background image

TLC226x, TLC226xA

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D

Output Swing includes Both Supply Rails

D

Low Noise . . . 12 nV/

Hz Typ at f = 1 kHz

D

Low Input Bias Current . . . 1  pA  Typ

D

Fully Specified for Both Single-Supply and

Split-Supply Operation

D

Low Power . . . 500  

µ

A Max

D

Common-Mode Input Voltage Range

Includes Negative Rail

D

Low Input Offset Voltage

950 

µ

V Max at T

A

 = 25

°

C (TLC2262A)

D

Macromodel Included

D

Performance Upgrade for the TS27M2/M4

and TLC27M2/M4

D

Available in Q-Temp Automotive 

HighRel Automotive Applications

Configuration Control / Print Support

Qualification to Automotive Standards

     

description

The TLC2262 and TLC2264 are dual and

quadruple operational amplifiers from Texas

Instruments. Both devices exhibit rail-to-rail

output performance for increased dynamic range

in single- or split-supply applications. The

TLC226x family offers a compromise between the

micropower TLC225x and the ac performance of

the TLC227x. It has low supply current for

battery-powered applications, while still having

adequate ac performance for applications that

demand it. The noise performance has been

dramatically improved over previous generations

of CMOS amplifiers. Figure 1 depicts the low level

of noise voltage for this CMOS amplifier, which

has only 200 

µ

A (typ) of supply current per

amplifier.

The TLC226x, exhibiting high input impedance

and low noise, are excellent for small-signal

conditioning for high-impedance sources, such as

piezoelectric transducers. Because of the micro-

power dissipation levels, these devices work well

in hand-held monitoring and remote-sensing

applications. In addition, the rail-to-rail output feature with single or split supplies makes this family a great

choice when interfacing with analog-to-digital converters (ADCs). For precision applications, the TLC226xA

family is available and has a maximum input offset voltage of 950 

µ

V. This family is fully characterized at 5 V

and 

±

5 V.

The TLC2262/4 also makes great upgrades to the TLC27M2/L4 or TS27M2/L4 in standard designs. They offer

increased output dynamic range, lower noise voltage and lower input offset voltage. This enhanced feature set

allows them to be used in a wider range of applications. For applications that require higher output drive and

wider input voltage range, see the TLV2432 and TLV2442. If your design requires single amplifiers, please see

the TLV2211/21/31 family. These devices are single rail-to-rail operational amplifiers in the SOT-23 package.

Their small size and low power consumption, make them ideal for high density, battery-powered equipment.

Copyright 

©

 1999, Texas Instruments Incorporated

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.

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.

Advanced LinCMOS is a trademark of Texas Instruments Incorporated.

40

20

10

0

60

30

VN – Equivalent Input Noise V

oltage – nv//Hz

50

f – Frequency – Hz

EQUIVALENT INPUT NOISE VOLTAGE

vs

FREQUENCY

10

102

103

104

nV/

Hz

V

n

VDD = 5 V

RS = 20 

TA = 25

°

C

Figure 1

On products compliant to MIL-PRF-38535, all parameters are tested

unless otherwise noted. On all other products, production

processing does not necessarily include testing of all parameters.

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TLC226x, TLC226xA

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TLC2262 AVAILABLE OPTIONS

PACKAGED DEVICES

TA

VIOmax

AT 25

°

C

SMALL

OUTLINE

(D)

CHIP

CARRIER

(FK)

CERAMIC

DIP

(JG)

PLASTIC

DIP

(P)

TSSOP

(PW)

CERAMIC

FLATPACK

(U)

0

°

C to 70

°

C

2.5 mV

TLC2262CD

TLC2262CP

TLC2262CPWLE

40

°

C to 125

°

C

950 

µ

V

TLC2262AID

TLC2262AIP

TLC2262AIPWLE

– 40

°

C to 125

°

C

µ

2.5 mV

TLC2262ID

TLC2262IP

40

°

C to 125

°

C

950 

µ

V

TLC2262AQD

– 40

°

C to 125

°

C

µ

2.5 mV

TLC2262QD

– 55

°

C to 125

°

C

950 

µ

V

2.5 mV

TLC2262AMFK

TLC2262MFK

TLC2262AMJG

TLC2262MJG

TLC2262AMU

TLC2262MU

The D packages are available taped and reeled. Add R suffix to device type (e.g., TLC2262CDR). The PW package is available only left-end taped

and reeled. Chips are tested at 25

°

C.

TLC2264 AVAILABLE OPTIONS

PACKAGED DEVICES

TA

VIOmax

AT 25

°

C

SMALL

OUTLINE

(D)

CHIP

CARRIER

(FK)

CERAMIC

DIP

(J)

PLASTIC

DIP

(N)

TSSOP

(PW)

CERAMIC

FLATPACK

(W)

0

°

C to 70

°

C

2.5 mV

TLC2264CD

TLC2264CN

TLC2264CPWLE

40

°

C to 125

°

C

950 

µ

V

TLC2264AID

TLC2264AIN

TLC2264AIPWLE

– 40

°

C to 125

°

C

µ

2.5 mV

TLC2264ID

TLC2264IN

40

°

C to 125

°

C

950 

µ

V

TLC2264AQD

– 40

°

C to 125

°

C

µ

2.5 mV

TLC2264QD

– 55

°

C to 125

°

C

950 

µ

V

2.5 mV

TLC2264AMFK

TLC2264MFK

TLC2264AMJ

TLC2264MJ

TLC2264AMW

TLC2264MW

The D packages are available taped and reeled. Add R suffix to device type (e.g., TLC2264CDR). The PW package is available only left-end taped

and reeled. Chips are tested at 25

°

C.

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TLC2262M, TLC2262AM . . . JG PACKAGE

(TOP VIEW)

TLC2262C, TLC2262AC

TLC2262I, TLC2262AI

TLC2262Q, TLC2262AQ

D, P, OR PW PACKAGE

(TOP VIEW)

1

2

3

4

8

7

6

5

1OUT

1IN –

1IN +

V

DD –

/GND

V

DD +

2OUT

2IN –

2IN +

NC

V

CC

+

2OUT

2IN –

2IN +

NC

1OUT

1IN –

1IN +

V

CC –

/GND

  1

2

3

5

10

9

8

7

6

TLC2262M, TLC2262AM . . . U  PACKAGE

(TOP VIEW)

1

2

3

4

8

7

6

5

1OUT

1IN –

1IN +

V

DD –

/GND

V

DD +

2OUT

2IN –

2IN +

3

2

1 20 19

9 10 11 12 13

4

5

6

7

8

18

17

16

15

14

NC

2OUT

NC

2IN –

NC

NC

1IN –

NC

1IN +

NC

NC

1OUT

NC

2IN+

NC

NC

NC

NC

V

DD+

V

DD–

TLC2262M, TLC2262AM . . . FK PACKAGE

(TOP VIEW)

/GND

1

2

3

5

6

7

14

13

12

11

10

9

8

1OUT

1IN –

1IN +

V

DD +

2IN +

2IN –

2OUT

4OUT

4IN –

4IN +

V

DD –

/ GND

3IN +

3IN –

3OUT

3

2

1 20 19

9 10 11 12 13

4

5

6

7

8

18

17

16

15

14

4IN +

NC

V

CC –

/GND

NC

3IN +

1IN +

NC

V

CC +

NC

2IN +

1IN –

1OUT

NC

3

OUT

3IN –

4OUT

4IN –

2IN –

2

OUT

NC

TLC2264M, TLC2264AM . . . FK PACKAGE

(TOP VIEW)

TLC2264C, TLC2264AC

TLC2264I, TLC2264AI

TLC2264Q, TLC2264AQ

D, N, OR PW PACKAGE

(TOP VIEW)

1

2

3

5

6

7

14

13

12

11

10

9

8

1OUT

1IN –

1IN +

V

DD +

2IN +

2IN –

2OUT

4OUT

4IN –

4IN +

V

DD –

/ GND

3IN +

3IN –

3OUT

TLC2264M, TLC2264AM . . . J  OR  W  PACKAGE

(TOP VIEW)

background image

T

emp

late 

R

e

lease 

D

ate: 

7

11

94

TLC226x, TLC226xA

Advanced LinCMOS

OPERA

TIONAL

 AMPLIFIERS

SLOS177A

 – FEBRUAR

Y

 1997 – REVISED JUL

Y

 1999

RAIL-T

O-RAIL

4

POST

 OFFICE BOX 655303     DALLAS, 

TEXAS 

75265

equivalent schematic (each amplifier)

Q3

Q6

Q9

Q12

Q14

Q16

Q2

Q5

Q7

Q8

Q10

Q11

D1

Q17

Q15

Q13

Q4

Q1

R5

C1

VDD +

IN +

IN –

R3

R4

R1

R2

OUT

VDD – / GND

ACTUAL DEVICE COMPONENT COUNT†

COMPONENT

TLC2262

TLC2264

Transistors

38

76

Resistors

28

56

Diodes

9

18

Capacitors

3

6

† Includes both amplifiers and all ESD, bias, and trim circuitry

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

Supply voltage, V

DD +

 (see Note 1) 

8 V

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Supply voltage, V

DD –

 (see Note 1) 

– 8 V

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Differential input voltage, V

ID

 (see Note 2) 

±

16 V

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Input voltage, V

I

 (any input, see Note 1) 

V

DD–

 – 0.3 V to V

DD+

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Input current, I

I

 (each input) 

±

5 mA

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Output current, I

O

 

±

50 mA

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Total current into V

DD +

 

±

50 mA

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Total current out of V

DD –

 

±

50 mA

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Duration of short-circuit current at (or below) 25

°

C (see Note 3) 

unlimited

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Continuous total dissipation 

See Dissipation Rating Table

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Operating free-air temperature range, T

A

: C suffix 

0

°

C to 70

°

C

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

I suffix 

– 40

°

C to 125

°

C

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Q suffix 

– 40

°

C to 125

°

C

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

M suffix 

– 55

°

C to 125

°

C

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Storage temperature range, T

stg

  – 65

°

C to 150

°

C

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds: D, N, P, and PW packages 

260

°

C

. . . . . . . 

J, JG, U, and W packages 

300

°

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.

NOTES:

1. All voltage values, except differential voltages, are with respect to the midpoint between VDD+  and VDD – .

2. Differential voltages are at IN+ with respect to IN –. Excessive current flows if input is brought below VDD – – 0.3 V.

3. The output may be shorted to either supply. Temperature and/or supply voltages must be limited to ensure that the maximum

dissipation rating is not exceeded.

