MAX16010TAC+T-MAX16012TT+-MAX16012TT+T Fast Delivery |IC PHOENIX CO.,LIMITED

MAX16010TAC+T ,Ultra-Small, Overvoltage Protection/Detection CircuitsElectrical Characteristics(V = 14V, T = -40°C to +125°C, unless otherwise noted. Typical values are ..
MAX16012TT+ ,Ultra-Small, Overvoltage Protection/Detection Circuitsfeatures an active-high enable PART* TEMP RANGE PIN-PACKAGEinput and a selectable active-high/low O ..
MAX16012TT+T ,Ultra-Small, Overvoltage Protection/Detection CircuitsApplications● IndustrialVCC● 48V Telecom/Server/Networking GATE1 GATE2®● FireWireR1MAX16013● Notebo ..
MAX1601EAI ,Dual-Channel CardBus and PCMCIA Power Switches with SMBus Serial Interfaceapplications is supported in two' Thermal Shutdown at T = +150°Cjways: stiff, low-resistance 3.3V s ..
MAX1601EAI ,Dual-Channel CardBus and PCMCIA Power Switches with SMBus Serial InterfaceELECTRICAL CHARACTERISTICS(VL = VY = 3.3V, VX = 5V, 12INA = 12INB = 12V, T = 0°C to +85°C, unless o ..
MAX16024LTBS+ ,Battery-Backup Circuits with Regulated Output VoltageApplicationsindicates an open-drain output. The next placeholder “_” desig-Main/Backup Power for RT ..
MAX427MJA ,Low Noise, High-Precision Op AmpsELECTRICAL CHARACTERISTICS (Vs = 115V, TA = TMIN to TMAX, unless otherwise noted.) PARAMETER ..
MAX4281EUK-T ,SOT23, Rail-to-Rail, Fixed-Gain GainAmps/Open-Loop Op AmpsFeaturesThe MAX4174/MAX4175/MAX4274/MAX4275 Gain- ♦ GainAmp Family Provides Internal Precision®Amp™ ..
MAX4282ESA ,SOT23, Rail-to-Rail, Fixed-Gain GainAmps/Open-Loop Op AmpsApplicationsOrdering Information continued at end of data sheet.* Insert the desired gain code (fro ..
MAX4284ESD ,SOT23, Rail-to-Rail, Fixed-Gain GainAmps/Open-Loop Op AmpsELECTRICAL CHARACTERISTICS—MAX4174/MAX4175/MAX4274/MAX4275 Fixed-GainAmplifiers(V = +2.5V to +5.5V, ..
MAX4284ESD+ ,SOT23, Rail-to-Rail, Fixed-Gain GainAmps/Open-Loop Op AmpsFeaturesThe MAX4174/MAX4175/MAX4274/MAX4275 Gain- ♦ GainAmp Family Provides Internal Precision®Amp™ ..
MAX4285ESA ,+3V/+5V / 250MHz / SOT23 ADC Buffer Amplifiers with High-Speed Disableapplications). -88dBc SFDRThese devices require 20mA of quiescent supply current High Output Curre ..

MAX16010TAC+T-MAX16012TT+-MAX16012TT+T
Ultra-Small, Overvoltage Protection/Detection Circuits
General Description
The MAX16010–MAX16014 is a family of ultra-small, low-
power, overvoltage-protection circuits for high-voltage,
high-transient systems such as those found in telecom
and industrial applications. These devices operate over
a wide 5.5V to 72V supply voltage range, making them
also suitable for other applications such as battery stacks,
notebook computers, and servers.
The MAX16010 and MAX16011 offer two independent
comparators for monitoring both undervoltage and over-
voltage conditions. These comparators offer open-drain
outputs capable of handling voltages up to 72V. The
MAX16010 features complementary enable inputs (EN/
EN), while the MAX16011 features an active-high enable
input and a selectable active-high/low OUTB output.
The MAX16012 offers a single comparator and an
independent reference output. The reference output can
be directly connected to either the inverting or noninvert-
ing input to select the comparator output logic.
