MAXIM MAX16000_12

MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
General Description
Features
The MAX16000–MAX16007 are low-voltage, quad-/hex-/
octal-voltage µP supervisors in small TQFN and TSSOP
packages. These devices provide supervisory functions for
complex multivoltage systems. The MAX16000/
MAX16001/MAX16002 monitor four voltages, the
MAX16003/MAX16004/MAX16005 monitor six voltages,
and the MAX16006/MAX16007 monitor eight voltages.
o Fixed Thresholds for 5V, 3.3V, 3V, 2.5V, 1.8V,
1.5V, 1.2V, and 0.9V Systems
o Adjustable Thresholds Monitor Voltages Down to
0.4V
o Open-Drain Outputs with Internal Pullups Reduce
the Number of External Components
o Fixed 140ms (min) or Capacitor-Adjustable Reset
Timeout
o Manual Reset, Margin Enable, and Tolerance
Select Inputs
o Watchdog Timer
1.6s (typ) Timeout Period
54s Startup Delay After Reset (Except MAX16005)
o Independent Watchdog Output (MAX16005)
o RESET Output Indicates All Voltages Present
o Independent Voltage Monitors
o Guaranteed Correct Logic State Down to VCC = 1V
o Small (4mm x 4mm) TQFN Package
o TSSOP (5mm x 4.4mm) Package (MAX16005)
The MAX16000/MAX16001/MAX16003/MAX16004/
MAX16006 offer independent outputs for each monitored voltage. The MAX16001/MAX16002/MAX16004–
MAX16007 offer a reset output that asserts whenever
any of the monitored voltages fall below their respective
thresholds or the manual reset input is asserted. The
reset output remains asserted for the reset timeout after
all voltages are above their respective thresholds and
the manual reset input is deasserted. The minimum
reset timeout is internally set to 140ms or can be adjusted with an external capacitor.
All open-drain outputs have internal 30µA pullups that
eliminate the need for external pullup resistors.
However, each output can be driven with an external
voltage up to 5.5V. Other features offered include a
manual reset input, a tolerance pin for selecting 5% or
10% input thresholds, and a margin enable function for
deasserting the outputs during margin testing.
The MAX16001/MAX16002/MAX16004–MAX16007 offer
a watchdog timer that asserts RESET or an independent watchdog output (MAX16005) when the watchdog
timeout period (1.6s typ) is exceeded. The watchdog
timer can be disabled by leaving the input open.
These devices are offered in 12-, 16-, 20-, and 24-pin
TQFN and 16-pin TSSOP packages. These are fully
specified from -40°C to +125°C.
Ordering Information
PART
MAX16000_TC+
TEMP RANGE
PIN-PACKAGE
-40°C to +125°C
12 TQFN-EP*
Note: The “_” is a placeholder for the input voltage threshold.
See Table 1.
+Denotes a lead(Pb)-free/RoHS-compliant package.
For tape-and-reel, add a “T” after the “+.” Tape-and-reel are
offered in 2.5k increments.
*EP = Exposed pad.
Ordering Information continued at end of data sheet.
Typical Operating Circuit
Applications
Storage Equipment
VCC
SRT
MARGIN
Servers
VIN1
IN1
Networking/Telecommunication Equipment
VIN2
IN2
Multivoltage ASICs
VIN3
IN3
VIN4
IN4
VIN5
IN5
WDI
I/O
VIN6
IN6
WDO
NMI
MAX16005
µP
RESET
RST
MR
Selector Guide appears at end of data sheet.
GND
TOL
For pricing, delivery, and ordering information, please contact Maxim Direct
at 1-888-629-4642, or visit Maxim’s website at www.maximintegrated.com.
19-3870; Rev 6; 8/12
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
ABSOLUTE MAXIMUM RATINGS
VCC, OUT_, IN_, RESET, WDO to GND....................-0.3V to +6V
TOL, MARGIN, MR, SRT, WDI, to GND ..........-0.3V to VCC + 0.3
Input/Output Current (RESET, MARGIN,
SRT, MR, TOL, OUT_, WDO, WDI) ..............................±20mA
Continuous Power Dissipation (TA = +70°C)
12-Pin TQFN (derate 16.9mW/°C above +70°C) ........1349mW
16-Pin TQFN (derate 16.9mW/°C above +70°C) ........1349mW
20-Pin TQFN (derate 16.9mW/°C above +70°C) ........1355mW
24-Pin TQFN (derate 16.9mW/°C above +70°C) ........1666mW
16-Pin TSSOP (derate 9.4mW/°C above +70°C) ..........754mW
Operating Temperature Range .........................-40°C to +125°C
Junction Temperature .....................................................+150°C
Storage Temperature Range .............................-65°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
Soldering Temperature (reflow) .......................................+260°C
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
ELECTRICAL CHARACTERISTICS
(VCC = 2.0V to 5.5V, TA = -40°C to +125°C, unless otherwise specified. Typical values are at VCC = 3.3V, TA = +25°C.) (Note 1)
PARAMETER
Operating Voltage Range
Supply Current
SYMBOL
CONDITIONS
VCC
(Note 2)
ICC
VCC = 3.3V, OUT_, RESET not asserted
(Note 3)
MIN
1.0
45
VCC = 5V, OUT_, RESET not asserted
UVLO (Undervoltage Lockout)
VUVLO
TYP
MAX
UNITS
5.5
V
65
50
70
VCC rising
1.62
1.8
1.98
5V threshold, TOL = GND
4.50
4.625
4.75
5V threshold, TOL = VCC
4.25
4.375
4.50
3.3V threshold, TOL = GND
2.970
3.053
3.135
3.3V threshold, TOL = VCC
2.805
2.888
2.970
3.0V threshold, TOL = GND
2.70
2.775
2.85
3.0V threshold, TOL = VCC
2.55
2.625
2.70
2.5V threshold, TOL = GND
2.250
2.313
2.375
2.5V threshold, TOL = VCC
2.125
2.188
2.250
1.8V threshold, TOL = GND
1.62
1.665
1.71
µA
V
IN_ (See Table 1)
Threshold Voltages (IN_ Falling)
2
VTH
1.8V threshold, TOL = VCC
1.53
1.575
1.62
1.5V threshold, TOL = GND
1.350
1.388
1.425
1.5V threshold, TOL = VCC
1.275
1.313