DISSIPATION RATING TABLE

PACKAGE

TA 

 25

°

C

DERATING FACTOR

TA = 70

°

C

TA = 85

°

C

TA = 125

°

C

PACKAGE

A

POWER RATING

ABOVE TA = 25

°

C

A

POWER RATING

A

POWER RATING

A

POWER RATING

D–8

725 mW

5.8 mW/

°

C

464 mW

377 mW

145 mW

D–14

950 mW

7.6 mW/

°

C

608 mW

494 mW

190 mW

FK

1375 mW

11.0 mW/

°

C

880 mW

715 mW

275 mW

J

1375 mW

11.0 mW/

°

C

880 mW

715 mW

275 mW

JG

1050 mW

8.4 mW/

°

C

672 mW

546 mW

210 mW

N

1150 mW

9.2 mW/

°

C

736 mW

598 mW

230 mW

P

1000 mW

8.0 mW/

°

C

640 mW

520 mW

200 mW

PW–8

525 mW

4.2 mW/

°

C

336 mW

273 mW

105 mW

PW–14

700 mW

5.6 mW/

°

C

448 mW

364 mW

140 mW

U

700 mW

5.5 mW/

°

C

452 mW

370 mW

150 mW

W

700 mW

5.5 mW/

°

C

452 mW

370 mW

150 mW

recommended operating conditions

C SUFFIX

I SUFFIX

Q SUFFIX

M SUFFIX

UNIT

MIN

MAX

MIN

MAX

MIN

MAX

MIN

MAX

UNIT

Supply voltage, VDD

±

±

2.2

±

8

±

2.2

±

8

±

2.2

±

8

±

2.2

±

8

V

Input voltage range, VI

VDD – VDD + – 1.5 VDD – VDD + – 1.5 VDD – VDD + – 1.5 VDD – VDD + – 1.5

V

Common-mode input voltage, VIC

VDD – VDD + – 1.5 VDD – VDD + – 1.5 VDD – VDD + – 1.5 VDD – VDD + – 1.5

V

Operating free-air temperature, TA

0

70

– 40

125

– 40

125

– 55

125

°

C

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TLC2262C electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless otherwise

noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2262C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

µ

V

VIO

Input offset voltage

Full range

3000

µ

V

α

VIO

Temperature coefficient of input offset voltage

25

°

C

to 70

°

C

2

µ

V/

°

C

Input offset voltage long-term drift 

(see Note 4)

VIC = 0,

VO = 0,

VDD

±

 = 

±

2.5 V,

RS = 50 

25

°

C

0.003

µ

V/mo

IIO

Input offset current

O

S

25

°

C

0.5

pA

IIO

Input offset current

Full range

100

pA

IIB

Input bias current

25

°

C

1

pA

IIB

Input bias current

Full range

100

pA

VICR

Common mode input voltage range

RS = 50

|

VIO

| ≤

5 mV

25

°

C

0

to

4

– 0.3

to

4.2

V

VICR

Common-mode input voltage range

RS = 50 

Ω,

|

VIO 

|  ≤

5 mV

Full range

0

to

3.5

V

IOH = – 20 

µ

A

25

°

C

4.99

IOH = 100

µ

A

25

°

C

4.85

4.94

VOH

High-level output voltage

IOH = – 100 

µ

A

Full range

4.82

V

IOH = 400

µ

A

25

°

C

4.70

4.85

IOH = – 400 

µ

A

Full range

4.60

VIC = 2.5 V,

IOL =  50 

µ

A

25

°

C

0.01

VIC = 2 5 V

IOL = 500

µ

A

25

°

C

0.09

0.15

VIC = 2.5 V,

IOL =  500 

µ

A

Full range

0.15

VOL

Low-level output voltage

VIC = 2 5 V

IOL = 1

m

A

25

°

C

0.2

0.3

V

VIC = 2.5 V,

IOL =  1 

m

A

Full range

0.3

VIC = 2 5 V

IOL = 4

m

A

25

°

C

0.7

1

VIC = 2.5 V,

IOL =  4 

m

A

Full range

1.2

V

2 5 V

R

50 k

25

°

C

80

170

AVD

Large-signal differential voltage amplification

VIC = 2.5 V,

VO = 1 V to 4 V

RL = 50 k

Full range

55

V/mV

VD

g

g

g

VO = 1 V to 4 V

RL = 1 M

25

°

C

550

ri(d)

Differential input resistance

25

°

C

1012

ri(c)

Common-mode input resistance

25

°

C

1012

ci(c)

Common-mode input capacitance

f = 10 kHz,

P package

25

°

C

8

pF

zo

Closed-loop output impedance

f = 100 kHz,

AV = 10

25

°

C

240

CMRR

Common mode rejection ratio

VIC = 0 to 2.7 V,  VO = 2.5 V,

25

°

C

70

83

dB

CMRR

Common-mode rejection ratio

IC

,

O

,

RS = 50

Full range

70

dB

kSVR

Supply voltage rejection ratio (

VDD/

VIO)

VDD =  4.4 V to 16 V,

25

°

C

80

95

dB

kSVR

Supply-voltage rejection ratio (

VDD/

VIO)

DD

,

VIC = VDD /2, No 

load

Full range

80

dB

IDD

Supply current

VO = 2 5 V

No load

25

°

C

400

500

µ

A

IDD

Supply current

VO = 2.5 V,

No load

Full range

500

µ

A

† Full range is 0

°

C to 70

°

C.

‡ Referenced to 2.5 V

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

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TLC2262C operating characteristics at specified free-air temperature, V

DD

 = 5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2262C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

SR

Slew rate at unity gain

VO = 1.5 V to 3.5 V,

RL = 50 k

‡,

25

°

C

0.35

0.55

V/

µ

s

SR

Slew rate at unity gain

O

,

CL = 100 pF‡

L

,

Full range

0.3

V/

µ

s

V

Equivalent input noise voltage

f = 10 Hz

25

°

C

40

nV/

Hz

Vn

Equivalent input noise voltage

f = 1 kHz

25

°

C

12

nV/

Hz

VN(PP)

Peak-to-peak equivalent input noise

f = 0.1 Hz to 1 Hz

25

°

C

0.7

µ

V

VN(PP)

q

voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

µ

V

In

Equivalent input noise current

25

°

C

0.6

fA

Hz

THD + N

Total harmonic distortion plus noise

VO = 0.5 V to 2.5 V,

f

20 kHz

AV = 1

25

°

C

0.017%

THD + N

Total harmonic distortion plus noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.03%

Gain-bandwidth product

f = 10  kHz, 

CL = 100 pF‡

RL = 50 k

‡,

25

°

C

0.71

MHz

BOM

Maximum output-swing bandwidth

VO(PP) = 2 V, 

RL = 50 k

‡,

AV = 1, 

CL = 100 pF‡

25

°

C

185

kHz

AV = – 1,

To 0 1%

6 4

t

Settling time

AV =  1,

Step = 0.5 V to 2.5 V,

To 0.1%

25

°

C

6.4

µ

s

ts

Settling time

,

RL = 50 k

‡,

To 0 01%

25

°

C

14 1

µ

s

L

CL = 100 pF‡

To 0.01%

14.1

φ

m

Phase margin at unity gain

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

56

°

Gain margin

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

11

dB

† Full range is 0

°

C to 70

°

C.

‡ Referenced to 2.5 V

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

8

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262C electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless

otherwise specified)

PARAMETER

TEST CONDITIONS

TA†

TLC2262C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

µ

V

VIO

Input offset voltage

Full range

3000

µ

V

α

VIO

Temperature coefficient of input offset voltage

25

°

C

2

µ

V/

°

C

α

VIO

Temperature coefficient of input offset voltage

to 70

°

C

2

µ

V/

°

C

Input offset voltage long-term drift (see Note 4)

VIC = 0,

RS = 50

VO = 0,

25

°

C

0.003

µ

V/mo

IIO

Input offset current

RS = 50 

25

°

C

0.5

pA

IIO

Input offset current

Full range

100

pA

IIB

Input bias current

25

°

C

1

pA

IIB

Input bias current

Full range

100

pA

– 5

– 5.3

25

°

C

5

to

5.3

to

VICR

Common mode input voltage range

|

VIO

| ≤

5 mV

RS = 50

4

4.2

V

VICR

Common-mode input voltage range

|

VIO 

|  ≤

5 mV,

RS = 50 

– 5

V

Full range

5

to

g

3.5

IO = – 20 

µ

A

25

°

C

4.99

IO = 100

µ

A

25

°

C

4.85

4.94

VOM + Maximum positive peak output voltage

IO = – 100 

µ

A

Full range

4.82

V

IO = 400

µ

A

25

°

C

4.7

4.85

IO = – 400 

µ

A

Full range

4.6

VIC = 0,

IO =  50 

µ

A

25

°

C

– 4.99

VIC = 0

IO = 500

µ

A

25

°

C

– 4.85

– 4.91

VIC = 0,

IO =  500 

µ

A

Full range

– 4.85

VOM – Maximum negative peak output voltage

VIC = 0

IO = 1

m

A

25

°

C

– 4.7

– 4.8

V

VIC = 0,

IO =  1 

m

A

Full range

– 4.7

VIC = 0

IO = 4

m

A

25

°

C

– 4

– 4.3

VIC = 0,

IO =  4 

m

A

Full range

– 3.8

RL = 50 k

25

°

C

80

200

AVD

Large-signal differential voltage amplification

VO = 

±

4 V

RL = 50 k

Full range

55

V/mV

RL = 1 M

25

°

C

1000

ri(d)

Differential input resistance

25

°

C

1012

ri(c)

Common-mode input resistance

25

°

C

1012

ci(c)

Common-mode input capacitance

f = 10 kHz,

P package

25

°

C

8

pF

zo

Closed-loop output impedance

f = 100 kHz,

AV = 10

25

°

C

220

CMRR

Common mode rejection ratio

VIC = – 5 V to 2.7 V,

25

°

C

75

88

dB

CMRR

Common-mode rejection ratio

IC

,

VO = 0 V, 

RS = 50

Full range

75

dB

kSVR

Supply voltage rejection ratio (

VDD

±

/

VIO)

VDD

±

 =  2.2 V to 

±

8 V,

25

°

C

80

95

dB

kSVR

Supply-voltage rejection ratio (

VDD

±

 /

VIO)

DD

±

,

VIC = 0, 

No load

Full range

80

dB

IDD

Supply current

VO = 0 V

No load

25

°

C

425

500

µ

A

IDD

Supply current

VO = 0 V,

No load

Full range

500

µ

A

† Full range is 0

°

C to 70

°

C.

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

9

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262C operating characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2262C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VO =

±

1 9 V

RL = 50 k

25

°

C

0.35

0.55

SR

Slew rate at unity gain

VO = 

±

1.9 V,

CL = 100 pF

RL = 50 k

,

Full

0 3

V/

µ

s

CL = 100  F

range

0.3

V

Equivalent input noise voltage

f = 10 Hz

25

°

C

43

nV/

Hz

Vn

Equivalent input noise voltage

f = 1 kHz

25

°

C

12

nV/

Hz

VN(PP)

Peak-to-peak equivalent input noise

f = 0.1 Hz to 1 Hz

25

°

C

0.8

µ

V

VN(PP)

q

voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

µ

V

In

Equivalent input noise current

25

°

C

0.6

fA

Hz

THD + N

Total harmonic distortion pulse duration

VO = 

±

2.3 V,

f

20 kHz

AV = 1

25

°

C

0.014%

THD + N

Total harmonic distortion pulse duration

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.024%

Gain bandwidth product

f = 10  kHz,

RL = 50 k

,

25

°

C

0 73

MHz

Gain-bandwidth product

,

CL = 100 pF

L

,

25

°

C

0.73

MHz

BOM

Maximum output swing bandwidth

VO(PP) = 4.6 V,

AV = 1,

25

°

C

85

kHz

BOM

Maximum output-swing bandwidth

O(PP)

RL = 50 k

,

V

CL = 100 pF

25

°

C

85

kHz

AV = – 1,

To 0 1%

7 1

t

Settling time

AV =  1,

Step = – 2.3 V  to 2.3 V,

To 0.1%

25

°

C

7.1

µ

s

ts

Settling time

,

RL = 50 k

,

To 0 01%

25

°

C

16 5

µ

s

L

CL = 100 pF

To 0.01%

16.5

φ

m

Phase margin at unity gain

RL = 50 k

CL = 100 pF

25

°

C

57

°

Gain margin

RL = 50 k

,

CL = 100 pF

25

°

C

11

dB

† Full range is 0

°

C to 70

°

C.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

10

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264C electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless otherwise

noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2264C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

µ

V

VIO

Input offset voltage

Full range

3000

µ

V

α

VIO

Temperature coefficient of input offset voltage

25

°

C

to 70

°

C

2

µ

V/

°

C

Input offset voltage long-term drift (see Note 4)

