1
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
SP705-708/813L/813M
Low Power Microprocessor Supervisory Circuits
■Precision Voltage Monitor:
SP705/707/813L at 4.65V
SP706/708/813M at 4.40V
■RESET Pulse Width - 200ms
■Independent Watchdog Timer - 1.6s
Timeout (SP705/706/813L/813M)
■60µA Maximum Supply Current
■Debounced TTL/CMOS Manual Reset Input
■RESET Asserted Down to VCC = 1V
■Voltage Monitor for Power Failure or Low
Battery Warning
■Available in 8-pin PDIP, NSOIC, and
µSOIC packages
■Pin Compatible Enhancement to Industry Standard 705-708/813L Series
■Functionally Compatible to Industry Standard 1232 Series
DESCRIPTION…
The SP705-708/813L/813M series is a family of microprocessor (µP) supervisory circuits that
integrate myriad components involved in discrete solutions which monitor power-supply and
battery in µP and digital systems. The SP705-708/813L/813M series will significantly improve
system reliability and operational efficiency when compared to solutions obtained with discrete
components. The features of the SP705-708/813L/813M series include a watchdog timer,
a µP reset, a Power Fail Comparator, and a manual-reset input. The SP705-708/813L/813M
series is ideal for applications in automotive systems, computers, controllers, and intelligent
instruments. The SP705-708/813L/813M series is an ideal solution for systems in which critical
monitoring of the power supply to the µP and related digital components is demanded.
Part RESET RESET Manual PFI
Number Threshold Active RESET Watchdog Accuracy
SP705 4.65 V LOW YES YES 4%
SP706 4.40 V LOW YES YES 4%
SP707 4.65 V LOW and HIGH YES NO 4%
SP708 4.40 V LOW and HIGH YES NO 4%
SP813L 4.65 V HIGH YES YES 4%
SP813M 4.40V HIGH YES YES 4%
®
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
2
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ABSOLUTE MAXIMUM RATINGS
This is a stress rating only and functional operation
of the device at these or any other conditions above
those indicated in the operation sections of this
specification is not implied. Exposure to absolute
maximum rating conditions for extended periods of
time may affect reliability and cause permanent
damage to the device.
Vcc ....................................................................................... -0.3V to +6.0V
All Other Inputs (Note 1) ......... -0.3V to (Vcc+0.3V)
Input Current:
Vcc ............................................................................................................. 20mA
GND ............................................................ 20mA
Output Current (all outputs) ......................... 20mA
ESD Rating..................................................... 4KV
Continuous Power Dissipation
Plastic DIP (derate 9.09mW/°C above +70°C)727mW
SO (derate 5.88mW/°C above +70°C) ...... 471mW
Mini SO (derate 4.10mW/°C above +70°C) 330mW
Storage Temperature Range ....... -65°C to +160°C
Lead Temperature (soldering, 10s)............ +300°C
SPECIFICATIONS
VCC = 4.75V to 5.50V for SP705/707/813L, VCC = 4.50V to 5.50V for SP706/708/813M, TA = TMIN to TMAX, unless otherwise noted, typical at 25oC.
3
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
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Note 1: The input voltage limits on PFI and MR can be exceeded if the input current is less than 10mA.
Note 2: Applies to both RESET in the SP705-SP708 and RESET in the SP707/708/813L/813M.
SPECIFICATIONS
VCC = 4.75V to 5.50V for SP705/707/813L,813M, VCC = 4.50V to 5.50V for SP706/708, TA = TMIN to TMAX, unless otherwise noted, typical at 25oC.
SP705
SP706
SP813L
SP813M
18
7
6
5
4
3
2
1
MR
V
CC
GND
PFI
WDO
RESET / RESET*
WDI
PFO
SP707
SP708
18
7
6
5
4
3
2
1
MR
V
CC
GND
PFI
RESET
RESET
N.C.
PFO
SP705
SP706
SP813L
SP813M
18
7
6
5
4
3
2
1
WDO
MR
V
CC
WDI
PFO
PFI
GND
SP707
SP708
18
7
6
5
4
3
2
1
RESET
RESET
MR
V
CC
N.C.
