TLV2761IDR_技术文档

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

Operational Amplifier

Low Supply Voltage . . . 1.8 V to 3.6 V

Very Low Supply Current . . . 20 µA (per

channel)

–

+

Ultralow Power Shut-Down Mode

– I

= 10 nA/Channel

DD(SHDN)

CMOS Rail-to-Rail Input/Output

Input Common-Mode Voltage

SUPPLY CURRENT

vs

Range . . . –0.2 V to V

+ 0.2 V

DD

SUPPLY VOLTAGE

Input Offset Voltage . . . 550 µV

Wide Bandwidth . . . 500 kHz

Slew Rate . . . 0.20 V/µs

20

18

16

14

12

A

V

= 1

V

IC

= V

DD/2

T

A

= 25° C

Specified Temperature Range

– 0°C to 70°C . . . Commercial Grade

– –40°C to 85°C . . . Industrial Grade

10

8

6

4

Ultrasmall Packaging

– 5 or 6 Pin SOT-23 (TLV2760/1)

– 8 or 10 Pin MSOP (TLV2762/3)

2

0

Universal Op-Amp EVM

0

0.6

1.2

1.8

2.4

3

3.6

V

– Supply Voltage – V

DD

description

The TLV276x single supply operational amplifiers provide 500 kHz bandwidth from only 20 µA while operating

down to 1.8 V over the industrial temperature range. The maximum recommended supply voltage is 3.6 V, which

allows the devices to be operated from ( 1.8 V supplies down to 0.9 V) two AA or AAA cells. The devices

havebeencharacterizedat1.8V(endoflifeof2AA(A)cells)andat2.4V(nominalvoltageof2Nicd/NiMHcells).

The TLV276x have rail-to-rail input and output capability which is a necessity at 1.8 V.

The low supply current is coupled with extremely low input bias currents enabling them to be used with

mega-ohm resistors. Low shutdown current of only 10 nA make these devices ideal for low frequency

measurement applications desiring long active battery life.

All members are available in PDIP and SOIC with the singles in the small SOT-23 package, duals in the MSOP,

and quads in the TSSOP package.

SELECTION OF SINGLE SUPPLY AMPLIFIER PRODUCTS

V

(V)

V

I

/Ch

I

GBW

(MHz)

SR

(V/µs)

Vn,1kHz

(nV/rtHz)

I

O

SHUT-

DOWN

RAIL-TO-

RAIL

DD

IO

DD

(µA)

IB

DEVICE

(µV)

600

450

550

20

(pA)

100

1

(mA)

0.2

0.4

5

TLV224x

TLV2211

2.5 – 12

2.7 – 10

1.8 – 3.6

2.7 – 6

1

0.0055

0.065

0.5

0.002

0.025

0.23

0.11

1.6

NA

21

95

49

11

—

Y

I/O

O

13

TLV276x

20

3

I/O

TLV245x(A)

TLV246x(A)

TLV278x(A)

23

500

1300

2.5

0.22

6.4

2.5

25

Y

2.7 – 6

150

250

550

650

Y

1.8 – 3.6

8

5

18

10

Y

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.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of Texas Instruments

standard warranty. Production processing does not necessarily include

testing of all parameters.

1

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TLV2760 and TLV2761 AVAILABLE OPTIONS

PACKAGED DEVICES

V

max

IO

T

A

SOT-23

SMALL OUTLINE

PLASTIC DIP

(P)

AT 25°C

†

‡

(D)

(DBV)

SYMBOL

TLV2760CD

TLV2761CD

—

0°C to 70°C

3500 µV

TLV2760ID

TLV2761ID

TLV2760IDBV

TLV2761IDBV

VANI

VAXI

TLV2760IP

TLV2761IP

–40°C to 85°C

†

‡

This package is available taped and reeled. To order this packaging option, add an R suffix to the part number (e.g., TLV2760CDR).

This package is only available taped and reeled. For standard quantities (3,000 pieces per reel), add an R suffix (i.e., TLV2760CDBVR). For

smaller quantities (250 pieces per mini-reel), add a T suffix to the part number (e.g. TLV2760CDBVT).

TLV2762 and TLV2763 AVAILABLE OPTIONS

PACKAGED DEVICES

V

max

SMALL

PLASTIC

DIP

PLASTIC

DIP

IO

MSOP

SYMBOL

T

A

AT 25°C

OUTLINE

†

DGK

DGS

SYMBOL

(D)

(N)

(P)

TLV2762CD

TLV2763CD

—

0°C to 70°C

3500 µV

TLV2762ID

TLV2763ID

TLV2762IDGK

xxTIAJP

—

xxTIAJR

—

TLV2762IP

–40°C to 85°C

—

TLV2763IDGS

TLV2763IN

—

†

This package is available taped and reeled. To order this packaging option, add an R suffix to the part number (e.g., TLV2762CDR).

TLV2764 and TLV2765 AVAILABLE OPTIONS

PACKAGED DEVICES

V

max

IO

T

SMALL OUTLINE

PLASTIC DIP

(N)

TSSOP

(PW)

A

AT 25°C

3500 µV

†

(D)

TLV2764CD

TLV2765CD

—

0°C to 70°C

TLV2764ID

TLV2765ID

TLV2764IN

TLV2765IN

TLV2764IPW

TLV2765IPW

–40°C to 85°C

†

This package is available taped and reeled. To order this packaging option, add an R suffix to the part

number (e.g., TLV2764CDR).

