AS1910 - AS1915
Dual-Voltage Microprocessor Supervisory Circuits
with Manual Reset and Watchdog
Data Sheet
www.austriamicrosystems.com Revision 1.00 1 - 15
1 General Description
The AS1910 - AS1915 microprocessor supervisory cir-
cuits were designed to generate a reset when one of the
two monitored supply voltages falls below a factory-
trimmed threshold, and to maintain the reset for a mini-
mum timeout period when both supplies are above their
reset thresholds. Guaranteed to be in the correct state
for VCC higher than +1.0V, these devices are ideal for
multiple-voltage systems with strict monitoring require-
ments.
The AS1913/AS1914/AS1915 feature factory-trimmed
thresholds to monitor a primary voltage between 1.8 and
3.6V, and a secondary voltage between 0.9 and 2.5V.
For the AS1910/AS1911/AS1912, a secondary monitor-
ing voltage can be user-adjusted via an external resistor
divider down to 0.6V.
The devices are available with th e reset output types
listed in Table 1.
The AS1910 - AS1915 include a manual -reset input for
systems that never fully power down the microproces-
sor . Additionally , these devices feature a watchdog timer
to help ensure that the processor is operating within
proper code boundaries.
The AS1910 - AS1915 are available in a 6-pin SOT23
package.
Figure 1. Typical Application Diagram
2 Key Features
! Primary VCC Supervisory Range: +1.8 to +3.6V
! Secondary VCC Supervisory Range : +0.9 to +2.5V
(AS1913/AS1914/AS1915)
! User-Adjustable Threshold Down to +0.63V
(AS1910/AS1911/AS1912)
! Guaranteed Reset Valid Down to VCC = +1.0V
! Reset Timeout Delay: 215ms
! Manual Reset Input
! Three Reset Output Types
- Active-Hig h Push/Pull
- Active-Low Push/Pull
- Active-Low Open-Drain
! Watchdog Timeout Period: 1.5s
! Immune to Fast Negative VCC Transients
! External Components Not Required
! Operating Temperature Range : -40 to +125°C
! 6-pin SOT23 Package
3 Applications
The devices are ideal for portable and battery-powered
systems, embedded controllers, intelligent instru ments,
automotive systems, critical CPU monitoring, and any
multi-supply application.
Table 1. Standard Products
Model Reset Output Type
AS1910/AS1913 Active-Low Push/Pull
AS1911/AS1914 Active-High Push/Pull
AS1912/AS1915 Active-Low Open-Drain
External
Reset
CPU
Core
Supply
I/O Supply
VCC
VCC2
GND
RESETN
I/O
4
WDI
6
VCC
3
MRN
GND 2
1
RESETN
5
VCC2
AS1913/
AS1915
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AS1910 - AS1915
Data Sheet - P i n o ut
4 Pinout
Pin Assignments
Figure 2. Pin Assignments (Top View)
Pin Descriptions
Tabl e 2. Pin Descriptions
Pin
Number Pin
Name Description
1
RESETN
Active-Low Reset Output (AS1910, AS1912, AS1913, AS1915). The RESETN signal
toggles from high to low when VCC, VCC2, or RESETIN input drops below the factory-trimmed
reset threshold (see Table 4 on page 4), or MRN is pulled low, or the watchdog triggers a
reset. This output signal remains low for the reset timeout period after all supervised voltages
exceed their reset threshold, or MRN goes low to high, or the watchdog triggers a reset.
RESET
Active-High Reset Output (AS1911, AS1914). The RESET signal toggles from low to high
when VCC, VCC2, or RESETIN input drops below the factory-trimmed reset threshold (see
Table 4 on p age 4), or MRN is pulled low, or the watchdog triggers a reset. This output signal
remains high for the reset timeout period (see tRP on page 5) after all supervised voltages
exceed their reset threshold, or MRN goes low to high, or the watchdog triggers a reset.
2GND
Ground
3MRN
Active-Low Manual Reset Input. Pulling this pin low asserts a reset. This pin is connected
to the internal 50kΩ pullup to VCC. This reset remains active as long as MRN is low and for
the reset timeout period (se e tRP on page 5) after MRN goes high.
