OPA2363IDGSRG4 [TI]

1.8V, 7MHz, 90dB CMRR, Single-Supply, Rail-to-Rail I/O Operational Amplifier; 1.8V ， 7MHz的， 90分贝共模抑制比，单电源，轨到轨输入/输出运算放大器


型号：	OPA2363IDGSRG4
厂家：	TEXAS INSTRUMENTS
描述：	1.8V, 7MHz, 90dB CMRR, Single-Supply, Rail-to-Rail I/O Operational Amplifier 1.8V ， 7MHz的， 90分贝共模抑制比，单电源，轨到轨输入/输出运算放大器运算放大器放大器电路光电二极管
文件：	总38页 (文件大小：1464K)
中文：	中文翻译
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OPA363, OPA2363

OPA364, OPA2364, OPA4364

www.ti.com

SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

1.8V, 7MHz, 90dB CMRR,

Single-Supply, Rail-to-Rail I/O

Operational Amplifier

Check for Samples: OPA363, OPA2363, OPA364, OPA2364, OPA4364

FEATURES

DESCRIPTION

The OPA363 and OPA364 families are high-

•

1.8V Operation

performance CMOS operational amplifiers optimized

for very low voltage, single-supply operation. These

miniature, low-cost amplifiers are designed to operate

on single supplies from 1.8V (±0.9V) to 5.5V

(±2.75V). Applications include sensor amplification

and signal conditioning in battery-powered systems.

MicroSize Packages

Bandwidth: 7MHz

CMRR: 90dB (typical)

Slew Rate: 5V/μs

Low Offset: 500μV (max)

Quiescent Current: 750μA/Channel (max)

Shutdown Mode: < 1µA/Channel

The OPA363 and OPA364 families offer excellent

CMRR without the crossover associated with

traditional complimentary input stages. This results in

excellent performance for driving Analog-to-Digital

(A/D) converters without degradation of differential

linearity and THD. The input commonmode range

includes both the negative and positive supplies. The

output voltage swing is within 10mV of the rails.

APPLICATIONS

•

Signal Conditioning

Data Acquisition

Process Control

Active Filters

The OPA363 family includes a shutdown mode.

Under logic control, the amplifiers can be switched

from normal operation to a standby current that is

less than 1μA.

Test Equipment

OPA363

OPA364

OPA2363 OPA2364 OPA4364

The single version is available in the MicroSize

SOT23-5 (SOT23-6 for shutdown) and SO-8. The

dual version is available in MSOP-8, MSOP-10,

UQFN-16. and SO-8 packages. Quad packages are

available in TSSOP-14 and SO-14 packages. All

versions are specified for operation from –40°C to

+125°C.

SOT23-5

SOT23-6

MSOP-8

MSOP-10

SO-8

TSSOP-14

SO-14

UQFN-16

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of

Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

All trademarks are the property of their respective owners.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of the Texas

Instruments standard warranty. Production processing does not

necessarily include testing of all parameters.

OPA363, OPA2363

OPA364, OPA2364, OPA4364

SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

www.ti.com

This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with

appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.

ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more

susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.

PACKAGE AND ORDERING INFORMATION⁽¹⁾

(1) For the most current package and ordering information, see the Package Option Addendum at the end of this document, or visit the

device product folder at www.ti.com.

ABSOLUTE MAXIMUM RATINGS⁽¹⁾

Over operating free-air temperature range, unless otherwise noted.

VALUE

+5.5

UNIT

Supply voltage

Voltage⁽²⁾

Current⁽²⁾

–0.5 to (V+) + 0.5

±10

Signal input terminals

°C

Output short-circuit⁽³⁾

Continuous

–40 to +150

–65 to +150

+150

Operating temperature, T_A

Storage temperature, T_stg

Junction temperature, T_J

°C

(1) Stresses above these ratings may cause permanent damage. Exposure to absolute maximum conditions for extended periods may

degrade device reliability. These are stress ratings only, and functional operation of the device at these or any other conditions beyond

those specified is not implied.

(2) Input terminals are diode-clamped to the power-supply rails. Input signals that can swing more than 0.5V beyond the supply rails should

be current limited to 10mA or less.

(3) Short-circuit to ground, one amplifier per package.

ELECTRICAL CHARACTERISTICS: V_S= +1.8V to +5.5V

Boldface limits apply over the specified temperature range, T_A= –40°C to +125°C.

At T_A= +25°C, R_L= 10kΩ connected to V_S/2, V_OUT= V_S/2, and V_CM= V_S/2, unless otherwise noted.