PFO
PFI
GND
RESET / RESET*
DIP and SOIC µSOIC
Figure 1. Pinouts
* SP813L/M only
* SP813L/M only
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
4
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Table 1. Device Pin Description
5
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
1.25V
4.65V
(4.40V for the SP708)
V
CC
RESET
GENERATOR
250µA
MR
V
CC
RESET
SP707
SP708
PFI PFO
GND
RESET
Figure 3. Internal Block Diagram for the SP707/708
Figure 2. Internal Block Diagram for the SP705/706/813L/813M
SP705
SP706
SP813L
SP813M
GND * For the SP813L/813M only
1.25V
4.65V
(4.40V for the SP706 and SP813M)
V
CC
TIMEBASE FOR
RESET AND
WATCHDOG
WATCHDOG
TIMER
RESET
GENERATOR
WATCHDOG
TRANSITION
DETECTOR
250µA
MR
V
CC
RESET/RESET*
WDO
PFI PFO
WDI
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
6
Figure 4A. Power-Fail Comparator De-assertion
Response Time.
30pF 1KΩ
PFO
+1.25V
+5V
PFI
V
CC
= +5V
T
A
= +25 C
Figure 4B. Circuit for the Power-Fail Comparator De-
assertion Response Time.
Figure 5A. Power-Fail Comparator Assertion Response
Time. Figure 5B. Circuit for the Power-Fail Comparator
Assertion Response Time.
Figure 6A. SP705/707 RESET Output Voltage vs.
Supply Voltage. Figure 6B. Circuit for the SP705/707 RESET Output
Voltage vs. Supply Voltage.
30pF
1KΩ
PFO
+1.25V
+5V
PFI
V
CC
= +5V
T
A
= +25 C
330pF
2KΩ
V
CC
T
A
= +25oC
V
CC
RESET RESET
GND
7
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
Figure 7A. SP705/707 RESET Response Time Figure 7B. Circuit for the SP705/707 RESET Response
Time
Figure 8. SP707 RESET and RESET Assertion Figure 9. SP707 RESET and RESET De-Assertion
Figure 10. Circuit for the SP707 RESET and RESET Assertion and De-Assertion
330pF
10KΩ
V
CC
T
A
= +25oC
V
CC
RESET RESET
GND
330pF
V
CC
T
A
= +25
o
C
10KΩ
RESET
RESET
330pF 10KΩ
GND
V
CC
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
8
Figure 11. SP707/708/813L/813M RESET Output
Voltage vs. Supply Voltage Figure 12. SP813L/813M RESET Response Time
Figure 13. Circuit for the SP707/708/813L/813M RESET Output Voltage vs. Supply Voltage and the SP813L/813M
RESET Response Time
GND
RESET
V
CC
330pF
V
CC
10KΩ
9
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
FEATURES
The SP705-708/813L/813M series provides
four key functions:
1. A reset output during power-up, power-down
and brownout conditions.
2. An independent watchdog output that goes
LOW if the watchdog input has not been toggled
within 1.6 seconds.
3. A 1.25V threshold detector for power-fail
warning, low battery detection, or monitoring a
power supply other than +5V.
4. An active-LOW manual-reset that allows
RESET to be triggered by a pushbutton switch.
The SP707/708 devices are the same as the
SP705/706 devices except for the active-HIGH
RESET substitution of the watchdog timer. The
SP813L is the same as the SP705 except an
active-HIGH RESET is provided rather than an
active-LOW RESET. The SP705/707/813L
devices generate a reset when the supply voltage
drops below 4.65V. The SP706/708/813M
devices generate a reset below 4.40V.
The SP705-708/813L/813M series is ideally
suited for applications in automotive systems,
intelligent instruments, and battery-powered
computers and controllers. The SP705-708/813L/
813M series is ideally applied in environments
where monitoring of power supply to a µP and its
related components is critical.
THEORY OF OPERATION
The SP705-708/813L/813M series is a
microprocessor (µP) supervisory circuit that
monitors the power supplied to digital circuits
such as microprocessors, microcontrollers, or
memory. The series is an ideal solution for
portable, battery-powered equipment that
requires power supply monitoring. Implementing
this series will reduce the number of components
and overall complexity. The watchdog functions
of this product family will continuously oversee
the operational status of a system. The operational
features and benefits of the SP705-708/813L/
813M series are described in more detail below.
