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  • 北京元坤伟业科技有限公司

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  • MAX6896AAZT
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产品型号MAX6896AAZT的Datasheet PDF文件预览

19-3673; Rev 8; 7/11  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
General Description  
Features  
1.8% Accurate Adjustable Threshold Over  
The MAX6895–MAX6899 is a family of small, low-power,  
voltage-monitoring circuits with sequencing capability.  
These miniature devices offer tremendous flexibility with  
an adjustable threshold capable of monitoring down to  
0.5V and an external capacitor-adjustable time delay.  
These devices are ideal for use in power-supply  
sequencing, reset sequencing, and power-switching  
applications. Multiple devices can be cascaded for  
complex sequencing applications.  
Temperature  
Operate from V  
of 1.5V to 5.5V  
CC  
Capacitor-Adjustable Delay  
Active-High/-Low Enable Input Options  
Active-High/-Low Output Options  
Open-Drain (28V Tolerant)/Push-Pull Output  
Options  
Low Supply Current (10µA, typ)  
Fully Specified from -40°C to +125°C  
A high-impedance input with a 0.5V threshold allows an  
external resistive divider to set the monitored threshold.  
The output asserts (OUT = high or OUT = low) when  
the input voltage rises above the 0.5V threshold and the  
enable input is asserted (ENABLE = high or ENABLE =  
low). When the voltage at the input falls below 0.5V or  
when the enable input is deasserted (ENABLE = low or  
ENABLE = high), the output deasserts (OUT = low or  
OUT = high). All devices provide a capacitor-program-  
mable delay time from when the input rises above 0.5V  
to when the output is asserted. The MAX689_A versions  
provide the same capacitor-adjustable delay from when  
enable is asserted to when the output asserts. The  
MAX689_P devices have a 1µs propagation delay from  
when enable is asserted to when the output asserts.  
Ultra-Small 6-Pin µDFN Package or Thin SOT23  
Package  
Ordering Information  
PART  
PIN-PACKAGE  
TOP MARK  
+AW  
MAX6895AALT+  
MAX6895AAZT+  
MAX6895PALT+T  
MAX6895PAZT+  
MAX6896AALT+  
MAX6896AAZT+  
MAX6896AAZT/V+T  
MAX6896PALT+T  
MAX6896PAZT+  
MAX6896PAZT/V+T  
6 µDFN  
6 Thin SOT23  
+AADK  
+AX  
6 µDFN  
6 Thin SOT23  
+AADL  
+AY  
6 µDFN  
6 Thin SOT23  
6 Thin SOT23  
+AADO  
+AATA  
+AZ  
The MAX6895A/P offers an active-high enable input  
and an active-high push-pull output. The MAX6896A/P  
offers an active-low enable input and an active-low  
push-pull output. The MAX6897A/P offers an active-  
high enable input and an active-high open-drain output.  
Finally, the MAX6898A/P offers an active-low enable  
input and an active-low open-drain output. The  
MAX6899A/P offers an active-low enable with an active-  
high push-pull output.  
6 µDFN  
6 Thin SOT23  
+AADP  
6 Thin SOT23  
Ordering Information continued at end of data sheet.  
Note: All devices are specified over the -40°C to +125°C oper-  
ating temperature range.  
+Denotes a lead(Pb)-free/RoHS-compliant package.  
T = Tape and reel.  
All devices operate from a 1.5V to 5.5V supply voltage  
and are fully specified over the -40°C to +125°C operat-  
ing temperature range. These devices are available in  
ultra-small 6-pin µDFN (1.0mm x 1.5mm) and thin  
SOT23 (1.60mm x 2.90mm) packages.  
Pin Configurations  
TOP VIEW  
V
CDELAY  
5
OUT  
4
CC  
6
Applications  
MAX6895  
MAX6897  
MAX6899  
Automotive  
Computers/Servers  
Critical µP Monitoring  
Set-Top Boxes  
Telecom  
Medical Equipment  
Intelligent Instruments  
Portable Equipment  
1
2
3
ENABLE  
(ENABLE)  
GND  
IN  
µDFN  
Typical Operating Circuit and Selector Guide appear at end  
of data sheet.  
( ) FOR MAX6899 ONLY.  
Pin Configurations continued at end of data sheet.  