1.350
1.2V threshold, TOL = GND
1.08
1.11
1.14
1.2V threshold, TOL = VCC
1.02
1.05
1.08
0.9V threshold, TOL = GND
0.810
0.833
0.855
0.9V threshold, TOL = VCC
0.765
0.788
0.810
V
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
ELECTRICAL CHARACTERISTICS (continued)
(VCC = 2.0V to 5.5V, TA = -40°C to +125°C, unless otherwise specified. Typical values are at VCC = 3.3V, TA = +25°C.) (Note 1)
PARAMETER
Adjustable Threshold
(IN_ Falling)
IN_ Hysteresis
SYMBOL
VTH
VTH_HYS
MIN
TYP
MAX
TOL = GND
CONDITIONS
0.388
0.394
0.400
TOL = VCC
0.366
0.372
0.378
IN_ rising
0.5
Fixed thresholds
IN_ Input Current
3
Adjustable thresholds
-100
SRT = VCC
140
CSRT = 1500pF (Note 4)
2.43
UNITS
V
% VTH
16
µA
+100
nA
RESET
Reset Timeout
tRP
SRT Ramp Current
ISRT
CSRT = 100pF
SRT Threshold
RESET Output-Voltage Low
RESET Output-Voltage High
3.09
3.92
ms
50
µs
460
600
740
nA
1.173
1.235
1.293
V
SRT Hysteresis
IN_ to Reset Delay
280
0.206
CSRT = open
VSRT = 0V
200
100
tRD
VOL
VOH
MR Input-Voltage Low
VIL
MR Input-Voltage High
VIH
IN_ falling
µs
VCC = 3.3V, ISINK = 10mA, RESET asserted
0.30
VCC = 2.5V, ISINK = 6mA, RESET asserted
0.30
VCC = 1.2V, ISINK = 50µA, RESET asserted
0.30
VCC ≥ 2.0V, ISOURCE = 6µA, RESET
deasserted
0.8 x
VCC
V
0.7 x
VCC
V
1
µs
MR Glitch Rejection
100
MR to Reset Delay
200
Pulled up to VCC
V
V
0.3 x
VCC
MR Minimum Pulse Width
MR Pullup Resistance
mV
20
12
20
ns
ns
28
kΩ
OUTPUTS (OUT_ )
OUT_ Output-Voltage Low
VOL
OUT_ Output-Voltage High
VOH
IN_ to OUT_ Propagation Delay
Maxim Integrated
tD
VCC = 3.3V, ISINK = 2mA
0.30
VCC = 2.5V, ISINK = 1.2mA
0.30
VCC ≥ 2.0V, ISOURCE = 6µA
(VTH + 100mV) to (VTH - 100mV)
0.8 x
VCC
V
V
20
µs
3
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
ELECTRICAL CHARACTERISTICS (continued)
(VCC = 2.0V to 5.5V, TA = -40°C to +125°C, unless otherwise specified. Typical values are at VCC = 3.3V, TA = +25°C). (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
1.200
1.235
MAX
UNITS
REFERENCE OUTPUT (MAX16005 Only)
Reference Short-Circuit Current
Reference Output Accuracy
Shorted to GND
VREF
No load
0.8
Line Regulation
Sourcing, 0 ≤ IREF ≤ 40µA
Reference Load Regulation
mA
1.270
V
0.005
%/V
10
Ω
WATCHDOG TIMER (MAX16001/MAX16002/MAX16004–MAX16007)
WDI Input-Voltage Low
VIL
WDI Input-Voltage High
VIH
WDI Pulse Width
Watchdog Timeout Period
0.3 x
VCC
0.7 x
VCC
(Note 5)
tWDI
V
50
ns
1.12
1.6
2.40
s
54
72
s
+1
µA
Watchdog Startup Period
MAX16001/2/4/6/7
35
Watchdog Input Current
VWDI = 0 to VCC (Note 5)
-1
WDO Output-Voltage Low
(MAX16005 Only)
VOL
VCC = 3.3V, ISINK = 2mA
0.30
VCC = 2.5V, ISINK = 1.2mA
0.30
WDO Output-Voltage High
(MAX16005 Only)
VOH
VCC ≥ 2.0V, ISOURCE = 6µA, WDO
deasserted
V
0.8 x
VCC
V
V
DIGITAL LOGIC
TOL Input-Voltage Low
VIL
TOL Input-Voltage High
VIH
TOL Input Current
0.7 x
VCC
VIL
MARGIN Input-Voltage High
VIH
MARGIN Pullup Resistance
100
nA
0.3 x
VCC
V
0.7 x
VCC
Pulled up to VCC
tMD
Rising or falling (Note 6)
12
V
V
TOL = VCC
MARGIN Input-Voltage Low
MARGIN Delay Time
0.3 x
VCC
V
20
50
28
kΩ
µs
Note 1: Devices are tested at TA = +25°C and guaranteed by design for TA = TMIN to TMAX.
Note 2: The outputs are guaranteed to be in the correct logic state down to VCC = 1V.
Note 3: Measured with WDI, MARGIN, and MR unconnected.
Note 4: The minimum and maximum specifications for this parameter are guaranteed by using the worst case of the SRT ramp current and SRT threshold specifications.
Note 5: Guaranteed by design and not production tested.
Note 6: Amount of time required for logic to lock/unlock outputs from margin testing.
4
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Typical Operating Characteristics
(VCC = 3.3V, TA = +25°C, unless otherwise noted.)
55
40
50
45
VCC = 3.3V
40
VCC = 2.5V
35
35
1.5
2.0
2.5 3.0 3.5 4.0 4.5
SUPPLY VOLTAGE (V)
5.0
0.998
0.995
0.990
1.5
50
0.997
25
600
400
OUT_ LOW
0
2
3
4
5
6
SINK CURRENT (mA)
7
8
400
300
200
100
197
0
5
10
15
20
SOURCE CURRENT (µA)
25
30
RESET TIMEOUT DELAY
MAX16000 toc09
MAX16000 toc08
OUTPUT GOES LOW
ABOVE THIS LINE
500
198
RESET TIMEOUT PERIOD (ms)
MAX16000 toc07
600
1
RESET TIMEOUT PERIOD
vs. TEMPERATURE
MAXIMUM TRANSIENT DURATION
vs. INPUT OVERDRIVE
MAXIMUM TRANSIENT DURATION (µs)
OUT_ HIGH
0
0
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (°C)
5.5
200
0.996
0.995
5.0
800
VCC - VOUT_ (mV)
75
0.998
2.5 3.0 3.5 4.0 4.5
SUPPLY VOLTAGE (V)
1000
MAX16000 toc05
MAX16000 toc04
100
0.999
2.0
OUTPUT VOLTAGE vs. SOURCE CURRENT
OUTPUT VOLTAGE vs. SINK CURRENT
VOUT_ (mV)
NORMALIZED THRESHOLD
1.000
1.000
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (°C)
5.5
NORMALIZED THRESHOLD
vs. TEMPERATURE
1.001
1.003
0.993
30
30
1.005
MAX16000 toc06
45
1.008
NORMALIZED THRESHOLD
50
VCC = 5V
MAX16000 toc03
WDI, MARGIN, AND MR UNCONNECTED
SUPPLY CURRENT (µA)
55
1.010
MAX16000 toc02
WDI, MARGIN, AND MR UNCONNECTED
SUPPLY CURRENT (µA)
60
MAX16000 toc01
60
NORMALIZED THRESHOLD
vs. SUPPLY VOLTAGE
SUPPLY CURRENT vs. TEMPERATURE
SUPPLY CURRENT vs. SUPPLY VOLTAGE
IN1
5V/div
196
195
194
OUT1
2V/div
193
192
RESET
2V/div
191
SRT = VCC
190
0
1
10
100
INPUT OVERDRIVE (mV)
Maxim Integrated
1000
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (°C)
40ms/div
5
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Typical Operating Characteristics (continued)
(VCC = 3.3V, TA = +25°C, unless otherwise noted.)