VIC = 0,

VO = 0

VDD

±

 = 

±

2.5 V,

RS = 50

25

°

C

0.003

µ

V/mo

IIO

Input offset current

VO = 0,

RS = 50 

25

°

C

0.5

pA

IIO

Input offset current

Full range

100

pA

IIB

Input bias current

25

°

C

1

pA

IIB

Input bias current

Full range

100

pA

VICR

Common mode input voltage range

RS = 50

|

VIO

| ≤

5 mV

25

°

C

0

to

4

– 0.3

to

4.2

V

VICR

Common-mode input voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

Full range

0

to

3.5

V

IOH = – 20 

µ

A

25

°

C

4.99

IOH = 100

µ

A

25

°

C

4.85

4.94

VOH

High-level output voltage

IOH = – 100 

µ

A

Full range

4.82

V

IOH = 400

µ

A

25

°

C

4.70

4.85

IOH = – 400 

µ

A

Full range

4.60

VIC = 2.5 V,

IOL = 50 

µ

A

25

°

C

0.01

VIC = 2 5 V

IOL = 500

µ

A

25

°

C

0.09

0.15

VIC = 2.5 V,

IOL = 500 

µ

A

Full range

0.15

VOL

Low-level output voltage

VIC = 2 5 V

IOL = 1

m

A

25

°

C

0.2

0.3

V

VIC = 2.5 V,

IOL = 1 

m

A

Full range

0.3

VIC = 2 5 V

IOL = 4

m

A

25

°

C

0.7

1

VIC = 2.5 V,

IOL = 4 

m

A

Full range

1.2

V

2 5 V

R

50 k

25

°

C

80

170

AVD

Large-signal differential voltage amplification

VIC = 2.5 V,

VO = 1 V to 4 V

RL = 50 k

Full range

55

V/mV

VD

g

g

g

VO = 1 V to 4 V

RL = 1 M

25

°

C

550

ri(d)

Differential input resistance

25

°

C

1012

ri(c)

Common-mode input resistance

25

°

C

1012

ci(c)

Common-mode input capacitance

f = 10 kHz,

N package

25

°

C

8

pF

zo

Closed-loop output impedance

f = 100 kHz,

AV = 10

25

°

C

240

CMRR

Common mode rejection ratio

VIC = 0 to 2.7 V, VO = 2.5 V,

25

°

C

70

83

dB

CMRR

Common-mode rejection ratio

IC

,

RS = 50

O

,

Full range

70

dB

kSVR

Supply voltage rejection ratio (

VDD /

VIO)

VDD =  4.4 V to 16 V,

25

°

C

80

95

dB

kSVR

Supply-voltage rejection ratio (

VDD /

VIO)

VIC = VDD /2,

No load

Full range

80

dB

IDD

Supply current (four amplifiers)

VO = 2 5 V

No load

25

°

C

0.8

1

mA

IDD

Supply current (four amplifiers)

VO = 2.5 V,

No load

Full range

1

mA

† Full range is 0

°

C to 70

°

C.

‡ Referenced to 2.5 V

NOTE 4. Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

11

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264C operating characteristics at specified free-air temperature, V

DD

 = 5 V

PARAMETER

TEST CONDITIONS

T †

TLC2264C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VO = 1 4 V to 2 6 V

RL = 50 k

25

°

C

0.35

0.55

SR

Slew rate at unity gain

VO = 1.4 V to 2.6 V,

CL = 100 pF‡

RL = 50 k

‡,

Full

0 3

V/

µ

s

CL = 100  F‡

range

0.3

V

Equivalent input noise voltage

f = 10 Hz

25

°

C

40

nV/

Hz

Vn

Equivalent input noise voltage

f = 1 kHz

25

°

C

12

nV/

Hz

VN(PP)

Peak-to-peak equivalent input noise

f = 0.1 Hz to 1 Hz

25

°

C

0.7

µ

V

VN(PP)

q

voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

µ

V

In

Equivalent input noise current

25

°

C

0.6

fA /

Hz

THD + N

Total harmonic distortion plus noise

VO = 0.5 V to 2.5 V,

f

20 kHz

AV = 1

25

°

C

0.017%

THD + N

Total harmonic distortion plus noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.03%

Gain-bandwidth product

f = 10  kHz, 

CL = 100 pF‡

RL = 50 k

‡,

25

°

C

0.71

MHz

BOM

Maximum output-swing bandwidth

VO(PP) = 2 V, 

RL = 50 k

‡,

AV = 1, 

CL = 100 pF‡

25

°

C

185

kHz

AV = – 1,

To 0 1%

6 4

t

Settling time

AV =  1,

Step = 0.5 V to 2.5 V,

To  0.1%

25

°

C

6.4

µ

s

ts

Settling time

,

RL = 50 k

‡,

To 0 01%

25

°

C

14 1

µ

s

L

CL = 100 pF‡

To  0.01%

14.1

φ

m

Phase margin at unity gain

RL = 50 k

CL = 100 pF‡

25

°

C

56

°

Gain margin

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

11

dB

† Full range is 0

°

C to 70

°

C.

‡ Referenced to 2.5 V

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

12

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264C electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless

otherwise specified)

PARAMETER

TEST CONDITIONS

TA†

TLC2264C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

µ

V

VIO

Input offset voltage

Full range

3000

µ

V

α

VIO

Temperature coefficient of input offset voltage

25

°

C

2

µ

V/

°

C

α

VIO

Temperature coefficient of input offset voltage

to 70

°

C

2

µ

V/

°

C

Input offset voltage long-term drift (see Note 4)

VIC = 0,

RS = 50

VO = 0,

25

°

C

0.003

µ

V/mo

IIO

Input offset current

RS = 50 

25

°

C

0.5

pA

IIO

Input offset current

Full range

100

pA

IIB

Input bias current

25

°

C

1

pA

IIB

Input bias current

Full range

100

pA

– 5

– 5.3

25

°

C

5

to

5.3

to

VICR

Common mode input voltage range

|

VIO

| ≤

5 mV

RS = 50

4

4.2

V

VICR

Common-mode input voltage range

|

VIO 

| ≤

5 mV,

RS = 50 

– 5

V

Full range

5

to

g

3.5

IO = – 20 

µ

A

25

°

C

4.99

IO = 100

µ

A

25

°

C

4.85

4.94

VOM + Maximum positive peak output voltage

IO = – 100 

µ

A

Full range

4.82

V

IO = 400

µ

A

25

°

C

4.7

4.85

IO = – 400 

µ

A

Full range

4.6

VIC = 0,

IO = 50 

µ

A

25

°

C

– 4.99

VIC = 0

IO = 500

µ

A

25

°

C

– 4.85

– 4.91

VIC = 0,

IO = 500 

µ

A

Full range

– 4.85

VOM – Maximum negative peak output voltage

VIC = 0

IO = 1

m

A

25

°

C

– 4.7

– 4.8

V

VIC = 0,

IO = 1 

m

A

Full range

– 4.7

VIC = 0

IO = 4

m

A

25

°

C

– 4

– 4.3

VIC = 0,

IO = 4 

m

A

Full range

– 3.8

RL = 50 k

25

°

C

80

200

AVD

Large-signal differential voltage amplification

VO = 

±

4 V

RL = 50 k

Full range

55

V/mV

RL = 1 M

25

°

C

1000

ri(d)

Differential input resistance

25

°

C

1012

ri(c)

Common-mode input resistance

25

°

C

1012

ci(c)

Common-mode input capacitance

f = 10 kHz,

N package

25

°

C

8

pF

zo

Closed-loop output impedance

f = 100 kHz,

AV = 10

25

°

C

220

CMRR

Common mode rejection ratio

VIC = – 5 V to 2.7 V,

25

°

C

75

88

dB

CMRR

Common-mode rejection ratio

VO = 0,

RS = 50

Full range

75

dB

kSVR

Supply voltage rejection ratio (

VDD

±

/

VIO)

VDD

±

 =  

±

2.2 V to 

±

8 V,

25

°

C

80

95

dB

kSVR

Supply-voltage rejection ratio (

VDD

±

 /

VIO)

VIC = 0,

No load

Full range

80

dB

IDD

Supply current (four amplifiers)

VO = 0

No load

25

°

C

0.85

1

mA

IDD

Supply current (four amplifiers)

VO = 0,

No load

Full range

1

mA

† Full range is 0

°

C to 70

°

C.

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

13

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264C operating characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V

PARAMETER

TEST CONDITIONS

T †

TLC2264C

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

UNIT

VO =

±

1 9 V

RL = 50 k

25

°

C

0.35

0.55

SR

Slew rate at unity gain

VO = 

±

1.9 V,

CL = 100 pF

RL = 50 k

,

Full

0 3

V/

µ

s

CL = 100  F

range

0.3

V

Equivalent input noise voltage

f = 10 Hz

25

°

C

43

nV/

Hz

Vn

Equivalent input noise voltage

f = 1 kHz

25

°

C

12

nV/

Hz

VN(PP)

Peak-to-peak equivalent input noise

f = 0.1 Hz to 1 Hz

25

°

C

0.8

µ

V

VN(PP)

q

voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

µ

V

In

Equivalent input noise current

25

°

C

0.6

fA /

Hz

THD + N

Total harmonic distortion plus noise

VO = 

±

2.3 V,

f

20 kHz

AV = 1

25

°

C

0.014%

THD + N

Total harmonic distortion plus noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.024%

Gain bandwidth product

f = 10  kHz,

RL = 50 k

,

25

°

C

0 73

MHz

Gain-bandwidth product

,

CL = 100 pF

L

,

25

°

C

0.73

MHz

BOM

Maximum output swing bandwidth

VO(PP) = 4.6 V,

AV = 1,

25

°

C

70

kHz

BOM

Maximum output-swing bandwidth

O(PP)

,

RL = 50 k

,

V

,

CL = 100 pF

25

°

C

70

kHz

AV = – 1,

To 0 1%

7 1

t

Settling time

AV =  1,

Step = – 2.3 V  to 2.3 V,

To  0.1%

25

°

C

7.1

µ

s

ts

Settling time

,

RL = 50 k

,

To 0 01%

25

°

C

16 5

µ

s

L

CL = 100 pF

To  0.01%

16.5

φ

m

Phase margin at unity gain

RL = 50 k

CL = 100 pF

25

°

C

57

°

Gain margin

RL = 50 k

,

CL = 100 pF

25

°

C

11

dB

† Full range is 0

°

C to 70

°

C.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

14

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262I electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless otherwise

noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2262I

TLC2262AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient

25

°

C

2

2

µ

V/

°

C

α

VIO

of input offset voltage

to 85

°

C

2

2

µ

V/

°

C

Input offset voltage

long-term drift 

(see Note 4)

VDD

±

 = 

±

2.5 V,

VO = 0,

VIC = 0,

RS = 50 

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

Full range

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

Full range

500

500

pA

0

– 0.3

0

– 0.3

25

°

C

to

to

to

to

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

4

4.2

4

4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

0

0

V

Full range

to

to

g

3.5

3.5

IOH = – 20 

µ

A

25

°

C

4.99

4.99

IOH = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOH

High-level output voltage

IOH = – 100 

µ

A

Full range

4.82

4.82

V

IOH = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IOH = – 400 

µ

A

Full range

4.5

4.5

VIC = 2.5 V,

IOL =  50 

µ

A

25

°

C

0.01

0.01

VIC = 2 5 V

IOL = 500

µ

A

25

°

C

0.09

0.15

0.09

0.15

VOL

Low-level output voltage

VIC = 2.5 V,

IOL =  500 

µ

A

Full range

0.15

0.15

V

VIC = 2 5 V

IOL = 4

m

A

25

°

C

0.8

1

0.7

1

VIC = 2.5 V,

IOL =  4 

m

A

Full range

1.2

1.2

Large signal differential

V

2 5 V

RL 50 k

25

°

C

80

100

80

170

AVD

Large-signal differential

voltage amplification

VIC = 2.5 V,

VO = 1 V to 4 V

RL = 50 k

Full range

50

50

V/mV

VD

voltage am lification

VO = 1 V to 4 V

RL = 1 M

25

°

C

550

550

ri(d)

Differential input

resistance

25

°

C

1012

1012

ri(c)

Common-mode input

resistance

25

°

C

1012

1012

ci(c)

Common-mode input

capacitance

f = 10 kHz,

P package

25

°

C

8

8

pF

zo

Closed-loop output

impedance

f = 100 kHz,

AV = 10

25

°

C

240

240

CMRR

Common-mode rejection

VIC = 0 to 2.7 V,  VO = 2.5 V,

25

°

C

70

83

70

83

dB

CMRR

j

ratio

IC

O

RS = 50

Full range

70

70

dB

kSVR

Supply-voltage rejection

VDD =  4.4 V to 16 V,

25

°

C

80

95

80

95

dB

kSVR

y

g

j

ratio (

VDD /

VIO)

DD

VIC = VDD /2, No 

load

Full range

80

80

dB

IDD

Supply current

VO = 2 5 V

No load

25

°

C

400

500

400

500

µ

A

IDD

Supply current

VO = 2.5 V,

No load

Full range

500

500

µ

A

† Full range is – 40

°

C to 125

°

C.