OPAx363, OPAx364

PARAMETER

CONDITIONS

MIN

TYP

MAX

UNIT

OFFSET VOLTAGE

Input Offset Voltage, OPA363I, OPA364I

OPA2363I, OPA2364I

V_OS

V_S= +5V

500

900

2.5

μV

OPA363AI, OPA364AI, OPA2363AI, OPA2364AI,

OPA4364AI

Drift

dV_OS/dT

PSRR

μV/°C

μV/V

vs Power Supply

V_S= 1.8V to 5.5V, V_CM= 0

330

Channel Separation, dc

INPUT BIAS CURRENT

Input Bias Current

I_B

±1

±10

over Temperature

See Typical Characteristics

Input Offset Current

I_OS

±1

±10

NOISE

Input Voltage Noise, f = 0.1Hz to 10Hz

Input Voltage Noise Density, f = 10kHz

Input Current Noise Density, f = 10kHz

INPUT VOLTAGE RANGE

Common-Mode Voltage Range

Common-Mode Rejection Ratio

e_n

i_n

µV_PP

nV/√Hz

fA/√Hz

0.6

V_CM

(V–) – 0.1

(V+) + 0.1

CMRR

(V−) – 0.1V < V_CM< (V+) + 0.1V

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OPA363, OPA2363

OPA364, OPA2364, OPA4364

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SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

ELECTRICAL CHARACTERISTICS: V_S= +1.8V to +5.5V (continued)

Boldface limits apply over the specified temperature range, T_A= –40°C to +125°C.

At T_A= +25°C, R_L= 10kΩ connected to V_S/2, V_OUT= V_S/2, and V_CM= V_S/2, unless otherwise noted.

OPAx363, OPAx364

PARAMETER

INPUT CAPACITANCE

CONDITIONS

MIN

TYP

MAX

UNIT

Differential

Common-Mode

OPEN-LOOP GAIN

Open-Loop Voltage Gain

OPA4364AI

R_L= 10kΩ, 100mV < V_O< (V+) – 100mV

A_OL

100

over Temperature

FREQUENCY RESPONSE

Gain-Bandwidth Product

Slew Rate

V_S= 1.8V to 5.5V

C_L= 100pF

GBW

t_S

MHz

V/μs

µs

G = +1

Settling Time, 0.1%

0.01%

V_S= +5V, 4V Step, G = +1

V_IN· Gain > V_S

1.5

0.8

0.002

µs

Overload Recovery Time

Total Harmonic Distortion + Noise

OUTPUT

µs

THD+N

V_S= +5V, G = +1, f = 20Hz to 20kHz

Voltage Output Swing

Over Temperature

Short-Circuit Current

Capacitive Load Drive

SHUTDOWN (for OPAx363)

t_OFF

R_L= 10kΩ

I_SC

See Typical Characteristics

C_LOAD

µs

(1)

t_ON

Vl (shutdown)

(V–) + 0.8

Vh (amplifier is active)

I_QSD

0.75 (V+)

1.8

5.5

0.9

µA

POWER SUPPLY

Specified Voltage Range

Operating Voltage Range

Quiescent Current (per amplifier)

V_S

I_Q

5.5

1.8 to 5.5

650

V_S= +1.8V

V_S= +3.6V

V_S= +5.5V

750

1000

1.4

µA

850

1.1

TEMPERATURE RANGE

Specified Range

–40

–65

+125

+150

°C

Operating Range

Storage Range

Thermal Resistance

SOT23-5, SOT23-6

MSOP-8, MSOP-10, SO-8

TSSOP-14, SO-14

θ_JA

200

150

100

°C/W

(1) Part is considered enabled when input offset voltage returns to specified range.

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SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

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PIN CONFIGURATION

OPA363⁽¹⁾: DBV PACKAGE

SOT23-6

OPA2363: RSV PACKAGE

UQFN-16

(TOP VIEW)

VOUT

V-

V+

Enable

-In

16 15 14 13

+In

Enable B

Enable A

OPA364⁽¹⁾: DBV PACKAGE

SOT23-5

(TOP VIEW)

V_OUT

V-

V+

+In

-In

OPA2364: DGK, D PACKAGES

MSOP-8, SO-8

OPA363: D PACKAGE

SO-8

(TOP VIEW)

Out A

-In A

+In A

V-

V+

-In

+In

V-

Enable

V+

Out B

-In B

+In B

V_OUT

OPA4364: D, PW PACKAGES

SO-14, TSSOP-14

OPA364: D PACKAGE

SO-8

(TOP VIEW)

V_OUT

14 V_OUTD

V+

-In A

+In A

V+

13 -In D

12 +In D

11 V-

-In

+In

V-

V_OUT

+In B

-In B

10 +In C

-In C

V_OUT

V_OUTC

OPA2363: DGS PACKAGE

MSOP-10

(TOP VIEW)

(1) Orient according to marking.