RESET Output
A microprocessor's reset input starts the µP
in a known state. The SP705-708/813L/813M
series asserts reset during power-up and
prevents code execution errors during power-
down or brownout conditions.
On power-up, once VCC reaches 1V, RESET is
a guaranteed logic LOW of 0.4V or less. As VCC
rises, RESET stays LOW. When VCC rises
above the reset threshold, an internal timer re-
leases RESET after 200ms. RESET pulses
LOW whenever VCC dips below the reset thresh-
old, such as in a brownout condition. When a
brownout condition occurs in the middle of a
previously initiated reset pulse, the pulse con-
tinues for at least another 140ms. On power-
down, once VCC falls below the reset threshold,
RESET stays LOW and is guaranteed to be 0.4V
or less until VCC drops below 1V.
The SP707/708/813L/813M active-HIGH
RESET output is simply the complement of the
RESET output and is guaranteed to be valid with
VCC down to 1.1V. Some µPs, such as Intel's
80C51, require an active-HIGH reset pulse.
Watchdog Timer
The SP705/706/813L/813M watchdog circuit
monitors the µP's activity. If the µP does not
toggle the watchdog input (WDI) within 1.6
seconds and WDI is not tri-stated, WDO goes
LOW. As long as RESET is asserted or the WDI
input is tri-stated, the watchdog timer will stay
cleared and will not count. As soon as RESET
is released and WDI is driven HIGH or LOW,
the timer will start counting. Pulses as short as
50ns can be detected.
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
10
Typically, WDO will be connected to the
non-maskable interrupt input (NMI) of a µP.
When VCC drops below the reset threshold,
WDO will go LOW whether or not the watch-
dog timer has timed out. Normally this would
trigger an NMI but RESET goes LOW simulta-
neously, and thus overrides the NMI.
If WDI is left unconnected, WDO can be used as
a low-line output. Since floating WDI disables
the internal timer, WDO goes LOW only when
VCC falls below the reset threshold, thus func-
tioning as a low-line output.
Figure 14. SP705/706/813L/813M Watchdog Timing Waveforms
Figure 15. SP705/706 Timing Diagrams with WDI Tri-stated. The SP707/708/813L/813M RESET Output is the Inverse
of the RESET Waveform Shown.
t
RS
RESET*
WDO
0V
+5V
WDI
RESET*
0V
+5V
0V
+5V
0V
+5V
t
WD
t
WD
t
WD
t
WP
* externally triggered LOW by MR,
RESET is for the SP813L/813M only
V
CC
RESET
0V
+5V
0V
+5V
0V
+5V
t
RS
t
RS
t
MR
0V
+5V
MR*
WDO
V
RT
V
RT
*externally driven LOW t
MD
11
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
Power-Fail Comparator
The power-fail comparator can be used for
various purposes because its output and
noninverting input are not internally connected.
The inverting input is internally connected to a
1.25V reference.
To build an early-warning circuit for power
failure, connect the PFI pin to a voltage divider
as shown in Figure 16. Choose the voltage
divider ratio so that the voltage at PFI falls
below 1.25V just before the +5V regulator drops
out. Use PFO to interrupt the µP so it can
prepare for an orderly power-down.
Manual Reset
The manual-reset input (MR) allows RESET to
be triggered by a pushbutton switch. The switch
is effectively debounced by the 140ms mini-
mum RESET pulse width. MR is TTL/CMOS
logic compatible, so it can be driven by an
external logic line. MR can be used to force a
watchdog timeout to generate a RESET pulse
in the SP705/706/813L/813M. Simply connect
WDO to MR.
Ensuring a Valid RESET Output Down to
VCC = 0V
When VCC falls below 1V, the SP705/706/707/
708 RESET output no longer sinks current, it
becomes an open circuit. High-impedance
CMOS logic inputs can drift to undetermined
voltages if left undriven. If a pull-down resistor
is added to the RESET pin, any stray charge or
leakage currents will be shunted to ground,
holding RESET LOW. The resistor value is not
critical. It should be about 100KΩ, large enough
not to load RESET and small enough to pull
RESET to ground.
