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AS1710/AS1712
High-Output-Drive, 10MHz, 10V/µs, Rail-to-Rail I/O Op Amps
with Shutdown
www.austriamicrosystems.com/Audio/OpAmps/AS1710_12 Revision 1.9 1 - 19
Datasheet
1 General Description
The AS1710/AS1712 are low-of fset, high-output CMOS op-amps
that deliver 200mA of peak output current from a single supply (2.7V
to 5.5V).
These devices were specifically designed to drive typical headset
levels (32), as well as bias RF power amplifiers for wireless
handset applications.
The devices are available as the standard products shown in
Table 1. See also Ordering Information on page 18.
These rail-to-rail I/O, wide-bandwidth amplifiers exhibit a high slew
rate of 10V/µs and a gain-bandwidth product of 10MHz.
The integrated shutdown feature (not included in B versions) drives
the output low.
These devices operate over the entire industrial temperature range
(-40ºC to +85ºC).
Figure 1. AS1710 - Typical Application
2 Key Features
Constant Output Drive Capability: 50mA
Rail-to-Rail Input and Output
Supply Current: 1.6mA
Single-Supply Operation: 2.7V to 5.5V
Gain-Bandwidth Pro duc t: 10MHz
High Slew Rate: 10V/µs
Voltage Gain: 100dB (RLOAD = 100k)
Power-Supply Rejection Ratio: -85dB
No Phase Reversal for Overdriven Inputs
Unity-Gain Stable for Capacitive Loads: Up to 100pF
Shutdown Mode (AS1710A) Current: 1nA typ
Package Types:
- SC70-6
- SC70-5
-TQFN-16 (3x3mm)
3 Applications
The devices are ideal for portable/battery-powered audio
applications, portable headphone speaker drivers (32), hands-free
mobile phone kits, TFT panels, sound ports/cards, set-top boxes,
biasing controls, DAC converter buffers, transformer/line drivers,
motor drivers, and any other battery-operated audio device.
Table 1. Standard Products
Model Description Package
AS1710A Single Op Amp with Shutdown SC70-6
AS1710B Single Op Amp SC70-5
AS1712A Quad Op Amp with Shutdown TQFN-16
(3x3mm)
VBIAS
RIN Headphone Jack
to 32 Stereo
Headset
CIN
+
–AS1710
RF
RIN
CIN
RF
+
–AS1710
COUT
+
COUT
+
Audio In
Left
Audio In
Right
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AS1710/AS1712
Datasheet - Pin Assignments
4 Pin Assignments
Figure 2. Pin Assignments (Top Vie w)
4.1 Pin Descriptions
Table 2. Pin Descriptions
Pin Number Pin Name Description
See Figure 2
IN+ Non-inverting Input
IN- Inverting Input
VDD Positive Supply Input
VSS Negative Supply Input. This pin must be connected to ground in single-supply applications.
SHDNN Active Low Shutdown Control
OUT Amplifier Output
Exposed Pad Exposed Pad. This pin also functions as a heat sink. Solder it to a large pad or to the circuit-board
ground plane to maximize power dissipation.
4OUT3IN-
2
VSS
1
IN+ 5VDD
AS1710-B
SC70-5
4OUT3IN-
2
VSS
1
IN+ 6VDD
AS1710-A
SC70-6 5SHDNN
14 OUT4
15 OUT1
16 IN1-
13 IN4-
10 IN3+
11 VSS
12 IN4+
9IN3-
6SHDNN1/2
7
SHDNN3/4
8
OUT3
5OUT2
3
IN2+
2VDD
1IN1+
4IN2-
AS1712-A
TQFN-16 (3x3mm)
Exposed Pad
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AS1710/AS1712
Datashe et - A b s o l ute M a x i m u m R a t i 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 Electrical Characteristics on page 4 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
Electrical Parameters
Supply Voltage (VDD to VSS)+7V
Supply Voltage (All Other Pins) VSS
- 0.3 VDD
+ 0.3 V
Output Short-Circuit Duration to
VDD or VSS 1s
Thermal Information
Continuous Power Dissipation SC70-5 247 mW Derate at 31mW/ºC above 70ºC
SC70-6 245
Thermal Resistance JA TQFN-16
(3x3mm) 33 ºC/W on PCB
Temperature Ranges and Storage Conditions
Storage Temperature Range -65 +150 ºC
Junction Temperature +150 ºC
Package Body Temperature +260 ºC
The reflow peak soldering temperature (body
temperature) specified is in accordance with IPC/
JEDEC J-STD-020 “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).