2

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TLV276x PACKAGE PINOUTS

TLV2760

D OR P PACKAGE

(TOP VIEW)

TLV2760

DBV PACKAGE

(TOP VIEW)

TLV2761

DBV PACKAGE

(TOP VIEW)

1

2

3

1

2

3

6

5

4

5

V

DD

OUT

GND

IN+

OUT

GND

IN+

NC

IN–

SHDN

1

2

3

4

8

7

6

5

DD

V

DD

SHDN

IN+

OUT

NC

GND

4

IN–

TLV2761

D OR P PACKAGE

(TOP VIEW)

TLV2763

DGS PACKAGE

(TOP VIEW)

TLV2762

D, DGK, OR P PACKAGE

(TOP VIEW)

1

1OUT

1IN–

1IN+

GND

1SHDN

V

2OUT

2IN–

2IN+

NC

IN–

NC

1

2

3

4

8

7

6

5

10

1OUT

1IN–

1IN+

GND

V

DD

1

2

3

4

8

7

6

5

DD

2

3

4

5

V

9

8

7

6

2OUT

2IN–

2IN+

DD

IN+

OUT

NC

GND

2SHDN

TLV2764

TLV2763

TLV2765

D, N, OR PW PACKAGE

D OR N PACKAGE

D, N, OR PW PACKAGE

(TOP VIEW)

1OUT

1IN–

1IN+

4OUT

4IN–

1OUT

1IN–

1IN+

GND

NC

V

1

2

3

4

5

6

7

14

13

12

11

10

9

1

2

3

4

5

6

7

8

16

15

14

13

12

11

10

9

1

2

3

4

5

6

7

14

13

12

11

10

9

1OUT

1IN–

1IN+

4OUT

4IN–

4IN+

GND

3IN+

3IN–

3OUT

DD

2OUT

2IN–

2IN+

NC

4IN+

V

GND

V

DD

2IN+

2IN–

3IN+

3IN–

2IN+

2IN–

1SHDN

NC

2SHDN

NC

8

2OUT

1SHDN

3OUT

2SHDN

8

2OUT

NC – No internal connection

3

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

†

absolute maximum ratings over operating free-air temperature range (unless otherwise noted)

Supply voltage, V

Differential input voltage range, V

Input current range, I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±10 mA

Output current range, I

(see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 V

DD

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±V

ID

DD

I

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±10 mA

O

Continuous total power dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Dissipation Rating Table

Operating free-air temperature range, T : C suffix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0°C to 70°C

A

I suffix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –40°C to 85°C

Maximum junction temperature, T . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150°C

J

Storage temperature range, T

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –65°C to 150°C

stg

Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260°C

†

Stresses beyond those listed under “absolute maximum ratings” 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 under “recommended operating conditions” is not

implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

NOTE 1: All voltage values, except differential voltages, are with respect to GND

DISSIPATION RATING TABLE

Θ

T

≤ 25°C

T = 85°C

A

POWER RATING

JC

JA

A

PACKAGE

POWER RATING

(°C/W)

D (8)

38.3

176

710 mW

369 mW

D (14)

D (16)

26.9

25.7

55

122

114

324

294

260

1022 mW

1090 mW

385 mW

425 mW

481 mW

531 mW

567 mW

201 mW

221 mW

250 mW

DBV (5)

DBV (6)

DGK(8)

55

54.2

DGS(10)

N (14,16)

P

54.1

32

258

78

485 mW

1600 mW

1200 mW

720 mW

774 mW

252 mW

833 mW

625 mW

374 mW

403 mW

41

104

174

161

PW (14)

PW (16)

29.3

28.7

recommended operating conditions

MIN

1.8

MAX

3.6

UNIT

V

Single supply

Supply voltage, V

DD

Split supply

±0.8

–0.2

0

±1.8

Common-mode input voltage range, V

ICR

V

+0.2

70

V

DD

C-suffix

I-suffix

Operating free-air temperature, T

°C

A

–40

85

V

< 2.7 V

0.75 V

DD

2

V

IH

Shutdown on/off voltage level (see Note 2)

NOTE 2: Relative to GND

= 2.7 to 3.6 V

V

DD

0.6

IL

4

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

electrical characteristics at recommended operating conditions, V

otherwise noted)

= 1.8 V, 2.4 V (unless

DD

dc performance

†

PARAMETER

Input offset voltage

Offset voltage drift

TEST CONDITIONS

= V /2,

MIN

TYP

MAX

3500

6800

T

UNIT

A

V

25°C

550

IC

DD

V

IO

TLV276x

µV

= V /2,

O

DD

Full range

R

= 300 kΩ,

= 50 Ω

L

α

9

µV/°C

VIO

S

25°C

Full range

25°C

50

48

53

50

70

V

= 1.8 V

dB

DD

72

76

dB

V

R

= 0 V to V

= 50 Ω

,

ICR

S

DD

= 2.4 V

Full range

CMRR Common-mode rejection ratio

25°C

Full range

25°C

55

63

60

20

18

28

23

45

37

= 3.6 V

dB

82

V

R

= 1.2 V to V

= 50 Ω

,

ICR

DD

= 2.4 V, 3.6 V

S

Full range

25°C

60

V

DD

V

DD

V

DD

= 1.8 V

= 2.4 V

= 3.6 V

Full range

25°C

V/mV

78

Large-signal differential voltage

amplification

R

V

= 10 kΩ,

= V /2

L

A

VD

Full range

25°C

O(PP)

DD

120

Full range

†

Full range is 0°C to 70°C for the C suffix and –40°C to 85°C for the I suffix. If not specified, full range is –40°C to 85°C.

input characteristics

†

PARAMETER

TEST CONDITIONS

MIN

TYP

MAX

15

T

A

UNIT

25°C

Full range

25°C

3

I

Input offset current

TLV276xC

TLV276xI

100

200

15

pA

IO

IB

V

= V /2,

DD

= V /2,

IC

O

DD

R

= 300 kΩ,

3

L

R

= 50 Ω

S

I

Input bias current

TLV276xC

TLV276xI

Full range

25°C

100

200

pA

r

Differential input resistance

1000

10

GΩ

i(d)

c

Common-mode input capacitance

f = 16 kHz

25°C

pF

i(c)

†

Full range is 0°C to 70°C for the C suffix and –40°C to 85°C for the I suffix. If not specified, full range is –40°C to 85°C.