WATCHDOG TIMEOUT PERIOD
vs. TEMPERATURE
RESET TIMEOUT PERIOD
vs. CSRT
MAX16000 toc12
MAX16000 toc11
WATCHDOG TIMEOUT PERIOD (s)
1.59
10
1
0.1
1.58
MA
2V/
1.57
1.56
OUT
2V/
1.55
1.54
1.53
1.52
1.50
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (°C)
100µs/div
CSRT (nF)
MARGIN DISABLE FUNCTION
REFERENCE VOLTAGE
vs. SOURCE CURRENT
REFERENCE VOLTAGE
vs. SUPPLY VOLTAGE
1
10
100
1000
MAX16000 toc13
1.260
MAX16005
1.255
MARGIN
2V/div
VREF (V)
1.240
1.235
RESET
2V/div
OUT_ AND RESET ARE BELOW RESPECTIVE
THRESHOLDS
MAX16005
1.255
REFERENCE VOLTAGE (V)
1.250
1.245
OUT_
2V/div
1.260
1.230
100
200
300
400
500
SOURCE CURRENT (µA)
1.235
1.230
2.0
2.5 3.0 3.5 4.0 4.5
SUPPLY VOLTAGE (V)
5.0
5.5
TRANSIENT DURATION
vs. VCC TRANSIENT MAGNITUDE
1.26
1.25
1.24
1.23
1.22
1.21
MAX16000 toc17
10
MAXIMUM TRANSIENT DURATION (µs)
MAX16000 toc16
1.27
1.240
1.5
600
REFERENCE VOLTAGE
vs. TEMPERATURE
MAX16005
1.245
1.220
1.220
0
1.28
1.250
1.225
1.225
100µs/div
MAX16000 toc15
0.1
MAX16000 toc14
0.01
9
8
7
RESET, OUT_ASSERT
ABOVE THIS LINE
6
5
4
3
2
1
0
1.20
-40 -25 -10 5 20 35 50 65 80 95 110 125
TEMPERATURE (°C)
6
RES
2V/
OUT_ AND RESET ARE
BELOW RESPECTIVE
THRESHOLDS
1.51
0.01
REFERENCE VOLTAGE (V)
tRP (ms)
100
MARGIN ENABLE FUNCTION
1.60
MAX16000 toc10
1000
100
1000
TRANSIENT MAGNITUDE (VCC - V) (mV)
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Pin Description (MAX16000/MAX16001/MAX16002)
MAX16000
MAX16001
MAX16002
PIN
1
2
3
4
1
2
4
5
1
2
4
5
IN3
IN4
GND
VCC
Monitored Input Voltage 3. See Table 1 for the input voltage threshold.
Monitored Input Voltage 4. See Table 1 for the input voltage threshold.
Ground
Unmonitored Power-Supply Input
5
6
—
OUT3
Output 3. When the voltage at IN3 falls below its threshold, OUT3 goes low and stays low until the
voltage at IN3 exceeds its threshold. The open-drain output has a 30µA internal pullup to V CC .
6
7
—
OUT4
Output 4. When the voltage at IN4 falls below its threshold, OUT4 goes low and stays low until the
voltage at IN4 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
7
10
8
MARGIN
8
11
—
OUT2
Output 2. When the voltage at IN2 falls below its threshold, OUT2 goes low and stays low until the
voltage at IN2 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
9
12
—
OUT1
Output 1. When the voltage at IN1 falls below its threshold, OUT1 goes low and stays low until the
voltage at IN1 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
10
11
14
15
10
11
IN1
IN2
Monitored Input Voltage 1. See Table 1 for the input voltage threshold.
Monitored Input Voltage 2. See Table 1 for the input voltage threshold.
12
16
12
TOL
Threshold Tolerance Input. Connect TOL to GND to select 5% threshold tolerance. Connect TOL
to VCC to select 10% threshold tolerance.
NAME
FUNCTION
Active-Low Manual Deassert Input. Pull MARGIN low to deassert all outputs (go into high state),
regardless of the voltage at any monitored input.
—
3
3
WDI
Watchdog Timer Input. If WDI remains low or high for longer than the watchdog timeout period,
RESET is asserted. The timer clears whenever a reset is asserted or a rising or falling edge on
WDI is detected. The watchdog timer enters a startup period that allows 54s for the first
transition to occur before a reset. Leave WDI unconnected to disable the watchdog timer. The
WDI open-state detector uses a small 400nA current. Therefore, do not connect WDI to anything
that will source or sink more than 200nA. Note that the leakage current specification for most
three-state drivers exceeds 200nA.
—
8
6
MR
Active-Low Manual Reset Input. Pull MR low to assert RESET low. RESET remains low for the
reset timeout period after MR is deasserted. MR is pulled up to VCC through a 20kΩ resistor.
SRT
Set Reset Timeout Input. Connect a capacitor from SRT to GND to set the reset timeout period.
The reset timeout period can be calculated as follows:
Reset Timeout (s) = 2.06 x 106 (Ω) x CSRT (F). For the internal timeout period of 140ms (min),
connect SRT to VCC.
—
9
7
—
13
9
RESET
Active-Low Reset Output. RESET asserts low when any of the monitored voltages falls below its
respective threshold or MR is asserted. RESET remains asserted for the reset timeout period
after all monitored voltages exceed their respective thresholds and MR is deasserted. This
open-drain output has a 30µA internal pullup.
