when it
is unable to source current. A large resistance, such as 100 kΩ,
must be used so that it does not overload the reset output when
VCC is above 1 V.
ADM6316/
ADM6318/
ADM6319
V
CC
RESET
100k
ADM6318/
ADM6319/
ADM6321/
ADM6322
V
CC
RESET
100kΩ
0
4533-018
Figure 18. Ensuring Reset Valid to VCC = 0 V
WATCHDOG SOFTWARE CONSIDERATIONS
In implementing the microprocessor’s watchdog strobe code,
quickly switching WDI low to high and then high to low (mini-
mizing WDI high time) is desirable for current consumption
reasons. However, a more effective way of using the watchdog
function can be considered.
A low-to-high-to-low WDI pulse within a given subroutine
prevents the watchdog from timing out. However, if the sub-
routine becomes stuck in an infinite loop, the watchdog cannot
detect this because the subroutine continues to toggle WDI. A
more effective coding scheme for detecting this error involves
using a slightly longer watchdog timeout. In the program that
calls the subroutine, WDI is set high. The subroutine sets WDI
low when it is called. If the program executes without error, WDI
is toggled high and low with every loop of the program. If the
subroutine enters an infinite loop, WDI is kept low, the watchdog
times out, and the microprocessor is reset (see Figure 19).
START
SET WDI
HIGH
PROGRAM
CODE
SUBROUTINE
SET WDI
LOW
RETURN
INFINITE LOOP:
WATCHDOG
TIMES OUT
RESET
04533-021
Figure 19. Watchdog Flow Diagram
RESET RESET
WDI I/OMR
ADM6316
V
CC
MICROPROCESSOR
04533-020
Figure 20. Typical Application Circuit
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J | Page 11 of 14
DEVICE MODEL OPTIONS
The ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/
ADM6322 include many device options, however, not all
options are released for sale. Released options called standard
models and are listed in the Ordering Guide.
The Watc hdog Time r s page on the ADI website also shows a list
of standard models. Contact a sales representative for information
on nonstandard models and be aware that samples and
production units have very long lead times.
Table 5. Reset Voltage Threshold Options
Reset Threshold Number
TA = +25°C TA = −40°C to +85°C
Unit
Min Typ Max Min Max
50 4.925 5.000 5.075 4.875 5.125 V
49 4.827 4.900 4.974 4.778 5.023 V
48 4.728 4.800 4.872 4.680 4.920 V
47 4.630 4.700 4.771 4.583 4.818 V
46 4.561 4.630 4.699 4.514 4.746 V
45 4.433 4.500 4.568 4.388 4.613 V
44 4.314 4.390 4.446 4.270 4.490 V
43 4.236 4.300 4.365 4.193 4.408 V
42 4.137 4.200 4.263 4.095 4.305 V
41 4.039 4.100 4.162 3.998 4.203 V
40 3.940 4.00 4.060 3.900 4.100 V
39 3.842 3.900 3.959 3.803 3.998 V
38 3.743 3.800 3.857 3.705 3.895 V
37 3.645 3.700 3.756 3.608 3.793 V
36 3.546 3.600 3.654 3.510 3.690 V
35 3.448 3.500 3.553 3.413 3.588 V
34 3.349 3.400 3.451 3.315 3.485 V
33 3.251 3.300 3.350 3.218 3.383 V
32 3.152 3.200 3.248 3.120 3.280 V
31 3.034 3.080 3.126 3.003 3.157 V
30 2.955 3.000 3.045 2.925 3.075 V
29 2.886 2.930 2.974 2.857 3.000 V
28 2.758 2.800 2.842 2.730 2.870 V
27 2.660 2.700 2.741 2.633 2.768 V
26 2.591 2.630 2.669 2.564 2.696 V
25 2.463 2.500 2.538 2.438 2.563 V
Table 6. Reset Timeout Options
Suffix Min Typ Max Unit
A 1 1.6 2 ms
B 20 30 40 ms
C 140 200 280 ms
D 1.12 1.60 2.24 sec
Table 7. Watchdog Timer Options
Suffix Min Typ Max Unit
W 4.3 6.3 9.3 ms
X 71 102 153 ms
Y 1.12 1.6 2.24 sec
Z 17.9 25.6 38.4 sec
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 12 of 14
Z: RoHS COMPLIANT
ADM63
____
ARJ
_
-
_
ORDERING QUANTITY
RL7: 3000 PIECE REEL
R7: 3000 PIECE REEL RoHS COMPLIANT
PACKAGE CODE
RJ: 5-LEAD SOT-23
TEMPERATURE RANGE
A: –40°C TO +85°C
RESET THRESHOLD NUMBER
(25 TO 50)
WATCHDOG TIMEOUT PERIOD
W: 6.3ms (TYP)
X: 102ms (TYP)
Y: 1.6sec (TYP)
Z: 25.6sec (TYP)
RESET TIMEOUT PERIOD
A: 1ms (MIN)
B: 20ms (MIN)
C: 140ms (MIN)
D: 1120ms (MIN)
GENERIC NUMBER
(16 TO 22)
0
4533-024
Figure 21. Ordering Code Structure (Modified Diagram)
Data Sheet ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322
Rev. J | Page 13 of 14
OUTLINE DIMENSIONS
COMPLIANT TO JEDEC STANDARDS MO-178-AA
10°
SEATING
PLANE
1.90
BSC
0.95 BSC
0.60
BSC
5
123
4
3.00
2.90
2.80
3.00
2.80
2.60
1.70
1.60
1.50
1.30
1.15
0.90
0
.15 MAX
0
.05 MIN
1.45 MAX
0.95 MIN
0.20 MAX
0.08 MIN
0.50 MAX
0.35 MIN
0.55
0.45
0.35
11-01-2010-A
Figure 22. 5-Lead Small Outline Transistor Package [SOT-23]
(RJ-5)
Dimensions shown in millimeters
ORDERING GUIDE
Model1, 2, 3
Reset
Voltage
Threshold (V)
Minimum
Reset