Humidity non-condensing 585%
Moisture Sensitive Level 1 Represents a maximum floor life time of unlimited
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AS1710/AS1712
Datasheet - Electrical Characteristics
6 Electrical Characteristics
All limits are guaranteed. The parameters with Min and Max values are guaranteed by production tests or SQC (Statistical Quality Control)
methods.
6.1 DC Electrical Characteristics
VDD = 2.7V, VSS = 0V, VCM = VDD/2, VOUT = VDD/2, RLOAD = Infinite, VSHDNN = VDD, Typical values at TAMB = 25ºC.
Table 4. DC Electrical Characteristics
Symbol Parameter Condition Min Typ Max Unit
TAMB Operating Temperature Range -40 +85 ºC
VDD Supply Voltage Range Inferred from Power Supply
Rejection Ratio Test 2.7 5.5 V
VOFFSET Input Offset Voltage -3 0.6 +3 mV
IBIAS Input Bias Current VCM = VSS to VDD 501
1. Guaranteed by design.
pA
IOFFSET Input Offset Current VCM = VSS to VDD 501pA
RIN Input Resistance 10001M
VCM Common Mode Input
Voltage Range Inferred from Common Mode
Rejection Ratio1VSS VDD V
CMRR Common Mode
Rejection Ratio VSS < VCM < VDD -45 -70 dB
PSRR Power Supply Rejection Ratio VDD = 2.7 to 5.5V -70 -85 dB
ROUT Shutdown Output Impedance VSHDNN = 0V (A-Versions) 1301
VOUT-SHDNN Shutdown Output Voltage VSHDNN = 0V, RLOAD = 2k to VDD
(A-Versions) 170 300 mV
AVOL Large Signal Voltage Gain VSS + 0.20V < VOUT <
VDD - 0.20V
RLOAD = 100k85 100 dBRLOAD = 2k79 92
RLOAD = 20069 80
VOUT Output Volt age Swin g VDD - VOH or
VOL - VSS
RLOAD = 32350 650 mVRLOAD = 20070 120
RLOAD = 2k920
Output Voltage VDD - VOH or
VOL - VSS
ILOAD = 10mA,
VDD = 2.7V 55 100 mV
ILOAD = 30mA,
VDD = 5V 100 180
IOUT Output Source/Sink Current
VDD = 2.7V,
V- = VCM, V+ = VCM±100mV 100 mA
VDD = 5.0V,
V- = VCM, V+ = VCM±100mV 200
IDD Quiescent Supply Current per
Op Amp Output VDD = 2.7V, VCM = VDD/2 1.6 3.2 mA
VDD = 5.0V, VCM = VDD/2 2.3 4.6
IDD-SHDNN Shutdown Supply Current per
Op Amp (A-Versions) VSHDNN = 0V VDD = 2.7V 1 20001nA
SHDNN Logic Threshold
(A-Versions)
Shutdown Mode VSS +
0.3 V
Normal Operation VDD -
0.3
SHDNN Input Bias Current VSS < VSHDNN < VDD (A-Versions) 501pA
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AS1710/AS1712
Datasheet - Electrical Characteristics
6.2 AC Electrical Characteristics
VDD = 2.7V, VSS = 0V, VCM = VDD/2, VOUT = VDD/2, RLOAD = Infinite, VSHDNN = VDD, Typical values at TAMB = 25ºC.