5

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

electrical characteristics at recommended operating conditions, V

otherwise noted) (continued)

= 1.8 V, 2.4 V (unless

DD

output characteristics

†

PARAMETER

TEST CONDITIONS

MIN

1.77

1.76

2.38

2.37

3.58

3.57

1.725

1.7

TYP

MAX

T

A

UNIT

25°C

Full range

25°C

1.79

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

= 1.8V

= 2.4V

= 3.6V

= 1.8V

= 2.4V

= 3.6V

2.39

3.59

1.75

2.35

3.55

10

V

I

= V /2,

DD

IC

OH

= –100 µA

Full range

25°C

Full range

25°C

V

OH

High-level output voltage

V

Full range

25°C

2.325

2.3

V

= V /2,

DD

= –500 µA

IC

I

Full range

25°C

OH

3.525

3.5

Full range

25°C

20

30

V

= V /2,

DD

I

= 100 µA

= 500 µA

IC

OL

Full range

25°C

V

OL

Low-level output voltage

Output current

mV

mA

50

75

= V /2,

DD

I

IC

Full range

100

Positive rail

Negative rail

Positive rail

Negative rail

Sourcing

4.8

7.2

7.3

10.2

7

V

= 1.8 V,

= 0.5 V from

DD

O

25°C

I

O

V

= 2.4 V,

= 0.5 V from

DD

O

V

DD

= 1.8 V

= 2.4 V

Sinking

10

I

Short-circuit output current

OS

Sourcing

15

V

DD

Sinking

19

†

Full range is 0°C to 70°C for the C suffix and –40°C to 85°C for the I suffix. If not specified, full range is –40°C to 85°C.

power supply, V

= 1.8 V, 2.4 V, 3.6 V (unless otherwise noted)

DD

†

PARAMETER

TEST CONDITIONS

MIN

TYP

MAX

28

T

A

UNIT

25°C

Full range

25°C

20

I

Supply current (per channel)

V

= V /2,

µA

DD

O

DD

SHDN = V

DD

30

65

63

65

63

65

63

85

V

DD

V

IC

= 1.8 V to 2.4 V,

= V

/2

Full range

25°C

DD

Supply voltage rejection ratio

V

DD

V

IC

= 2.4 V to 3.6 V,

k

No load

dB

SVR

(∆V

DD

/∆V

IO

)

= V

/2

Full range

25°C

DD

V

DD

V

IC

= 1.8 V to 3.6 V,

= V

/2

Full range

DD

†

Full range is 0°C to 70°C for the C suffix and –40°C to 85°C for the I suffix. If not specified, full range is –40°C to 85°C.

6

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

electrical characteristics at recommended operating conditions, V

otherwise noted) (continued)

= 1.8 V, 2.4 V (unless

DD

dynamic performance

†

PARAMETER

TEST CONDITIONS

MIN

TYP

500

MAX

T

A

UNIT

UGBW Unity gain bandwidth

25°C

kHz

R

= 300 kΩ,

C

= 10 pF

L

0.11

0.09

0.11

0.09

0.11

0.09

0.08

0.07

0.10

0.09

0.10

0.09

0.20

V

= 1.8 V

= 2.4 V

= 3.6 V

= 1.8 V

= 2.4 V

= 3.6 V

= 100 pF

DD

Full range

25°C

V/µs

0.22

0.23

0.15

0.18

0.22

Positive slew rate at

unity gain

V

C

= 1 V, R = 300 kΩ,

O(PP) L

SR+

DD

= 50 pF,

Full range

25°C

L

Full range

25°C

Full range

25°C

Negative slew rate at

unity gain

V

C

= 1 V, R = 300 kΩ,

O(PP) L

SR–

= 50 pF,

Full range

25°C

L

Full range

25°C

φ

m

Phase margin

Gain margin

63

20

°

R

= 300 kΩ,

C

L

25°C

dB

0.1%

6.4

13.7

6

V

A

= 1.8 V, V

= 1 V,

DD

V

(STEP)PP

= 10 pF, R = 300 kΩ

= –1,

C

0.01%

0.1%

L

t

s

Settling time

25°C

µs

V

A

= 2.4 V,

V

= 1 V,

DD

(STEP)PP

= 10 pF, R = 300 kΩ

= –1,

C

0.01%

13.9

V

L

†

Full range is 0°C to 70°C for the C suffix and –40°C to 85°C for the I suffix. If not specified, full range is –40°C to 85°C.

noise/distortion

PARAMETER

TEST CONDITIONS

MIN

TYP

MAX

UNIT

T

A

V

R

= 1.8 V,

A

= 1

0.08%

0.10%

0.27%

0.06%

0.08%

0.24%

95

DD

V

= V /2 V,

DD

O(PP)

A

V

= 10

= 100

= 1

25°C

= 300 kΩ,

L

A

V

f = 1 kHz

THD + N Total harmonic distortion plus noise

V

R

= 2.4 V,

A

V

DD

O(PP)

= V /2 V,

DD

A

V

= 10

= 100

= 300 kΩ,

L

A

V

f = 1 kHz

f = 10 kHz

f = 1 kHz

25°C

V

I

Equivalent input noise voltage

Equivalent input noise current

nV/√Hz

fA/√Hz

n

75

0.8

n

shutdown characteristics

†

PARAMETER

TEST CONDITIONS

MIN

TYP

MAX

50

UNIT

T

A

25°C

Full range

25°C

10

Supply current, all channels in shutdown mode

(TLV2760, TLV2763, TLV2765) (per channel)

I

nA

SHDN = 0 V

DD(SHDN)

400

t

Amplifier turnon time (see Note 3)

Amplifier turnoff time (see Note 3)

R

= 300 kΩ

5

µs

(on)

L

25°C

0.8

(off)

†

Full range is 0°C to 70°C for the C suffix and –40°C to 85°C for the I suffix. If not specified, full range is –40°C to 85°C.

NOTE 3: DisabletimeandenabletimearedefinedastheintervalbetweenapplicationofthelogicsignaltoSHDNandthepointatwhichthesupply

current has reached half its final value.