Timeout (ms)
Typical
Watchdog
Timeout (sec)4
Temperature
Range
Package
Description
Package
Option
Ordering
Quantity
Marking
Code
ADM6316AY27ARJZ-R7 2.7 1 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316AY29ARJZ-R7 2.93 1 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316AZ29ARJZ-R7 2.93 1 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316BX30ARJZ-R7 3 20 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316BX46ARJZ-R7 4.63 20 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316CW25ARJZ-R7 2.5 140 0.0063 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316CY26ARJZ-R7 2.63 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316CY29ARJZ-R7 2.93 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316CY46ARJZ-R7 4.63 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316DZ26ARJ-RL7 2.63 1120 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N00
ADM6316DZ26ARJZ-R7 2.63 1120 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6316DZ31ARJZ-R7 3.08 1120 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M7Q
ADM6318BX49ARJZ-R7 4.9 20 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M9N
ADM6318CY29ARJZ-R7 2.93 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M4Q
ADM6318CY46ARJ-RL7 4.63 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M4Q
ADM6318CY46ARJZ-R7 4.63 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N02
ADM6318CZ28ARJZ-R7 2.8 140 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M4Q
ADM6319B25ARJZ-R7 2.5 20 N/A −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M4Q
ADM6319B31ARJZ-RL7 3.08 20 N/A −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0S
ADM6319C29ARJZ-RL7 2.93 140 N/A −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0S
ADM6319C46ARJZ-RL7 4.63 140 N/A −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0S
ADM6320BX33ARJZ-R7 3.3 20 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0S
ADM6320BX45ARJZ-R7 4.5 20 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CX29ARJZ-R7 2.93 140 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CY29ARJ-RL7 2.93 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CY29ARJZ-R7 2.93 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N04
ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 Data Sheet
Rev. J | Page 14 of 14
Model1, 2, 3
Reset
Voltage
Threshold (V)
Minimum
Reset
Timeout (ms)
Typical
Watchdog
Timeout (sec)4
Temperature
Range
Package
Description
Package
Option
Ordering
Quantity
Marking
Code
ADM6320CY31ARJZ-R7 3.08 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CY46ARJZ-R7 4.63 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CZ27ARJZ-R7 2.7 140 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CZ29ARJ-RL7 2.93 140 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6320CZ29ARJZ-R7 2.93 140 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N04
ADM6321AX29ARJZ-R7 2.93 1 0.102 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 N0T
ADM6321AY30ARJZ-R7 3 1 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8L
ADM6321AY31ARJZ-R7 3.08 1 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8L
ADM6321AY43ARJZ-R7 4.3 1 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8L
ADM6321BZ25ARJZ-R7 2.5 20 25.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8L
ADM6321CY46ARJZ-R7 4.63 140 1.6 −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8L
ADM6322C29ARJZ-R7 2.93 140 N/A −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8L
ADM6322C46ARJZ-RL7 4.63 140 N/A −40°C to +85°C 5-Lead SOT-23 RJ-5 3,000 M8J
M8J
1 Z = RoHS Compliant Part.
2 The ADM6316/ADM6318/ADM6319/ADM6320/ADM6321/ADM6322 include many device options, however, not all options are released for sale. Released options called
standard models and are listed in the Ordering Guide. The Watchdog Timers page on the ADI website also shows a list of standard models. Contact a sales
representative for information on nonstandard models and be aware that samples and production units have very long lead times.
3 If ordering nonstandard models, complete the ordering code (see Figure 21) by inserting the reset voltage threshold, reset timeout, and watchdog timer (ADM6316/
ADM6318/ADM6320/ADM6321) suffixes from Table 5 to Table 7. No watchdog timeout is available for ADM6319/ADM6322.
4 N/A means not applicable.
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registered trademarks are the property of their respective owners.
D04533-0-7/18(J)