Table 5. AC Electrical Characteristics
Symbol Parameter Conditions Min Typ Max Units
GBWP Gain-Bandwidth Product VCM = VDD/2 10 MHz
FPBW Full-Power Bandwidth VOUT = 2VP-P, VDD = 5V 2.5 MHz
SR Slew Rate 10 V/µs
PM Phase Margin 70 deg
GM Gain Margin115 dB
THD+N Total Harmonic Distortion
Plus Noise f = 10kHz, VOUT = 2VP-P, AVCL = 1V/V 0.05 %
CIN Input Capacitance 6 pF
en Voltage -Noi se Density1
1. Guaranteed by design.
f = 1kHz 15 nV/Hz
f = 10kHz 10
Capacitive-Load Stability AVCL = 1V/V, no sustained oscillations 100 pF
tSHDN Shutdown Time
(AS1710A) 1 µs
tENABLE Enable Time from Shutdown
(AS1710A) 7µs
tON Power-Up Time 20 ns
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AS1710/AS1712
Datasheet - Typical Operating Characteristics
7 Typical Operating Characteristics
VDD = 2.7V; VSS = 0V, VCM = VDD/2, VOUT = VDD/2, RLOAD = , VSHDNN = VDD TAMB = +25ºC (unless otherwise specified).
Figure 3. Gain and Phase vs. Frequency Figure 4. Gain and Phase vs. Frequency, CLOAD = 100pF
Figure 5. PSRR vs. Frequency Figure 6. CMRR vs. Frequency
-40
-20
0
20
40
60
80
100
120
0.001 0.1 10 1000 100000
F r equenc y (k Hz)
Gain (dB) .
0
40
80
120
160
200
240
280
320
P hase (deg)
-40
-20
0
20
40
60
80
100
120
0.001 0.1 10 1000 100000
F r equenc y (k Hz)
Gain (dB) .
0
40
80
120
160
200
240
280
320
P hase (deg)
Gain
Phase
Gain
Phase
0
10
20
30
40
50
60
70
80
90
100
0,001 0,1 10 1000
Fr equenc y ( k Hz)
PSRR (dB) .
0
10
20
30
40
50
60
70
80
90
100
0.001 0.1 10 1000
Fr equenc y ( k Hz)
CM RR ( dB ) .
PSRR pos
PSRR neg CMRR
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AS1710/AS1712
Datasheet - Typical Operating Characteristics
Figure 7. Supply Current vs. Temperature Figure 8. Shutdown Current vs. Temperature
Figure 9. Supply Current vs. Common-Mode Voltage Figure 10. Input Voltage Noise vs. Frequency
Figure 11. Output Voltage vs. Output Current, sourcing Figure 12. Output Voltage vs. Output Current, sinking
0
0.5
1
1.5
2
2.5
3
3.5
4
-45 -20 5 30 55 80 105 130
Temperature ( ° C)
Supply Cur r ent (m A ) .
5V
2.7V
0.1
1
10
100
1000
-45 -20 5 30 55 80 105 130
T emper at ur e ( °C)
S hut down Cur r ent ( nA ) .
0
0.5
1
1.5
2
2.5
3
012345
Common-Mode Volt age (V)
Supply Cur r ent (m A ) .
2.7V
5V
1
10
100
1000
0.001 0.1 10 1000
F r equency (k Hz)
I nput Voltage Noise ( nV/ Hz) .
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
0 50 100 150 200 250
O utput Cur rent (mA)
O utput V olt age ( V ) .
2.7V
5V
t<1s
t>10s
t>10s
t<1s
0
0.25
0.5
0.75
1
1.25
1.5
1.75
0 50 100 150 200
Output Current (mA )
O utput V olt age ( V ) .
2.7V
5V
t>10s
t<1s
t>10s
t<1s
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AS1710/AS1712
Datasheet - Typical Operating Characteristics
Figure 13. Output Swing High vs. Temperature Figure 14. Output Swing Low vs. Temperature
Figure 15. Transient Response, 100mV, 10pF load Figure 16. Transient Response, 100mV, 100pF load
Figure 17. Transient Response, 1V, 10pF load Figure 18. Transient Response, 1V, 100pF load
40
50
60
70
80
90
100
-45 -20 5 30 55 80 105 130
Temperature ( ° C)
VOUT - VSS (mV) .
40
50
60
70
80
90
100
-45 -20 5 30 55 80 105 130
Temperature ( ° C)
VOUT - VSS (mV) .
10mA
200
10mA
200
500ns/Div
OUT
50mV/DIV
IN
500ns/Div
OUT
50mV/DIV
IN
500ns/Div
OUT
500mV/DIV
IN
500ns/Div
OUT
500mV/DIV
IN
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AS1710/AS1712
Datasheet - Application Informatio n
8 Application Information
8.1 Package Power Dissipation
Caution: Due to the high output current drive, this op-amp can exceed the absolute maximum power-dissipation rating. Normally, when peak
current is less than or equal to 40mA the maximum package power dissipation is not exceeded for any of the package types
offered.