7

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TYPICAL CHARACTERISTICS

Table of Graphs

FIGURE

1, 2

3

V

Input offset voltage

vs Common-mode input voltage

vs Frequency

IO

CMRR

Common-mode rejection ratio

High-level output voltage

Low-level output voltage

Maximum peak-to-peak output voltage

Supply current

V

vs High-level output current

vs Low-level output current

vs Frequency

4, 6

5, 7

8

OH

OL

O(PP)

I

vs Supply voltage

vs Free-air temperature

vs Frequency

9

DD

Supply current

10

DD

PSRR

Power supply rejection ratio

Differential voltage amplification & phase

11

A

VD

vs Frequency

12

vs Temperature

vs Supply voltage

vs Free-air temperature

vs Load capacitance

vs Frequency

13

Gain-bandwidth product

Slew rate

14

15

SR

16, 17

18

φ

m

Phase margin

V

n

Equivalent input noise voltage

Supply current and output voltage

Voltage-follower large-signal pulse response

Voltage-follower small-signal pulse response

Inverting large-signal response

Inverting small-signal response

Crosstalk

19

vs Time

20

vs Time

21

vs Time

22

vs Time

23

vs Time

24

vs Frequency

25

Shutdown forward & reverse isolation

Shutdown supply current

vs Frequency

26

I

vs Supply voltage

vs Free-air temperature

vs Shutdown pin voltage

vs Time

27

DD(SHDN)

Shutdown supply current

28

Shutdown pin leakage current

Shutdown supply current/output voltage

29

30

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TYPICAL CHARACTERISTICS

INPUT OFFSET VOLTAGE

vs

INPUT OFFSET VOLTAGE

vs

COMMON-MODE REJECTION RATIO

vs

COMMON-MODE INPUT VOLTAGE

FREQUENCY

300

140

350

V

=1.8 V

V

=2.4 V

DD

=25° C

DD

130

120

110

100

300

250

200

T

A

=25 °C

A

250

200

150

100

50

V

= 2.4 V

DD

90

80

70

60

50

40

30

20

10

0

150

100

50

0

V

= 1.8 V

DD

–50

0

–100

–50

–0.2

0

0.2 0.4 0.6 0.8

1 1.2 1.4 1.6 1.8 2

0.2

0.6

1

1.4 1.8

2.2 2.6

1

10

100

1k

10k

100k 1M

V

– Common-Mode Input Voltage – V

V

– Common-Mode Input Voltage – V

f – Frequency – Hz

ICR

Figure 2

Figure 1

Figure 3

HIGH-LEVEL OUTPUT VOLTAGE

vs

LOW-LEVEL OUTPUT VOLTAGE

vs

HIGH-LEVEL OUTPUT VOLTAGE

vs

HIGH-LEVEL OUTPUT CURRENT

LOW-LEVEL OUTPUT CURRENT

HIGH-LEVEL OUTPUT CURRENT

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

2.4

1.8

V

= 2.4 V

V

=1.8 V

DD

V

=1.8 V

DD

2.1

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

1.8

1.5

1.2

0.9

T

=85°C

=70°C

A

T

=85°C

=70°C

A

T

=85°C

=70°C

A

T

=25°C

=0°C

A

T

A

T

=25°C

A

T

A

=–40°C

=0°C

A

T

=–40°C

T

A

=25°C

A

0.6

0.3

T

A

=0°C

T

A

=–40°C

0

2

4

6

8

10 12 14 16 18 20

0

1

2

3

4

5

6

7

8

9 10 11 12

0

1

2

3

4

5

6

7

8

I

– Low-Level Output Current – mA

I

– High-Level Output Current – mA

I

– High-Level Output Current – mA

OL

OH

Figure 5

Figure 4

Figure 6

MAXIMUM PEAK-TO-PEAK

OUTPUT VOLTAGE

vs

LOW-LEVEL OUTPUT VOLTAGE

vs

LOW-LEVEL OUTPUT CURRENT

FREQUENCY

2.4

2.1

1.8

2.8

2.6

V

= 2.4 V

DD

2.4

2.2

V

= 2.4 V

O(PP)

T

=85°C

A

2.0

T

= 70°C

A

T

1.5

1.2

1.8

1.6

1.4

1.2

=25°C

=0°C

V

= 1.8 V

O(PP)

A

T

A

=–40°C

0.9

0.6

1.0

0.8

0.6

0.4

0.2

A

= –10

R =300 kΩ

= 10 pF

= 25° C

V

L

0.3

0.0

C

T

A

0

2.5

5

7.5 10 12.5 15 17.5 20 22.5 25

10

100

1k

10k

100k

1M

I

– Low-Level Output Current – mA

OL

f – Frequency – Hz

Figure 8

Figure 7

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FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TYPICAL CHARACTERISTICS

SUPPLY CURRENT

vs

POWER SUPPLY REJECTION RATIO

SUPPLY CURRENT

vs

FREE-AIR TEMPERATURE

FREQUENCY

SUPPLY VOLTAGE

20

18

16

14

12

24

22

20

100

80

V

T

=2.4 V

A

V

= 1

DD

=25°C

V

IC

= V

DD/2

A

T

= 85°C

A

V

= 3.6 V

DD

60

40

T

= 25°C

A

V

= 2.4 V

DD

18

T

= 0°C

10

8

A

V

= 1.8 V

16

14

DD

T

= –40°C

A

20

6

T

= 70°C

A

4

0

12

2

–20

0

10

–40

0

0.6

1.2

1.8

2.4

3

3.6

10

100

1k

10k

100k

1M

–15

10

35

60

85

T

– Free-Air Temperature – °C

V

– Supply Voltage – V

f – Frequency – Hz

A

DD

Figure 9

Figure 10

Figure 11

DIFFERENTIAL VOLTAGE GAIN AND PHASE

GAIN BANDWIDTH PRODUCT

vs

FREQUENCY

TEMPERATURE

180

150

120

90

100

80

700

R

C

= 300 kΩ

= 10 pF

L

V

= 2.4 V

DD

600

500

400

300

200

f = 10 kHz

60

Phase

60

30

40

20

0

V

= 1.8 V

DD

–30

–60

Gain

V

= 1.8 V & 2.4 V

DD

R = 300 kΩ

0

–90

L

–120

C

= 10 pF

= 25° C

100

0

–20

T

A

–150

–180

1M

–40

–40 –25 –10

5

20 35 50 65 80 85

10

100

1k

10k

100k

f – Frequency – Hz

T

– Temperature – °C

A

Figure 13

Figure 12

GAIN-BANDWIDTH PRODUCT

SLEW RATE

vs

SUPPLY VOLTAGE

560

540

0.36

0.32

R

C

= 300 kΩ

= 10 pF

L

f = 10 kHz

Ta = 25°C

0.28

0.24

520

500

480

460

SR+

0.20

0.16

SR–

A

R

C

= 1

V

L

= 300 kΩ

=50 pF

= 25° C

0.12

0.08

440

420

400

T

A

0.04

0.00

1 1.2 1.4 1.61.8 2 2.2 2.42.62.8 3 3.2 3.4 3.6

– Supply Voltage – V

1.8

2

2.2 2.4 2.6 2.8

3

3.2 3.4 3.6

V

DD

– Supply Voltage – V

DD

Figure 14

Figure 15

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FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TYPICAL CHARACTERISTICS