Note: If the manual reset feature is not used, th is pin should be unconnected or connected
to VCC.
4WDI
Watchdog Input. If WDI remains hig h or low fo r longer than the watchdog timeout period
(see tWD on page 6), the internal watchdog timer period expires and a reset is triggered for
the reset timeout period (see tRP on page 5). The internal watchdog timer clears whenever a
reset is a asserted or when WDI senses a rising or fallin g edge.
Note: To disable the watchdog feature, this pin must be unconnected or connected to a tri-
state buffer output.
5RESETIN User-Adjustable Supervised Voltage Input (AS1910/AS1911/AS1912). Th is high-
impedance pin serves as the input to the internal reset comparator. Connect this pin to an
external resistor-divider network to set the reset threshold voltage (down to 0.63V).
VCC2 Primary Supervised Voltage Input (AS1913/AS1914/AS1915). This pin serves as the
secondary supervised voltage input.
6VCC Primary Supervised Voltage In put. This pin serves as the primary supervised voltage input.
AS1910 -
AS1915
2
GND
3
MRN
1
RESETN/RESET
4WDI
5RESETIN/VCC2
6VCC
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AS1910 - AS1915
Data Sheet - A b s o l ut e M a x im u m R a ti n g s
5 Absolute Maximum Ratings
Stresses beyond those listed in Table 3 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 Section 5 Electrical
Characteristics on page 3 is not implied. Exposure to absolute maximum rating conditions for extended periods may
affect device reliability.
Table 3. Absolute Maximum Ratings
Parameter Min Max Units Comments
VCC, VCC2 to GND -0.3 +5.0 V
Open-Drain RESETN -0.3 +7.0 V
Push/Pull RESET, RESETN -0.3 VCC +
0.3 V
MRN, WDI, RESETIN to GND -0.3 VCC +
0.3 V
Input Current (VCC)20mA
Output Current (RESET, RESETN) 20 mA
Continuous Power Dissipation
(TAMB = +7 C) 696 mW Derate 8.7mW/ºC above +70ºC
Operating Temperature Range -40 +125 ºC
Junction Temperature +150 ºC
Stora ge Temperature Range -65 +150 ºC
Package Body Temperature +260 ºC
The reflow peak soldering temperature (body
temperature) specified is in accordance with
IPC/JEDEC J-STD-020C “Moisture/Reflow
Sensitivity Classification for Non-Hermetic Solid
State Surface Mount Devices”.
The lead finish for Pb-free leaded packages is
matte tin (100% Sn).
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AS1910 - AS1915
Data Sheet - E l e c tr i c a l Ch a r a c t e ri s t i c s
6 Electrical Characteristics
VCC = +2.7 to +3.6V for AS19xx-T/S/R, VCC = +2.1 to +2.75V for AS19xx- Z/Y, VCC = +1.53 to +2.0V for AS19xx-W/V;
TAMB = -40 to +125ºC (unless otherwise specified). Typ values @ TAMB = +25°C.