The MAX16013 and MAX16014 are overvoltage-
protection circuits that are capable of driving two
p-channel MOSFETs to prevent reverse-battery and
overvoltage conditions. One MOSFET (P1) eliminates the
need for external diodes, thus minimizing the input volt-
age drop. The second MOSFET (P2) isolates the load or
regulates the output voltage during an overvoltage condi-
tion. The MAX16014 keeps the MOSFET (P2) latched off
until the input power is cycled.
The MAX16010 and MAX16011 are available in small
8-pin TDFN packages, while the MAX16012–MAX16014
are available in small 6-pin TDFN packages. These
devices are fully specified from -40°C to +125°C.
Applications●Industrial●48V Telecom/Server/Networking●FireWire®●Notebook Computers●Multicell Battery-Stack-Powered Equipment
Features●Wide 5.5V to 72V Supply Voltage Range●Open-Drain Outputs Up to 72V
(MAX16010/MAX16011/MAX16012)●Fast 2μs (max) Propagation Delay●Internal Undervoltage Lockout●p-Channel MOSFET Latches Off After an
Overvoltage Condition (MAX16014)●Adjustable Overvoltage Threshold●-40°C to +125°C Operating Temperature Range●Small 3mm x 3mm TDFN Package
Pin Configurations appear at end of data sheet
FireWire is a registered trademark of Apple, Inc.
Note: Replace the “_” with “A” for 0.5% hysteresis, “B” for 5%
hysteresis, and “C” for 7.5% hysteresis.
*Replace -T with +T for lead(Pb)-free/RoHS-compliant packages.
**EP = Exposed pad.
PART*TEMP RANGEPIN-PACKAGE
MAX16010TA_-T-40°C to +125°C8 TDFN-EP**
MAX16011TA_-T-40°C to +125°C8 TDFN-EP**
MAX16012TT-T-40°C to +125°C6 TDFN-EP**
MAX16013TT-T-40°C to +125°C6 TDFN-EP**
MAX16014TT-T-40°C to +125°C6 TDFN-EP**
MAX16013
MAX16014
GATE1
SET
GATE2
VCC
GND
VBATT
2MΩ*
*OPTIONAL
MAX16010–MAX16014Ultra-Small, Overvoltage Protection/
Detection Circuits
Typical Operating Circuit
Ordering Information
(All pins referenced to GND, unless otherwise noted.)
VCC ........................................................................-0.3V to +80V
EN, EN, LOGIC ........................................-0.3V to (VCC + 0.3V)
INA+, INB-, IN+, IN-, REF, SET.............................-0.3V to +12V
OUTA, OUTB, OUT ...............................................-0.3V to +80V
GATE1, GATE2 to VCC .........................................-12V to +0.3V
GATE1, GATE2 ........................................-0.3V to (VCC + 0.3V)
Current Sink/Source (all pins) ............................................50mA
Continuous Power Dissipation (TA = +70°C)
6-Pin TDFN (derate 18.2mW/°C above +70°C) ........1455mW
8-Pin TDFN (derate 18.2mW/°C above +70°C) ........1455mW
Operating Temperature Range .........................-40°C to +125°C
Maximum Junction Temperature .....................................+150°C
Storage Temperature Range ............................-60°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