—
—
—
EP
Exposed Pad. EP is internally connected to GND. Connect EP to the ground plane to provide a
low thermal resistance path from the IC junction to the PCB. Do not use as the electrical
connection to GND.
Maxim Integrated
7
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Pin Description (MAX16003/MAX16004/MAX16005)
8
MAX16003
MAX16004
MAX16005
TSSOP
MAX16005
TQFN
PIN
1
1
3
1
IN4
Monitored Input Voltage 4. See Table 1 for the input voltage threshold.
2
2
4
2
IN5
Monitored Input Voltage 5. See Table 1 for the input voltage threshold.
3
3
5
3
IN6
Monitored Input Voltage 6. See Table 1 for the input voltage threshold.
4
5
7
5
GND
Ground
5
6
8
6
VCC
Unmonitored Power-Supply Input
6
7
—
—
OUT4
Output 4. When the voltage at IN4 falls below its threshold, OUT4 goes low and stays low
until the voltage at IN4 exceeds its threshold. The open-drain output has a 30µA internal
pullup to VCC.
7
8
—
—
OUT5
Output 5. When the voltage at IN5 falls below its threshold, OUT5 goes low and stays low
until the voltage at IN5 exceeds its threshold. The open-drain output has a 30µA internal
pullup to VCC.
8
9
—
—
OUT6
Output 6. When the voltage at IN6 falls below its threshold, OUT6 goes low and stays low
until the voltage at IN6 exceeds its threshold. The open-drain output has a 30µA internal
pullup to VCC.
9
12
13
11
MARGIN
10
13
—
—
OUT3
Output 3. When the voltage at IN3 falls below its threshold, OUT3 goes low and stays low
until the voltage at IN3 exceeds its threshold. The open-drain output has a 30µA internal
pullup to VCC.
11
14
—
—
OUT2
Output 2. When the voltage at IN2 falls below its threshold, OUT2 goes low and stays low
until the voltage at IN2 exceeds its threshold. The open-drain output has a 30µA internal
pullup to VCC.
12
15
—
—
OUT1
Output 1. When the voltage at IN1 falls below its threshold, OUT1 goes low and stays low
until the voltage at IN1 exceeds its threshold. The open-drain output has a 30µA internal
pullup to VCC.
13
17
15
13
IN1
Monitored Input Voltage 1. See Table 1 for the input voltage threshold.
14
18
16
14
IN2
Monitored Input Voltage 2. See Table 1 for the input voltage threshold.
15
19
1
15
IN3
Monitored Input Voltage 3. See Table 1 for the input voltage threshold.
NAME
FUNCTION
Manual Deassert Input. Pull MARGIN low to deassert all outputs (go into high state),
regardless of the voltage at any monitored input.
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Pin Description (MAX16003/MAX16004/MAX16005) (continued)
MAX16003
MAX16004
MAX16005
TSSOP
MAX16005
TQFN
PIN
16
20
2
16
NAME
FUNCTION
TOL
Threshold Tolerance Input. Connect TOL to GND to select 5% threshold tolerance.
Connect TOL to VCC to select 10% threshold tolerance.
—
4
6
4
WDI
Watchdog Timer Input.
MAX16004: If WDI remains low or high for longer than the watchdog timeout period,
RESET is asserted and the timer is cleared. The timer also clears whenever a reset is
asserted or a rising or falling edge on WDI is detected. The watchdog timer enters a
startup period that allows 54s for the first transition to occur before a reset. Leave WDI
unconnected to disable the watchdog timer.
MAX16005: If WDI remains low or high for longer than the watchdog timeout period,
WDO is asserted. The timer clears whenever a rising or falling edge on WDI is detected.
Leave WDI unconnected to disable the watchdog timer. The MAX16005 does not have a
startup period.
MAX16004/MAX16005: The WDI open-state detector uses a small 100nA current.
Therefore, do not connect WDI to anything that will source or sink more than 50nA. Note
that the leakage current specification for most three-state drivers exceeds 50nA.
—
10
11
9
MR
Active-Low Manual Reset Input. Pull MR low to assert RESET low. RESET remains low for
the reset timeout period after MR is deasserted. MR is pulled up to VCC through a 20kΩ
resistor.
SRT
Set Reset Timeout Input. Connect a capacitor from SRT to GND to set the reset timeout
period. The reset timeout period can be calculated as follows:
Reset Timeout (s) = 2.06 x 106 (Ω) x CSRT (F). For the internal timeout period of 140ms
(min), connect SRT to VCC.
Active-Low Reset Output. RESET asserts low when any of the monitored voltages falls
below its respective threshold or MR is asserted. RESET remains asserted for the reset
timeout period after all monitored voltages exceed their respective thresholds and MR is
deasserted. This open-drain output has a 30µA internal pullup.
—
11
12
10
—
16
14
12
RESET
—
—
9
7
REF
Reference Output. The reference output voltage of 1.23V can source up to 40µA.
Active-Low Watchdog Output. WDO asserts and stays low whenever any of the IN_ inputs
fall below their respective thresholds. WDO deasserts without a timeout delay when all
the IN_ inputs rise above their thresholds. When all the IN_ inputs rise above their
thresholds, WDO asserts low whenever the watchdog timer times out. WDO deasserts
after a valid WDI transition or if MR is pulled low. The watchdog timer begins counting
after the reset timeout period once MR goes high. Pull MARGIN low to deassert WDO.
—
—
10
8
WDO
—
—
—
—
EP
Maxim Integrated
Exposed Pad. EP is internally connected to GND. Connect EP to the ground plane to
provide a low thermal resistance path from the IC junction to the PCB. Do not use as the
electrical connection to GND.
9
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Pin Description (MAX16006/MAX16007)
MAX16006
MAX16007
PIN
1
1
IN5
Monitored Input Voltage 5. See Table 1 for the input voltage threshold.
2
2
IN6
Monitored Input Voltage 6. See Table 1 for the input voltage threshold.
3
3
IN7
Monitored Input Voltage 7. See Table 1 for the input voltage threshold.
4
4
IN8
Monitored Input Voltage 8. See Table 1 for the input voltage threshold.
FUNCTION
5
5
WDI
Watchdog Timer Input. If WDI remains low or high for longer than the watchdog timeout period,
RESET is asserted and the timer is cleared. The timer also clears whenever a reset is asserted or a
rising or falling edge on WDI is detected. The watchdog timer enters a startup period that allows 54s
for the first transition to occur before a reset. Leave WDI unconnected to disable the watchdog timer.