Monitoring Voltages Other Than the
Unregulated DC Input
Monitor voltages other than the unregulated DC
by connecting a voltage divider to PFI and
adjusting the ratio appropriately. If required,
add hysteresis by connecting a resistor (with a
value approximately 10 times the sum of the
two resistors in the potential divider network)
between PFI and PFO. A capacitor between PFI
and GND will reduce the power-fail circuit's
PFI
PFO
V
CC
+5V
GND
RESET
to µP
MR
+12V
1MΩ
1%
130KΩ
1%
Figure 17. Monitoring Both +5V and +12V Power
Supplies
GND GND
RESET
INTERRUPT
I/O LINE
V
CC
RESET
PFO
PFI R
2
R
1
Unregulated DC
Power Supply
Regulated +5V
Power Supply
V
CC
0.1µF
PFI
µP
NMI WDO
PUSHBUTTON
SWITCH
MR
SP705
SP706
SP813L
SP813M
Figure 16. Typical Operating Circuit
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
12
sensitivity to high-frequency noise on the
line being monitored. RESET can be used to
monitor voltages other than the +5V VCC
line. Connect PFO to MR to initiate a RESET
pulse when PFI drops below 1.25V. Figure 17
shows the SP705/706/707/708 configured to
assert RESET when the +5V supply falls below
the RESET threshold, or when the +12V supply
falls below approximately 11V.
Monitoring a Negative Voltage Supply
The power-fail comparator can also monitor a
negative supply rail, shown in Figure 18. When
the negative rail is good (a negative voltage of
large magnitude), PFO is LOW. By adding the
resistors and transistor as shown, a HIGH PFO
triggers RESET. As long as PFO remains HIGH,
the SP705-708/813L/813M will keep RESET
asserted (where RESET = LOW and RESET =
HIGH). Note that this circuit's accuracy de-
pends on the PFI threshold tolerance, the VCC
line, and the resistors.
Figure 18. Monitoring a Negative Voltage Supply Figure 19. Interfacing to Microprocessors with
Bidirectional RESET I/O for the SP705/706/707/708
Interfacing to mPs with Bidirectional
RESET Pins
µPs with bidirectional RESET pins, such as the
Motorola 68HC11 series, can contend with the
SP705/706/707/708 RESET output. If, for
example, the RESET output is driven HIGH and
the µP wants to pull it LOW, indeterminate
logic levels may result. To correct this, connect
a 4.7KΩ resistor between the RESET output and
the µP reset I/O, as shown if Figure 19. Buffer
the RESET output to other system components.
VCC
+5V
GND
VCC
+5V
GND
RESET RESET
4.7KΩ
µP
Buffered RESET connects to System Components
PFI
PFO R
2
R
1
V
CC
+5V
GND
PFO V-
+5V
V
TRIP
0V 0V
5.0 - 1.25
R
1
1.25 - V
TRIP
R
2
V-
=
10KΩ
10KΩ
RESET
to µP
2N3904
, V
TRIP
< 0
V-
MR 0V
+5V
MR
100KΩ
100KΩ
13
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
Applications
The SP705-708/813L/813M series offers
unmatched performance and the lowest power
consumption for these industry standard devices.
Refer to Figures 20 and 21 for supply current
performance characteristics rated against
temperature and supply voltages.
Table 2 shows how the SP705-708/813L/813M
series can be used instead of the Dallas
Semiconductor DS1232LP/LPS. Table 2
illustrates to a designer the advantages and trade-
offs of the SP705-708/813L/813M series
compared to the Dallas Semiconductor device.
While the names of the pin descriptions may
differ, the functions are the same or very similar.
Figure 20. Supply Current vs. Temperature Figure 21. Supply Current vs. Supply Voltage
Unlike the DS1232, the SP705-708/813L/813M
series has a separate watchdog output pin WDO
which can be simply connected to the MR input
to generate a Reset signal. The DS1232 has pin
selectable features, while the SP705-708/813L/
813M series has more fixed functions of reset
threshold and watchdog time-out delay. For
most applications, the fixed functions will be
preferred, with the benefit of reduced cost due to
a less complex part. In addition, the SP705-708/
813L/813M series has a power fail input and
output function not available with the DS1232
that is useful for monitoring systems with
unregulated supply voltages. The SP705-708/
813L/813M series is available in one of the
industry's smallest space-saving package sizes,
the µSOIC.