SLEW RATE

vs

SLEW RATE

vs

PHASE MARGIN

vs

FREE-AIR TEMPERATURE

LOAD CAPACITANCE

0.32

0.28

0.32

0.28

90

80

Rnull=0 Ω

SR+

70

60

0.24

0.20

0.24

0.20

0.16

SR–

Rnull=100 Ω

SR–

50

40

30

0.16

0.12

0.08

0.04

0.00

V

A

= 1.8 V

DD

= 1

V

A

= 2.4 V

= 1

DD

V

L

V

0.08

V

R

A

= 2.4 V

= 300 kΩ

= Open Loop

= 25°C

DD

L

V

R = 300 kΩ

C

V

R =300 kΩ

C =50 pF

V

L

IC

20

10

0

= 50 pF

= V /2

DD

0.04

0.00

IC

= V /2

DD

T

A

–40 –25 –10

5

20 35 50 65 8085

–40

–15

10

35

60

85

10

100

1k

T

– Free-Air Temperature – °C

A

T

– Free-Air Temperature – °C

C

– Load Capacitance – pF

L

A

Figure 16

Figure 17

Figure 18

SUPPLY CURRENT AND OUTPUT VOLTAGE

vs

EQUIVALENT INPUT NOISE VOLTAGE

vs

TIME

FREQUENCY

20

500

15

T

= 25°C

A

450

400

350

300

250

200

150

100

50

I

DD

10

5

V

= 2.4 V

DD

0

2

1.5

1

V

= 3.6 V

DD

= 1

V

O

0

A

V

R

C

= V /2

IN

L

DD

0.5

0

= 300 kΩ

= 10 pF

= 25°C

V

= 1.8 V

100

DD

T

A

–0.5

0

1

2

3

4

5

10

1k

10k

100k

t – Time – µs

f – Frequency – Hz

Figure 19

Figure 20

VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE

vs

VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE

vs

TIME

1.26

2.5

1.24

2

1.22

1.20

1.18

1.16

1.14

V

I

1.5

V

I

V

A

R

= 2.4 V

DD

=1

1

V

= 300 kΩ

= 10 pF

= 25°C

L

0.5

C

T

1.26

1.24

1.22

1.20

1.18

1.16

1.14

2.5

0

A

2

V

= 2.4 V

DD

= 1

V

O

1.5

A

V

R

= 300 kΩ

= 10 pF

= 25°C

L

1

C

T

0.5

A

0

1

2

3

4

5

6

7

8

0

0.2 0.4 0.6 0.8

1 1.2 1.4 1.6 1.8

t – Time – µs

Figure 21

Figure 22

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FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TYPICAL CHARACTERISTICS

INVERTING SMALL-SIGNAL PULSE RESPONSE

INVERTING LARGE-SIGNAL RESPONSE

vs

TIME

1.28

1.24

1.20

2.5

2

1.5

V

I

V

I

1

1.16

1.12

0.5

V

R

C

= 2.4 V

DD

L

= 300 kΩ

= 10 pF

= 1

1.28

1.24

1.20

0

2.5

V

= 2.4 V

= 1

= 300 kΩ

= 10 pF

= 25°C

DD

A

V

2

A

V

T

A

R

C

T

A

L

= 25°C

1.5

V

5

1

O

1.16

1.12

0.5

0

10 15 20 25 30 35 40 45

0

10 20 30 40 50 60 70 80 90

t – Time – µs

Figure 23

Figure 24

SHUTDOWN FORWARD AND

REVERSE ISOLATION

vs

CROSSTALK

vs

FREQUENCY

0

100

90

80

70

60

50

40

V

= 1.8 V & 2.4 V

DD

V = V /2

I

V

DD

–20

Forward and Reverse Isolation

A

= 1

R = 300 kΩ

= 25°C

All Channels

L

T

–40

–60

A

Crosstalk in Shutdown

–80

V

= 1.8 & 2.4 V

DD

V = V

/2

I

DD

= 300 kΩ

30

20

10

0

–100

–120

–140

R

L

C = 10 pF

L

A

= +1

V

T

A

= 25°C

Crosstalk/No Shutdown

1k 10k

10

100

1k

10k

100k

1M

10

100

100k

f – Frequency – Hz

Figure 25

Figure 26

SHUTDOWN PIN LEAKAGE CURRENT

vs

SHUTDOWN SUPPLY CURRENT

vs

SHUTDOWN PIN VOLTAGE

SUPPLY VOLTAGE

FREE-AIR TEMPERATURE

.12

.10

.08

.06

.04

.02

0

20

.014

.012

V

T

= 3.6 V

SHDN = 0 V

= V /2

IN DD

= 1

V

= 1.8, 2.4, 3.6 V

DD

= 85°C

DD

SHDN = 0V

15

V

A

V

= V /2

DD

V

IN

A

V

= 1

10

5

.010

.008

.006

.004

T

A

= 25°C

0

T

A

= 0°C

–5

T

A

= –40°C

–10

–15

.002

0

0.4 0.8 1.2 1.6

2

2.4 2.8 3.2 3.6

–40 –25 –10

5

20 35 50 65 80 85

0

0.4 0.8 1.2 1.6

2

2.4 2.8 3.2 3.6

V

– Supply Voltage – V

T

– Free-Air Temperature – °C

Shutdown Pin Voltage – V

DD

A

Figure 27

Figure 28

Figure 29

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FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

TYPICAL CHARACTERISTICS

SHUTDOWN SUPPLY CURRENT / OUTPUT VOLTAGE

vs

TIME

3.0

2.5

2.0

1.5

SHDN

1.0

0.5

0.0

–0.5

1.5

1.3

1.0

0.8

0.5

0.3

0.0

V

O

V

= 2.4 V

–0.3

DD

= 1

A

V

18

16

14

12

10

8

R

C

= 300 kΩ

= 10 pF

L

V

T

A

= V /2

IC

DD

= 25° C

6

4

I

DD(SHDN = 0)

2

0

–2

20

40

60

80

100

120

140

160

t – Time – µs

Figure 30

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OPERATIONAL AMPLIFIERS WITH SHUT DOWN

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APPLICATION INFORMATION

driving a capacitive load

When the amplifier is configured in this manner, capacitive loading directly on the output will decrease the

device’sphasemarginleadingtohighfrequencyringingoroscillations. Therefore, forcapacitiveloadsofgreater

than 10 pF, it is recommended that a resistor be placed in series (R

shown in Figure 31. A minimum value of 20 Ω should work well for most applications.

