OP162DRU ,6V; 50mA; 15MHz rail-to-rail operational amplifier. For portable instrumentation, sampling ADC amplifier, wirelell LANs, direct access arrangement, office automationapplications; more output current can (S Suffix) (P Suffix)be s ..
OP162GP ,15 MHz Rail-to-Rail Operational Amplifiersapplications andinstrumentation. The low supply current of 500 µ A (typ) is8-Lead TSSOPcritical for ..
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OP162GS-REEL ,15 MHz Rail-to-Rail Operational Amplifier, SingleCHARACTERISTICSOutput Voltage Swing High V I = 250 mA, –40∞C £ T £ +125∞C4.95 4.99 VOH L AI = 5 mA ..
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OP162DRU
6V; 50mA; 15MHz rail-to-rail operational amplifier. For portable instrumentation, sampling ADC amplifier, wirelell LANs, direct access arrangement, office automation
15 MHz Rail-to-Rail
Operational Amplifiers
FEATURES
Wide Bandwidth: 15 MHz
Low Offset Voltage: 325 �V max
Low Noise: 9.5 nV/√Hz @ 1 kHz
Single-Supply Operation: +2.7 V to +12 V
Rail-to-Rail Output Swing
Low TCVOS: 1 �V/�C typ
High Slew Rate: 13 V/�s
No Phase Inversion
Unity Gain Stable
APPLICATIONS
Portable Instrumentation
Sampling ADC Amplifier
Wireless LANs
Direct Access Arrangement
Office Automation
GENERAL DESCRIPTIONThe OP162 (single), OP262 (dual), OP462 (quad) rail-to-rail
15 MHz amplifiers feature the extra speed new designs require,
with the benefits of precision and low power operation. With
their incredibly low offset voltage of 45 µV (typ) and low noise,
they are perfectly suited for precision filter applications and
instrumentation. The low supply current of 500 µA (typ) is
critical for portable or densely packed designs. In addition, the
rail-to-rail output swing provides greater dynamic range and
control than standard video amplifiers provide.
These products operate from single supplies as low as +2.7 V to
dual supplies of ±6 V. The fast settling times and wide output
swings recommend them for buffers to sampling A/D converters.
The output drive of 30 mA (sink and source) is needed for
many audio and display applications; more output current can
be supplied for limited durations.
The OP162 family is specified over the extended industrial
temperature range (–40°C to +125°C). The single OP162
and dual OP262 are available in 8-lead PDIP, SOIC and
TSSOP packages. The quad OP462 is available in 14-lead
PDIP, narrow-body SOIC and TSSOP packages.
PIN CONFIGURATIONS
8-Lead Narrow-Body SO 8-Lead Plastic DIP
(S Suffix) (P Suffix)
NC = NO CONNECT
NULL
NULL
OUT A
–IN A
+IN A
NC = NO CONNECT
NULL
NULL
OUT A
–IN A
+IN A
8-Lead TSSOP
(RU Suffix)
8-Lead Narrow-Body SO 8-Lead Plastic DIP
(S Suffix) (P Suffix)
8-Lead TSSOP
(RU Suffix)
14-Lead Narrow-Body SO 14-Lead Plastic DIP
(S Suffix) (P Suffix)
14-Lead TSSOP
(RU Suffix)REV. C
OP162/OP262/OP462–SPECIFICATIONS
ELECTRICAL CHARACTERISTICSOUTPUT CHARACTERISTICS
POWER SUPPLY
NOISE PERFORMANCE
NOTESLong-term offset voltage is guaranteed by a 1000 hour life test performed on three independent lots at +125°C, with an LTPD of 1.3.Offset voltage drift is the average of the –40°C to +25°C delta and the +25°C to +125°C delta.
Specifications subj]ect to change without notice.
(@ VS = +5.0 V, VCM = 0 V, TA = +25�C, unless otherwise noted)
OP162/OP262/OP462–SPECIFICATIONS
ELECTRICAL CHARACTERISTICSPOWER SUPPLY
NOISE PERFORMANCE
NOTESLong-term offset voltage is guaranteed by a 1000 hour life test performed on three independent lots at +125°C, with an LTPD of 1.3.