________________________________________________________________ Maxim Integrated Products  
1
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,  
or visit Maxim’s website at www.maxim-ic.com.  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
ABSOLUTE MAXIMUM RATINGS  
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  
Soldering Temperature (reflow) .......................................+260°C  
V
CC  
, ENABLE, ENABLE, IN....................................-0.3V to +6V  
OUT, OUT (push-pull) ................................-0.3V to (V  
OUT, OUT (open-drain)..........................................-0.3V to +30V  
CDELAY......................................................-0.3V to (V + 0.3V)  
+ 0.3V)  
CC  
CC  
Output Current (all pins)................................................... 20mA  
Continuous Power Dissipation (T = +70°C)  
A
6-Pin µDFN (derate 2.1mW/°C above +70°C)...........167.7mW  
6-Pin Thin SOT23 (derate 9.1mW/°C above +70°C) ...727.3mW  
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.  
PACKAGE THERMAL CHARACTERISTICS (Note 1)  
µDFN  
Thin SOT23  
Junction-to-Ambient Thermal Resistance (θ )................110°C/W  
Junction-to-Ambient Thermal Resistance (θ )...............477°C/W  
Junction-to-Case Thermal Resistance (θ )......................122°C/W  
JA  
JA  
Junction-to-Case Thermal Resistance (θ ).......................50°C/W  
JC  
JC  
Note 1: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a four  
layer board. For detailed information on package thermal considerations refer to www.maxim-ic.com/thermal-tutorial.  
5–MAX689  
ELECTRICAL CHARACTERISTICS  
(V  
= 1.5V to 5.5V, T = -40°C to +125°C, unless otherwise specified. Typical values are at V  
= 3.3V and T = +25°C, unless  
CC A  
CC  
A
otherwise noted.) (Note 2)  
PARAMETER  
SUPPLY  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
Operating Voltage Range  
Undervoltage Lockout (Note 3)  
V
1.5  
5.5  
1.35  
20  
V
V
CC  
UVLO  
V
V
falling  
1.20  
CC  
CC  
V
Supply Current  
I
= 3.3V, no load  
10  
µA  
CC  
CC  
IN  
Threshold Voltage  
Hysteresis  
V
V
V
V
rising, 1.5V < V  
falling  
< 5.5V  
CC  
0.491  
-15  
0.5  
5
0.509  
+15  
V
TH  
IN  
IN  
IN  
V
mV  
nA  
HYST  
Input Current (Note 4)  
CDELAY  
I
= 0V or V  
CC  
IN  
Delay Charge Current  
Delay Threshold  
I
200  
250  
1.00  
130  
300  
1.05  
500  
nA  
V
CD  
V
CDELAY rising  
0.95  
TCD  
CDELAY Pulldown Resistance  
ENABLE/ENABLE  
Input Low Voltage  
Input High Voltage  
Input Leakage Current  
R
CDELAY  
V
0.4  
V
V
IL  
V
1.4  
IH  
I
ENABLE, ENABLE = V  
or GND  
-100  
+100  
nA  
LEAK  
CC  
2
_______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
ELECTRICAL CHARACTERISTICS (continued)  
(V  
= 1.5V to 5.5V, T = -40°C to +125°C, unless otherwise specified. Typical values are at V  
= 3.3V and T = +25°C, unless  
CC A  
CC  
A
otherwise noted.) (Note 2)  
PARAMETER  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
OUT/OUT  
V
1.2V, I  
= 90µA,  
CC  
SINK  
0.3  
MAX6895/MAX6897/MAX6899 only  
Output Low Voltage (Open-Drain  
or Push-Pull)  
V
V
OL  
V
V
2.25V, I  
= 0.5mA  
0.3  
0.4  
CC  
CC  
SINK  
4.5V, I  
= 1mA  
SINK  
0.8 x  
V
V
2.25V, I  
= 500µA  
CC  
CC  
SOURCE  
V
CC  
Output High Voltage (Push-Pull)  
V
V
OH  
0.8 x  
4.5V, I  
= 800µA  
SOURCE  
V
CC  
Output Open-Drain Leakage  
Current  
I
Output high impedance, V  
= 28V  
OUT  
1
µA  
LKG  
TIMING  
C
C
= 0µF  
40  
190  
16  
2
µs  
ms  
µs  
CDELAY  
CDELAY  
t
V
V
rising  
falling  
DELAY  
IN  
IN  
IN to OUT/OUT Propagation  
Delay  
= 0.047µF  
t
DL  
Startup Delay (Note 5)  
ms  
ENABLE/ENABLE Minimum Input  
Pulse Width  
t
1
µs  
ns  
ns  
PW  
ENABLE/ENABLE Glitch  
Rejection  
100  
150  
ENABLE/ENABLE to OUT/OUT  
Delay  
t
From device enabled to device disabled  
OFF  
From device disabled to device enabled  
(P version)  
t
t
150  
20  
ns  
µs  
PROPP  
ENABLE/ENABLE to OUT/OUT  
Delay  
C
= 0µF  
CDELAY  
From device disabled  
to device enabled  
(A version)  
PROPA  
C
= 0.047µF  
190  
ms  
CDELAY  
Note 2: All devices are production tested at T = +25°C. Limits over temperature are guaranteed by design.  