Tabl e 4. Electrical Characteristics
Symbol Parameter 1Conditions Min Typ Max Units
VCC Operating Voltage Range TAMB = 0 to +85ºC 1.0 3.6 V
TAMB = -40 to +125ºC 1.2 3.6
ICC VCC Supply Current
(MRN and WDI Not Connected)
VCC = +3.6V, No Load,
TAMB = -40ºC to +85ºC 5.8 13 µA
VCC = +3.6V, No Load,
TAMB = -40 to +125 ºC 21
ICC2 VCC2 Supply Current VCC2 = +2.5V 2 µA
VTH VCC Reset Threshold
(VCC Falling)
TAMB = -40 to +85ºC AS19xx-T 2.994 3.08 3.154
V
TAMB = -40 to +125ºC 2.972 3.179
TAMB = -40 to +85ºC AS19xx-S 2.848 2.93 3.000
TAMB = -40 to +125ºC 2.827 3.024
TAMB = -40 to +85ºC AS19xx-R 2.556 2.63 2.693
TAMB = -40 to +125ºC 2.538 2.714
TAMB = -40 to +85ºC AS19xx-Z 2.255 2.32 2.376
TAMB = -40 to +125ºC 2.239 2.394
TAMB = -40 to +85ºC AS19xx-Y 2.129 2.19 2.243
TAMB = -40 to +125ºC 2.113 2.260
TAMB = -40 to +85ºC AS19xx-W 1.623 1.67 1.710
TAMB = -40 to +125ºC 1.612 1.723
TAMB = -40 to +85ºC AS19xx-V 1.536 1.58 1.618
TAMB = -40 to +125ºC 1.525 1.631
VTH2 VCC2 Reset Threshold
TAMB = -40 to +85ºC AS19xx-Z 2.237 2.313 2.387
V
TAMB = -40 to +125ºC 2.232 2.394
TAMB = -40 to +85ºC AS19xx-Y 2.116 2.188 2.258
TAMB = -40 to +125ºC 2.111 2.265
TAMB = -40 to +85ºC AS19xx-W 1.610 1.665 1.718
TAMB = -40 to +125ºC 1.607 1.723
TAMB = -40 to +85ºC AS19xx-V 1.523 1.575 1.625
TAMB = -40 to +125ºC 1.520 1.630
TAMB = -40 to +85ºC AS19xx-I 1.342 1.388 1.432
TAMB = -40 to +125ºC 1.339 1.437
TAMB = -40 to +85ºC AS19xx-H 1.270 1.313 1.355
TAMB = -40 to +125ºC 1.267 1.359
TAMB = -40 to +85ºC AS19xx-G 1.073 1.11 1.146
TAMB = -40 to +125ºC 1.071 1.149
TAMB = -40 to +85ºC AS19xx-F 1.015 1.05 1.084
TAMB = -40 to +125ºC 1.013 1.087
TAMB = -40 to +85ºC AS19xx-E 0.806 0.833 0.860
TAMB = -40 to +125ºC 0.804 0.862
TAMB = -40 to +85ºC AS19xx-D 0.762 0.788 0.813
TAMB = -40 to +125ºC 0.760 0.816
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AS1910 - AS1915
Data Sheet - E l e c tr i c a l Ch a r a c t e ri s t i c s
Reset Threshold
Temperature Coefficient 60 ppm/
ºC
Reset Threshold Hysteresis 8 x
VTH mV
VRESETINTH RESETIN Threshold VRESETINTH Falling, T AMB = 0 to +85ºC 0.615 0.630 0.645 V
TAMB = -40 to +125ºC 0.61 0.65
RESETIN Hysteresis 8 x
VTH mV
IRESETIN RESETIN Input Current 2TAMB = -40 to +85ºC -25 +25 nA
TAMB = -40 to +125 ºC -100 +100
tRD VCC to Reset
Output Delay VCC = VTH to (VTH - 100mV) 55 µs
RESETIN to Reset
Output Delay VRESETIN = VRESETINTH to
(VRESETINTH - 30mV) 45 µs
tRP Reset Timeout Period TAMB = -40 to +85ºC 140 215 280 ms
TAMB = -40 to +125 ºC 100 320
VOL RESETN Output Low
(Push/Pull or Open-Drain)
VCC 1.0V, ISINK = 50µA,
Reset Asserted, TAMB = 0 to +85ºC 0.3
V
VCC 1.2V, ISINK = 100µA, Reset
Asserted 0.3
VCC 2.55V, ISINK = 1.2mA,
Reset Asserted 0.3
VCC 3.3V, ISINK = 3.2mA,
Reset Asserted 0.4
VOH RESETN Output High
(Push/Pull Only)
VCC 1.8V, ISOURCE = 200µA,
Reset Not Asserted 0.8 x
VCC
V
VCC 3.15V, ISOURCE = 500µA,
Reset Not Asserted 0.8 x
VCC
VCC 3.3V, ISOURCE = 800µA,
Reset Not Asserted 0.8 x
VCC
ILKG Open-Drain RESETN Output
Leakage Current RESETN Not Asserted 1.0 µA
TAMB = +25ºC 0.2
VOH RESET Output High
(Push/Pull Only)
VCC 1.0V, ISOURCE = 1µA,
Reset Asserted, TAMB = 0 to +85ºC 0.8 x
VCC
V
VCC 1.50V, ISOURCE = 100µA,