‡ Referenced to 2.5 V

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

15

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262I operating characteristics at specified free-air temperature, V

DD

 = 5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2262I

TLC2262AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

Slew rate at unity

VO = 1 5 V to 3 5 V

RL 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 1.5 V to 3.5 V,

CL = 100 pF‡

RL = 50 k

‡,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F‡

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

40

40

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.7

0.7

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA

Hz

THD + N

Total harmonic

distortion plus

VO = 0.5 V to 2.5 V,

f

20 kHz

AV = 1

25

°

C

0.017%

0.017%

THD + N

distortion plus

noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.03%

0.03%

Gain-bandwidth

f = 50  kHz,

RL = 50 k

‡,

25

°

C

0 82

0 82

MHz

product

f   50  kHz,

CL = 100 pF‡

RL   50 k

,

25

°

C

0.82

0.82

MHz

BOM

Maximum output-

VO(PP) = 2 V, 

AV = 1,

25

°

C

185

185

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

‡,

V

,

CL = 100 pF‡

25

°

C

185

185

kHz

AV = – 1,

To 0 1%

6 4

6 4

t

Settling time

AV =  1,

Step = 0.5 V to 2.5 V,

To 0.1%

25

°

C

6.4

6.4

µ

s

ts

Settling time

,

RL = 50 k

‡,

To 0 01%

25

°

C

14 1

14 1

µ

s

L

CL = 100 pF‡

To 0.01%

14.1

14.1

φ

m

Phase margin at

unity gain

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

56

°

56

°

Gain margin

L

,

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C.

‡ Referenced to 2.5 V

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

16

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262I electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless otherwise

noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2262I

TLC2262AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient of

25

°

C

2

2

µ

V/

°

C

α

VIO

input offset voltage

to 85

°

C

2

2

µ

V/

°

C

Input offset voltage

long-term drift 

(see Note 4)

VIC = 0,

RS = 50 

VO = 0,

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

Full range

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

Full range

500

500

pA

25

°

C

– 5

– 5.3

– 5

– 5.3

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

25

°

C

to 4

to 4.2

to 4

to 4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

|  ≤

5 mV

Full range

– 5

– 5

V

Full range

to 3.5

to 3.5

IO = – 20 

µ

A

25

°

C

4.99

4.99

M

i

iti

k

IO = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOM +

Maximum positive peak

output voltage

IO = – 100 

µ

A

Full range

4.82

4.82

V

out ut voltage

IO = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IO = – 400 

µ

A

Full range

4.5

4.5

VIC = 0,

IO =  50 

µ

A

25

°

C

– 4.99

– 4.99

M

i

ti

k

VIC = 0

IO = 500

µ

A

25

°

C

– 4.85

– 4.91

– 4.85

– 4.91

VOM –

Maximum negative peak

output voltage

VIC = 0,

IO =  500 

µ

A

Full range

– 4.85

– 4.85

V

out ut voltage

VIC = 0

IO = 4

m

A

25

°

C

– 4

– 4.3

– 4

– 4.3

VIC = 0,

IO =  4 

m

A

Full range

– 3.8

– 3.8

L

i

l diff

ti l

RL = 50 k

25

°

C

80

200

80

200

AVD

Large-signal differential

voltage amplification

VO = 

±

4 V

RL = 50 k

Full range

50

50

V/mV

voltage am lification

RL = 1 M

25

°

C

1000

1000

ri(d)

Differential input

resistance

25

°

C

1012

1012

ri(c)

Common-mode input

resistance

25

°

C

1012

1012

ci(c)

Common-mode input

capacitance

f = 10 kHz,

P package

25

°

C

8

8

pF

zo

Closed-loop output 

impedance

f = 100 kHz,

AV = 10

25

°

C

220

220

CMRR

Common-mode

VIC = – 5 V to 2.7 V,

25

°

C

75

88

75

88

dB

CMRR

rejection ratio

IC

,

VO = 0, 

RS = 50

Full range

75

75

dB

kSVR

Supply-voltage rejection

VDD =  4.4 V to 16 V,

25

°

C

80

95

80

95

dB

kSVR

y

g

j

ratio (

VDD

±

 /

VIO)

DD

,

VIC = VDD /2, No load

Full range

80

80

dB

IDD

Supply current

VO = 2 5 V

No load

25

°

C

425

500

425

500

µ

A

IDD

Supply current

VO = 2.5 V,

No load

Full range

500

500

µ

A

† Full range is – 40

°

C to 125

°

C.

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

17

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262I operating characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2262I

TLC2262AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

Slew rate at unity

VO =

±

1 9 V

RL = 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 

±

1.9 V, 

CL = 100 pF

RL = 50 k

,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

43

43

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.8

0.8

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA

Hz

THD + N

Total harmonic

distortion plus

VO = 

±

2.3 V,

RL 50 k

AV = 1

25

°

C

0.014%

0.014%

THD + N

distortion plus

noise

RL = 50 k

Ω,

f = 20  kHz

AV = 10

25

°

C

0.024%

0.024%

Gain-bandwidth

f =10  kHz,

RL = 50 k

,

25

°

C

0 73

0 73

MHz

product

,

CL = 100 pF

L

,

25

°

C

0.73

0.73

MHz

BOM

Maximum

output swing

VO(PP) = 4.6 V,

AV = 1,

25

°

C

85

85

kHz

BOM

output-swing

bandwidth

O(PP)

,

RL = 50 k

,

V

,

CL = 100 pF

25

°

C

85

85

kHz

AV = – 1,

To 0 1%

7 1

7 1

t

Settling time

AV =  1,

Step = – 2.3 V  to 2.3 V,

To 0.1%

25

°

C

7.1

7.1

µ

s

ts

Settling time

,

RL = 50 k

,

To 0 01%

25

°

C

16 5

16 5

µ

s

L

CL = 100 pF

To 0.01%

16.5

16.5

φ

m

Phase margin at

unity gain

RL = 50 k

,

CL = 100 pF

25

°

C

57

°

57

°

Gain margin

L

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

18

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264I electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless otherwise

noted)

PARAMETER

TEST CONDITIONS

T †

TLC2264I

TLC2264AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient

of input offset voltage

25

°

C

to 125

°

C

2

2

µ

V/

°

C

Input offset voltage

long-term drift (see Note 4)

VDD

±

 =

±

2.5 V,

VO = 0,

VIC = 0,

RS = 50 

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

Full range

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

Full range

500

500

pA

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

25

°

C

0

to

4

– 0.3

to

4.2

0

to

4

– 0.3

to

4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

Full range

0

to

3.5

0

to

3.5

V

IOH = – 20 

µ

A

25

°

C

4.99

4.99

High level output

IOH = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOH

High-level output

voltage

IOH = – 100 

µ

A

Full range

4.82

4.82

V

voltage

IOH = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IOH = – 400 

µ

A

Full range

4.5

4.5

VIC = 2.5 V,

IOL = 50 

µ

A

25

°

C

0.01

0.01

Low level output

VIC = 2 5 V

IOL = 500

µ

A

25

°

C

0.09

0.15

0.09

0.15

VOL

Low-level output

voltage

VIC = 2.5 V,

IOL = 500 

µ

A

Full range

0.15

0.15

V

voltage

VIC = 2 5 V

IOL = 4

m

A

25

°

C

0.8

1

0.7

1

VIC = 2.5 V,

IOL = 4 

m

A

Full range

1.2

1.2

Large signal differential

V

2 5 V

RL 50 k

25

°

C

80

100

80

170

AVD

Large-signal differential

voltage amplification

VIC = 2.5 V,

VO = 1 V to 4 V

RL = 50 k

Full range

50

50

V/mV

VD

voltage am lification

VO = 1 V to 4 V

RL = 1 M

25

°

C

550

550

ri(d)

Differential input

resistance

25

°

C

1012

1012

ri(c)

Common-mode 

input resistance

25

°

C

1012

1012

ci(c)

Common-mode 

input capacitance

f = 10 kHz,

N package

25

°

C

8

8

pF

zo

Closed-loop

output impedance

f = 100 kHz,

AV = 10

25

°

C

240

240

CMRR

Common-mode

VIC = 0 to 2.7 V, VO = 2.5 V,

25

°

C

70

83

70

83

dB

CMRR

rejection ratio

IC

RS = 50

O

Full range

70

70

dB

kSVR

Supply-voltage

rejection ratio

VDD =  4.4 V to 16 V,

25

°

C

80

95

80

95

dB

kSVR

rejection ratio

(

VDD /

VIO)

VIC = VDD /2,

No load

Full range

80

80

dB

IDD

Supply current

VO = 2 5 V

No load

25

°

C

0.8

1

0.8

1

mA

IDD

y

(four amplifiers)

VO = 2.5 V,

No load

Full range

1

1

mA

† Full range is – 40

°

C to 125

°

C.

‡ Referenced to 2.5 V

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

19

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264I operating characteristics at specified free-air temperature, V

DD

 = 5 V

PARAMETER

TEST CONDITIONS

T †

TLC2264I

TLC2264AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

Slew rate at unity

VO

1 4 V to 2 6 V

RL 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO =  1.4 V to 2.6 V,

CL = 100 pF‡

RL = 50 k

‡,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F‡

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

40

40

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.7

0.7

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA /

Hz

THD + N

Total harmonic

distortion plus

VO = 0.5 V to 2.5 V,

f

20 kHz

AV = 1

25

°

C

0.017%

0.017%

THD + N

distortion plus

noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.03%

0.03%

Gain-bandwidth

f = 50  kHz,

RL = 50 k

‡,

25

°

C

0 71

0 71

MHz

product

f   50  kHz,

CL = 100 pF‡

RL   50 k

,

25

°

C

0.71

0.71

MHz

BOM

Maximum output-

VO(PP) = 2 V,

AV = 1,

25

°

C

185

185

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

‡,

V

,

CL = 100 pF‡

25

°

C

185

185

kHz

AV = – 1,

To 0 1%

6 4

6 4

t

Settling time

AV =  1,

Step = 0.5 V to 2.5 V,

To  0.1%

25

°

C

6.4

6.4

µ

s

ts

Settling time

,

RL = 50 k

‡,

To 0 01%

25

°

C

14 1

14 1

µ

s

L

CL = 100 pF‡

To  0.01%

14.1

14.1

φ

m

Phase margin at

unity gain

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

56

°

56

°

Gain margin

L

,

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C.