A
Note 3: When V falls below the UVLO threshold, the outputs will deassert (OUT goes low, OUT goes high). When V  
falls below  
CC  
CC  
1.2V, the out annot be determined.  
Note 4: Guaranteed by design.  
Note 5: During the initial power-up, V must exceed 1.5V for at least 2ms before the output is guaranteed to be in the correct state.  
CC  
_______________________________________________________________________________________  
3
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
Typical Operating Characteristics  
(V  
= 3.3V and T = +25°C, unless otherwise noted.)  
A
CC  
SUPPLY CURRENT  
vs. SUPPLY VOLTAGE  
SUPPLY CURRENT  
vs. TEMPERATURE  
IN THRESHOLD  
vs. TEMPERATURE  
15  
14  
20  
18  
16  
14  
12  
10  
8
0.5010  
0.5008  
0.5006  
0.5004  
0.5002  
0.5000  
0.4998  
0.4996  
0.4994  
0.4992  
0.4990  
13  
12  
11  
10  
9
8
7
6
5
4
3
2
1
0
V
= 5V  
CC  
V
= 3V  
CC  
V
= 1.5V  
CC  
6
4
2
0
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5  
(V)  
-40 -25 -10  
5
20 35 50 65 80 95 110 125  
-40 -25 -10  
5
20 35 50 65 80 95 110 125  
5–MAX689  
V
TEMPERATURE (°C)  
TEMPERATURE (°C)  
CC  
OUT DELAY  
vs. C  
OUTPUT LOW VOLTAGE  
vs. SINK CURRENT  
OUTPUT HIGH VOLTAGE  
vs. SOURCE CURRENT  
CDELAY  
5000  
4500  
4000  
3500  
3000  
2500  
2000  
1500  
1000  
500  
5.0  
4.5  
4.0  
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0
1.5  
1.2  
0.9  
0.6  
0.3  
0
V
= 5V  
CC  
V
= 1.5V  
CC  
V
= 3V  
CC  
V
= 5V  
CC  
V
= 3V  
CC  
V
= 1.5V  
CC  
0
0
100 200 300 400 500 600 700 800 900 1000  
(nF)  
0
2
4
6
8
10 12 14 16 18 20  
(mA)  
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0  
(mA)  
C
I
SOURCE  
CDELAY  
I
SINK  
ENABLE TURN-ON/OFF DELAY  
(MAX6895A)  
MAXIMUM TRANSIENT DURATION  
vs. INPUT OVERDRIVE  
ENABLE TURN-ON/OFF (MAX6896P)  
MAX6895 toc08  
MAX6895 toc09  
600  
500  
400  
300  
200  
100  
0
V
V
OUT  
2V/div  
OUT  
2V/div  
RESET  
OCCURS  
V
V
ENABLE  
2V/div  
ENABLE  
2V/div  
0
10 20 30 40 50 60 70 80 90 100  
100ns/div  
40ms/div  
V
(mV)  
OVERDRIVE  
4
_______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
Pin Description  
PIN  
MAX6895/  
MAX6897  
MAX6896/  
MAX6898  
MAX6899  
NAME  
ENABLE  
ENABLE  
FUNCTION  
THIN  
SOT23  
THIN  
SOT23  
THIN  
SOT23  
µDFN  
µDFN  
µDFN  
Active-High Logic-Enable Input. Drive ENABLE low to  
immediately deassert the output to its false state (OUT = low or  
OUT = high) independent of V . With V above V , drive  
IN  
IN  
TH  
1
1
1
ENABLE high to assert the output to its true state (OUT = high  
or OUT = low) after the adjustable delay period (MAX689_A) or  
a 150ns propagation delay (MAX689_P).  