Reset Asserted 0.8 x
VCC
VCC 2.55V, ISOURCE = 500µA,
Reset Asserted 0.8 x
VCC
VCC 3.3V, ISOURCE = 800µA,
Reset Asserted 0.8 x
VCC
VOL RESET Output Low
(Push/Pull Only)
VCC 1.8V, ISINK = 500µA,
Reset Asserted 0.3
V
VCC 3.15V, ISINK = 1.2mA,
Reset Asserted 0.3
VCC 3.3V, ISINK = 3.2mA,
Reset Asserted 0.4
Manual Reset Input
VIL MRN Input voltage
0.3 x
VCC V
VIH 0.7 x
VCC
Tabl e 4. Electrical Char acteristics (Continue d)
Symbol Parameter 1Conditions Min Typ Max Units
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AS1910 - AS1915
Data Sheet - E l e c tr i c a l Ch a r a c t e ri s t i c s
MRN Minimum Input Pulse 1 µs
MRN T ransient Rejection 90 ns
MRN to Reset Delay 130 n s
MRN Pullup Resistance 25 50 75 kΩ
Watchdog Input
tWD Watchdog Timeout Period TAMB = -40 to +85ºC 1.12 1.5 2.4 s
TAMB = -40 to +125ºC 0.80 2.60
tWDI WDI Pulse Width 220 ns
VIL WDI Input Voltage
0.3 x
VCC V
VIH 0.7 x
VCC
IWDI WDI Input Current WDI = VCC, Time Average 80 160 µA
WDI = 0, Time Average -20 -11
1. Over-temperature limits are guaranteed by design and not production tested. Device s tested at +25ºC.
2. Guaranteed by design and not production tested.
Tabl e 4. Electrical Char acteristics (Continue d)
Symbol Parameter 1Conditions Min Typ Max Units
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AS1910 - AS1915
Data Sheet - Ty p i c a l O p e r a ti n g C h a ra c t e r i st i c s
7 Typical Operating Characteristics
TAMB = +25ºC (unless otherwise specified).
Figure 3. Normalized Reset Threshold Delay vs. Figure 4. VOUT vs. VCC; VCC2 = 2.50V, VTH = 1.58V,
Temperature Active-Low (Typ)
Figure 5. Reset Timeout Period vs. Temperature Figure 6. Supply Current vs. Temperature
Figure 7. VOH vs. ISOURCE; VCC = 3.2V Figure 8. VOL vs. ISINK; VCC = 3.2V
-0.50
0.00
0.50
1.00
1.50
2.00
2.50
3.00
3.50
4.00
4.50
5.00
5.50
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5
VCC (V)
Output Voltage (V) e
0.94
0.96
0.98
1
1.02
1.04
1.06
-40 -20 0 20 40 60 80 100 120
Temperature (°C)
Reset Threshold (V) e
3
4
5
6
7
8
9
10
-50 -25 0 25 50 75 100 125
Temperature (°C)
VCC Supply Current (µA) e
VCC = 3.08V T Version
VCC = 1.58V V Version
150
160
170
180
190
200
210
220
230
240
250
-40 -20 0 20 40 60 80 100 120
Temperature (°C)
Reset Timeout Periode (ms)
2.9
2.95
3
3.05
3.1
3.15
3.2
3.25
0 0.2 0.4 0.6 0.8 1 1.2
ISOURCE (mA)
VOUT (V) ]
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0.4
0.45
0.5
01234567
ISINK (mA)
VOUT (V) e
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AS1910 - AS1915
Data Sheet - D e t ai l e d D es c r i p t io n
8 Detailed Description
The AS1910 - AS1915 supervisory circuits were designed to generat e a reset when one of the two monitored supply
voltages falls below its factory-trimmed trip threshold (see VTH on page 4 and VTH2 on page 4), and to maintain the
reset for a minimum timeout pe riod (see tRP on page 5) after all supplies have stabilized.
The integrated watchdog timer (see Watchdog Input on page 10) helps mitigate aga inst bad programming code or
clock signals, and/or poor peripheral response. An active-low manual reset input (see Manual Reset Input on page 10)
allows for an externally activated system reset.