The absolute maximum power-dissipation rating of each package should always be verified. (EQ 1) gives an approximation of the package
power dissipation:
PPACKAGEDISS
VRMS IRMS COS
(EQ 1)
Where:
VRMS is the RMS voltage from VDD to VOUT when sourcing current, and from VOUT to VSS when sinking current.
IRMS is the RMS current flowing in or out of the op-amp and the load.
is the phase difference between the voltage and the current. For resistive loads, COS = 1.
Figure 21. Typical AS1710/AS1712 Single-Supply Application
VRMS can be calculated as:
VRMS
(VDD - VDC) + VPEAK /
2(EQ 2)
Where:
VDC is the DC component of the output voltage.
VPEAK is the highest positive excursion of the AC component of the output voltage.
For the circuit shown in Figure 21:
VRMS = (3.6V - 1.8V) + 1.0V/2 = 2.507VRMS
IRMS can be calculated as:
IRMS
IDC + (IPEAK/
2) (EQ 3)
Where:
IDC is the DC component of the output current.
IPEAK is the highest positive excursion of the AC component of the output current.
For the circuit shown in Figure 21:
IRMS = (1.8V/32) + (1.0V/32)/
2 = 78.4mARMS
Therefore, for the circuit in Figure 21 the package power dissipation can be calculated as:
PPACKAGEDISS = VRMS IRMS COS = 196mW
Adding a coupling capacitor improves the package power dissipation because there is no DC current to the load, as shown in Figure 22 on
page 11.
VIN = 2VP-P
R
+
–
RAS1710
32
C
3.6V
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AS1710/AS1712
Datasheet - Application Informatio n
8.2 60mW Single-Supply Stereo Headphone Driver
Two AS1710 amplifiers can be used as a single-supply, stereo headphone driver. The circuit shown in Figure 22 can deliver 60mW per channel
with 1% distortion from a single 5V supply.
Figure 22. Stereo Headphone Driver Application (with Coupling Capacitor)
In Figure 22, CIN and RIN form a high-pass filter t hat removes the DC bias f r om the incoming signal. The -3dB point of the high-pass filter is
given by:
f-3dB = 1/(2
RINCIN)(EQ 4)
Choose gain-setting resistors RIN and RF according to the amount of desired gain, keeping in mind the maximum output amplitude.
COUT blocks the DC component of the amplifier output, preventing DC current flowing to the load. The output capacitor and the load impedance
form a high-pass filter with the -3dB point determined by:
f-3dB = 1/(2
RLOADCOUT)(EQ 5)
For a 32 load, a 100µF aluminum electrolytic capacitor gives a low-frequency pole at 50Hz.
8.3 Rail-to-Rail Input Stage
The AS1710/AS1712 CMOS op-amps have parallel connected N- and P-channel differential input stages that combine to accept a common-
mode range extending to both supply rails. The N-channel stage is active for common-mode input voltages typically greater than (VSS + 1.2V),
and the p-channel stage is active for common-mode input voltages typically less than (VDD - 1.2V).
8.4 Rail-to-Rail Output Stage
The minimum output is within millivolts of ground for single- supply operation, where the load is referenced to ground (VSS). Figure 23 shows the
input voltage range and the output voltage swing of an AS1710 connected as a voltage follower. The maximum output voltage swing is load
dependent although it is guaranteed to be within 500mV of the positive rail (VDD = 2.7V) even with maximum load (32 to ground).
VBIAS
RIN Headphone Jack to
32 Stereo Headset
CIN
+
–AS1710
RF
RIN
CIN
RF
+
–AS1710
COUT
+
COUT
+
Audio In
Left
Audio In
Right
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AS1710/AS1712
Datasheet - Application Informatio n
Figure 23. Rail-to-Rail Input/Output Range, 100kFigure 24. Rail-to-Rail Input/Output Range, 32
Note: The absolute maximum ratings (see page 3) for power dissipation and output short-circuit duration (10s, max) must be adhered to
since the output current can exceed 200mA (see Typical Operating Characteristics on page 6).