Active-Low Logic-Enable Input. Drive ENABLE high to  
immediately deassert the output to its false state (OUT = low or  
OUT = high) independent of V . With V above V , drive  
IN  
IN  
TH  
1
1
1
ENABLE low to assert the output to its true state (OUT = high or  
OUT = low) after the adjustable delay period (MAX689_A) or a  
150ns propagation delay (MAX689_P).  
2
3
2
3
2
3
2
3
2
3
2
3
GND  
IN  
Ground  
High-Impedance Monitor Input. Connect IN to an external  
resistive divider to set the desired monitored threshold. The  
output changes state when V rises above 0.5V and when V  
IN  
IN  
falls below 0.495V.  
Active-High Sequencer/Monitor Output, Push-Pull  
(MAX6895/MAX6899) or Open-Drain (MAX6897). OUT is  
asserted to its true state (OUT = high) when V is above V  
IN  
TH  
and the enable input is in its true state (ENABLE = high or  
4
4
4
4
OUT  
ENABLE = low) for the capacitor-adjusted delay period. OUT is  
deasserted to its false state (OUT = low) immediately after V  
IN  
drops below V - 5mV or the enable input is in its false state  
TH  
(ENABLE = low or ENABLE = high). The open-drain version  
requires an external pullup resistor.  
Active-Low Sequencer/Monitor Output, Push-Pull (MAX6896) or  
Open-Drain (MAX6898). OUT is asserted to its true state (O UT =  
low) when V is above V and the enable input is in its true state  
IN  
TH  
(ENABLE = high or EN  ABLE = low) after the CDELAY adjusted  
timeout period. OUT is deasserted to its false state (OU  T = high)  
4
4
OUT  
immediately after V drops below V - 5mV or the enable input  
IN  
TH  
is in its false state (ENABLE = low or EN  ABLE = high). The open-  
drain version requires an external pullup resistor.  
Capacitor-Adjustable Delay. Connect an external capacitor  
(C  
) from CDELAY to GND to set the IN to OUT (and  
CDELAY  
ENABLE to OUT or ENABLE to OUT for A version devices)  
5
6
6
5
5
6
6
5
5
6
6
5
CDELAY  
delay period. t = (C  
x 4.0 x 106) + 40µs. There is a  
DELAY  
CDELAY  
fixed short delay (40µs, typ) for the output deasserting when V  
IN  
falls below V  
.
TH  
Supply Voltage Input. Connect a 1.5V to 5.5V supply to V  
to  
CC  
V
power the device. For noisy systems, bypass with a 0.1µF  
ceramic capacitor to GND.  
CC  
_______________________________________________________________________________________  
5
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
Table 1. MAX6895/MAX6897 Output  
ENABLE (MAX6895)  
ENABLE (MAX6899)  
IN  
ENABLE  
Low  
OUT  
V
CC  
V
V
V
< V  
< V  
> V  
Low  
IN  
IN  
IN  
TH  
TH  
TH  
High  
Low  
IN  
Low  
Low  
LOGIC  
0.5V  
OUT = V  
(MAX6895)  
CC  
OUT  
V
> V  
High  
IN  
TH  
OUT = high impedance  
(MAX6897)  
250nA  
Table 2. MAX6896/MAX6898 Output  
1.0V  
IN  
ENABLE  
OUT  
MAX6895  
MAX6899  
OUT = V  
(MAX6896)  
CC  
V
< V  
Low  
IN  
TH  
OUT = high impedance  
(MAX6898)  
OUT = V  
(MAX6896)  
5–MAX689  
CC  
CDELAY  
GND  
V
V
V
< V  
> V  
> V  
High  
Low  
IN  
IN  
IN  
TH  
TH  
TH  
OUT = high impedance  
(MAX6898)  
Low  
Figure 1. MAX6895/MAX6899 Functional Diagram  
OUT = V  
(MAX6896)  
CC  
High  
OUT = high impedance  
(MAX6898)  
Detailed Description  
The MAX6895–MAX6899 is a family of ultra-small, low-  
power, sequencing/supervisory circuits. These devices  
provide adjustable voltage monitoring for inputs down to  
0.5V. They are ideal for use in power-supply sequenc-  
ing, reset sequencing, and power-switching applica-  
tions. Multiple devices can be cascaded for complex  
sequencing applications.  