‡ Referenced to 2.5 V

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

20

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264I electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless otherwise

noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2264I

TLC2264AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient of

25

°

C

2

2

µ

V/

°

C

α

VIO

input offset voltage

to 125

°

C

2

2

µ

V/

°

C

Input offset voltage

long-term drift 

(see Note 4)

VIC = 0,

RS = 50 

VO = 0,

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

Full range

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

Full range

500

500

pA

– 5

– 5.3

– 5

– 5.3

25

°

C

to

to

to

to

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

4

4.2

4

4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

– 5

– 5

V

Full range

to

to

g

3.5

3.5

IO = – 20 

µ

A

25

°

C

4.99

4.99

Maximum positive peak

IO = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOM +

Maximum positive peak

output voltage

IO = – 100 

µ

A

Full range

4.82

4.82

V

out ut voltage

IO = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IO = – 400 

µ

A

Full range

4.5

4.5

VIC = 0,

IO = 50 

µ

A

25

°

C

– 4.99

– 4.99

Maximum negative peak

VIC = 0

IO = 500

µ

A

25

°

C

– 4.85

– 4.91

– 4.85

– 4.91

VOM –

Maximum negative peak

output voltage

VIC = 0,

IO = 500 

µ

A

Full range

– 4.85

– 4.85

V

out ut voltage

VIC = 0

IO = 4

m

A

25

°

C

– 4

– 4.3

– 4

– 4.3

VIC = 0,

IO = 4 

m

A

Full range

– 3.8

– 3.8

Large signal differential

RL = 50 k

25

°

C

80

200

80

200

AVD

Large-signal differential

voltage amplification

VO = 

±

4 V

RL = 50 k

Full range

50

50

V/mV

voltage am lification

RL = 1 M

25

°

C

1000

1000

ri(d)

Differential input

resistance

25

°

C

1012

1012

ri(c)

Common-mode input

resistance

25

°

C

1012

1012

ci(c)

Common-mode input

capacitance

f = 10 kHz,

N package

25

°

C

8

8

pF

zo

Closed-loop output

impedance

f = 100 kHz,

AV = 10

25

°

C

220

220

CMRR

Common-mode

VIC = – 5 V to 2.7 V,

25

°

C

75

88

75

88

dB

CMRR

rejection ratio

VO = 0,

RS = 50

Full range

75

75

dB

kSVR

Supply-voltage rejection

VDD

±

 =  

±

2.2 V to 

±

8 V,

25

°

C

80

95

80

95

dB

kSVR

y

g

j

ratio (

VDD

±

/

VIO)

VIC = VDD /2, No load

Full range

80

80

dB

IDD

Supply current

VO = 0

No load

25

°

C

0.85

1

0.85

1

mA

IDD

y

(four amplifiers)

VO = 0,

No load

Full range

1

1

mA

† Full range is – 40

°

C to 125

°

C.

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

21

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264I operating characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V

PARAMETER

TEST CONDITIONS

T †

TLC2264I

TLC2264AI

UNIT

PARAMETER

TEST CONDITIONS

TA†

MIN

TYP

MAX

MIN

TYP

MAX

UNIT

Slew rate at unity

VO =

±

1 9 V

RL = 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 

±

1.9 V,

CL = 100 pF

RL = 50 k

,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

43

43

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.8

0.8

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA /

Hz

THD + N

Total harmonic

distortion plus

VO = 

±

2.3 V,

RL 50 k

AV = 1

25

°

C

0.014%

0.014%

THD + N

distortion plus

noise

RL = 50 k

Ω,

f = 20  kHz

AV = 10

25

°

C

0.024%

0.024%

Gain-bandwidth

f =10  kHz,

RL = 50 k

,

25

°

C

0 73

0 73

MHz

product

,

CL = 100 pF

L

,

25

°

C

0.73

0.73

MHz

BOM

Maximum output-

VO(PP) = 4.6 V,

AV = 1,

25

°

C

70

70

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

,

V

,

CL = 100 pF

25

°

C

70

70

kHz

AV = – 1,

To 0 1%

7 1

7 1

t

Settling time

AV =  1,

Step = – 2.3 V to 2.3 V,

To  0.1%

25

°

C

7.1

7.1

µ

s

ts

Settling time

,

RL = 50 k

,

To 0 01%

25

°

C

16 5

16 5

µ

s

L

CL = 100 pF

To  0.01%

16.5

16.5

φ

m

Phase margin at

unity gain

RL = 50 k

,

CL = 100 pF

25

°

C

57

°

57

°

Gain margin

L

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

22

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262Q/M electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless

otherwise noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2262Q,

TLC2262M

TLC2262AQ,

TLC2262AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient

Full range

5

5

µ

V/

°

C

α

VIO

of input offset voltage

Full range

5

5

µ

V/

°

C

Input offset voltage

long-term drift 

(see Note 4)

VDD

±

 = 

±

2.5 V,

VO = 0,

VIC = 0,

RS = 50 

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

125

°

C

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

125

°

C

500

500

pA

0

– 0.3

0

– 0.3

25

°

C

to

to

to

to

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

4

4.2

4

4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

0

0

V

Full range

to

to

g

3.5

3.5

IOH = – 20 

µ

A

25

°

C

4.99

4.99

High level output

IOH = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOH

High-level output

voltage

IOH = – 100 

µ

A

Full range

4.82

4.82

V

voltage

IOH = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IOH = – 400 

µ

A

Full range

4.5

4.5

VIC = 2.5 V,

IOL =  50 

µ

A

25

°

C

0.01

0.01

Low level output

VIC = 2 5 V

IOL = 500

µ

A

25

°

C

0.09

0.15

0.09

0.15

VOL

Low-level output

voltage

VIC = 2.5 V,

IOL =  500 

µ

A

Full range

0.15

0.15

V

voltage

VIC = 2 5 V

IOL = 4

m

A

25

°

C

0.8

1

0.7

1

VIC = 2.5 V,

IOL =  4 

m

A

Full range

1.2

1.2

Large signal differential

V

2 5 V

RL 50 k

25

°

C

80

100

80

170

AVD

Large-signal differential

voltage amplification

VIC = 2.5 V,

VO = 1 V to 4 V

RL = 50 k

Full range

50

50

V/mV

VD

voltage am lification

VO = 1 V to 4 V

RL = 1 M

25

°

C

550

550

ri(d)

Differential input

resistance

25

°

C

1012

1012

ri(c)

Common-mode input

resistance

25

°

C

1012

1012

ci(c)

Common-mode input

capacitance

f = 10 kHz,

P package

25

°

C

8

8

pF

zo

Closed-loop output

impedance

f = 100 kHz,

AV = 10

25

°

C

240

240

CMRR

Common-mode

VIC = 0 to 2.7 V,  VO = 2.5 V, 

25

°

C

70

83

70

83

dB

CMRR

rejection ratio

IC

O

RS = 50

Full range

70

70

dB

kSVR

Supply-voltage rejection

VDD =  4.4 V to 16 V,

25

°

C

80

95

80

95

dB

kSVR

y

g

j

ratio (

VDD /

VIO)

DD

,

VIC = VDD /2, No 

load

Full range

80

80

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

‡ Referenced to 2.5 V

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

23

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262Q/M electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless

otherwise noted) (continued)

PARAMETER

TEST CONDITIONS

TA†

TLC2262Q,

TLC2262M

TLC2262AQ,

TLC2262AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

IDD

Supply current

VO = 2 5 V

No load

25

°

C

400

500

400

500

µ

A

IDD

Supply current

VO = 2.5 V,

No load

Full range

500

500

µ

A

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

TLC2262Q/M operating characteristics at specified free-air temperature, V

DD

 = 5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2262Q,

TLC2262M

TLC2262AQ,

TLC2262AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

Slew rate at unity

VO = 0 5 V to 3 5 V

RL 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 0.5 V to 3.5 V,

CL = 100 pF‡

RL = 50 k

‡,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F‡

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

40

40

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.7

0.7

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA

Hz

THD + N

Total harmonic

distortion plus

VO = 0.5 V to 2.5 V,

f

20 kHz

AV = 1

25

°

C

0.017%

0.017%

THD + N

distortion plus

noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.03%

0.03%

Gain-bandwidth

f = 50  kHz,

RL = 50 k

‡,

25

°

C

0 82

0 82

MHz

product

f   50  kHz,

CL = 100 pF‡

RL   50 k

,

25

°

C

0.82

0.82

MHz

BOM

Maximum output-

VO(PP) = 2 V, 

AV = 1,

25

°

C

185

185

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

‡,

V

,

CL = 100 pF‡

25

°

C

185

185

kHz

AV = – 1,

To 0 1%

6 4

6 4

t

Settling time

AV =  1,

Step = 0.5 V to 2.5 V,

To 0.1%

25

°

C

6.4

6.4

µ

s

ts

Settling time

,

RL = 50 k

‡,

To 0 01%

25

°

C

14 1

14 1

µ

s

L

CL = 100 pF‡

To 0.01%

14.1

14.1

φ

m

Phase margin at

unity gain

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

56

°

56

°

Gain margin

L

,

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

‡ Referenced to 2.5 V

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

24

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262Q/M electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless

otherwise noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2262Q,

TLC2262M

TLC2262AQ,

TLC2262AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient of

input offset voltage

Full range

5

5

µ

V/

°

C

Input offset voltage long-

term drift (see Note 4)

VIC = 0,

RS = 50 

VO = 0,

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

S

25

°

C

0.5

0.5

pA

IIO

Input offset current

125

°

C

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

125

°

C

500

500

pA

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

25

°

C

– 5

to

4

– 5.3

to

4.2

– 5

to

4

– 5.3

to

4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

Full range

– 5

to

3.5

– 5

to

3.5

V

IO = – 20 

µ

A

25

°

C

4.99

4.99

M

i

iti

k

IO = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOM +

Maximum positive peak

output voltage

IO = – 100 

µ

A

Full range

4.82

4.82

V

out ut voltage

IO = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IO = – 400 

µ

A

Full range

4.5

4.5

VIC = 0,

IO =  50 

µ

A

25

°

C

– 4.99

– 4.99

M

i

ti

k

VIC = 0

IO = 500

µ

A

25

°

C

– 4.85

– 4.91

– 4.85

– 4.91

VOM –

Maximum negative peak

output voltage

VIC = 0,

IO =  500 

µ

A

Full range

– 4.85

– 4.85

V

out ut voltage

VIC = 0

IO = 4

m

A

25

°

C

– 4

– 4.3

– 4

– 4.3

VIC = 0,

IO =  4 

m

A

Full range

– 3.8

– 3.8

L

i

l diff

ti l

RL = 50 k

25

°

C

80

200

80

200

AVD

Large-signal differential

voltage amplification

VO = 

±

4 V

RL = 50 k

Full range

50

50

V/mV

voltage am lification

RL = 1 M

25

°

C

1000

1000

ri(d)

Differential input 

resistance

25

°

C

1012

1012

ri(c)

Common-mode input

resistance

25

°

C

1012

1012

ci(c)

Common-mode input

capacitance

f = 10 kHz,

P package

25

°

C

8

8

pF

zo

Closed-loop output 

impedance

f = 100 kHz,

AV = 10

25

°

C

220

220

CMRR

Common-mode

VIC = – 5 V to 2.7 V,

25

°

C

75

88

75

88

dB

CMRR

rejection ratio

IC

,

VO = 0, 

RS = 50

Full range

75

75

dB

kSVR

Supply-voltage rejection

VDD =  4.4 V to 16 V,

25

°

C

80

95

80

95

dB

kSVR

y

g

j

ratio (

VDD

±

 /

VIO)