45
44
43
42
41
40
39
38
37
36
35
-40C 25C +85C
4.75V
5.0V
5.5V
Isupply (µA)
Centigrade T emperature
45
44
43
42
41
40
39
38
37
36
35
4.75V 5.0V 5.5V
-40C
25C
+85C
Isupply (µA)
V
CC
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
14
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M318/L318M318/L318M318/L318M318/L318M318/L318 35 DNG
HGIHevitcAteseR5TSR807/707PS82 TESER
HGIHevitcAteseR5TSRM318/L318PS71 TESER
WOLevitcAteseR6TSR807-507PS71 TESER
tupnIgodhctaW7)LotH(TS /607/507PS
M318/L318M318/L318M318/L318M318/L318M318/L318 68 ).snartyna(IDW
tupnIegatloV8V
CC
/807-507PS
M318/L318M318/L318M318/L318M318/L318M318/L318 24 V
CC
tupnIliaFrewoPA/NA/N /807-507PS
M318/L318M318/L318M318/L318M318/L318M318/L318 46 IFP
tuptuOliaFrewoPA/NA/N /807-507PS
M318/L318M318/L318M318/L318M318/L318M318/L318 57 OFP
tuptuOgodhctaWA/NA/N /607/507PS
M318/L318M318/L318M318/L318M318/L318M318/L318 82 ODW
Table 2. Device Overview on Dallas Semiconductor
15
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
D
ALTERNATE
END PINS
(BOTH ENDS)
D1 = 0.005" min.
(0.127 min.)
E
PACKAGE: PLASTIC
DUAL–IN–LINE
(NARROW)
DIMENSIONS (Inches)
Minimum/Maximum
(mm)
A = 0.210" max.
(5.334 max).
E1
C
Ø
LA2
A1 = 0.015" min.
(0.381min.)
B
B1
e = 0.100 BSC
(2.540 BSC) e
A
= 0.300 BSC
(7.620 BSC)
A2
B
B1
C
D
E
E1
L
Ø
0.115/0.195
(2.921/4.953)
0.014/0.022
(0.356/0.559)
0.045/0.070
(1.143/1.778)
0.008/0.014
(0.203/0.356)
0.355/0.400
(9.017/10.160)
0.300/0.325
(7.620/8.255)
0.240/0.280
(6.096/7.112)
0.115/0.150
(2.921/3.810)
0°/ 15°
(0°/15°)
8–PIN
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
16
D
EH
PACKAGE: PLASTIC
SMALL OUTLINE (SOIC)
(NARROW)
DIMENSIONS (Inches)
Minimum/Maximum
(mm) 8–PIN
A
A1
Ø
L
Be
h x 45°
A
A1
B
D
E
e
H
h
L
Ø
0.053/0.069
(1.346/1.748)
0.004/0.010
(0.102/0.249
0.014/0.019
(0.35/0.49)
0.189/0.197
(4.80/5.00)
0.150/0.157
(3.802/3.988)
0.050 BSC
(1.270 BSC)
0.228/0.244
(5.801/6.198)
0.010/0.020
(0.254/0.498)
0.016/0.050
(0.406/1.270)
0°/8°
(0°/8°)
17
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
PACKAGE: PLASTIC
MICRO SMALL
OUTLINE (µSOIC)
1
0.013
±0.005
0.0256
BSC
0.118
±0.004
0.020
2
0.020
0.116
±0.004 0.034
±0.004
0.040
±0.003
0.004
±0.002
0.118
±0.004
0.118
±0.004
0.037
Ref
0.0215
±0.006 3.0˚
±3˚
R .003
12.0˚
±4˚
0.006
±0.006
0.006
±0.006
0.008
0˚ - 6˚
0.012
±0.003
0.01
12.0˚
±4˚
0.16
±0.003
0.0965
±0.003
0.116
±0.004
50
µ
SOIC devices per tube
All package dimensions in inches
SP705DS/09 SP705 Low Power Microprocessor Supervisory Circuits © Copyright 2000 Sipex Corporation
18
ORDERING INFORMATION
Model .......................................................................................Temperature Range................................................................................ Package
SP705CP ....................................................................................... 0°C to +70°C ......................................................................... 8–pin Plastic DIP
SP705CN ....................................................................................... 0°C to +70°C ..................................................................... 8–pin Narrow SOIC
SP705CU ....................................................................................... 0°C to +70°C ................................................................................. 8-pin µSOIC
SP705EP...................................................................................... -40°C to +85°C ....................................................................... 8–pin Plastic DIP
SP705EN ..................................................................................... -40°C to +85 °C ................................................................... 8–pin Narrow SOIC
SP705EU ..................................................................................... -40°C to +85 °C ............................................................................... 8-pin µSOIC
SP706CP ....................................................................................... 0°C to +70°C ......................................................................... 8–pin Plastic DIP
SP706CN ....................................................................................... 0°C to +70°C ..................................................................... 8–pin Narrow SOIC
SP706CU ....................................................................................... 0°C to +70°C ................................................................................. 8-pin µSOIC
SP706EP...................................................................................... -40°C to +85°C ....................................................................... 8–pin Plastic DIP
SP706EN ..................................................................................... -40°C to +85 °C ................................................................... 8–pin Narrow SOIC
SP706EU ..................................................................................... -40°C to +85 °C ............................................................................... 8-pin µSOIC
SP707CP ....................................................................................... 0°C to +70°C ......................................................................... 8–pin Plastic DIP