Table 3. MAX6899 Output  
IN  
ENABLE  
Low  
OUT  
Low  
Low  
High  
Low  
V
V
V
V
< V  
< V  
> V  
> V  
IN  
IN  
IN  
IN  
TH  
TH  
TH  
TH  
High  
Voltage monitoring is performed through a high-imped-  
ance input (IN) with an internally fixed 0.5V threshold.  
When the voltage at IN falls below 0.5V or when the  
enable input is deasserted (ENABLE = low or ENABLE =  
high), the output deasserts (OUT goes low or OUT goes  
Low  
High  
Supply Input (V  
CC  
)
CC  
The device operates with a V  
supply voltage from  
high). When V rises above 0.5V and the enable input is  
IN  
1.5V to 5.5V. To maintain a 1.8% accurate threshold,  
must be above 1.5V. When V falls below the  
asserted (ENABLE = high or ENABLE = low), the output  
asserts (OUT goes high or OUT goes low) after a capaci-  
tor-programmable time delay.  
V
CC  
CC  
UVLO threshold, the output deasserts. When V  
falls  
CC  
below 1.2V the output state cannot be determined. For  
noisy systems, connect a 0.1µF ceramic capacitor from  
With V above 0.5V, the enable input can be used to  
IN  
turn the output on or off. After the enable input is assert-  
ed, the output turns on with a capacitor-programmable  
delay period (A version) or with a 150ns propagation  
delay (P version). Tables 1, 2, and 3 detail the output  
state depending on the various input and enable condi-  
tions.  
V
to GND as close to the device as possible. For the  
CC  
push-pull active-high output option, a 100kexternal  
pulldown resistor to ground ensures the correct logic  
state for V down to 0.  
CC  
6
_______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
Monitor Input (IN)  
Connect the center point of a resistive divider to IN to  
monitor external voltages (see R1 and R2 of the Typical  
asserts (OUT goes high or OUT goes low). When the  
output asserts, C is immediately discharged.  
CDELAY  
Adjust the delay (t  
) from when V rises above  
DELAY  
IN  
Operating Circuit). IN has a rising threshold of V  
=
V
TH  
(with ENABLE high or ENABLE low) to OUT going  
high (OUT going low) according to the equation:  
TH  
0.5V and a falling threshold of 0.495V (5mV hysteresis).  
When V rises above V and ENABLE is high (or  
IN  
TH  
6
t
= C  
x 4.0 x 10 + 40µs  
DELAY  
CDELAY  
ENABLE is low) OUT goes high (OUT goes low) after  
the programmed t period. When V falls below  
where C  
to GND.  
is the external capacitor from CDELAY  
CDELAY  
DELAY  
IN  
0.495V, OUT goes low (OUT goes high) after a 16µs  
delay. IN has a maximum input current of 15nA so  
large-value resistors are permitted without adding sig-  
nificant error to the resistive divider.  
For adjustable delay devices (A version), when V  
>
IN  
0.5V and ENABLE goes from low to high (ENABLE  
goes from high to low) the output asserts after a t  
DELAY  
period. For nonadjustable delay devices (P version)  
there is a 1µs propagation delay from when the enable  
input is asserted to when the output asserts. Figures 2  
through 5 show the timing diagrams for the adjustable  
and fixed delay versions, respectively.  
Adjustable Delay (CDELAY)  
When V rises above V with ENABLE high (ENABLE  
IN  
TH  
low), the internal 250nA current source begins charging  
an external capacitor connected from CDELAY to GND.  