DD

,

VIC = VDD /2, No load

Full range

80

80

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

25

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2262Q/M electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless

otherwise noted) (continued)

PARAMETER

TEST CONDITIONS

TA†

TLC2262Q,

TLC2262M

TLC2262AQ,

TLC2262AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

IDD

Supply current

VO = 0

No load

25

°

C

425

500

425

500

µ

A

IDD

Supply current

VO = 0,

No load

Full range

500

500

µ

A

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

TLC2262Q/M operating characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2262Q,

TLC2262M

TLC2262AQ,

TLC2262AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

Slew rate at unity

VO =

±

2 V

RL = 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 

±

2 V, 

CL = 100 pF

RL = 50 k

,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

43

43

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.8

0.8

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA

Hz

THD + N

Total harmonic

distortion plus

VO = 

±

2.3 V,

RL 50 k

AV = 1

25

°

C

0.014%

0.014%

THD + N

distortion plus

noise

RL = 50 k

Ω,

f = 20  kHz

AV = 10

25

°

C

0.024%

0.024%

Gain-bandwidth

f =10  kHz,

RL = 50 k

,

25

°

C

0 73

0 73

MHz

product

,

CL = 100 pF

L

,

25

°

C

0.73

0.73

MHz

BOM

Maximum output-

VO(PP) = 4.6 V, 

AV = 1,

25

°

C

85

85

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

,

V

,

CL = 100 pF

25

°

C

85

85

kHz

AV = – 1,

To 0 1%

7 1

7 1

t

Settling time

AV =  1,

Step = – 2.3 V  to 2.3 V,

To 0.1%

25

°

C

7.1

7.1

µ

s

ts

Settling time

,

RL = 50 k

,

To 0 01%

25

°

C

16 5

16 5

µ

s

L

CL = 100 pF

To 0.01%

16.5

16.5

φ

m

Phase margin at

unity gain

RL = 50 k

,

CL = 100 pF

25

°

C

57

°

57

°

Gain margin

L

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

26

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264Q/M electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless

otherwise noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2264Q,

TLC2264M

TLC2264AQ,

TLC2264AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient

of input offset voltage

Full range

2

2

µ

V/

°

C

Input offset voltage long-

term drift (see Note 4)

VDD

±

 = 

±

2.5 V,

VO = 0,

VIC = 0,

RS = 50 

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

125

°

C

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

125

°

C

500

500

pA

VICR

Common-mode input

RS = 50

|

VIO

| ≤

5 mV

25

°

C

0

to

4

– 0.3

to

4.2

0

to

4

– 0.3

to

4.2

V

VICR

voltage range

RS = 50 

Ω,

|

VIO 

| ≤

5 mV

Full range

0

to

3.5

0

to

3.5

V

IOH = – 20 

µ

A

25

°

C

4.99

4.99

High level output

IOH = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOH

High-level output

voltage

IOH = – 100 

µ

A

Full range

4.82

4.82

V

voltage

IOH = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IOH = – 400 

µ

A

Full range

4.5

4.5

VIC = 2.5 V,

IOL = 50 

µ

A

25

°

C

0.01

0.01

Low level output

VIC = 2 5 V

IOL = 500

µ

A

25

°

C

0.09

0.15

0.09

0.15

VOL

Low-level output

voltage

VIC = 2.5 V,

IOL = 500 

µ

A

Full range

0.15

0.15

V

voltage

VIC = 2 5 V

IOL = 4

m

A

25

°

C

0.8

1

0.7

1

VIC = 2.5 V,

IOL = 4 

m

A

Full range

1.2

1.2

Large signal differential

V

2 5 V

RL 50 k

25

°

C

80

100

80

170

AVD

Large-signal differential

voltage amplification

VIC = 2.5 V,

VO = 1 V to 4 V

RL = 50 k

Full range

50

50

V/mV

VD

voltage am lification

VO = 1 V to 4 V

RL = 1 M

25

°

C

550

550

ri(d)

Differential input resis-

tance

25

°

C

1012

1012

ri(c)

Common-mode 

input resistance

25

°

C

1012

1012

ci(c)

Common-mode 

input capacitance

f = 10 kHz,

N package

25

°

C

8

8

pF

zo

Closed-loop

output impedance

f = 100 kHz,

AV = 10

25

°

C

240

240

CMRR

Common-mode

VIC = 0 to 2.7 V, VO = 2.5 V,

25

°

C

70

83

70

83

dB

CMRR

rejection ratio

IC

RS = 50

O

Full range

70

70

dB

kSVR

Supply-voltage

rejection ratio

VDD = 4.4 V to 16 V,

25

°

C

80

95

80

95

dB

kSVR

rejection ratio

(

VDD /

VIO)

VIC = VDD /2,

No load

Full range

80

80

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

‡ Referenced to 2.5 V

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

27

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264Q/M electrical characteristics at specified free-air temperature, V

DD

 = 5 V (unless

otherwise noted) (continued)

PARAMETER

TEST CONDITIONS

TA†

TLC2264Q,

TLC2264M

TLC2264AQ,

TLC2264AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

IDD

Supply current

VO = 2 5 V

No load

25

°

C

0.8

1

0.8

1

mA

IDD

y

(four amplifiers)

VO = 2.5 V,

No load

Full range

1

1

mA

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

TLC2264Q/M operating characteristics at specified free-air temperature, V

DD

 = 5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2264Q,

TLC2264M

TLC2264AQ,

TLC2264AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

Slew rate at unity

VO = 0 5 V to 3 5 V

R

50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 0.5 V to 3.5 V,

CL = 100 pF‡

RL = 50 k

‡,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F‡

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

40

40

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.7

0.7

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA /

Hz

THD + N

Total harmonic

distortion plus

VO = 0.5 V to 2.5 V,

f

20 kHz

AV = 1

25

°

C

0.017%

0.017%

THD + N

distortion plus

noise

f = 20  kHz,

RL = 50 k

AV = 10

25

°

C

0.03%

0.03%

Gain-bandwidth

f = 50  kHz,

RL = 50 k

‡,

25

°

C

0 71

0 71

MHz

product

f   50  kHz,

CL = 100 pF‡

RL   50 k

,

25

°

C

0.71

0.71

MHz

BOM

Maximum output-

VO(PP) = 2 V,

AV = 1,

25

°

C

185

185

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

‡,

V

,

CL = 100 pF‡

25

°

C

185

185

kHz

AV = – 1,

To 0 1%

6 4

6 4

t

Settling time

AV =  1,

Step = 0.5 V to 2.5 V,

To  0.1%

25

°

C

6.4

6.4

µ

s

ts

Settling time

,

RL = 50 k

‡,

To 0 01%

25

°

C

14 1

14 1

µ

s

L

CL = 100 pF‡

To  0.01%

14.1

14.1

φ

m

Phase margin at

unity gain

RL = 50 k

‡,

CL = 100 pF‡

25

°

C

56

°

56

°

Gain margin

L

,

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

‡ Referenced to 2.5 V

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

28

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TLC2264Q/M electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless

otherwise noted)

PARAMETER

TEST CONDITIONS

TA†

TLC2264Q,

TLC2264M

TLC2264AQ,

TLC2264AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

VIO

Input offset voltage

25

°

C

300

2500

300

950

µ

V

VIO

Input offset voltage

Full range

3000

1500

µ

V

α

VIO

Temperature coefficient of

Full range

2

2

µ

V/

°

C

α

VIO

input offset voltage

Full range

2

2

µ

V/

°

C

Input offset voltage

long-term drift (see Note 4)

VIC = 0,

RS = 50 

VO = 0,

25

°

C

0.003

0.003

µ

V/mo

IIO

Input offset current

25

°

C

0.5

0.5

pA

IIO

Input offset current

125

°

C

500

500

pA

IIB

Input bias current

25

°

C

1

1

pA

IIB

Input bias current

125

°

C

500

500

pA

– 5

– 5.3

– 5

– 5.3

25

°

C

5

to

5.3

to

5

to

5.3

to

VICR

Common-mode input

RS = 50 

Ω, 

4

4.2

4

4.2

V

VICR

voltage range

S

,

|

VIO 

| ≤

5 mV

– 5

– 5

V

Full range

5

to

5

to

g

3.5

3.5

IO = – 20 

µ

A

25

°

C

4.99

4.99

M

i

iti

k

IO = 100

µ

A

25

°

C

4.85

4.94

4.85

4.94

VOM +

Maximum positive peak

output voltage

IO = – 100 

µ

A

Full range

4.82

4.82

V

out ut voltage

IO = 400

µ

A

25

°

C

4.7

4.85

4.7

4.85

IO = – 400 

µ

A

Full range

4.5

4.5

VIC = 0,

IO = 50 

µ

A

25

°

C

– 4.99

– 4.99

M

i

ti

k

VIC = 0

IO = 500

µ

A

25

°

C

– 4.85

– 4.91

– 4.85

– 4.91

VOM –

Maximum negative peak

output voltage

VIC = 0,

IO = 500 

µ

A

Full range

– 4.85

– 4.85

V

out ut voltage

VIC = 0

IO = 4

m

A

25

°

C

– 4

– 4.3

– 4

– 4.3

VIC = 0,

IO = 4 

m

A

Full range

– 3.8

– 3.8

L

i

l diff

ti l

RL = 50 k

25

°

C

80

200

80

200

AVD

Large-signal differential

voltage amplification

VO = 

±

4 V

RL = 50 k

Full range

50

50

V/mV

voltage am lification

RL = 1 M

25

°

C

1000

1000

ri(d)

Differential input resistance

25

°

C

1012

1012

ri(c)

Common-mode input

resistance

25

°

C

1012

1012

ci(c)

Common-mode input

capacitance

f = 10 kHz,

N package

25

°

C

8

8

pF

zo

Closed-loop output

impedance

f = 100 kHz,

AV = 10

25

°

C

220

220

CMRR

Common-mode

VIC = – 5 V to 2.7 V,

25

°

C

75

88

75

88

dB

CMRR

rejection ratio

VO = 0,

RS = 50

Full range

75

75

dB

kSVR

Supply-voltage rejection

VDD

±

 =  

±

2.2 V to 

±

8 V,

25

°

C

80

95

80

95

dB

kSVR

y

g

j

ratio (

VDD

±

/

VIO)

VIC = VDD /2,

No load

Full range

80

80

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150

°

C extrapolated

to TA = 25

°

C using the Arrhenius equation and assuming an activation energy of 0.96 eV.