RESET/RESETN
Whenever one of the monitored voltages falls below its reset threshold, the RESET output (AS1910, AS1912, AS1913,
AS1915) asserts low or the RESETN output (AS1911, AS1914) asserts high. Once all monitored voltages have stabi-
lized, an internal timer keeps the reset asserted for the reset timeout period (tRP). After the tRP period, the RESET or
RESETN output return to their original state (see Figure 10).
Figure 9. Functional Diagram of VCC Supervisory Application
Figure 10. Reset Timing Diagram
AS1913/AS1914/AS1915
Reset Timeout
Delay Generator
Watchdog Transition
Detector Watchdog
Timer
+
1.26V
VCC
0.63V
1.26V
5
VCC2
2
GND
6
VCC
4
WDI
1
RESETN/
RESET
3
MRN
1V
tRD
tRP
tRP tRD
VTHVTH
VCC
RESETN
RESET
GND
1V
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AS1910 - AS1915
Data Sheet - D e t ai l e d D es c r i p t io n
Figure 11. Functional Di agram of RESETIN Supervisory Application
RESETIN
The AS1910/AS1911/AS1912 feature a user-adjustable supervisory voltage input (RESETIN). The threshold voltage
for RESETIN is between 0. 61 and 0.65V (0.63 typ).
Figure 12. Voltage Monitoring Circuit
To monitor a voltage higher than 0.63V, connect a resistor divider network to the circuit as shown in Figure 12. For the
circuit shown in Figure 12, the threshold at VMONITOR is:
VMONITOR_TRIP = 0.63 V [(R 1 + R2)/R2](EQ 1)
Note: Since RESETIN is powered by VCC, VRESETIN must not be larg er than VCC.
AS1910/AS1911/AS1912
Reset Timeout
Delay Generator
Watchdog Transition
Detector Watchdog
Timer
VCC
0.63V
+
1.26V
2
GND
1
RESETN/
RESET
5
RESETIN
6
VCC
4
WDI
3
MRN
AS1910/
AS1911/
AS1912
R1
R2
VMONITOR
VCC VRESETIN
5
RESETIN
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AS1910 - AS1915
Data Sheet - D e t ai l e d D es c r i p t io n
Watchdog Input
The integrated watchdog feature can be used to monitor processor activity via pin WDI, and can detect pulses as short
as 50ns. The watchdog require s that the processor toggle the watchdog logic input at regular intervals, within a speci-
fied minimum timeout period (1.5s, typ). A reset is asserted for the reset timeout period. As long as reset is asserted,
the timer remains cleared and is not incremented. When reset is deasserted, the watchdog timer starts counting
(Figure 11).
Note: The watchdog timer can be cleared with a reset pulse or by toggling WDI.
Figure 13. Watchdog Timing Relationship
The watchdog is internal ly driven low during most (87.5%) of the watchdog timeout period (see tWD on page 6) and
high for the rest of the watc hdog timeout period. When pin WDI is left unconnected, thi s i nternal driver clears the
watchdog timer every 1.4s. When WDI is tri-stated or is not connected, the maximum allowable leakage current is
10µA and the maximum allowable load capacitance is 200pF.
Note: The watchdog fun c tion can be disabled by l eaving pin WDI unconnected or connecting it to a tri-state output
buffer.
Manual Reset Input
The active-low pin MRN is used to force a manual reset. This input can be dri v en by CMOS logic levels or with open-
drain collector outputs.
Pulling MRN low asserts a reset which will remain asserted as long as MRN is kept low , and for the timeout period (see
tRP on page 5) after MRN goes high (140ms min). The manual reset circuitry has an internal 50kΩ pullup resistor , thus
it can be left open if not used.
To create a manual-reset circuit, connect a normally open momentary switch from pin MRN to GND (see Figure 1 on
page 1); external debounce circuitry is not required in this configuration.