When the voltage at CDELAY reaches 1V, the output  
V
CC  
V
UVLO  
IN  
V
TH  
V
TH  
t < t  
PROPA  
ENABLE  
t > t  
PW  
OUT  
t
t
PROPA  
t
PROPA  
DELAY  
t
t
OFF  
DL  
Figure 2. MAX6895A/MAX6897A Timing Diagram  
_______________________________________________________________________________________  
7
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
V
CC  
V
UVLO  
IN  
t < t  
PROPA  
t > t  
PW  
ENABLE  
OUT  
5–MAX689  
t
t
PROPA  
t
PROPA  
DELAY  
t
t
DL  
OFF  
Figure 3. MAX6896A/MAX6898A Timing Diagram  
V
CC  
V
UVLO  
IN  
t > t  
PW  
ENABLE  
OUT  
t
DELAY  
t
DL  
t
OFF  
t
t
PROPP  
PROPP  
Figure 4. MAX6895P/MAX6897P Timing Diagram  
8
_______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
V
CC  
V
UVLO  
IN  
t > t  
PW  
ENABLE  
OUT  
t
DELAY  
t
DL  
t
OFF  
t
t
PROPP  
PROPP  
Figure 5. MAX6896P/MAX6898P Timing Diagram  
V
CC  
V
UVLO  
IN  
V
TH  
V
TH  
t < t  
PROPA  
t > t  
PW  
ENABLE  
OUT  
t
t
PROPA  
t
PROPA  
DELAY  
t
t
OFF  
DL  
Figure 6. MAX6899A Timing Diagram  
_______________________________________________________________________________________  
9
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
V
CC  
V
UVLO  
IN  
t > t  
PW  
ENABLE  
OUT  
5–MAX689  
t
DELAY  
t
t
OFF  
t
t
PROPP  
DL  
PROPP  
Figure 7. MAX6899P Timing Diagram  
Enable Input (ENABLE or ENABLE)  
The MAX6895/MAX6897 offer an active-high enable  
input (ENABLE), while the MAX6896/MAX6898/MAX6899  
Applications Information  
Input Threshold  
The MAX6895–MAX6899 monitor the voltage on IN with  
an external resistive divider (see R1 and R2 in the  
Typical Operating Circuit). Connect R1 and R2 as close  
to IN as possible. R1 and R2 can have very high values  
to minimize current consumption due to low IN leakage  
currents ( 15nA max). Set R2 to some conveniently  
high value (1M, for example) and calculate R1 based  
on the desired monitored voltage using the following  
formula:  
offer an active-low enable input (ENABLE). With V above  
IN  
V
, drive ENABLE high (ENABLE low) to force OUT high  
TH  
(OUT low) after the adjustable delay time (A versions). For  
P version devices, when V > 0.5V and enable is assert-  
IN  
ed, the output asserts after typically 150ns.  
The enable input has logic-high and logic-low voltage  
thresholds of 1.4V and 0.4V, respectively. For both ver-  
sions, when V > 0.5V, drive ENABLE low (ENABLE  
IN  
high) to force OUT low (OUT high) within 150ns typ.  
V
MONITOR  
Output (OUT or OUT)  
The MAX6895/MAX6899 offer an active-high, push-pull  
output (OUT), and the MAX6896 offers an active-low  
push-pull output (OUT). The MAX6897 offers an active-  
high open-drain output (OUT), and the MAX6898 offers  
an active-low open-drain output (OUT).  
R1= R2 ×  
1  
V
IN  
where V  
IN  
is the desired monitored voltage and  
is the detector input threshold (0.5V).  
MONITOR  
V
Push-pull output devices are referenced to V . Open-  
CC  
drain outputs can be pulled up to 28V.  
10 ______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
used with a p-channel MOSFET in an overvoltage pro-  
tection circuit. Figure 9 shows the MAX6895 in a low-  
voltage sequencing application using an n-channel  
MOSFET. Figure 10 shows the MAX6895 used in a mul-  
tiple-output sequencing application.  
Pullup Resistor Values  
(MAX6897/MAX6898)  
The exact value of the pullup resistors for the open-  
drain outputs is not critical, but some consideration  
should be made to ensure the proper logic levels when  
the device is sinking current. For example, if V  
=
CC  
Using an n-Channel Device for Sequencing  
In higher power applications, using an n-channel device  
reduces the loss across the MOSFETs as it offers a  
lower drain-to-source on-resistance. However, an n-  
2.25V and the pullup voltage is 28V, you would try to  
keep the sink current less than 0.5mA as shown in the  
Electrical Characteristics table. As a result, the pullup  
resistor should be greater than 56k. For a 12V pullup,  
the resistor should be larger than 24k. It should be  
noted that the ability to sink current is dependent on the  
channel MOSFET requires a sufficient V  
voltage to  
GS  
fully enhance it for a low R  
. The application in  
DS_ON  
Figure 9 shows the MAX6895 in a switch sequencing  
application using an n-channel MOSFET.  
V
CC  
supply voltage.  
Typical Application Circuits  
Figures 8, 9, 10 show typical applications for the  
MAX6895–MAX6899. Figure 8 shows the MAX6895  
Similarly, if a higher voltage is present in the system, the  
open-drain version can be used in the same manner.  