) with the output of the amplifier, as

NULL

R

F

R

G

R

NULL

–

Input

Output

LOAD

+

C

V

DD

/2

Figure 31. Driving a Capacitive Load

offset voltage

Theoutputoffsetvoltage,(V )isthesumoftheinputoffsetvoltage(V )andbothinputbiascurrents(I )times

OO

IO

IB

the corresponding gains. The following schematic and formula can be used to calculate the output offset

voltage:

R

F

I

IB–

R

G

+

–

V

I

V

O

+

R

S

I

IB+

R

F

V

1

I

R

1

I

R

OO

IO

IB

S

IB–

F

G

Figure 32. Output Offset Voltage Model

general configurations

When receiving low-level signals, limiting the bandwidth of the incoming signals into the system is often

required. The simplest way to accomplish this is to place an RC filter at the noninverting terminal of the amplifier

(see Figure 33).

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APPLICATION INFORMATION

general configurations (continued)

R

F

G

V

DD

/2

–

V

1

O

+

V

I

R1

C1

f

–3dB

2 R1C1

V

R

O

F

1

V

R

1

sR1C1

I

G

Figure 33. Single-Pole Low-Pass Filter

If even more attenuation is needed, a multiple pole filter is required. The Sallen-Key filter can be used for this

task. For best results, the amplifier should have a bandwidth that is 8 to 10 times the filter frequency bandwidth.

Failure to do this can result in phase shift of the amplifier.

C1

R1 = R2 = R

C1 = C2 = C

Q = Peaking Factor

(Butterworth Q = 0.707)

+

_

V

I

1

R1

R2

f

–3dB

2 RC

C2

R

F

1

R

=

G

R

F

2 –

)

(

R

Q

G

V

DD

/2

Figure 34. 2-Pole Low-Pass Sallen-Key Filter

circuit layout considerations

ToachievethelevelsofhighperformanceoftheTLV276x, followproperprinted-circuitboarddesigntechniques.

A general set of guidelines is given in the following.

Ground planes—It is highly recommended that a ground plane be used on the board to provide all

components with a low inductive ground connection. However, in the areas of the amplifier inputs and

output, the ground plane can be removed to minimize the stray capacitance.

Proper power supply decoupling—Use a 6.8-µF tantalum capacitor in parallel with a 0.1-µF ceramic

capacitor on each supply terminal. It may be possible to share the tantalum among several amplifiers

depending on the application, but a 0.1-µF ceramic capacitor should always be used on the supply terminal

of every amplifier. In addition, the 0.1-µF capacitor should be placed as close as possible to the supply

terminal. As this distance increases, the inductance in the connecting trace makes the capacitor less

effective. The designer should strive for distances of less than 0.1 inches between the device power

terminals and the ceramic capacitors.

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APPLICATION INFORMATION

circuit layout considerations (continued)

Sockets—Socketscanbeusedbutarenotrecommended. Theadditionalleadinductanceinthesocketpins

will often lead to stability problems. Surface-mount packages soldered directly to the printed-circuit board

is the best implementation.

Short trace runs/compact part placements—Optimum high performance is achieved when stray series

inductance has been minimized. To realize this, the circuit layout should be made as compact as possible,

thereby minimizing the length of all trace runs. Particular attention should be paid to the inverting input of

the amplifier. Its length should be kept as short as possible. This will help to minimize stray capacitance at

the input of the amplifier.

Surface-mount passive components—Using surface-mount passive components is recommended for high

performance amplifier circuits for several reasons. First, because of the extremely low lead inductance of

surface-mount components, the problem with stray series inductance is greatly reduced. Second, the small

size of surface-mount components naturally leads to a more compact layout thereby minimizing both stray

inductance and capacitance. If leaded components are used, it is recommended that the lead lengths be

kept as short as possible.

shutdown function

Three members of the TLV276x family (TLV2760/3/5) have a shutdown terminal for conserving battery life in

portable applications. When the shutdown terminal is pulled low, the supply current is reduced to 10 nA/channel,

the amplifier is disabled, and the outputs are placed in a high impedance mode. To enable the amplifier, the

shutdown terminal must be pulled high. The shutdown terminal should never be left floating. If the shutdown

feature is not desired, directly tie the shutdown terminal to the positive rail. The shutdown terminal threshold

is always referenced to the GND terminal of the device. Therefore, when operating the device with split supply

voltages (e.g. ±1.8 V), the shutdown terminal needs to be pulled to the negative rail, not the system ground,

to disable the operational amplifier.

The amplifier is powered with a single 2.4-V supply and configured as a noninverting configuration with a unity

gain. Turnon and turnoff times are defined as the interval between application of the logic signal to the shutdown

pin and the point at which the supply current has reached half its final value. The times for the single, dual, and

quad are listed in the data tables.

general power dissipation considerations

Foragivenθ , themaximumpowerdissipationisshowninFigure35andiscalculatedbythefollowingformula:

JA

T

–T

MAX

A

P

D

JA

Where:

P

= Maximum power dissipation of TLV276x IC (watts)

= Absolute maximum junction temperature (150°C)

= Free-ambient air temperature (°C)

D

T

MAX

T

A

θ

= θ + θ

JA

JC CA

θ

= Thermal coefficient from junction to case

JC

= Thermal coefficient from case to ambient air (°C/W)

CA

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APPLICATION INFORMATION

general power dissipation considerations (continued)

MAXIMUM POWER DISSIPATION

vs

FREE-AIR TEMPERATURE

2

1.75

1.5

T

= 150°C

PDIP Package

Low-K Test PCB

J

θ

= 104°C/W

JA

MSOP Package

Low-K Test PCB

SOIC Package

Low-K Test PCB

θ

= 260°C/W

JA

1.25

1

θ

= 176°C/W

JA

0.75

0.5

SOT-23 Package

Low-K Test PCB

0.25

0

θ

= 324°C/W

JA

–55–40 –25 –10

5

20 35 50 65 80 95 110 125

T

A

– Free-Air Temperature – °C

NOTE A: Results are with no air flow and using JEDEC Standard Low-K test PCB.