8.5 Input Capacitance
The parallel-connected differential input stages for rail-to-rail operation results in relatively large input capacitance CIN (6pF typ). This introduces
a pole at frequency (2RCIN)-1, where R is the parallel combination of the gain-setting resistors for the inverting or non-inverting amplifier
configuration (Figure 25). If the pole frequency is less than or comparable to the unity-gain bandwidth (10MHz), the phase margin is reduced,
and the amplifier exhibits degraded AC performance through either ringing in the step response or sustained oscillations.
Figure 25. Inverting and Non-inverting Amplifiers with Feedback Compensation
The pole frequency is 10MHz when R = 2k. To maximize stability, R << 2k is recommended.
To improve step response when R > 2k, connect a small capacitor (CF) between the inverting input and output. CF can be calculated by:
CF = 6(R/RF) [pf] (EQ 6)
Where:
RF is the feedback resistor.
R is the gain-setting resistor.
2.5µs/Div
OUT
1V/DIV
IN
2.5µs/Div
OUT
1V/DIV
IN
VCC = 3.0V , RLOAD
= 32
VCC = 3.0V, RLOAD
= 100k
VIN
RF
–
+
AS1710
CF
VOUT
R
R = R II RF
RFCF = RCIN
Inverting
VIN
RF
–
+
AS1710
CF
VOUT
R
Non-Inverting
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AS1710/AS1712
Datasheet - Application Informatio n
8.6 Driving Capacitive Loads
The AS1710/AS1712 amplifiers have a high tolerance for capacitive loads, and are stable with capacitive loads up to 100pF.
Figure 26 shows a typical non-inverting capacitive-load driving circuit in the unity-gain configuration.
Figure 26. Capacitive-Load Driving Circuit
Note: Resistor RISO improves the circuit’s phase margin by isolating the load capacitor from the AS1710/AS1712 output.
8.7 Power-Up
The AS1710/AS1712 typically settle within 5µs after power-up.
8.8 Shutdown
When SHDNN (not included in B versions) is pulled low, supply current drops to 0.5µA (per amplifier, VDD = 2.7V), the amplifiers are disabled,
and their outputs are driven to VSS. Because the outputs are actively driven to VSS in shutdown, any pull-up resistor on the output causes a
current drain from the supply.
Note: Pulling SHDNN high enables the amplifier. In the AS1712 the amplifiers shutdown in pairs.
When exiting shutdown, there is a 6µs delay before the amplifier output becomes active.
8.9 Power Supplies and Layout
The AS1710/AS1712 can operate from a single 2.7 to 5.5V supply or from dual ±1.35 to ±2.5V supplies. Good design improves device
performance by decreasing the amount of stray capacitance at the op-amp inputs/outputs.
For single-supply operation, bypass the power supply with a 0.1µF ceramic capacitor.
For dual-supply operation, bypass each supply to ground.
Decrease stray capacitance by placing external components close to the op-amp pins, minimizing trace and lead lengths.
RISO
–
+
AS1710
CF
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AS1710/AS1712
Datasheet - Package Drawings and Markings
9 Package Drawings and Markings
The devices are available in a SC70-5, SC70-6, and TQFN-16 (3x3mm) package.
Figure 27. SC70-5 Package
Symbol Min Nom Max
A--1.10
A1 - - 0.10
A2 0.70 0.90 1.00
b0.15-0.30
c0.08-0.22
D 2.00 BSC
E 2.10 BSC
E1 1.25 BSC
e 0.65 BSC
e1 1.30 BSC
L 0.26 0.36 0.46
L1 0.42 REF
L2 0 . 15 BSC
R0.10- -
R1 0.10 - 0.25
0º 4º 8º
14º - 12º
aaa - 0.15 -
bbb - 0.30 -
ccc - 0.10 -
ddd - 0.10 -
N5
Notes:
1. Dimensions and tolerancing conform to ASME Y14.5M-1994.
2. All dimensions are in millimeters. Angles are in degrees.
3. Datums A and B to be determined at datum H.
AAB
XXX
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AS1710/AS1712
Datasheet - Package Drawings and Markings
Figure 28. SC70-6 Package
Symbol Min Nom Max
A--1.10
A1 - - 0.10
A2 0.70 0.90 1.00
b 0.15 - 0.30
c 0.08 - 0.22
D 2.00 BSC
E 2.10 BSC
E1 1.25 BSC
e 0.65 BSC
e1 1.30 BSC
L 0.260.360.46
L1 0.42 REF
L2 0.15 BSC
R0.10- -
R1 0.10 - 0.25
0º 4º 8º
14º - 12º
aaa - 0.15 -
bbb - 0.30 -
ccc - 0.10 -
ddd - 0.10 -
N6
Notes:
1. Dimensions and tolerancing conform to ASME Y14.5M-1994.
2. All dimensions are in millimeters. Angles are in degrees.
3. Datums A and B to be determined at datum H.
AAA
XXX
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AS1710/AS1712
Datasheet - Package Drawings and Markings
Figure 29. TQFN-16 (3x3mm)
Symbol Min Nom Max
A 0.70 0.75 0.80
A1 0 0.02 0.05
A3 0.20 REF
L 0.30 0.40 0.50
b 0.18 0.25 0.30
D 3.00 BSC
E 3.00 BSC
e 0.50 BSC
D2 1.30 1.45 1.55
E2 1.30 1.45 1.55
aaa - 0.15 -
bbb - 0.10 -
ccc - 0.10 -
ddd - 0.05 -
eee - 0.08 -
fff - 0.10 -
N16
Notes:
1. Dimensions and tolerancing conform to ASME Y14.5M-1994.
2. All dimensions are in millimeters. Angles are in degrees.
3. Coplanarity applies to the exposed heat slug as well as the terminal.
4. Radius on terminal is optional.
5. N is the total number of terminals.
XXXX
AS08
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AS1710/AS1712
Datasheet - Package Drawings and Markings
Revision History
Note: Typos may not be explicitly mentioned under revision history.
Revision Date Owner Description
1.8 - - Initial revision
1.9 01 Aug, 2011 afe Updated Electrical Characteristics (page 4), Package Drawings and
Markings(page 14).
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AS1710/AS1712
Datasheet
10 Ordering Information
The device is available as the standard products shown in Table 6.
Note: All products are RoHS compliant and austriamicrosystems green.
Buy our products or get free samples online at ICdirect: http://www.austriamicrosystems.com/ICdirect
Technical Support is available at http://www.austriamicrosystems.com/Technical-Support
For further information and requests, please contact us mailto:sales@austriamicrosystems.com
or find your local distributor at http://www.austriamicrosystems.com/distributor
Table 6. Ordering Information
Ordering Code Marking Description Delivery Form Package
AS1710A-ASCT AAA Single Op Amp with Shutdown Tape and Reel SC70-6
AS1710B-ASCT AAB Single Op Amp Tape and Reel SC70-5
AS1712A-AQFT ASO8 Quad Op Amp with Shutdown Tape and Reel TQFN-16 (3x3mm)
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www.austriamicrosystems.com/Audio/OpAmps/AS1710_12 Revision 1.9 19 - 19
AS1710/AS1712
Datasheet - Ordering Information
Copyrights
Copyright © 1997-2011, austriamicrosystems AG, Tobelbaderstrasse 30, 8141 Unterpremstaetten, Austria-Europe. Trademarks Registered ®.
All rights reserved. The material herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of
the 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 Sale.
austriamicrosystems AG makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding
the freedom of the described devices from patent infringement. austriamicrosystems 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 applications. Applications requiring 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 location.
The information furnished here by austriamicrosystems AG is believed to be correct and accurate. However, austriamicrosystems AG shall not
be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use,
interruption of business or indirect, special, incidental or consequential damages, of any kind, in connection with or arising out of the furnishing,
performance or use of the technical data herein. No obligation or liability to recipient or any third party shall arise or flow out of
austriamicrosystems AG rendering of technical or other services.
Contact Information
Headquarters
austriamicrosyste ms AG
Tobelbaderstrasse 30
A-8141 Unterpremstaetten, Austria
Tel: +43 (0) 3136 500 0
Fax: +43 (0) 3136 525 01
For Sales Offices, Distributors and Representa tive s, plea se vis it:
http://www.austriamicrosystems.com/contact
ams AG
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