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TLC2264Q/M electrical characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V (unless

otherwise noted) (continued)

PARAMETER

TEST CONDITIONS

TA†

TLC2264Q,

TLC2264M

TLC2264AQ,

TLC2264AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

IDD

Supply current

VO = 0

No load

25

°

C

0.85

1

0.85

1

mA

IDD

y

(four amplifiers)

VO = 0,

No load

Full range

1

1

mA

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

TLC2264Q/M operating characteristics at specified free-air temperature, V

DD

±

 = 

±

5 V

PARAMETER

TEST CONDITIONS

TA†

TLC2264Q,

TLC2264M

TLC2264AQ,

TLC2264AM

UNIT

A

MIN

TYP

MAX

MIN

TYP

MAX

Slew rate at unity

VO =

±

2 V

RL = 50 k

25

°

C

0.35

0.55

0.35

0.55

SR

Slew rate at unity

gain

VO = 

±

2 V,

CL = 100 pF

RL = 50 k

,

Full

0 25

0 25

V/

µ

s

gain

CL = 100  F

range

0.25

0.25

V

Equivalent input

f = 10 Hz

25

°

C

43

43

nV/

Hz

Vn

q

noise voltage

f = 1 kHz

25

°

C

12

12

nV/

Hz

VN(PP)

Peak-to-peak

equivalent input

f = 0.1 Hz to 1 Hz

25

°

C

0.8

0.8

µ

V

VN(PP)

equivalent input

noise voltage

f = 0.1 Hz to 10 Hz

25

°

C

1.3

1.3

µ

V

In

Equivalent input

noise current

25

°

C

0.6

0.6

fA /

Hz

THD + N

Total harmonic

distortion plus

VO = 

±

2.3 V,

RL 50 k

AV = 1

25

°

C

0.014%

0.014%

THD + N

distortion plus

noise

RL = 50 k

Ω,

f = 20  kHz

AV = 10

25

°

C

0.024%

0.024%

Gain-bandwidth

f =10  kHz,

RL = 50 k

,

25

°

C

0 73

0 73

MHz

product

,

CL = 100 pF

L

,

25

°

C

0.73

0.73

MHz

BOM

Maximum output-

VO(PP) = 4.6 V,

AV = 1,

25

°

C

70

70

kHz

BOM

swing bandwidth

O(PP)

,

RL = 50 k

,

V

,

CL = 100 pF

25

°

C

70

70

kHz

AV = – 1,

To 0 1%

7 1

7 1

t

Settling time

AV =  1,

Step = – 2.3 V to 2.3 V,

To  0.1%

25

°

C

7.1

7.1

µ

s

ts

Settling time

,

RL = 50 k

,

To 0 01%

25

°

C

16 5

16 5

µ

s

L

CL = 100 pF

To  0.01%

16.5

16.5

φ

m

Phase margin at

unity gain

RL = 50 k

,

CL = 100 pF

25

°

C

57

°

57

°

Gain margin

L

L

25

°

C

11

11

dB

† Full range is – 40

°

C to 125

°

C for Q suffix, – 55

°

C to 125

°

C for M suffix.

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TYPICAL CHARACTERISTICS

Table of Graphs

FIGURE

VIO

Input offset voltage

Distribution

vs Common-mode input voltage

2 – 5

6, 7

α

VIO

Input offset voltage temperature coefficient

Distribution

8 – 11

IIB/IIO

Input bias and input offset currents

vs Free-air temperature

12

VI

Input voltage range

vs Supply voltage

vs Free-air temperature

13

14

VOH

High-level output voltage

vs High-level output current

15

VOL

Low-level output voltage

vs Low-level output current

16, 17

VOM +

Maximum positive peak output voltage

vs Output current

18

VOM –

Maximum negative peak output voltage

vs Output current

19

VO(PP)

Maximum peak-to-peak output voltage

vs Frequency

20

IOS

Short-circuit output current

vs Supply voltage

vs Free-air temperature

21

22

VO

Output voltage

vs Differential input voltage

23, 24

Differential gain

vs Load resistance

25

AVD

Large-signal differential voltage amplification

vs Frequency

vs Free-air temperature

26, 27

28, 29

zo

Output impedance

vs Frequency

30, 31

CMRR

Common-mode rejection ratio

vs Frequency

vs Free-air temperature

32

33

kSVR

Supply-voltage rejection ratio

vs Frequency

vs Free-air temperature

34, 35

36

IDD

Supply current

vs Supply voltage

vs Free-air temperature

37, 38

39, 40

SR

Slew rate

vs Load capacitance

vs Free-air temperature

41

42

Inverting large-signal pulse response

43, 44

VO

Voltage-follower large-signal pulse response

45, 46

VO

Inverting small-signal pulse response

47, 48

Voltage-follower small-signal pulse response

49, 50

Vn

Equivalent input noise voltage

vs Frequency

51, 52

Noise voltage (referred to input)

Over a 10-second period

53

Integrated noise voltage

vs Frequency

54

THD + N

Total harmonic distortion plus noise

vs Frequency

55

Gain-bandwidth product

vs Supply voltage

vs Free-air temperature

56

57

φ

m

Phase margin

vs Frequency

vs Load capacitance

26, 27

58

Gain margin

vs Load capacitance

59

B1

Unity-gain bandwidth

vs Load capacitance

60

Overestimation of phase margin

vs Load capacitance

61

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TYPICAL CHARACTERISTICS

Figure 2

Precentage of 

Amplifiers – %

DISTRIBUTION OF TLC2262

INPUT OFFSET VOLTAGE

VIO – Input Offset Voltage – mV

15

10

5

0

20

25

– 1.6

– 0.8

0

0.8

1.6

VDD

±

 = 

±

2.5 V

TA = 25

°

C

1274 Amplifiers From 2 Wafer Lots

Figure 3

Percentage of 

Amplifiers – %

DISTRIBUTION OF TLC2262

INPUT OFFSET VOLTAGE

VIO – Input Offset Voltage – mV

15

10

5

0

20

25

– 1.6

– 0.8

0

0.8

1.6

VDD

±

 = 

±

5 V

TA = 25

°

C

1274 Amplifiers From 2 Wafer Lots

Figure 4

12

8

4

0

Percentage of 

Amplifiers – %

16

DISTRIBUTION OF TLC2264

INPUT OFFSET VOLTAGE

20

– 1.6

– 0.8

0

0.8

1.6

VIO – Input Offset Voltage – mV

2272 Amplifiers From 2 Wafer Lots

VDD

±

±

2.5 V

TA = 25

°

C

Figure 5

12

8

4

0

Percentage of 

Amplifiers – %

16

DISTRIBUTION OF TLC2264

INPUT OFFSET VOLTAGE

20

– 1.6

– 0.8

0

0.8

1.6

2272 Amplifiers From 2 Wafer Lots

VDD

±

±

5 V

TA = 25

°

C

VIO – Input Offset Voltage – mV

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TYPICAL CHARACTERISTICS

Figure 6

0

VIO – Input Offset V

oltage 

– 

mV

0.5

INPUT OFFSET VOLTAGE

vs

COMMON-MODE INPUT VOLTAGE

1

– 0.5

– 1

– 1

0

1

2

3

4

5

ÁÁÁ

ÁÁÁ

V

IO

VIC – Common-Mode Input Voltage – V

VDD = 5 V

RS = 50 

TA = 25

°

C

† For curves where VDD = 5 V, all loads are referenced to 2.5 V.

Figure 7

0

VIO – Input Offset V

oltage 

– 

mV

0.5

INPUT OFFSET VOLTAGE

vs

COMMON-MODE INPUT VOLTAGE

1

– 0.5

– 1

– 6 – 5

– 4 – 3 – 2

– 1

0

1

2

3

4

5

ÁÁ

ÁÁ

ÁÁ

V

IO

VIC – Common-Mode Input Voltage – V

VDD

±

 = 

±

5 V

RS = 50 

TA = 25

°

C

15

10

5

0

Percentage of 

Amplifiers – %

20

25

DISTRIBUTION OF TLC2262 INPUT OFFSET

VOLTAGE TEMPERATURE COEFFICIENT

30

– 5

– 4

– 3

– 2

– 1

0

1

2

3

4

5

128 Amplifiers From 2 Wafer Lots

VDD

±

 = 

±

2.5 V

P Package

TA = 25

°

C to 125

°

C

α

VIO – Temperature Coefficient – 

µ

V /

°

C

Figure 8

15

10

5

0

Percentage of 

Amplifiers – %

20

25

DISTRIBUTION OF TLC2262 INPUT OFFSET

VOLTAGE TEMPERATURE COEFFICIENT

30

– 5

– 4

– 3

– 2

– 1

0

1

2

3

4

5

α

VIO – Temperature Coefficient – 

µ

V /

°

C

128 Amplifiers From 2 Wafer Lots

VDD

±

 = 

±

5 V

P Package

TA = 25

°

C to 125

°

C

Figure 9

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

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TYPICAL CHARACTERISTICS

Figure 10

Percentage of 

Amplifiers – %

DISTRIBUTION OF TLC2264 INPUT OFFSET

VOLTAGE TEMPERATURE COEFFICIENT

α

VIO – Temperature Coefficient of

Input Offset Voltage – 

µ

V /

°

C

10

5

30

0

20

15

25

35

– 5

– 4

– 3

– 2

– 1

0

1

2

3

4

5

128 Amplifiers From

2 Wafer Lots

VDD

±

 = 

±

2.5 V

N Package

TA = 25

°

C to 125

°

C

Percentage of 

Amplifiers – %

DISTRIBUTION OF TLC2264 INPUT OFFSET

VOLTAGE TEMPERATURE COEFFICIENT

α

VIO – Temperature Coefficient of

Input Offset Voltage – 

µ

V /

°

C

10

5

30

0

20

15

25

35

– 5

– 4

– 3

– 2

– 1

0

1

2

3

4

5

128 Amplifiers From

2 Wafer Lots

VDD

±

 = 

±

5 V

N Package

TA = 25

°

C

to 125

°

C

Figure 11

Figure 12

10

5

30

0

25

45

65

85

IIB and IIO – Input Bias and Input Offset Currents – pA

20

15

25

INPUT BIAS AND INPUT OFFSET CURRENTS

vs

FREE-AIR TEMPERATURE

35

105

125

IIB

IIO

VDD

±

 = 

±

2.5 V

VIC = 0 V

VO = 0

RS = 50 

TA – Free-Air Temperature – 

°

C

ÁÁ

ÁÁ

I IB

I IO

 

Figure 13

0

2

3

4

5

VI – Input V

oltage Range – V

4

8

INPUT VOLTAGE RANGE

vs

SUPPLY VOLTAGE

10

6

7

8

6

2

– 2

– 4

– 6

– 8

– 10

| VIO | 

 5 mV

RS = 50 

TA = 25

°

C

V

I

| VDD

±

 | – Supply Voltage – V

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

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TYPICAL CHARACTERISTICS

Figure 14

5

2

1

0

VI – Input V

oltage Range – V

3

4

INPUT VOLTAGE RANGE

†‡

vs

FREE-AIR TEMPERATURE

5

– 1

– 75 – 55 – 35 – 15

25

45

65

85

105 125

| VIO | 

5 mV

VDD = 5 V

ÁÁ

ÁÁ

V

I

TA – Free-Air Temperature – 

°

C

Figure 15

VOH – High-Level Output V

oltage – V

HIGH-LEVEL OUTPUT VOLTAGE

†‡

vs

HIGH-LEVEL OUTPUT CURRENT

| IOH| – High-Level Output Current – 

µ

A

ÁÁ

ÁÁ

V

OH

3

2

1

0

0

500

1000

4

5

6

1500

2000

3000

3500

2500

VDD = 5 V

TA = 125

°

C

TA = 25

°

C

TA = – 55

°

C

TA = – 40

°

C

Figure 16

0.6

0.4

0.2

0

0

1

2

3

VOL

 – Low-Level Output V

oltage – V

0.8

1

LOW-LEVEL OUTPUT VOLTAGE

vs

LOW-LEVEL OUTPUT CURRENT

1.2

4

5

VIC = 0

VIC = 1.25 V

VIC = 2.5 V

VDD = 5 V

TA = 25

°

C

ÁÁ

ÁÁ

ÁÁ

V

OL

IOL – Low-Level Output Current – mA

Figure 17

0.8

0.4

0.2

0

0

1

2

3

VOL

 – Low-Level Output V

oltage – V

1

1.2

LOW-LEVEL OUTPUT VOLTAGE

†‡

vs

LOW-LEVEL OUTPUT CURRENT

1.4

4

5

6

0.6

IOL – Low-Level Output Current – mA

TA = 125

°

C

TA = 25

°

C

TA = – 55

°

C

VDD = 5 V

VIC = 2.5 V

ÁÁ

ÁÁ

V

OL

TA = – 40

°

C

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

‡ For curves where VDD = 5 V, all loads are referenced to 2.5 V.