NOTE: NC = No internal connection.

V_OUT

10 +V

-In A

+In A

V_OUTB

-In B

-V

+In B

Enable A

Enable B

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SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

TYPICAL CHARACTERISTICS

At T_A= +25°C, R_L= 10kΩ connected to V_S/2, V_OUT= V_S/2, and V_CM= V_S/2, unless otherwise noted.

OPEN-LOOP GAIN AND PHASE

vs FREQUENCY

COMMON-MODE REJECTION RATIO

vs FREQUENCY

120

100

-30

-60

-90

-120

-150

-180

-20

100

10k

100k

10M

100M

100

10k

100k

10M

Frequency (Hz)

Figure 1.

Figure 2.

POWER-SUPPLY REJECTION RATIO

vs FREQUENCY

QUIESCENT CURRENT

vs SUPPLY VOLTAGE

100

1.4

1.2

1.0

0.8

0.6

0.4

Per Amplifier

100

10k

100k

10M

1.5

2.0

2.5

3.0

3.5

4.0

4.5

5.0

5.5

6.0

Frequency (Hz)

Supply Voltage (V)

Figure 3.

Figure 4.

TOTAL HARMONIC DISTORTION + NOISE RATIO

vs FREQUENCY

TOTAL HARMONIC DISTORTION + NOISE RATIO

vs FREQUENCY

0.1

G = 10, R_L= 2kW

V_OUT= -10dBv

(V_S= 5V, V_OUT= 1Vrms)

V_S= 5V

G = 10, R_L= 2kW

V_S= 1.8V

0.1

0.01

G = 10, R_L= 2kW

G = 10, R_L= 10kW

0.01

V_S= 1.8V, 5V

G = 10, R_L= 10kW

G = 1,

0.001

0.0001

0.001

0.0001

G = 1, R_L= 2kW

R_L= 10kW

V_S= 1.8V, 5V

G = 1,

R_L= 2kW

V_S= 5V

G = 1, R_L= 2kW

G = 1, R_L= 10kW

V_S= 1.8V

100

10k

100k

100

10k

100k

Frequency (Hz)

Figure 5.

Figure 6.

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TYPICAL CHARACTERISTICS (continued)

At T_A= +25°C, R_L= 10kΩ connected to V_S/2, V_OUT= V_S/2, and V_CM= V_S/2, unless otherwise noted.

INPUT VOLTAGE NOISE SPECTRAL DENSITY

SHORT-CIRCUIT CURRENT

vs FREQUENCY

vs SUPPLY VOLTAGE

1000

100

120

100

+I_SC

-I_SC

100

10k

100k

1.5

2.0

2.5

3.0

3.5

4.0

4.5

5.0

5.5

125

Frequency (Hz)

Supply Voltage (V)

Figure 7.

Figure 8.

OUTPUT VOLTAGE SWING

vs OUTPUT CURRENT

INPUT BIAS CURRENT

vs INPUT COMMON-MODE VOLTAGE

V_S= ±2.5V

V_S= ±1.65V

-2

-4

-6

-8

-10

V_S= ±0.9V

V_CM= +5.1V

-1

-2

-3

T_A= -40°C

T_A= +25°C

T_A= +125°C

V_S= ±1.65V

V_CM= -0.1V

V_S= ±2.5V

±10 ±20 ±30 ±40 ±50 ±60 ±70 ±80 ±90 ±100

-0.5

0.5

1.5

2.5

3.5

4.5

Output Current (mA)

Common-Mode Voltage (V)

Figure 9.

Figure 10.

INPUT OFFSET CURRENT

vs TEMPERATURE

INPUT BIAS CURRENT

vs TEMPERATURE

10k

100

-50

-25

100

125

-50

-25

100

Temperature (°C)

Figure 11.

Figure 12.

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SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

TYPICAL CHARACTERISTICS (continued)

At T_A= +25°C, R_L= 10kΩ connected to V_S/2, V_OUT= V_S/2, and V_CM= V_S/2, unless otherwise noted.

SMALL-SIGNAL OVERSHOOT

vs LOAD CAPACITANCE

SETTLING TIME

vs CLOSED-LOOP GAIN

100

0.01%

0.1%

G = +1

G = +10

0.1

100

Load Capacitance (pF)

Closed-Loop Gain (V/V)

Figure 13.

Figure 14.

OFFSET DRIFT DISTRIBUTION

OFFSET VOLTAGE PRODUCTION DISTRIBUTION

Typical Production

Distribution of

OPA36xAI

Packaged Units

> 10

-2.5

-2.0

-1.0

1.0

2.0

2.5

Offset Voltage Drift (mV/°C)

Offset Voltage (mV)

Figure 15.