(VCC = 14V, TA = -40°C to +125°C, unless otherwise noted. Typical values are at TA = +25°C.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
Supply Voltage RangeVCC5.572.0V
Input Supply CurrentICCNo loadVCC = 12V2030µAVCC = 48V2540
VCC Undervoltage Lockout VUVLO
VCC rising, part enabled, VINA+ = 2V, OUTA
deasserted (MAX16010/MAX16011),
VIN = 2V, VOUT deasserted (MAX16012),
VSET = 0V, GATE2 = VCLMP (MAX16013/
MAX16014)
4.7555.25V
INA+/INB-/SET Threshold Voltage
VTH+1.2151.2451.265VTH-
0.5% hysteresis, MAX16010/MAX160111.211.2231.26
5.0% hysteresis, MAX16010/MAX16011/
MAX16013/MAX160141.151.181.21
7.5% hysteresis MAX16010/MAX160111.121.151.18
Threshold-Voltage Hysteresis
MAX16010TAA/MAX16011TAA0.5MAX16010TAB/MAX16011TAB/
MAX16013/MAX16014 5.0
MAX16010TAC/MAX16011TAC7.5
SET/IN_ Input CurrentSET/IN_ = 2V-100+100nA
IN_ Operating Voltage Range04V
Startup Response TimetSTARTVCC rising from 0 to 5.5V100µs
IN_-to-OUT/SET-to-GATE2
Propagation DelaytPROP
IN_/SET rising from (VTH - 100mV) to
(VTH + 100mV) or falling from (VTH +
100mV) to (VTH - 100mV) (no load)µs
OUT_ Output-Voltage LowVOLVCC ≥ 5.5V, ISINK = 3.2mA0.4V
VCC ≥ 2.8V, ISINK = 100µA0.4V
OUT_ Leakage CurrentILEAKOUT_ = 72V500nA
MAX16010–MAX16014Ultra-Small, Overvoltage Protection/
Detection Circuits
Absolute Maximum Ratings
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 = 14V, TA = -40°C to +125°C, unless otherwise noted. Typical values are at TA = +25°C.) (Note 1)
Note 1: 100% production tested at TA = +25°C and TA = +125°C. Specifications at TA = -40°C are guaranteed by design.
(VIN = 14V, TA = +25°C, unless otherwise noted.)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
EN/EN, LOGIC Input VoltageVIL0.4VVIH1.4
EN/EN, LOGIC Input Current12µA
EN/EN, LOGIC Pulse Width10µs
VCC-to-GATE_ Output Low
Voltage
IGATE_SINK = 75µA, IGATE_SOURCE = 1µA,
VCC = 14V711V
VCC-to-GATE_ Clamp VoltageVCC = 24V1218V
MAX16012
Reference Output VoltageVREFNo load1.2751.31.320V
Reference Short-Circuit CurrentISHORTREF = GND100µA
Reference Load RegulationSourcing, 0 ≤ IREF ≤ 1µA 0.1mV/µASinking, -1µA P IREF ≤ 0 0.1
Input Offset VoltageVCM = 0 to 2V-12.5+12.5mV
Input Offset Current3nA
Input Hysteresis8mV
Common-Mode Voltage RangeCMVR02.0V
Common-Mode Rejection RatioCMRRMAX16012, DC70dB
Comparator Power-Supply
Rejection RatioPSRRMAX16012, DC70dB
SUPPLY CURRENT
vs. TEMPERATURE
MAX16010 toc02
SUPPLY CURRENT (µA)
MAX16013/MAX16014
SET = GND, EN = VCC
GATE VOLTAGE
vs. SUPPLY VOLTAGE
MAX16010 toc03
GATE VOLTAGE (V)554535251575
MAX16013/MAX16014
SET = GND, EN = VCC
VGATE
VCC - VGATE
SUPPLY CURRENT
vs. SUPPLY VOLTAGE
MAX16010 toc01
SUPPLY CURRENT (µA)554535251575
MAX16013/MAX16014
SET = GND, EN = VCC
MAX16010/MAX16011
INA+ = INB- = GND
OUTPUTS ENABLEDMAX16012
IN+ = IN- = GND
MAX16010–MAX16014Ultra-Small, Overvoltage Protection/
Detection Circuits
Electrical Characteristics (continued)
Typical Operating Characteristics
(VIN = 14V, TA = +25°C, unless otherwise noted.)