If MRN is driven via long cables or the device is used in a noisy environment, a 0.1µF capacitor between pin MRN and
GND will provide additional noise immunity.
tRST
The RESET signal is the inverse of the RESETN signal.
tWD
VCC
RESETN
WDI
tRP
tRP
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AS1910 - AS1915
Data Sheet - A p p l ic a t i o n In f o r m a ti o n
9 Application Information
Watchdog Input Current
The watchdog input is driven through an internal buffer and an int ernal series resistor from the watchdog timer (see
Figure 1 1 on p age 9). When pin WDI is left unconnected (watchdog disabled), the watchdog timer is serviced within the
watchdog timeout period (see tWD on page 6) by a low-high-low pulse from the counter chain. For minimum watchdog
input current (minimum overall po wer consumption), pull WDI low for most of the watchdog timeout period, pulsing it
low-high-low once within the first 7/8 (87. 5%) of the watchdog timeout perio d to reset the watchdog timer.
Note: If WDI is externally driven high for the ma jority of the timeout period, up to 160µA can flow into pin WDI.
Interfacing to Bi-Directional CPU Reset Pins
Since the reset outputs of the AS1912 and AS1915 are open drain, these devices interface easily with processors that
have bi-directional reset pins. Connecting the processor reset output directly to the AS1912/AS1915 RESETN pin with
a single pullup resistor (see Figure 14) allows the AS1912/AS1912 to assert a reset.
Figure 14. AS1912 or AS1915 RESETN-to-CPU Bi-Directional Reset Pin
Fast Negative-Going Transients
Fast, negative-going VCC transients normally do not require the CPU to be shutdown. The AS1910 - AS1915 are virtu-
ally immune to such transients. Resets are issued to the CPU during power-up, powerdown, and brownout conditions.
Note: VCC transients that go 100mV below the reset threshold and last 55µs typically will not assert a reset pulse.
Valid Reset to VCC = 0
The AS1910 - AS1915 are guaranteed to operate properly down to VCC = 1V. For applications requiring valid reset lev-
els down to VCC = 0, a pulldown resistor to active-low outputs (push/pull only) and a pullup resistor to active-high out-
puts (push/pull only) will ensure that the reset line is valid during the interval where the reset output can no longer sink
or source current.
Watchdog Tips
Careful consideration should be taken when implementing the AS1910 - AS1915 watchdog feature.
One method of supervising software code execution is to set/reset the watchdog inp ut at different places in the code,
rather than pulsing the watchdog input high-low-high or low-high-low. This method avoids a loop condition in which the
watchdog timer would conti nue to be reset inside the loop, preventing the watchdog from ever timing out.
Figure 15 shows a flowchart where the input/output driving the watchdog is set high at the beginning of the routine, set
low at the beginning of every subroutine, then set hig h again when the routine returns to the beginning. If the routine
should hang in a subroutine, the problem would quickly be corrected, since the I/O is continually set low and the watch-
dog timer is allowed to t ime out, causing a reset or interrupt to be issued (see Watchdog Input Current on page 11).
This method results in higher averaged WDI input current over time than a case where WDI is held low for the majority
(87.5%) of the time out period and periodically pulsing it low-high-low.
AS1912/
AS1915
CPU
Reset
Generator
VCC
RESETN
GND
VCCVCC
1
RESETN
GND 2
VCC 6
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AS1910 - AS1915
Data Sheet - A p p l ic a t i o n In f o r m a ti o n
Figure 15. Example Watchdog Programming Flowchart
Start
Set WDI
High
Subroutine or
Program Loop
Set WDI Low
Return
Program
Code
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AS1910 - AS1915
Data Sheet - P a c k age Drawings and Markings
10 Package Drawings and Markings
The devices are available in a 6-pin SOT23 package.
Figure 16. 6-pin SOT23 Package
Notes:
1. All dimensions are in millimeters.
2. Foot length measured at intercept point between datum A and lead surface.
3. Package outline inclu s ive of mold flash 7 metal burr.
4. Package outline inclu s ive of solder plating.
5. Compliant with EIAJ SC74A.
6. PKG ST 0004 Rev A supersedes SOT23-D-2005 Rev C.
Symbol Min Max
A 0.90 1.45
A1 0.00 0.15
A2 0.90 1.30
b 0.30 0.50
C 0.09 0.20
D 2.80 3.05
E 2.60 3.00
E1 1.50 1.75
L 0.30 0.55
e 0.95REF
e1 1.90REF
α
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AS1910 - AS1915
Data Sheet - O r d e ri n g I n fo r m a t i o n
11 Ordering Information
The devices are available as t he standard products shown in Table 5.