Figure 16.

OUTPUT ENABLE CHARACTERISTIC

(V_S= 5V, V_OUT= 20kHz Sinusoid)

CHANNEL SEPARATION vs FREQUENCY

130

120

110

100

50ms/div

100

10k

100k

10M

Frequency (Hz)

Figure 17.

Figure 18.

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TYPICAL CHARACTERISTICS (continued)

At T_A= +25°C, R_L= 10kΩ connected to V_S/2, V_OUT= V_S/2, and V_CM= V_S/2, unless otherwise noted.

SMALL-SIGNAL STEP RESPONSE

LARGE-SIGNAL STEP RESPONSE

(C_L= 100pF)

250ns/div

1ms/div

Figure 19.

Figure 20.

APPLICATION INFORMATION

The OPA363 and OPA364 series op amps are rail-to-rail operational amplifiers with excellent CMRR, low noise,

low offset, and wide bandwidth on supply voltages as low as ±0.9V. The OPA363 features an additional pin for

shutdown/ enable function. These families do not exhibit phase reversal and are unity-gain stable. Specified over

the industrial temperature range of –40°C to +125°C, the OPA363 and OPA364 families offer precision

performance for a wide range of applications.

RAIL-TO-RAIL INPUT

The OPA363 and OPA364 feature excellent rail-to-rail operation, with supply voltages as low as ±0.9V. The input

common-mode voltage range of the OPA363 and OPA364 family extends 100mV beyond supply rails. The

unique input topology of the OPA363 and OPA364 eliminates the input offset transition region typical of most rail-

to-rail complimentary stage operational amplifiers, allowing the OPA363 and OPA364 to provide superior

common-mode performance over the entire common-mode input range, as seen in Figure 21. This feature

prevents degradation of the differential linearity error and THD when driving A/D converters. A simplified

schematic of the OPA363 and OPA364 is shown in Figure 22.

1.0

OPA363 and OPA364

0.5

-0.5

-1.0

-1.5

-2.0

Competitors

-2.5

-3.0

-3.5

-0.2

0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0

Common-Mode Voltage (V)

Figure 21. OPA363 and OPA364 have Linear Offset Over Entire Common-Mode Range

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SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

V_S

Regulated

Charge Pump

V_OUT= V_CC+1.8V

V_CC+ 1.8V

Patent Pending

Very Low Ripple

Topology

I_BIAS

V_OUT

V_IN

V_IN+

I_BIAS

Figure 22. Simplified Schematic.

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OPERATING VOLTAGE

The OPA363 and OPA364 series op amp parameters are fully specified from +1.8V to +5.5V. Single 0.1μF

bypass capacitors should be placed across supply pins and as close to the part as possible. Supply voltages

higher than 5.5V (absolute maximum) may cause permanent damage to the amplifier. Many specifications apply

from –40°C to +125°C. Parameters that vary significantly with operating voltages or temperature are shown in

the Typical Characteristics.

ENABLE FUNCTION

The shutdown (enable) function of the OPA363 is referenced to the negative supply voltage of the operational

amplifier. A logic level HIGH enables the op amp. A valid logic HIGH is defined as voltage greater than 75% of

the positive supply applied to the enable pin. The valid logic HIGH signal can be as much as 5.5V above the

negative supply, independent of the positive supply voltage. A valid logic LOW is defined as less than 0.8V

above the negative supply pin. If dual or split power supplies are used, care should be taken to ensure logic input

signals are properly referred to the negative supply voltage. This pin should be connected to a valid high or low

voltage or driven, not left open circuit.

The logic input is a high-impedance CMOS input. Dual op amps are provided separate logic inputs. For battery-

operated applications, this feature may be used to greatly reduce the average current and extend battery life.

The enable time is 20μs; disable time is 1μs. When disabled, the output assumes a high-impedance state. This

allows the OPA363 to be operated as a “gated” amplifier, or to have its output multiplexed onto a common

analog output bus.

CAPACITIVE LOAD

The OPA363 and OPA364 series op amps can drive a wide range of capacitive loads. However, all op amps

under certain conditions may become unstable. Op amp configuration, gain, and load value are just a few of the

factors to consider when determining stability. An op amp in unity-gain configuration is the most susceptible to

the effects of capacitive load. The capacitive load reacts with the output resistance of the op amp to create a

pole in the small-signal response, which degrades the phase margin.

In unity gain, the OPA363 and OPA364 series op amps perform well with a pure capacitive load up to

approximately 1000pF. The ESR (Equivalent Series Resistance) of the loading capacitor may be sufficient to

allow the OPA363 and OPA364 to directly drive very large capacitive loads (> 1μF). Increasing gain enhances

the amplifier’s ability to drive more capacitance; see Figure 13.