UVLO THRESHOLD
vs. TEMPERATURE
MAX16010 toc04
TEMPERATURE (°C)
UVLO THRESHOLD (V)
INA+/INB-/SET = GND
EN = VCC
RISING
FALLING
INA+/INB-/SET THRESHOLD
vs. TEMPERATURE
MAX16010 toc05
TEMPERATURE (°C)
INA+/INB-/SET THRESHOLD (V)
INA+/INB-/SET RISING
EN = VCC
GATE VOLTAGE
vs. TEMPERATURE
MAX16010 toc06
TEMPERATURE (°C)
- V
GATE
) (V)
MAX16013/MAX16014
SET = GND, EN = VCC
STARTUP WAVEFORM
(ROUT = 100Ω, CIN = 10mF, COUT = 10nF)
MAX16010 toc07
VGATE
5V/div
VOUT
10V/div
VCC
10V/div
200µs/div
STARTUP WAVEFORM
(ROUT = 100Ω, CIN = 10mF, COUT = 10nF)
MAX16010 toc08
VGATE
10V/div
VOUT
10V/div
VCC
1V/div
20µs/div
VEN = 0 TO 2V
OVERVOLTAGE SWITCH FAULT
(ROUT = 100Ω, CIN = 80mF, COUT = 10nF)
MAX16010 toc09
VGATE
20V/div
VOUT
20V/div
VCC
20V/div
VIN = 12V TO 40V, TRIP THRESHOLD = 28V
OVERVOLTAGE LIMIT
(ROUT = 100Ω, CIN = 80mF, COUT = 10nF)
MAX16010 toc10
VGATE
20V/div
VOUT
20V/div
VCC
20V/div
VIN = 12V TO 40V
TRIP THRESHOLD = 28V
MAX16010–MAX16014Ultra-Small, Overvoltage Protection/
Detection Circuits
Typical Operating Characteristics (continued)
PIN
NAMEFUNCTION
MAX16010MAX1601
MAX16012
MAX16013/
MAX16014111VCCPositive-Supply Input Voltage. Connect VCC to a 5.5V to 72V supply. 222GNDGround———ENActive-Low Enable Input. Drive EN low to turn on the voltage detectors. Drive EN high to force the
OUTA and OUTB outputs low. EN is internally pulled up to VCC. Connect EN to GND if not used.4——OUTB
Open-Drain Monitor B Output. Connect a pullup resistor from OUTB to VCC. OUTB goes low when
INB- exceeds VTH+ and goes high when INB- drops below VTH- (with LOGIC connected to GND
for the MAX16011). Drive LOGIC high to reverse OUTB’s logic state. OUTB is usually used as an
overvoltage output. OUTB goes low (LOGIC = low) or high (LOGIC = high) when VCC drops below
the UVLO threshold voltage. 5——INB-Adjustable Voltage Monitor Threshold Input6—5EN
Active-High ENABLE Input. For the MAX16010/MAX16011, drive EN high to turn on the voltage
detectors. Drive EN low to force OUTA low and OUTB low (LOGIC = low) or high (LOGIC = high). For
the MAX16013/MAX16014, drive EN high to enhance the p-channel MOSFET (P2), and drive EN low
to turn off the MOSFET. EN is internally pulled down to GND. Connect EN to VCC if not used.7——OUTA
Open-Drain Monitor A Output. Connect a pullup resistor from OUTA to VCC. OUTA goes low when
INA+ drops below VTH- and goes high when INA+ exceeds VTH+. OUTA is usually used as an
undervoltage output. OUTA also goes low when VCC drops below the UVLO threshold voltage.8——INA+Adjustable Voltage Monitor Threshold Input3——LOGICOUTB Logic-Select Input. Connect LOGIC to GND or VCC to conigure the OUTB logic. See the
MAX16011 output logic table.—3—OUTOpen-Drain Comparator Output. Connect a pullup resistor from OUT to VCC. OUT goes low when
IN+ drops below IN-. OUT goes high when IN+ exceeds IN-. —4—IN-Inverting Comparator Input—5—REF
Internal 1.30V Reference Output. Connect REF to IN+ for active-low output. Connect REF to IN- for active-high output. REF can source and sink up to 1µA. Leave REF loating if not used. REF output
is stable with capacitive loads from 0 to 50pF. —6—IN+Noninverting Comparator Input——3GATE2
Gate-Driver Output. Connect GATE2 to the gate of an external p-channel MOSFET pass switch.
GATE2 is driven low to the higher of VCC - 10V or GND during normal operations and quickly
shorted to VCC during an overvoltage condition (SET above the internal threshold). GATE2 is
shorted to VCC when the supply voltage goes below the UVLO threshold voltage. GATE2 is shorted
to VCC when EN is low.——4SET
Device Overvoltage-Threshold-Adjustment Input. Connect SET to an external resistive divider
network to adjust the desired overvoltage disable or overvoltage limit threshold (see the Typical
Application Circuit and Overvoltage Limiter section).——6GATE1Gate-Driver Output. Connect GATE1 to the gate of an external p-channel MOSFET to provide low
drop reverse voltage protection.