Tabl e 5. Ordering Information
Model Marking Reset Output Type Thresholds Delivery Form Package
AS1910S-T ASH3 Active-Low Push/Pull 2.93V, Adjustable Tape and Reel 6-pin SOT23
AS1910R-T ASH4 Active-Low Push/Pull 2.63V, Adjustable Tape and Reel 6-pin SOT23
AS1910Z-T ASH5 Active-Low Push/Pull 2.32V, Adjustable Tape and Reel 6-pin SOT23
AS1910V-T ASH6 Active-Low Push/Pull 1.58V, Adjustable Tape and Reel 6-pin SOT23
AS1911S-T ASH7 Active High Push/Pull 2.93V, Adjustable Tape and Reel 6-pin SOT23
AS1911R-T ASH8 Active High Push/Pull 2.63V, Adjustable Tape and Reel 6-pin SOT23
AS1911Z-T ASH9 Act ive High Push/Pull 2.32V, Adjustable Tape and Reel 6-pin SOT23
AS1911V-T ASIA Active High Push/Pull 1.58V, Adjustable Tape and Ree l 6-pin SOT23
AS1912S-T ASIB Open Drain 2.93V, Adjustable Tape and Reel 6-pin SOT23
AS1912R-T ASIC Open Drain 2.63V, Adjustable Tape and Reel 6-pin SOT23
AS1912Z-T ASID Open Drain 2.32V, Adjustable Tape and Reel 6-pin SOT23
AS1912V-T ASIE Open Drain 1.58V, Adjustable Tape and Reel 6-pin SOT23
AS1913TZ-T ASIF Active-Low Push/Pull 3.08V, 2.313V Tape and Reel 6-pin SOT23
AS1913SF-T ASIG Active-Low Push/Pull 2.93V, 1.05V Tape and Reel 6-pin SOT23
AS1913VD-T ASIH Active-Low Push/Pull 1.58V, 0.788V Tape and Reel 6-pin SOT23
AS1914TZ-T ASII Active High Push/Pull 3.08V, 2.313V Tape and Reel 6-pin SOT23
AS1914SF-T ASIJ Active High Push/Pull 2.93V,1.05V Tape and Reel 6-pin SOT23
AS1914VD-T ASIK Active High Push/Pull 1.58V, 0.788V Tape and Reel 6-pin SOT23
AS1915TZ-T ASIL Open-Drain 3.08V, 2.313V Tape and Reel 6-pin SOT23
AS1915SF-T ASIM Open-Drain 2.93V,1.05V Tape and Reel 6-pin SOT23
AS1915VD-T ASIN Open-Drain 1.58V, 0.788V Tape and Reel 6-pin SOT23
www.austriamicrosystems.com Revision 1.00 15 - 15
AS1910 - AS1915
Data Sheet
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Copyright © 1997-2007, austriamicrosystems AG, Schloss Premstaetten, 8141 Unterpremstaetten, Austria-Europe.
Trademarks Registered ®. All rights reserved. The material herein may not be reproduced, adapted, merged, trans-
lated, stored, or used without the prior written consent of th e copyright owner.
All products and companies mentioned are trademarks or registered trademarks of their respective companies.
Disclaimer
Devices sold by austriamicrosystems AG are covered by the warranty and patent indemnification provisions appearing
in its Term of S ale. austriamicrosystems AG makes no warranty, express, st atutory, implied, or by description regarding
the information set forth herein or regarding the freedom of the described devices from patent infringement. aust riami-
crosystems AG reserves the right to change specifications and prices at any time and without notice. Therefore, prior
to designing this product into a system, it is necessary to check with austriamicrosystems AG for current information.
This product is intended for use in normal commercial a pplications. Applications r equiring extended temperature
range, unusual environmental requirements, or high reliability applications, such as military, medical life-support or life-
sustaining equipment are specifically not recommended without additional processing by austriamicrosystems AG for
each application. For shipments of less than 100 parts the manufacturing flow might show deviations from the standard
production flow, such as test flow or test locatio n.
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