One method of improving capacitive load drive in the unity-gain configuration is to insert a 10Ω to 20Ω resistor in

series with the output, as shown in Figure 23. This significantly reduces ringing with large capacitive loads.

However, if there is a resistive load in parallel with the capacitive load, it creates a voltage divider introducing a

dc error at the output and slightly reduces output swing. This error may be insignificant. For instance, with R_L=

10kΩ and R_S= 20Ω, there is only about a 0.2% error at the output.

V+

R_S

OPAx363

V_OUT

OPAx364

10W to

20W

V_IN

C_L

R_L

Figure 23. Improving Capacitive Load Drive

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INPUT AND ESD PROTECTION

All OPA363 and OPA364 pins are static protected with internal ESD protection diodes tied to the supplies. These

diodes will provide overdrive protection if the current is externally limited to 10mA, as stated in the absolute

maximum ratings and shown in Figure 24.

V+

I_OVERLOAD

10mA max

V_OUT

OPAx363

V_IN

5kW

Figure 24. Input Current Protection

ACHIEVING OUTPUT SWING TO THE OP AMP’S NEGATIVE RAIL

Some applications require an accurate output voltage swing from 0V to a positive full-scale voltage. A good

single supply op amp may be able to swing within a few mV of single supply ground, but as the output is driven

toward 0V, the output stage of the amplifier will prevent the output from reaching the negative supply rail of the

amplifier.

The output of the OPA363 or OPA364 can be made to swing to ground, or slightly below, on a single supply

power source. To do so requires use of another resistor and an additional, more negative power supply than the

op amp’s negative supply. A pulldown resistor may be connected between the output and the additional negative

supply to pull the output down below the value that the output would otherwise achieve as shown in Figure 25.

V+ = +5V

OPA363

OPA364

V_OUT

V_IN

500mA

R_P= 10kW

Op Amp

Negative

Supply

-V = -5V

(Additional

Grounded

Negative Supply)

Figure 25. OPA363 and OPA364 Swing to Ground

This technique will not work with all op amps. The output stage of the OPA363 and OPA364 allows the output

voltage to be pulled below that of most op amps, if approximately 500μA is maintained through the output stage.

To calculate the appropriate value load resistor and negative supply, RL = –V/500μA. The OPA363 and OPA364

have been characterized to perform well under the described conditions, maintaining excellent accuracy down to

0V and as low as –10mV. Limiting and nonlinearity occur below –10mV, with linearity returning as the output is

again driven above –10mV.

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BUFFERED REFERENCE VOLTAGE

Many single-supply applications require a mid-supply reference voltage. The OPA363 and OPA364 offer

excellent capacitive load drive capability, and can be configured to provide a 0.9V reference voltage, as can be

seen in Figure 26. For appropriate loading considerations, see the CAPACITIVE LOAD section.

V+

R₁

10kW

OPAx363

OPAx364

0.9V

C_L= 1mF

R₂

10kW

Figure 26. The OPA363 and OPA364 Provide a Stable Reference Voltage

DIRECTLY DRIVING THE ADS8324 AND THE MSP430

The OPA363 and OPA364 series op amps are optimized for driving medium speed (up to 100kHz) sampling A/D

converters. However, they also offer excellent performance for higher speed converters. The no crossover input

stage of the OPA363 and OPA364 directly drive A/D converters without degradation of differential linearity and

THD. They provide an effective means of buffering the A/D converters input capacitance and resulting charge

injection while providing signal gain. Figure 27 and Figure 28 show the OPA363 and OPA364 configured to drive

the ADS8324 and the 12-bit A/D converter on the MSP430.

V+ = 1.8V

100W

OPA363

ADS8324

OPA364

V_IN

1nF

Figure 27. The OPA363 and OPA364 Directly Drive the ADS8324

V+

100W

OPA363

MSP430

OPA364

V_IN

1nF

Figure 28. Driving the 12-Bit A/D Converter on the MSP430

Submit Documentation Feedback

Product Folder Links: OPA363 OPA2363 OPA364 OPA2364 OPA4364

OPA363, OPA2363

OPA364, OPA2364, OPA4364

www.ti.com

SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

AUDIO APPLICATIONS

The OPA363 and OPA364 op amp family has linear offset voltage over the entire input common-mode range.

Combined with low-noise, this feature makes the OPA363 and OPA364 suitable for audio applications. Single

supply 1.8V operation allows the OPA2363 and OPA2364 to be optimal candidates for dual stereo-headphone

drivers and microphone pre-amplifiers in portable stereo equipment, see Figure 29 and Figure 30.