The WDI open-state detector uses a small 400nA current. Therefore, do not connect WDI to anything
that will source or sink more than 200nA. Note that the leakage current specification for most threestate drivers exceeds 200nA.
6
6
GND
Ground
7
7
VCC
Unmonitored Power-Supply Input
8
—
OUT5
Output 5. When the voltage at IN5 falls below its threshold, OUT5 goes low and stays low until the
voltage at IN5 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
9
—
OUT6
Output 6. When the voltage at IN6 falls below its threshold, OUT6 goes low and stays low until the
voltage at IN6 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
10
—
OUT7
Output 7. When the voltage at IN7 falls below its threshold, OUT7 goes low and stays low until the
voltage at IN7 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
11
—
OUT8
Output 8. When the voltage at IN8 falls below its threshold, OUT8 goes low and stays low until the
voltage at IN8 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
12
10
MR
Active-Low Manual Reset Input. Pull MR low to assert RESET low. RESET remains low for the reset
timeout period after MR is deasserted. MR is pulled up to VCC through a 20kΩ resistor.
SRT
Set Reset Timeout Input. Connect a capacitor from SRT to GND to set the reset timeout period. The
reset timeout period can be calculated as follows:
Reset Timeout (s) = 2.06 x 106 (Ω) x CSRT (F). For the internal timeout period of 140ms (min), connect
SRT to VCC.
13
10
NAME
11
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Pin Description (MAX16006/MAX16007) (continued)
MAX16006
MAX16007
PIN
14
12
MARGIN
15
—
OUT4
Output 4. When the voltage at IN4 falls below its threshold, OUT4 goes low and stays low until the
voltage at IN4 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
16
—
OUT3
Output 3. When the voltage at IN3 falls below its threshold, OUT3 goes low and stays low until the
voltage at IN3 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
17
—
OUT2
Output 2. When the voltage at IN2 falls below its threshold, OUT2 goes low and stays low until the
voltage at IN2 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
18
—
OUT1
Output 1. When the voltage at IN1 falls below its threshold, OUT1 goes low and stays low until the
voltage at IN1 exceeds its threshold. The open-drain output has a 30µA internal pullup to VCC.
Active-Low Reset Output. RESET asserts low when any of the monitored voltages falls below its
respective threshold or MR is asserted. RESET remains asserted for the reset timeout period after all
monitored voltages exceed their respective thresholds and MR is deasserted. This open-drain output
has a 30µA internal pullup.
NAME
FUNCTION
Margin Disable Input. Pull MARGIN low to deassert all outputs (go into high state), regardless of the
voltage at any monitored input.
19
15
RESET
20
16
IN1
Monitored Input Voltage 1. See Table 1 for the input voltage threshold.
21
17
IN2
Monitored Input Voltage 2. See Table 1 for the input voltage threshold.
22
18
IN3
Monitored Input Voltage 3. See Table 1 for the input voltage threshold.
23
19
IN4
Monitored Input Voltage 4. See Table 1 for the input voltage threshold.
24
20
TOL
Threshold Tolerance Input. Connect TOL to GND to select 5% threshold tolerance. Connect TOL to
VCC to select 10% threshold tolerance.
—
8, 9,
13, 14
N.C.
Not Internally Connected
—
—
EP
Maxim Integrated
Exposed Pad. EP is internally connected to GND. Connect EP to the ground plane to provide a low thermal
resistance path from the IC junction to the PCB. Do not use as the electrical connection to GND.
11
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Table 1. Input-Voltage-Threshold Selector
PART
IN1
IN2
IN3
IN4
MAX16000A
MAX16000B
MAX16000C
IN5
IN6
IN7
IN8
3.3
2.5
ADJ
1.8
—
—
—
—
3.3
ADJ
ADJ
1.8
—
—
—
—
ADJ
2.5
ADJ
1.8
—
—
—
—
MAX16000D
3.3
2.5
ADJ
ADJ
—
—
—
—
MAX16000E
ADJ
ADJ
ADJ
ADJ
—
—
—
—
MAX16001A
3.3
2.5
ADJ
1.8
—
—
—
—
MAX16001B
3.3
ADJ
ADJ
1.8
—
—
—
—
MAX16001C
ADJ
2.5
ADJ
1.8
—
—
—
—
MAX16001D
3.3
2.5
ADJ
ADJ
—
—
—
—
MAX16001E
ADJ
ADJ
ADJ
ADJ
—
—
—
—
MAX16002A
3.3
2.5
ADJ
1.8
—
—
—
—
MAX16002B
3.3
ADJ
ADJ
1.8
—
—
—
—
MAX16002C
ADJ
2.5
ADJ
1.8
—
—
—
—
MAX16002D
3.3
2.5
ADJ
ADJ
—
—
—
—
MAX16002E
ADJ
ADJ
ADJ
ADJ
—
—
—
—
MAX16003A
3.3
2.5
ADJ
1.8
ADJ
ADJ
—
—
MAX16003B
3.3
ADJ
ADJ
1.8
ADJ
ADJ
—
—
MAX16003C
3.3
2.5
ADJ
ADJ
ADJ
ADJ
—
—
MAX16003D
ADJ
2.5
ADJ
1.8
ADJ
ADJ
—
—
MAX16003E
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
—
—
MAX16004A
3.3
2.5
ADJ
1.8
ADJ
ADJ
—
—
MAX16004B
3.3
ADJ
ADJ
1.8
ADJ
ADJ
—
—
MAX16004C
3.3
2.5
ADJ
ADJ
ADJ
ADJ
—
—
MAX16004D
ADJ
2.5
ADJ
1.8
ADJ
ADJ
—
—
MAX16004E
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
—
—
MAX16005A
3.3
2.5
ADJ
1.8
ADJ
ADJ
—
—
MAX16005B
3.3
ADJ
ADJ
1.8
ADJ
ADJ
—
—
MAX16005C
3.3
2.5
ADJ
ADJ
ADJ
ADJ
—
—
MAX16005D
ADJ
2.5
ADJ
1.8
ADJ
ADJ
—
—
MAX16005E
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
—
—
MAX16006A
3.3
2.5
ADJ
1.8
ADJ
ADJ
ADJ
ADJ
MAX16006B
3.3
ADJ
ADJ
1.8
ADJ
ADJ
ADJ
ADJ
MAX16006C
3.3
2.5
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
MAX16006D
ADJ
2.5
ADJ
1.8
ADJ
ADJ
ADJ
ADJ
MAX16006E
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
MAX16006F
5.0
3.3
3.0
2.5
1.8
1.5
1.2
0.9
MAX16007A
3.3
2.5
ADJ
1.8
ADJ
ADJ
ADJ
ADJ
MAX16007B
3.3
ADJ
ADJ
1.8
ADJ
ADJ
ADJ
ADJ
MAX16007C
3.3
2.5
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
MAX16007D
ADJ
2.5
ADJ
1.8
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
ADJ
MAX16007E
ADJ
ADJ
ADJ
ADJ
Note: Other fixed thresholds may be available. Contact factory for availability.