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TYPICAL CHARACTERISTICS

Figure 18

VOM + – Maximum Positive Output V

oltage – V

MAXIMUM POSITIVE OUTPUT VOLTAGE

vs

OUTPUT CURRENT

ÁÁ

ÁÁ

ÁÁ

V

OM +

| IO | – Output Current – 

µ

A

3

2

1

0

0

500

1000

4

5

6

1500

2000

3000

3500

2500

VDD

±

 = 

±

5 V

TA = 125

°

C

TA = 25

°

C

TA = – 55

°

C

TA = – 40

°

C

Figure 19

0

1

2

VOM – – Maximum Negative Output V

oltage – V

MAXIMUM NEGATIVE OUTPUT VOLTAGE

vs

OUTPUT CURRENT

3

4

5

6

– 3.8

– 4

– 4.2

– 4.4

– 4.6

– 4.8

– 5

VDD

±

 = 

±

5 V

VIC = 0

TA = 125

°

C

TA = 25

°

C

TA = – 55

°

C

IO – Output Current – mA

ÁÁ

ÁÁ

ÁÁ

ÁÁ

V

OM –

TA = – 40

°

C

6

5

3

1

0

10

4

VO(PP) – Maximum Peak-to-Peak Output V

oltage – V

8

7

9

f – Frequency – Hz

MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE

†‡

vs

FREQUENCY

2

ÁÁ

ÁÁ

ÁÁ

V

O(PP)

103

104

105

106

VDD = 5 V

VDD

±

 = 

±

5 V

RL = 10 k

TA = 25

°

C

‡ For curves where VDD = 5 V, all loads are referenced to 2.5 V.

Figure 20

Figure 21

IOS – Short-Circuit Output Current – mA

SHORT-CIRCUIT OUTPUT CURRENT

vs

SUPPLY VOLTAGE

I OS

 

| VDD

±

 | – Supply Voltage – V

2

3

4

5

6

7

8

12

10

8

6

4

2

0

– 2

– 4

VID = – 100 mV

VO = 0

TA = 25

°

C

VID = 100 mV

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

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TYPICAL CHARACTERISTICS

Figure 22

IOS – Short-Circuit Output Current – mA

SHORT-CIRCUIT OUTPUT CURRENT

vs

FREE-AIR TEMPERATURE

TA – Free-Air Temperature – 

°

C

I OS

 

– 75

13

12

11

10

9

8

7

1

0

– 1

– 2

– 3

– 4

– 50

– 25

0

25

50

75

100

125

VO = 0

VDD

±

 = 

±

5 V

VID = – 100 mV

VID = 100 mV

Figure 23

3

2

1

0

0

250

4

5

OUTPUT VOLTAGE

vs

DIFFERENTIAL INPUT VOLTAGE

500

750 1000

VID – Differential Input Voltage – 

µ

V

– Output V

oltage – V

V

O

– 1000 – 750

– 250

– 500

VDD = 5 V

RL = 50 k

VIC = 2.5 V

TA = 25

°

C

Figure 24

1

–1

–3

–5

0

250

3

5

OUTPUT VOLTAGE

vs

DIFFERENTIAL INPUT VOLTAGE

500

750 1000

VID – Differential Input Voltage – 

µ

V

VDD

±

 = 

±

5 V

VIC = 0 V

RL = 50 k

TA = 25

°

C

– Output V

oltage – V

V

O

– 1000 – 750

– 250

– 500

1

10

Differential Gain – V/ mV

DIFFERENTIAL GAIN

vs

LOAD RESISTANCE

RL – Load Resistance – k

102

103

104

VO(PP) = 2 V

TA = 25

°

C

VDD = 5 V

103

104

105

106

VDD

±

 = 

±

5 V

Figure 25

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

‡ For curves where VDD = 5 V, all loads are referenced to 2.5 V.

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37

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS

 

om – Phase Margin 

φ

m

20

f – Frequency – Hz

80

60

40

0

– 20

– 40

10 3

10 4

10 5

10 6

10 7

180

°

135

°

90

°

45

°

0

°

– 45

°

– 90

°

LARGE-SIGNAL DIFFERENTIAL VOLTAGE

AMPLIFICATION AND PHASE MARGIN

vs

FREQUENCY

A

VD – Large-Signal Differential

ÁÁ

ÁÁ

ÁÁ

A

VD

V

oltage 

Amplification – dB

† For curves where VDD = 5 V, all loads are referenced to 2.5 V.

Gain

Phase Margin

VDD = 5 V

CL= 100 pF

TA = 25

°

C

Figure 26

om – Phase Margin 

φ

m

20

f – Frequency – Hz

LARGE-SIGNAL DIFFERENTIAL VOLTAGE

AMPLIFICATION AND PHASE MARGIN

vs

FREQUENCY

80

60

40

0

– 20

– 40

10 3

10 4

10 5

10 6

10 7

180

°

135

°

90

°

45

°

0

°

– 45

°

– 90

°

A

VD – Large-Signal Differential

ÁÁ

ÁÁ

ÁÁ

A

VD

V

oltage 

Amplification – dB

Gain

Phase Margin

VDD

±

 = 

±

5 V

CL = 100 pF

TA = 25

°

C

Figure 27

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

38

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS

LARGE-SIGNAL DIFFERENTIAL

VOLTAGE AMPLIFICATION

†‡

vs

FREE-AIR TEMPERATURE

– 75

– 50

– 25

0

25

50

75

100

125

TA – Free-Air Temperature – 

°

C

A

VD – Large-Signal Differential

ÁÁ

ÁÁ

A

VD

V

oltage 

Amplification – V/mV

VDD = 5 V

VIC = 2.5 V

VO = 1 V to 4 V

RL = 50 k

RL = 1 M

RL = 10 k

104

103

102

101

Figure 28

Figure 29

– 75

– 50

– 25

0

25

50

75

100

125

TA – Free-Air Temperature – 

°

C

LARGE-SIGNAL DIFFERENTIAL

VOLTAGE AMPLIFICATION

vs

FREE-AIR TEMPERATURE

A

VD – Large-Signal Differential

ÁÁ

ÁÁ

A

VD

V

oltage 

Amplification – V/mV

VDD

±

 = 

±

5 V

VIC = 0 V

VO = 

±

4 V

RL = 1 M

RL = 50 k

RL = 10 k

104

103

102

101

10

1

0.1

1000

100

zo – Output Impedance – 0

OUTPUT IMPEDANCE

vs

FREQUENCY

f – Frequency – Hz

102

103

104

105

106

z

o

VDD = 5 V

TA = 25

°

C

AV = 100

AV = 10

AV = 1

Figure 30

10

1

0.1

1000

100

OUTPUT IMPEDANCE

vs

FREQUENCY

f – Frequency – Hz

102

103

104

105

106

VDD

±

 = 

±

5 V

TA = 25

°

C

AV = 100

AV = 10

AV = 1

zo – Output Impedance – 0

z

o

Figure 31

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

‡ For curves where VDD = 5 V, all loads are referenced to 2.5 V.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

39

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS

Figure 32

60

40

20

0

80

f – Frequency – Hz

COMMON-MODE REJECTION RATIO

vs

FREQUENCY

100

101

102

103

104

105

106

VDD

±

 = 

±

5 V

VDD = 5 V

CMRR – Common-Mode Rejection Ratio – dB

Figure 33

86

84

82

80

88

COMMON-MODE REJECTION RATIO

†‡

vs

FREE-AIR TEMPERATURE

90

– 75

– 50 –25

0

25

50

75

100

VDD

±

 = 

±

5 V

VDD = 5 V

TA – Free-Air Temperature – 

°

C

CMRR – Common-Mode Rejection Ratio – dB

125

f – Frequency – Hz

SUPPLY-VOLTAGE REJECTION RATIO

vs

FREQUENCY

100

80

60

40

20

0

– 20

101

102

103

104

105

106

kSVR +

kSVR –

VDD = 5 V

TA = 25

°

C

KSVR – Supply-V

oltage Rejection Ratio – dB

ÁÁ

ÁÁ

ÁÁ

k

SVR

Figure 34

KSVR – Supply-V

oltage Rejection Ratio – dB

f – Frequency – Hz

SUPPLY-VOLTAGE REJECTION RATIO

vs

FREQUENCY

100

80

60

40

20

0

– 20

101

102

103

104

105

106

ÁÁ

ÁÁ

ÁÁ

k

SVR

kSVR +

kSVR –

VDD

±

 = 

±

5 V

TA = 25

°

C

Figure 35

‡ Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

† For curves where VDD = 5 V, all loads are referenced to 2.5 V.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

40

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS

Figure 36

100

95

90

KSVR – Supply-V

oltage Rejection Ratio – dB

105

SUPPLY-VOLTAGE REJECTION RATIO

vs

FREE-AIR TEMPERATURE

110

– 50

– 25

0

25

50

75

100

125

ÁÁ

ÁÁ

ÁÁ

k

SVR

TA – Free-Air Temperature – 

°

C

VO = 0

VDD

±

 = 

±

2.2 V to 

±

8 V

– 75

Figure 37

300

200

100

0

0

1

2

3

4

5

IDD – Supply Current – uA

400

500

600

6

7

8

| VDD

±

 | – Supply Voltage – V

TA = 25

°

C

TA = 125

°

C

TA = – 55

°

C

VO = 0 

No Load

ÁÁ

ÁÁ

I DD

A

µ

TA = 40

°

C

TLC2262

SUPPLY CURRENT

vs

SUPPLY VOLTAGE

Figure 38

600

400

200

0

0

1

2

3

4

5

IDD – Supply Current – uA

800

1000

1200

6

7

8

| VDD

±

 | – Supply Voltage – V

TA = 25

°

C

TA = 125

°

C

TA = – 55

°

C

VO = 0 

No Load

ÁÁ

ÁÁ

ÁÁ

I DD

A

µ

TA = 40

°

C

TLC2264

SUPPLY CURRENT

vs

SUPPLY VOLTAGE

Figure 39

300

200

100

0

400

500

600

– 75

– 50 – 25

0

25

50

75

100

IDD – Supply Current – uA

ÁÁ

ÁÁ

ÁÁ

I DD

A

µ

TA – Free-Air Temperature – 

°

C

VDD

±

 = 

±

5 V

VO = 0

VDD = 5 V

VO = 2.5 V

125

TLC2262

SUPPLY CURRENT

†‡

vs

FREE-AIR TEMPERATURE

† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.

‡ For curves where VDD = 5 V, all loads are referenced to 2.5 V.

background image

TLC226x, TLC226xA

Advanced LinCMOS

 RAIL-TO-RAIL

OPERATIONAL AMPLIFIERS

SLOS177A – FEBRUARY 1997 – REVISED JULY 1999

41

POST OFFICE BOX 655303 

 DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS

Figure 40

600

400

200

0

800

1000

1200

– 50

– 25

0 25

50

75

100

125

IDD – Supply Current – uA

ÁÁ

ÁÁ

I DD

A

µ

TA – Free-Air Temperature – 

°

C

VDD

±

 = 

±

5 V

VO = 0

VDD = 5 V

VO = 2.5 V

– 75

TLC2264

SUPPLY CURRENT

†‡

vs

FREE-AIR TEMPERATURE

0.8

0.4

0.2

0

1

0.6

SR – Slew Rate – v/us

SLEW RATE

vs

LOAD CAPACITANCE

s

µ

V/

CL – Load Capacitance – pF

101

102

103

104

SR +

VDD = 5 V

AV = – 1

TA = 25

°

C