1.2V INPUT  
5V BUS  
3.3V ALWAYS ON  
1.2V OUTPUT  
N
P
0 TO 28V  
MONITORED  
3.3V  
ENABLE  
V
CC  
ENABLE  
V
CC  
R
PULLUP  
R1  
R1  
OUT  
OUT  
MAX6895  
MAX6897  
IN  
IN  
CDELAY  
CDELAY  
R2  
R2  
C
CDELAY  
GND  
GND  
Figure 9. Low-Voltage Sequencing Using an n-Channel MOSFET  
Figure 8. Overvoltage Protection  
______________________________________________________________________________________ 11  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
2.5V  
1.2V  
3.3V  
1.8V  
5V BUS  
DC-DC  
EN  
DC-DC  
EN  
DC-DC  
DC-DC  
EN  
EN  
SYSTEM  
ENABLE  
V
V
CC  
ENABLE  
IN  
V
ENABLE  
IN  
V
ENABLE  
IN  
CC  
ENABLE  
IN  
CC  
CC  
5–MAX689  
MAX6895  
MAX6895  
MAX6895  
MAX6895  
OUT  
OUT  
OUT  
OUT  
GND  
GND  
GND  
GND  
C
C
C
C
CDELAY  
CDELAY  
CDELAY  
CDELAY  
Figure 10. Multiple-Output Sequencing  
12 ______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
Selector Guide  
PART  
ENABLE INPUT  
OUTPUT  
INPUT (IN) DELAY  
ENABLE DELAY  
MAX6895AALT+T  
Active-High  
Active-High, Push-Pull  
Capacitor Adjustable  
Capacitor Adjustable  
MAX6895AAZT+T  
MAX6895PALT+T  
MAX6895PAZT+T  
MAX6896AALT+T  
MAX6896AAZT+T  
MAX6896PALT+T  
MAX6896PAZT+T  
MAX6897AALT+T  
MAX6897AAZT+T  
MAX6897PALT+T  
MAX6897PAZT+T  
MAX6898AALT+T  
MAX6898AAZT+T  
MAX6898PALT+T  
MAX6898PAZT+T  
MAX6899AALT+T  
MAX6899AAZT+T  
MAX6899PALT+T  
MAX6899PAZT+T  
Active-High  
Active-High  
Active-High  
Active-Low  
Active-Low  
Active-Low  
Active-Low  
Active-High  
Active-High  
Active-High  
Active-High  
Active-Low  
Active-Low  
Active-Low  
Active-Low  
Active-Low  
Active-Low  
Active-Low  
Active-Low  
Active-High, Push-Pull  
Active-High, Push-Pull  
Active-High, Push-Pull  
Active-Low, Push-Pull  
Active-Low, Push-Pull  
Active-Low, Push-Pull  
Active-Low, Push-Pull  
Active-High, Open-Drain  
Active-High, Open-Drain  
Active-High, Open-Drain  
Active-High, Open-Drain  
Active-Low, Open-Drain  
Active-Low, Open-Drain  
Active-Low, Open-Drain  
Active-Low, Open-Drain  
Active-High, Push-Pull  
Active-High, Push-Pull  
Active-High, Push-Pull  
Active-High, Push-Pull  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
Capacitor Adjustable  
150ns Delay  
150ns Delay  
Capacitor Adjustable  
Capacitor Adjustable  
150ns Delay  
150ns Delay  
Capacitor Adjustable  
Capacitor Adjustable  
150ns Delay  
150ns Delay  
Capacitor Adjustable  
Capacitor Adjustable  
150ns Delay  
150ns Delay  
Capacitor Adjustable  
Capacitor Adjustable  
150ns Delay  
150ns Delay  
Typical Operating Circuit  
Ordering Information (continued)  
PART  
PIN-PACKAGE  
TOP MARK  
+BA  
1.5V TO 5.5V  
MAX6897AALT+  
MAX6897AAZT+  
MAX6897PALT+T  
MAX6897PAZT+  
MAX6898AALT+  
MAX6898AAZT+  
MAX6898PALT+T  
MAX6898PAZT+  
MAX6899AALT+  
MAX6899AAZT+  
MAX6899PALT+T  
MAX6899PAZT+  
6 µDFN  
6 Thin SOT23  
+AADQ  
+BB  
0.1µF  
6 µDFN  
6 Thin SOT23  
ENABLE  
V
CC  
+AADR  
+BD  
R1  
OUT  
6 µDFN  
6 Thin SOT23  
+AADS  
+BC  
MAX6895  
6 µDFN  
IN  
6 Thin SOT23  
+AADT  
+LO  
6 µDFN  
CDELAY  
6 Thin SOT23  
+AADM  
+LP  
R2  
6 µDFN  
C
CDELAY  
GND  
6 Thin SOT23  
+AADN  
Note: All devices are specified over the -40°C to +125°C oper-  
ating temperature range.  