12
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Functional Diagrams
VCC
VCC
RESET
CIRCUIT
IN1
OUT1
IN2
OUT2
OUTPUT
DRIVER
IN3
OUT3
EN
OUT4
IN4
VCC
VCC
MAX16000
TOL
REFERENCE
UNDERVOLTAGE LOCKOUT
VCC
MARGIN
Figure 1. MAX16000D Functional Diagram
Maxim Integrated
13
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Functional Diagrams (continued)
WDI
MR
SRT
VCC
VCC
WATCHDOG
TIMER CIRCUIT
TIMING
RESET CIRCUIT
RESET
IN1
(OUT1)
IN2
(OUT2)
OUTPUT
DRIVER
IN3
(OUT3)
EN
(OUT4)
IN4
VCC
TOL
REFERENCE
VCC
UNDERVOLTAGE LOCKOUT
( ) MAX16001 ONLY
MAX16001/
MAX16002
VCC
MARGIN
Figure 2. MAX16001D/MAX16002D Functional Diagram
14
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Functional Diagrams (continued)
(WDI)
(MR)
(SRT)
VCC
VCC
WATCHDOG
TIMER CIRCUIT
TIMING
RESET CIRCUIT
(RESET)
IN1
OUT1
IN2
OUT2
IN3
OUT3
OUTPUT
DRIVER
IN4
OUT4
IN5
OUT5
IN6
EN
VCC
TOL
REFERENCE
OUT6
VCC
UNDERVOLTAGE LOCKOUT
MAX16003/
MAX16004
VCC
MARGIN
( ) MAX16004 ONLY
Figure 3. MAX16003C/MAX16004C Functional Diagram
Maxim Integrated
15
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Functional Diagrams (continued)
WDO
WDI
MR
SRT
VCC
VCC
WATCHDOG
TIMER CIRCUIT
TIMING
RESET CIRCUIT
RESET
IN1
IN2
IN3
OUTPUT
DRIVER
IN4
IN5
IN6
EN
VCC
TOL
VCC
REFERENCE
UNDERVOLTAGE LOCKOUT
REF
VCC
MAX16005
MARGIN
Figure 4. MAX16005C Functional Diagram
16
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Functional Diagrams (continued)
WDI
MR
SRT
VCC
VCC
WATCHDOG
TIMER CIRCUIT
TIMING
RESET CIRCUIT
RESET
IN1
(OUT1)
IN2
(OUT2)
IN3
(OUT3)
OUTPUT
DRIVER
IN4
(OUT4)
IN5
(OUT5)
IN6
(OUT6)
IN7
(OUT7)
IN8
EN
VCC
TOL
REFERENCE
OUT8
VCC
UNDERVOLTAGE LOCKOUT
MAX16006/
MAX16007
VCC
( ) MAX16006 ONLY
MARGIN
Figure 5. MAX16006C/MAX16007C Functional Diagram
Maxim Integrated
17
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Detailed Description
The MAX16000–MAX16007 are low-voltage, quad-/hex-/
octal-voltage µP supervisors in small TQFN and TSSOP
packages. These devices provide supervisory functions
for complex multivoltage systems. The MAX16000/
MAX16001/MAX16002 monitor four voltages, the
MAX16003/MAX16004/MAX16005 monitor six voltages,
and the MAX16006/MAX16007 monitor eight voltages.
The MAX16000/MAX16001/MAX16003/MAX16004/
MAX16006 offer independent outputs for each monitored voltage. The MAX16001/MAX16002/MAX16004–
MAX16007 offer a reset output that asserts whenever
any of the monitored voltages fall below their respective
thresholds or the manual reset input is asserted. The
reset output remains asserted for the reset timeout after
all voltages are above their respective thresholds and
the manual reset input is deasserted. The minimum
reset timeout is internally set to 140ms or can be
adjusted with an external capacitor.
All open-drain outputs have internal 30µA pullups that
eliminate the need for external pullup resistors.
However, each output can be driven with an external
voltage up to 5.5V. Other features offered include a
manual reset input, a tolerance pin for selecting 5% or
10% input thresholds, and a margin enable function for
deasserting the outputs during margin testing.
Window Detection
A window detector circuit uses two auxiliary inputs in
the configuration shown in Figure 8. External resistors
set the two threshold voltages of the window detector
circuit. External logic gates create the OUT signal. The
window detection width is the difference between the
threshold voltages (Figure 9).
5V
VCC
V1
IN1
V2
IN2
V3
IN3
V4
IN4
MAX16000
MAX16001
OUT1
OUT2
OUT3
OUT4
GND
Figure 6. Quad Undervoltage Detector with LED Indicators
The MAX16001/MAX16002/MAX16004–MAX16007 offer
a watchdog timer that asserts RESET or an independent watchdog output (MAX16005) when the watchdog
timeout period (1.6s typ) is exceeded. The watchdog
timer can be disabled by leaving input open.
Applications Information
5V
D1
VIN(5V)
VCC
OUT1
D2
IN1
Undervoltage-Detection Circuit
The open-drain outputs of the MAX16000–MAX16007
can be configured to detect an undervoltage condition.
Figure 6 shows a configuration where an LED turns on
when the comparator output is low, indicating an
undervoltage condition. These devices can also be
used in applications such as system supervisory monitoring, multivoltage level detection, and VCC bar-graph
monitoring (Figure 7).
Tolerance (TOL)
The MAX16000–MAX16007 feature a pin-selectable
threshold tolerance. Connect TOL to GND to select 5%
threshold tolerance. Connect TOL to VCC to select 10%
threshold tolerance.