20kW

V+

1mF

20kW

One of Right or Left Channel

20kW

10kW

20kW

1/2

OPA2363

One of Right or Left

Headphone Out

V+

V-

1/2

47pF

TPS6100

Internally

Biased

V-

10kW

Figure 29. OPA2363 Configured as Half of a Dual Stereo Headphone Driver

49kW

Clean 3.3V Supply

3.3V

4kW

OPAx363

V_OUT

OPAx364

5kW

1mF

Electret

6kW

Microphone

Figure 30. Microphone Preamplifier

Submit Documentation Feedback

Product Folder Links: OPA363 OPA2363 OPA364 OPA2364 OPA4364

OPA363, OPA2363

OPA364, OPA2364, OPA4364

SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

www.ti.com

ACTIVE FILTERING

Low harmonic distortion and noise specifications plus high gain and slew rate make the OPA363 and OPA364

optimal candidates for active filtering. Figure 31 shows the OPA2363 configured as a low-distortion, 3rd-order

GIC (General Immittance Converter) filter. Figure 32 shows the implementation of a Sallen-Key, 3-pole, low-pass

Bessel filter.

R₁

R₃

OPA363

V_OUT

3.92kW

1.33kW

V_IN

R₁₁

C₄

3.92kW

1000pF

R12

1/2

3.92kW

OPA2363

1/2

OPA2363

C₁₃

1000pF

R₁₄

3.48kW

C₁₅

1000pF

Figure 31. The OPA2363 as a 3rd-Order, 40kHz, Low-Pass GIC Filter

220pF

19.5kW

150kW

1.8kW

V_IN= 1Vrms

OPA363

V_OUT

3.3nF

47pF

Figure 32. The OPA363 or OPA364 Configured as a 3-Pole, 20kHz, Sallen-Key Filter

Submit Documentation Feedback

Product Folder Links: OPA363 OPA2363 OPA364 OPA2364 OPA4364

OPA363, OPA2363

OPA364, OPA2364, OPA4364

www.ti.com

SBOS259C –SEPTEMBER 2002–REVISED MAY 2013

REVISION HISTORY

NOTE: Page numbers for previous versions may differ from page numbers in the current version.

Changes from Revision B (February 2003) to Revision C

Page

•

Converted data sheet to current format ................................................................................................................................ 1

Added RSV package (UQFN-16) to data sheet .................................................................................................................... 1

Submit Documentation Feedback

Product Folder Links: OPA363 OPA2363 OPA364 OPA2364 OPA4364

PACKAGE OPTION ADDENDUM

www.ti.com

26-Jun-2013

PACKAGING INFORMATION

Orderable Device

OPA2363AIDGSR

OPA2363AIDGSRG4

OPA2363AIDGST

OPA2363AIDGSTG4

OPA2363AIRSVR

OPA2363IDGSR

OPA2363IDGSRG4

OPA2363IDGST

Status Package Type Package Pins Package

Eco Plan Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

-40 to 125

Device Marking

Samples

Drawing

Qty

(1)

(2)

(3)

(4/5)

ACTIVE

VSSOP

UQFN

DGS

2500

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

BHK

SIN

ACTIVE

DGS

RSV

DGS

2500

250

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

250

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

3000

2500

250

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-1-260C-UNLIM

VSSOP

SOIC

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

BHK

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

OPA2363IDGSTG4

OPA2364AID

250

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

OPA

2364

OPA2364AIDG4

ACTIVE

SOIC

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

OPA

2364

OPA2364AIDGKR

OPA2364AIDGKRG4

OPA2364AIDGKT

OPA2364AIDGKTG4

OPA2364AIDR

ACTIVE

VSSOP

SOIC

DGK

2500

250

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

-40 to 125

BHL

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

250

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

2500

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

OPA

2364

Addendum-Page 1

PACKAGE OPTION ADDENDUM

www.ti.com

26-Jun-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

Device Marking

Samples

Drawing

Qty

(1)

(2)

(3)

(4/5)

OPA2364AIDRG4

ACTIVE

SOIC

2500

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

OPA

2364

OPA2364ID

OPA2364IDG4

OPA2364IDGKR

OPA2364IDGKRG4

OPA2364IDGKT

OPA2364IDGKTG4

OPA2364IDR

ACTIVE

SOIC

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

OPA

2364

Green (RoHS

& no Sb/Br)

OPA

2364

VSSOP

SOIC

DGK

2500

250

2500

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

BHL

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS CU NIPDAUAG Level-2-260C-1 YEAR

& no Sb/Br)

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

OPA

2364

OPA2364IDRG4

OPA363AID

SOIC

Green (RoHS

& no Sb/Br)

OPA

2364

SOIC

Green (RoHS

& no Sb/Br)