Specifications subject to change without notice.
OP162/OP262/OP462
(@ VS = +3.0 V, VCM = 0 V, TA = +25�C, unless otherwise noted)
OP162/OP262/OP462–SPECIFICATIONS
ELECTRICAL CHARACTERISTICSOUTPUT CHARACTERISTICS
POWER SUPPLY
NOISE PERFORMANCE
NOTESLong-term offset voltage is guaranteed by a 1000 hour life test performed on three independent lots at +125°C, with an LTPD of 1.3.Offset voltage drift is the average of the –40°C to +25°C delta and the +25°C to +125°C delta.
Specifications subject to change without notice.
(@ VS = �5.0 V, VCM = 0 V, TA = +25�C, unless otherwise noted)
ABSOLUTE MAXIMUM RATINGSSupply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±6 V
Input Voltage1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±6 V
Differential Input Voltage2 . . . . . . . . . . . . . . . . . . . . . ±0.6 V
Internal Power Dissipation
Plastic DIP (P) . . . . . . . . . . . . . . . Observe Derating Curves
SOIC (S) . . . . . . . . . . . . . . . . . . . Observe Derating Curves
TSSOP (RU) . . . . . . . . . . . . . . . . Observe Derating Curves
Output Short-Circuit Duration . . . . Observe Derating Curves
Storage Temperature Range . . . . . . . . . . . . –65°C to +150°C
Operating Temperature Range . . . . . . . . . . –40°C to +125°C
Junction Temperature Range . . . . . . . . . . . . –65°C to +150°C
Lead Temperature Range (Soldering, 10 sec) . . . . . . . +300°C
NOTESFor supply voltages greater than 6 volts, the input voltage is limited to less than or
equal to the supply voltage.For differential input voltages greater than 0.6 volts the input current should be
limited to less than 5 mA to prevent degradation or destruction of the input devices.θJA is specified for the worst case conditions, i.e., θJA is specified for device in socket
for P-DIP package; θJA is specified for device soldered in circuit board for SOIC and
TSSOP packages.
CAUTIONESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000V readily
accumulate on the human body and test equipment and can discharge without detection.
Although the OP162/OP262/OP462 features proprietary ESD protection circuitry, permanent
damage may occur on devices subjected to high energy electrostatic discharges. Therefore, proper
ESD precautions are recommended to avoid performance degradation or loss of functionality.
ORDERING GUIDE
Figure 2.OP462 Input Offset Voltage
Drift (TCVOS)
Figure 5.OP462 Input Bias Current
vs. Temperature
Figure 8.OP462 Output Low Voltage
vs. Temperature
Figure 3.OP462 Input Bias Current
vs. Common-Mode Voltage
Figure 6.OP462 Input Offset Current
vs. Temperature
Figure 9.OP462 Open-Loop Gain
vs. Temperature
Figure 1.OP462 Input Offset Voltage
Distribution
Figure 4.OP462 Input Offset Voltage
vs. Temperature
Figure 7.OP462 Output High Voltage
vs. Temperature
OP162/OP262/OP462–Typical Characteristics
Figure 10.Output Low Voltage to
Supply Rail vs. Load Current
Figure 13.Open-Loop Gain and
Phase vs. Frequency (No Load)
Figure 16.Settling Time vs. Step Size
Figure 11.Supply Current/Amplifier
vs. Temperature
Figure 14.Closed-Loop Gain vs.
Frequency
Figure 17.Small-Signal Overshoot
vs. Capacitance
Figure 12.OP462 Supply Current/
Amplifier vs. Supply Voltage
Figure 15.Maximum Output Swing
vs. Frequency
Figure 18.Voltage Noise Density vs.
Frequency
OP162/OP262/OP462–Typical CharacteristicsFigure 19.Current Noise Density vs.
Frequency
Figure 22.PSRR vs. Frequency
Figure 25.Small Signal Transient
Response
Figure 20.Output Impedance vs.
Frequency
Figure 23.0.1 Hz to 10 Hz Noise
Figure 26.Large Signal Transient
Response
Figure 21.CMRR vs. Frequency
Figure 24.No Phase Reversal; [VIN =
12 V p-p, VS = ±5 V, AV = 1]