18
OUT2
IN2
D3
IN3 MAX16000
MAX16001 OUT3
D4
IN4
GND
OUT4
Figure 7. VCC Bar-Graph Monitoring
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
(
VINTH
) (VTH + VTH_HYS)
R1
VTH1 = 1 + R2
5V
R1
VCC
R1
R2
INPUT
IN1
OUT1
IN2
MAX16000
OUT2
MAX16001
IN3
OUT3
IN4
OUT4
R2
OUT
VTH
R3
R4
(VV
R1 = R2
INTH
TH
)
-1
GND
Figure 10. Setting the Adjustable Input
(
)
R3
VTH4 = 1 + R4 VTH
Adjustable Input
Figure 8. Window Detection
OUT1
V TH1
These devices offer several monitor options with
adjustable input thresholds (see Table 1). The threshold
voltage at each adjustable IN_ input is typically 0.394V
(TOL = GND) or 0.372 (TOL = VCC). To monitor a voltage
VINTH, connect a resistive-divider network to the circuit as
shown in Figure 10.
VINTH = VTH ((R1 / R2) + 1)
R1 = R2 ((VINTH / VTH) - 1)
Large resistors can be used to minimize current through
the external resistors. For greater accuracy, use lowervalue resistors.
Unused Inputs
OUT4
V TH4
Connect any unused IN_ inputs to a voltage above its
threshold.
OUT_ Outputs
(MAX16000/MAX16001/MAX16003/
MAX16004/MAX16006)
OUT
∆V TH
Figure 9. Output Response of Window Detector Circuit
Maxim Integrated
The OUT_ outputs go low when their respective IN_
inputs drop below their specified thresholds. The output
is open drain with a 30µA internal pullup to VCC. For
many applications, no external pullup resistor is required
to interface with other logic devices. An external pullup
resistor to any voltage from 0 to 5.5V overrides the internal pullup if interfacing to different logic supply voltages.
Internal circuitry prevents reverse current flow from the
external pullup voltage to VCC (Figure 11).
19
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
VCC = 3.3V
5V
IN_
VTH_
VTH_
100kΩ
VCC
VCC
RESET
OUT_
90%
10%
RESET
tRD
tRP
OUT_
90%
MAX16001/
MAX16002/
MAX16004–MAX16007
GND
10%
GND
Figure 11. Interfacing to a Different Logic Supply Voltage
RESET Output (MAX16001/MAX16002/
MAX16004–MAX16007)
RESET asserts low when any of the monitored voltages
fall below their respective thresholds or MR is asserted.
RESET remains asserted for the reset timeout period
after all monitored voltages exceed their respective
thresholds and MR is deasserted (see Figure 12). This
open-drain output has a 30µA internal pullup. An external pullup resistor to any voltage from 0 to 5.5V overrides
the internal pullup if interfacing to different logic supply
voltages. Internal circuitry prevents reverse current flow
from the external pullup voltage to VCC (Figure 11).
20
tD
tD
Figure 12. Output Timing Diagram
WDO (MAX16005 Only)
WDO asserts and stays low whenever any of the IN_
inputs fall below their respective thresholds. WDO
deasserts without a timeout delay when all the IN_
inputs rise above their thresholds. When all the IN_
inputs rise above their thresholds, WDO asserts low
whenever the watchdog timer times out. WDO
deasserts after a valid WDI transition or if MR is pulled
low. The watchdog timer begins counting after the reset
timeout period once MR goes high. Pull MARGIN low to
deassert WDO regardless of any other condition. The
watchdog timer continues to run when MARGIN is low
and if a timeout occurs. WDO will assert MR after
MARGIN is deasserted. This open-drain output has a
30µA internal pullup. An external pullup resistor to any
voltage from 0 to 5.5V overrides the internal pullup if
interfacing to different logic supply voltages. Internal circuitry prevents reverse current flow from the external
pullup voltage to VCC (Figure 11).
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
VTH + VTH_HYST
VTH + VTH_HYST
VTH
VIN
RESET
tRP
tRP
WDO
WDI
t<tWD
tWD
t<tWD
t<tWD
Figure 13. WDO Timing Related to VTH and tRP
VTH + VTH_HYST
VTH + VTH_HYST
VTH
VIN
MARGIN
RESET
tWD
INTERNAL
RESET
SIGNAL
tRP
tRP
Figure 14. Margin Output Disable (MARGIN) Affect on RESET within tRP
Maxim Integrated
21
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
VTH + VTH_HYST
VTH + VTH_HYST
VTH
VIN
MARGIN
RESET
INTERNAL
RESET
SIGNAL
tRP
tRP
Figure 15. Margin Output Disable (MARGIN) Affect on RESET Outside tRP
Reset Timeout Capacitor
The reset timeout period can be adjusted to accommodate a variety of µP applications from 50µs to 1.12s.
Adjust the reset timeout period (tRP) by connecting a
capacitor (CSRT) between SRT and GND. Calculate the
reset timeout capacitor as follows:
t (s) x ISRT
CSRT (F) = RP
VTH _ SRT
Connect SRT to VCC for a factory-programmed reset
timeout of 140ms (min).
Manual Reset Input (MR)
(MAX16001/MAX16002/
MAX16004–MAX16007)
Many µP-based products require manual reset capability, allowing the operator, a test technician, or external
logic circuitry to initiate a reset. A logic-low on MR
asserts RESET low. RESET remains asserted while MR
is low, and during the reset timeout period (140ms min)
after MR returns high. The MR input has an internal
20kΩ pullup resistor to VCC, so it can be left unconnected if not used. MR can be driven with TTL or
CMOS-logic levels, or with open-drain/collector outputs. Connect a normally open momentary switch from
22
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, connecting a 0.1µF capacitor from MR to GND
provides additional noise immunity.
Margin Output Disable (MARGIN)
MARGIN allows system-level testing while power supplies are adjusted from their nominal voltages. Drive
MARGIN low to force RESET, WDO, and OUT_ high,
regardless of the voltage at any monitored input. The
state of each output does not change while MARGIN =
GND. The watchdog timer continues to run when
MARGIN is low, and if a timeout occurs, WDO/RESET
will assert tMD after MARGIN is deasserted.
The MARGIN input is internally pulled up to VCC. Leave
MARGIN unconnected or connect to VCC if unused.
Power-Supply Bypassing
The MAX16000–MAX16007 operate from a 2.0V to 5.5V
supply. An undervoltage lockout ensures that the outputs are in the correct states when the UVLO is exceeded. In noisy applications, bypass VCC to ground with a
0.1µF capacitor as close to the device as possible. The
additional capacitor improves transient immunity. For
VCC transients with high slew rates, place an RC lowpass filter in front of VCC, where R can be up to 100Ω.