+Denotes a lead(Pb)-free/RoHS-compliant package.  
T = Tape and reel.  
______________________________________________________________________________________ 13  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
Pin Configurations (continued)  
TOP VIEW  
TOP VIEW  
V
CDELAY  
5
OUT  
4
CC  
+
6
ENABLE  
1
2
3
6
5
4
CDELAY  
GND  
IN  
V
CC  
MAX6895  
MAX6897  
MAX6896  
MAX6898  
OUT  
1
2
3
THIN SOT23  
ENABLE  
GND  
IN  
µDFN  
5–MAX689  
TOP VIEW  
+
ENABLE  
1
2
3
6
5
4
CDELAY  
GND  
IN  
V
CC  
MAX6896  
MAX6898  
MAX6899  
OUT  
(OUT)  
THIN SOT23  
( ) FOR MAX6899 ONLY.  
Package Information  
Chip Information  
For the latest package outline information and land patterns  
(footprints), go to www.maxim-ic.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.  
PROCESS: BiCMOS  
LAND  
PATTERN NO.  
PACKAGE  
TYPE  
PACKAGE  
CODE  
OUTLINE NO.  
90-0080  
90-0242  
6 µDFN  
L611+1  
Z6+1  
21-0147  
21-0114  
6 Thin SOT23  
14 ______________________________________________________________________________________  
Ultra-Small, Adjustable  
Sequencing/Supervisory Circuits  
5–MAX689  
Revision History  
REVISION  
NUMBER  
REVISION  
DATE  
PAGES  
DESCRIPTION  
CHANGED  
10/07  
11/09  
7/10  
1, 13, 18  
5
6
7
8
Corrected Absolute Maximum Ratings and made style corrections to Electrical  
Characteristics and TOC8 and TOC9  
2–5  
7–9  
1
Revised Figures 3, 4, and 6.  
Added automotive packages for MAX6896A and MAX6896P. Added top mark to  
MAX6896AAZT/V+1 in Ordering Information.  
7/11  
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.  
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 15  
© 2011 Maxim Integrated Products  
Maxim is a registered trademark of Maxim Integrated Products, Inc.  
配单直通车
MAX6896AAZT+产品参数
型号:MAX6896AAZT+
是否无铅: 不含铅
是否Rohs认证: 符合
生命周期:Active
零件包装代码:SOT-23
包装说明:TSSOP, TSOP6,.11,37
针数:6
Reach Compliance Code:compliant
ECCN代码:EAR99
HTS代码:8542.39.00.01
Factory Lead Time:6 weeks
风险等级:0.79
可调阈值:YES
模拟集成电路 - 其他类型:POWER SUPPLY SUPPORT CIRCUIT
JESD-30 代码:R-PDSO-G6
长度:2.9 mm
湿度敏感等级:1
信道数量:1
功能数量:1
端子数量:6
最高工作温度:125 °C
最低工作温度:-40 °C
封装主体材料:PLASTIC/EPOXY
封装代码:TSSOP
封装等效代码:TSOP6,.11,37
封装形状:RECTANGULAR
封装形式:SMALL OUTLINE, THIN PROFILE, SHRINK PITCH
峰值回流温度(摄氏度):260
电源:1.8/5 V
认证状态:Not Qualified
座面最大高度:1.1 mm
子类别:Power Management Circuits
最大供电电流 (Isup):0.02 mA
最大供电电压 (Vsup):5.5 V
最小供电电压 (Vsup):1.5 V
标称供电电压 (Vsup):3.3 V
表面贴装:YES
技术:BICMOS
温度等级:AUTOMOTIVE
端子形式:GULL WING
端子节距:0.95 mm
端子位置:DUAL
处于峰值回流温度下的最长时间:NOT SPECIFIED
宽度:1.6 mm
Base Number Matches:1
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