MAX16010–MAX16014Ultra-Small, Overvoltage Protection/
Detection Circuits
Pin Description
Detailed Description
The MAX16010–MAX16014 is a family of ultra-small,
low-power, overvoltage-protection circuits for high-
voltage, high-transient systems such as those found in
automotive, telecom, and industrial applications. These
devices operate over a wide 5.5V to 72V supply voltage
range, making them also suitable for other applications
such as battery stacks, notebook computers, and servers.
The MAX16010 and MAX16011 offer two independent
comparators for monitoring both undervoltage and over-
voltage conditions. These comparators offer open-drain
outputs capable of handling voltages up to 72V. The
MAX16010 features complementary enable inputs (EN/
EN), while the MAX16011 features an active-high enable
input and a selectable active-high/low OUTB output.
The MAX16012 offers a single comparator and an inde-
pendent reference output. The reference output can be
directly connected to either the inverting or noninverting
input to select the comparator output logic.
The MAX16013 and MAX16014 are overvoltage-
protection circuits capable of driving two p-channel
MOSFETs to prevent reverse-battery and overvoltage
conditions. One MOSFET (P1) eliminates the need for
external diodes, thus minimizing the input voltage drop.
While the second MOSFET (P2) isolates the load or
regulates the output voltage during an overvoltage condi-
tion. The MAX16014 keeps the MOSFET (P2) latched off
until the input power is cycled.
Voltage Monitoring
The MAX16010/MAX16011 include undervoltage and over-
voltage comparators for window detection (see Figure
1). OUT_ asserts high when the monitored voltage is
within the selected “window.” OUTA asserts low when the
monitored voltage falls below the lower (VTRIPLOW) limit of
the window, or OUTB asserts low if the monitored voltage
exceeds the upper limit (VTRIPHIGH). The application in
Figure 1 shows OUT_ enabling the DC-DC converter when
the monitored voltage is in the selected window.
The resistor values (R1–R3) can be calculated as follows:
TOTALTRIPLOWTHV V R2 R3−=+
TOTALTRIPHIGHTHV V R3+=
where RTOTAL = R1 + R2 + R3.
Use the following steps to determine the values for
R1–R3.
1) Choose a value for RTOTAL, the sum of R1, R2, and
R3. Because the MAX16010/MAX16011 have very
high input impedance, RTOTAL can be up to 5MΩ.
2) Calculate R3 based on RTOTAL and the desired upper
trip point:TOTAL
TRIPHIGH RR3 V+×=
3) Calculate R2 based on RTOTAL, R3, and the desired
lower trip point:TOTAL
TRIPHIGH RR3 V+×=
4) Calculate R1 based on RTOTAL, R3, and R2:
R1 = RTOTAL - R2 - R3
The MAX16012 has both inputs of the comparator avail-
able with an integrated 1.30V reference (REF). When
the voltage at IN+ is greater than the voltage at IN-, OUT
goes high. When the voltage at IN- is greater than the
voltage at IN+, OUT goes low. Connect REF to IN+ or
IN- to set the reference-voltage value. Use an external
resistive divider to set the monitored voltage threshold.
Figure 1. MAX16010 Monitor Circuit
MAX16010
DC-DC
REGULATOR
INA+
INB-
OUTB
OUTA
+48V
GND
VCC
MAX16010–MAX16014Ultra-Small, Overvoltage Protection/
Detection Circuits

Partno	Mfg	Dc	Qty	Available	Descript
MAX16010TAC+T	MAIXM	N/a	2500	avai	Ultra-Small, Overvoltage Protection/Detection Circuits
MAX16012TT+	N/A	N/a	2500	avai	Ultra-Small, Overvoltage Protection/Detection Circuits
MAX16012TT+T	N/A	N/a	2500	avai	Ultra-Small, Overvoltage Protection/Detection Circuits