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
IN1 10
IN2 11
OUT4
IN1 10
5
OUT3
IN2 11
4
VCC
TOL 12
SRT
7
MAX16002
1
2
3
1
MR
5
VCC
4
GND
GND
IN3
2
3
9
MARGIN
10
OUT3
SRT
11
OUT2
MARGIN
12
TOP VIEW
OUT1
OUT2
TQFN
(4mm x 4mm)
OUT1
TQFN
(4mm x 4mm)
TOP VIEW
6
+
IN4
+
8
IN3
TOL 12
MAX16000
6
9
WDI
7
MARGIN
8
IN4
MARGIN
9
TOP VIEW
RESET
OUT2
TOP VIEW
OUT1
Pin Configurations
12
11
10
9
RESET 13
8
MR
IN1 13
8
OUT6
IN1 14
7
OUT4
IN2 14
7
OUT5
6
OUT4
5
VCC
+
3
4
1
2
3
4
GND
TOL 16
IN4
VCC
2
TQFN
(4mm x 4mm)
Maxim Integrated
5
GND
IN3
1
IN3 15
WDI
+
OUT3
IN4
TOL 16
6
IN6
IN2 15
MAX16003
IN5
MAX16001
TQFN
(4mm x 4mm)
23
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
18
RESET 16
10
MR
IN1 17
9
OUT6
IN2 18
8
OUT5
7
OUT4
6
VCC
MAX16004
SRT
11
MARGIN
12
OUT4
SRT
13
OUT3
MARGIN
14
OUT2
OUT3
15
TOP VIEW
17
16
15
14
13
OUT1
OUT2
TOP VIEW
OUT1
Pin Configurations (continued)
RESET 19
12
MR
IN1 20
11
OUT8
IN2 21
10
OUT7
9
OUT6
8
OUT5
7
VCC
MAX16006
IN3 22
IN3 19
IN4 23
TOL 20
+
+
1
2
WDI
GND
IN5
IN6
6
+
7
IN2 14
MAX16005
1
2
3
4
IN4
IN5
IN6
WDI
+
WDO
REF
6
VCC
5
GND
TOP VIEW
TQFN
(4mm x 4mm)
IN3 1
16 IN2
TOL 2
15 IN1
IN4 3
14 RESET
IN5 4
SRT
8
MARGIN
MR
9
N.C.
SRT
10
N.C.
MARGIN
11
IN1 13
TOL 16
5
TOP VIEW
RESET
RESET
12
IN3 15
4
TQFN
(4mm x 4mm)
TQFN
(4mm x 4mm)
TOP VIEW
3
GND
5
WDI
4
IN8
3
IN7
2
IN6
IN4
1
IN5
TOL 24
15
14
13
12
11
WDI 6
11 MR
GND 7
10 WDO
VCC 8
9 REF
TSSOP
10
MR
IN2 17
9
N.C.
8
N.C.
7
VCC
6
GND
MAX16007
IN4 19
2
3
4
5
IN8
WDI
IN5
1
IN7
+
IN6
TOL 20
13 MARGIN
12 SRT
IN1 16
IN3 18
MAX16005
IN6 5
TQFN
(4mm x 4mm)
24
Maxim Integrated
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Ordering Information (continued)
PART
TEMP RANGE
Chip Information
PROCESS: BiCMOS
PIN-PACKAGE
MAX16001_TE+
-40°C to +125°C
16 TQFN-EP*
MAX16001_TE/V+
-40°C to +125°C
16 TQFN-EP*
MAX16002_TC+
-40°C to +125°C
12 TQFN-EP*
MAX16003_TE+
-40°C to +125°C
16 TQFN-EP*
MAX16004_TP+
-40°C to +125°C
20 TQFN-EP*
MAX16005_TE+
-40°C to +125°C
16 TQFN-EP*
MAX16005_UE+
-40°C to +125°C
16 TSSOP
MAX16006_TG+
-40°C to +125°C
24 TQFN-EP*
MAX16007_TP+
-40°C to +125°C
20 TQFN-EP*
Note: The “_” is a placeholder for the input voltage threshold.
See Table 1.
+Denotes a lead(Pb)-free/RoHS-compliant package.
For tape-and-reel, add a “T” after the “+.” Tape-and-reel are
offered in 2.5k increments.
*EP = Exposed pad.
/V denotes an automotive qualified part.
Selector Guide
WDI/WDO
MR
ADJUSTABLE
RESET
TIMEOUT
—
—
—
—
✔
WDI
✔
✔
—
✔
WDI
✔
✔
6
—
—
—
—
6
6
✔
WDI
✔
✔
MAX16005
6
—
✔
WDI/WDO
✔
✔
MAX16006
8
8
✔
WDI
✔
✔
MAX16007
8
—
✔
WDI
✔
✔
MONITORED
VOLTAGES
INDEPENDENT
OUTPUTS
RESET
MAX16000
4
4
MAX16001
4
4
MAX16002
4
MAX16003
6
MAX16004
PART
Package Information
For the latest package outline information and land patterns (footprints), go to www.maximintegrated.com/packages. Note that a “+”, “#”, or
“-” in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the
package regardless of RoHS status.
PACKAGE TYPE
PACKAGE CODE
OUTLINE NO.
LAND
PATTERN NO.
12 TQFN-EP
T1244+4
21-0139
90-0068
16 TSSOP
U16+2
21-0066
90-0117
16 TQFN-EP
T1644+4
21-0139
90-0070
20 TQFN-EP
T2044+3
21-0139
90-0037
24 TQFN-EP
T2444+4
21-0139
90-0022
Maxim Integrated
25
MAX16000–MAX16007
Low-Voltage, Quad-/Hex-/Octal-Voltage
µP Supervisors
Revision History
REVISION
NUMBER
REVISION
DATE
0
12/05
Initial release
1
1/06
Released MAX16003 and MAX16004.
2
7/06
Released MAX16005. Updated Pin Description and Detailed Description.
3
12/08
Added the MAX16005 TSSOP package. Modified the Detailed Description,
and added Figures 13, 14, and 15.
1, 2, 7, 8, 9, 10,
20–26
4
8/10
Revised the Absolute Maximum Ratings and the Power-Supply Bypassing
sections.
2, 22
5
10/10
Added new graph to the Typical Operating Characteristics.
6
6
9/12
Added automotive qualified part to Ordering Information.
25
DESCRIPTION
PAGES
CHANGED
—
20, 21
1, 4, 7, 9, 10, 20, 21
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. The parametric values (min and max limits) shown in
the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.
26
_______________________________Maxim Integrated 160 Rio Robles, San Jose, CA 95134 USA 1-408-601-1000
© 2012 Maxim Integrated
The Maxim logo and Maxim Integrated are trademarks of Maxim Integrated Products, Inc.