OPA

363

OPA363AIDBVR

OPA363AIDBVRG4

OPA363AIDBVT

OPA363AIDBVTG4

OPA363AIDG4

ACTIVE

SOT-23

SOIC

DBV

3000

250

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

A40

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

OPA

363

OPA363ID

ACTIVE

SOIC

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

OPA

363

OPA363IDBVR

SOT-23

DBV

3000

Green (RoHS

& no Sb/Br)

A40

Addendum-Page 2

PACKAGE OPTION ADDENDUM

www.ti.com

26-Jun-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

-40 to 125

Device Marking

Samples

Drawing

Qty

(1)

(2)

(3)

(4/5)

OPA363IDBVRG4

OPA363IDBVT

OPA363IDBVTG4

OPA363IDG4

ACTIVE

SOT-23

SOIC

DBV

3000

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

A40

ACTIVE

DBV

250

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

OPA

363

OPA364AID

SOIC

Green (RoHS

& no Sb/Br)

OPA

364

OPA364AIDBVR

OPA364AIDBVRG4

OPA364AIDBVT

OPA364AIDBVTG4

OPA364AIDG4

ACTIVE

SOT-23

SOIC

DBV

3000

250

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

A41

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

OPA

364

OPA364AIDR

ACTIVE

SOIC

2500

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

OPA

364

OPA364AIDRG4

Green (RoHS

& no Sb/Br)

OPA

364

OPA364ID

OPA364IDBVR

OPA364IDBVRG4

OPA364IDBVT

ACTIVE

SOIC

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

-40 to 125

OPA

364

SOT-23

DBV

3000

250

Green (RoHS

& no Sb/Br)

A41

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Addendum-Page 3

PACKAGE OPTION ADDENDUM

www.ti.com

26-Jun-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

-40 to 125

Device Marking

Samples

Drawing

Qty

(1)

(2)

(3)

(4/5)

OPA364IDBVTG4

OPA364IDG4

ACTIVE

SOT-23

SOIC

DBV

250

Green (RoHS

& no Sb/Br)

CU NIPDAU

Level-2-260C-1 YEAR

A41

ACTIVE

Green (RoHS

& no Sb/Br)

OPA

364

OPA364IDR

SOIC

2500

Green (RoHS

& no Sb/Br)

OPA

364

OPA364IDRG4

OPA4364AID

SOIC

Green (RoHS

& no Sb/Br)

OPA

364

SOIC

Green (RoHS

& no Sb/Br)

OPA4364A

OPA4364AIDG4

OPA4364AIDR

OPA4364AIDRG4

OPA4364AIPWR

OPA4364AIPWRG4

OPA4364AIPWT

OPA4364AIPWTG4

SOIC

Green (RoHS

& no Sb/Br)

SOIC

2500

250

Green (RoHS

& no Sb/Br)

SOIC

Green (RoHS

& no Sb/Br)

TSSOP

Green (RoHS

& no Sb/Br)

OPA

4364A

Green (RoHS

& no Sb/Br)

OPA

4364A

Green (RoHS

& no Sb/Br)

OPA

4364A

250

Green (RoHS

& no Sb/Br)

OPA

4364A

⁽¹⁾The marketing status values are defined as follows:

ACTIVE: Product device recommended for new designs.

LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.

NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.

PREVIEW: Device has been announced but is not in production. Samples may or may not be available.

OBSOLETE: TI has discontinued the production of the device.

⁽²⁾Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check http://www.ti.com/productcontent for the latest availability

information and additional product content details.

TBD: The Pb-Free/Green conversion plan has not been defined.

Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that

lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.

Addendum-Page 4

PACKAGE OPTION ADDENDUM

www.ti.com

26-Jun-2013

Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between

the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above.

Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight

in homogeneous material)

⁽³⁾MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.

⁽⁴⁾There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.

⁽⁵⁾Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation

of the previous line and the two combined represent the entire Device Marking for that device.

Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information

provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and

continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.

TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.

In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.