Figure 35. Maximum Power Dissipation vs Free-Air Temperature

17

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

APPLICATION INFORMATION

macromodel information

Macromodel information provided was derived using Microsim Parts Release 9.1, the model generation

software used with Microsim PSpice . The Boyle macromodel (see Note 4) and subcircuit in Figure 36 are

generated using TLV276x typical electrical and operating characteristics at T = 25°C. Using this information,

A

output simulations of the following key parameters can be generated to a tolerance of 20% (in most cases):

Maximum positive output voltage swing

Maximum negative output voltage swing

Slew rate

Unity-gain frequency

Common-mode rejection ratio

Phase margin

Quiescent power dissipation

Input bias current

DC output resistance

AC output resistance

Short-circuit output current limit

Open-loop voltage amplification

NOTE 4: G. R. Boyle, B. M. Cohn, D. O. Pederson, andJ. E. Solomon, “MacromodelingofIntegratedCircuitOperationalAmplifiers,”IEEEJournal

of Solid-State Circuits, SC-9, 353 (1974).

3

99

V

DD

+

egnd

rd1

11

rd2

12

rss

ro2

css

fb

rp

–

c1

7

+

vlim

–

8

c2

1

2

+

r2

9

6

IN+

vc

D

S

D

S

+

–

vb

ga

G

–

IN–

ro1

OUT

gcm

ioff

53

dp

5

dlp

dln

91

90

92

10

+

–

+

iss

dc

vlp

hlim

vln

–

+

GND

–

+ 54

4

de

ve

*DEVICE=amp_tlv276x_highVdd,OPAMP,NJF,INT

ga

6

0

11 12 16.272E–6

10 99 6.8698E–9

dc 1.3371E–6

vlim 1K

* amp_tlv_276x_highVdd operational amplifier ”macromodel”

gcm

iss

hlim

j1

0

6

* subcircuit updated using Model Editor release 9.1 on 05/15/00

* at 14:40 Model Editor is an OrCAD product.

*

10

90

11

12

6

4

0

2

10 jx1

* connections:

non-inverting input

| inverting input

J2

r2

rd1

rd2

ro1

ro2

rp

rss

vb

vc

ve

vlim

vlp

vln

.model dx

.model dy

.model jx1

.model jx2

.ends

1

10 jx2

*

9

100.00E3

61.456E3

10

| | positive power supply

| | | negative power supply

| | | | output

3

11

12

5

3

8

| | | | |

7

99

4

10

.subckt amp_tlv276x_highVdd 1 2 3 4 5

*

3

150.51E3

149.58E6

dc 0

10

9

99

0

c1

11

6

12 457.48E–15

c2

7

5.0000E–12

3

53

4

dc .78905

dc 0

dc 14.200

css

dc

10

5

99 1.1431E–12

54

7

53 dy

8

de

54

90

92

4

99

7

5

dy

91

0

dlp

dln

dp

egnd

fb

91 dx

90 dx

92

D(Is=800.00E–18)

3

0

dx

D(Is=800.00E–18 Rs=1m Cjo=10p)

poly(2) (3,0) (4,0) 0 .5 .5

NJF(Is=500.00E–15 Beta=198.03E–6 Vto=–1)

99 poly(5) vb vc ve vlp vln 0

176.02E6 –1E3 1E3 180E6

–180E6

Figure 36. Boyle Macromodel and Subcircuit

PSpice and Parts are trademarks of MicroSim Corporation.

18

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

D (R-PDSO-G**)

PLASTIC SMALL-OUTLINE PACKAGE

14 PIN SHOWN

0.050 (1,27)

0.020 (0,51)

0.010 (0,25)

M

0.014 (0,35)

14

8

0.008 (0,20) NOM

0.244 (6,20)

0.228 (5,80)

0.157 (4,00)

0.150 (3,81)

Gage Plane

0.010 (0,25)

1

7

0°–8°

0.044 (1,12)

0.016 (0,40)

A

Seating Plane

0.004 (0,10)

0.010 (0,25)

0.004 (0,10)

0.069 (1,75) MAX

PINS **

8

14

16

DIM

0.197

(5,00)

0.344

(8,75)

0.394

(10,00)

A MAX

0.189

(4,80)

0.337

(8,55)

0.386

(9,80)

A MIN

4040047/D 10/96

NOTES: A. All linear dimensions are in inches (millimeters).

B. This drawing is subject to change without notice.

C. Body dimensions do not include mold flash or protrusion, not to exceed 0.006 (0,15).

D. Falls within JEDEC MS-012

19

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

DBV (R-PDSO-G5)

PLASTIC SMALL-OUTLINE PACKAGE

0,40

0,20

M

0,25

0,95

5

4

0,15 NOM

1,80

1,50

3,00

2,50

1

3

Gage Plane

3,10

2,70

0,25

0°–8°

0,55

0,35

Seating Plane

0,10

1,30

1,00

0,05 MIN

4073253-4/B 10/97

NOTES: A. All linear dimensions are in millimeters.

B. This drawing is subject to change without notice.

C. Body dimensions include mold flash or protrusion.

20

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

DBV (R-PDSO-G6)

PLASTIC SMALL-OUTLINE PACKAGE

0,40

M

0,25

0,95

6

0,20

4

0,15 NOM

1,80

1,50

3,00

2,50

1

3

Gage Plane

3,10

2,70

0,25

0°–8°

Seating Plane

0,10

1,30

1,00

0,05 MIN

4073253-5/B 10/97

NOTES: A. All linear dimensions are in millimeters.

B. This drawing is subject to change without notice.

C. Body dimensions include mold flash or protrusion.

21

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

DGK (R-PDSO-G8)

PLASTIC SMALL-OUTLINE PACKAGE

0,38

0,25

M

0,65

8

0,25

5

0,15 NOM

3,05

2,95

4,98

4,78

Gage Plane

0,25

0°–6°

1

4

0,69

0,41

3,05

2,95

Seating Plane

0,10

1,07 MAX

0,15 MIN

4073329/A 02/97

NOTES: A. All linear dimensions are in millimeters.