SP707CN ....................................................................................... 0°C to +70°C ..................................................................... 8–pin Narrow SOIC
SP707CU ....................................................................................... 0°C to +70°C ................................................................................. 8-pin µSOIC
SP707EP...................................................................................... -40°C to +85°C ....................................................................... 8–pin Plastic DIP
SP707EN ..................................................................................... -40°C to +85 °C ................................................................... 8–pin Narrow SOIC
SP707EU ..................................................................................... -40°C to +85 °C ............................................................................... 8-pin µSOIC
SP708CP ....................................................................................... 0°C to +70°C ......................................................................... 8–pin Plastic DIP
SP708CN ....................................................................................... 0°C to +70°C ..................................................................... 8–pin Narrow SOIC
SP708CU ....................................................................................... 0°C to +70°C ................................................................................. 8-pin µSOIC
SP708EP...................................................................................... -40°C to +85°C ....................................................................... 8–pin Plastic DIP
SP708EN ..................................................................................... -40°C to +85 °C ................................................................... 8–pin Narrow SOIC
SP708EU ..................................................................................... -40°C to +85 °C ............................................................................... 8-pin µSOIC
SP813LCP ..................................................................................... 0°C to +70°C ......................................................................... 8–pin Plastic DIP
SP813LCN ..................................................................................... 0°C to +70°C ..................................................................... 8–pin Narrow SOIC
SP813LCU ..................................................................................... 0°C to +70°C ................................................................................. 8-pin µSOIC
SP813LEP.................................................................................... -40°C to +85°C ....................................................................... 8–pin Plastic DIP
SP813LEN ................................................................................... -40°C to +85 °C ................................................................... 8–pin Narrow SOIC
SP813LEU ................................................................................... -40°C to +85 °C ............................................................................... 8-pin µSOIC
SP813MCP .................................................................................... 0°C to +70°C ......................................................................... 8–pin Plastic DIP
SP813MCN .................................................................................... 0°C to +70°C ..................................................................... 8–pin Narrow SOIC
SP813MCU .................................................................................... 0°C to +70°C ................................................................................. 8-pin µSOIC
SP813MEP................................................................................... -40°C to +85 °C ....................................................................... 8–pin Plastic DIP
SP813MEN .................................................................................. -40°C to +85 °C ................................................................... 8–pin Narrow SOIC
SP813MEU .................................................................................. -40°C to +85 °C .............................................................................. 8-pin ¨µSOIC
Corporation
SIGNAL PROCESSING EXCELLENCE
Sipex Corporation reserves the right to make changes to any products described herein. Sipex does not assume any liability arising out of the
application or use of any product or circuit described hereing; neither does it convey any license under its patent rights nor the rights of others.
Please consult the factory for pricing and availability on a Tape-On-Reel option.
Sipex Corporation
Headquarters and
Sales Office
22 Linnell Circle
Billerica, MA 01821
TEL: (978) 667-8700
FAX: (978) 670-9001
e-mail: sales@sipex.com
Sales Office
233 South Hillview Drive
Milpitas, CA 95035
TEL: (408) 934-7500
FAX: (408) 935-7600