OTHER QUALIFIED VERSIONS OF OPA4364 :

Automotive: OPA4364-Q1

•

NOTE: Qualified Version Definitions:

Automotive - Q100 devices qualified for high-reliability automotive applications targeting zero defects

•

Addendum-Page 5

PACKAGE MATERIALS INFORMATION

www.ti.com

24-Jul-2013

TAPE AND REEL INFORMATION

*All dimensions are nominal

Device

Package Package Pins

Type Drawing

SPQ

Reel

Pin1

Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant

(mm) W1 (mm)

OPA2363AIDGSR

OPA2363AIDGST

OPA2363AIRSVR

OPA2363IDGSR

OPA2363IDGST

OPA2364AIDGKR

OPA2364AIDGKT

OPA2364AIDR

OPA2364IDGKR

OPA2364IDGKT

OPA2364IDR

VSSOP

UQFN

DGS

RSV

DGS

DGK

2500

250

330.0

180.0

177.8

330.0

180.0

330.0

180.0

330.0

180.0

330.0

180.0

330.0

12.4

8.4

5.3

2.0

5.3

6.4

5.3

6.4

3.2

6.4

3.4

2.8

3.4

5.2

3.4

5.2

3.1

5.2

1.4

8.0

4.0

8.0

4.0

8.0

12.0

8.0

3000

2500

250

0.7

VSSOP

SOIC

1.4

2500

250

1.4

2500

250

2.1

VSSOP

SOIC

DGK

1.4

2500

3000

250

2.1

OPA363AIDBVR

OPA363AIDBVT

OPA363IDBVR

OPA363IDBVT

OPA364AIDBVR

OPA364AIDBVT

OPA364AIDR

SOT-23

SOIC

DBV

1.39

2.1

8.4

8.0

3000

250

8.4

8.0

8.4

8.0

3000

250

8.4

8.0

8.4

8.0

2500

12.4

12.0

Pack Materials-Page 1

PACKAGE MATERIALS INFORMATION

www.ti.com

24-Jul-2013

Device

Package Package Pins

Type Drawing

SPQ

Reel

Pin1

Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant

(mm) W1 (mm)

OPA364IDBVR

OPA364IDBVT

OPA364IDR

SOT-23

SOIC

DBV

3000

250

180.0

330.0

180.0

8.4

3.2

6.4

6.5

6.9

3.1

5.2

9.0

5.6

1.39

2.1

4.0

8.0

2500

250

12.4

16.4

12.4

12.0

16.0

12.0

OPA4364AIDR

OPA4364AIPWR

OPA4364AIPWT

SOIC

2.1

TSSOP

1.6

*All dimensions are nominal

Device

Package Type Package Drawing Pins

SPQ

Length (mm) Width (mm) Height (mm)

OPA2363AIDGSR

OPA2363AIDGST

OPA2363AIRSVR

OPA2363IDGSR

OPA2363IDGST

OPA2364AIDGKR

OPA2364AIDGKT

OPA2364AIDR

VSSOP

UQFN

DGS

RSV

DGS

DGK

2500

250

367.0

210.0

202.0

367.0

210.0

367.0

210.0

367.0

210.0

367.0

185.0

201.0

367.0

185.0

367.0

185.0

367.0

185.0

367.0

35.0

28.0

35.0

3000

2500

250

VSSOP

SOIC

2500

250

2500

250

OPA2364IDGKR

OPA2364IDGKT

OPA2364IDR

VSSOP

SOIC

DGK

2500

Pack Materials-Page 2

PACKAGE MATERIALS INFORMATION

www.ti.com

24-Jul-2013

Device

Package Type Package Drawing Pins

SPQ

Length (mm) Width (mm) Height (mm)

OPA363AIDBVR

OPA363AIDBVT

OPA363IDBVR

OPA363IDBVT

OPA364AIDBVR

OPA364AIDBVT

OPA364AIDR

SOT-23

SOIC

DBV

3000

250

210.0

367.0

210.0

367.0

210.0

185.0

367.0

185.0

367.0

185.0

35.0

38.0

35.0

3000

250

3000

250

2500

3000

250

OPA364IDBVR

OPA364IDBVT

OPA364IDR

SOT-23

SOIC

DBV

2500

250

OPA4364AIDR

OPA4364AIPWR

OPA4364AIPWT

SOIC

TSSOP

Pack Materials-Page 3

IMPORTANT NOTICE

Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, enhancements, improvements and other

changes to its semiconductor products and services per JESD46, latest issue, and to discontinue any product or service per JESD48, latest

issue. Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and

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supplied at the time of order acknowledgment.

TI warrants performance of its components to the specifications applicable at the time of sale, in accordance with the warranty in TI’s terms

and conditions of sale of semiconductor products. Testing and other quality control techniques are used to the extent TI deems necessary

to support this warranty. Except where mandated by applicable law, testing of all parameters of each component is not necessarily

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TI assumes no liability for applications assistance or the design of Buyers’ products. Buyers are responsible for their products and

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OPA2363IDGSRG4 [TI]

相关型号：

OPA2363IDGST

OPA2363IDGSTG4

OPA2364

OPA2364AID

OPA2364AIDG4

OPA2364AIDGKR

OPA2364AIDGKRG4

OPA2364AIDGKT

OPA2364AIDGKTG4

OPA2364AIDR

OPA2364AIDRG4

OPA2364ID