B. This drawing is subject to change without notice.

C. Body dimensions do not include mold flash or protrusion.

D. Falls within JEDEC MO-187

22

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

DGS (S-PDSO-G10)

PLASTIC SMALL-OUTLINE PACKAGE

0,27

M

0,25

0,50

10

0,17

6

0,15 NOM

3,05

2,95

4,98

4,78

Gage Plane

0,25

0°–6°

1

5

0,69

0,41

3,05

2,95

Seating Plane

0,10

0,15

0,05

1,07 MAX

4073272/A 12/97

NOTES: A. All linear dimensions are in millimeters.

B. This drawing is subject to change without notice.

C. Body dimensions do not include mold flash or protrusion.

23

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

N (R-PDIP-T**)

PLASTIC DUAL-IN-LINE PACKAGE

16 PIN SHOWN

PINS **

14

16

18

20

DIM

0.775

(19,69)

0.775

(19,69)

0.920

(23.37)

0.975

(24,77)

A MAX

A

16

9

0.745

(18,92)

0.745

(18,92)

0.850

(21.59)

0.940

(23,88)

A MIN

0.260 (6,60)

0.240 (6,10)

1

8

0.070 (1,78) MAX

0.020 (0,51) MIN

0.310 (7,87)

0.290 (7,37)

0.035 (0,89) MAX

0.200 (5,08) MAX

Seating Plane

0.125 (3,18) MIN

0.100 (2,54)

0°–15°

0.021 (0,53)

0.015 (0,38)

0.010 (0,25)

M

0.010 (0,25) NOM

14/18 PIN ONLY

4040049/C 08/95

NOTES: A. All linear dimensions are in inches (millimeters).

B. This drawing is subject to change without notice.

C. Falls within JEDEC MS-001 (20 pin package is shorter then MS-001.)

24

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

P (R-PDIP-T8)

PLASTIC DUAL-IN-LINE PACKAGE

0.400 (10,60)

0.355 (9,02)

8

5

0.260 (6,60)

0.240 (6,10)

1

4

0.070 (1,78) MAX

0.310 (7,87)

0.290 (7,37)

0.020 (0,51) MIN

0.200 (5,08) MAX

Seating Plane

0.125 (3,18) MIN

0.100 (2,54)

0°–15°

0.021 (0,53)

0.015 (0,38)

0.010 (0,25)

M

0.010 (0,25) NOM

4040082/B 03/95

NOTES: A. All linear dimensions are in inches (millimeters).

B. This drawing is subject to change without notice.

C. Falls within JEDEC MS-001

25

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLV2760, TLV2761, TLV2762, TLV2763, TLV2764, TLV2765

FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT

OPERATIONAL AMPLIFIERS WITH SHUT DOWN

SLOS326D – JUNE 2000 – REVISED FEBRUARY 2001

MECHANICAL DATA

PW (R-PDSO-G**)

PLASTIC SMALL-OUTLINE PACKAGE

14 PIN SHOWN

0,30

0,19

0,65

M

0,10

14

8

0,15 NOM

4,50

4,30

6,60

6,20

Gage Plane

0,25

1

7

0°–8°

0,75

0,50

A

Seating Plane

0,10

0,15

0,05

1,20 MAX

PINS **

8

14

16

20

24

28

DIM

3,10

2,90

5,10

4,90

5,10

4,90

6,60

6,40

7,90

7,70

9,80

9,60

A MAX

A MIN

4040064/E 08/96

NOTES: A. All linear dimensions are in millimeters.

B. This drawing is subject to change without notice.

C. Body dimensions do not include mold flash or protrusion not to exceed 0,15.

D. Falls within JEDEC MO-153

26

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

IMPORTANT NOTICE

Texas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinue

any product or service without notice, and advise customers to obtain the latest version of relevant information

to verify, before placing orders, that information being relied on is current and complete. All products are sold

subject to the terms and conditions of sale supplied at the time of order acknowledgment, including those

pertaining to warranty, patent infringement, and limitation of liability.

TI warrants performance of its products to the specifications applicable at the time of sale in accordance with

TI’sstandardwarranty. TestingandotherqualitycontroltechniquesareutilizedtotheextentTIdeemsnecessary

to support this warranty. Specific testing of all parameters of each device is not necessarily performed, except

those mandated by government requirements.

Customers are responsible for their applications using TI components.

In order to minimize risks associated with the customer’s applications, adequate design and operating

safeguards must be provided by the customer to minimize inherent or procedural hazards.

TI assumes no liability for applications assistance or customer product design. TI does not warrant or represent

that any license, either express or implied, is granted under any patent right, copyright, mask work right, or other

intellectual property right of TI covering or relating to any combination, machine, or process in which such

products or services might be or are used. TI’s publication of information regarding any third party’s products

or services does not constitute TI’s approval, license, warranty or endorsement thereof.

Reproduction of information in TI data books or data sheets is permissible only if reproduction is without

alteration and is accompanied by all associated warranties, conditions, limitations and notices. Representation

or reproduction of this information with alteration voids all warranties provided for an associated TI product or

service, is an unfair and deceptive business practice, and TI is not responsible nor liable for any such use.

Resale of TI’s products or services with statements different from or beyond the parameters stated by TI for

that product or service voids all express and any implied warranties for the associated TI product or service,

is an unfair and deceptive business practice, and TI is not responsible nor liable for any such use.

Also see: Standard Terms and Conditions of Sale for Semiconductor Products. www.ti.com/sc/docs/stdterms.htm

Mailing Address:

Texas Instruments

Post Office Box 655303

Dallas, Texas 75265


型号：	TLV2761IDR
厂家：	TEXAS INSTRUMENTS
描述：	FAMILY OF 1.8 V MICROPOWER RAIL-TO-RAIL INPUT/OUTPUT OPERATIONAL AMPLIFIERS WITH SHUT DOWN 家庭1.8 V微功耗轨至轨输入/输出运算与关闭放大器DOWN 运算放大器放大器电路光电二极管输出元件输入元件
文件：	总27页 (文件大小：470K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

TLV2761IDR [TI]

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