Linear LTC6246, LTC6247, LTC6248 Schematic [ru]

LTC6246/LTC6247/LTC6248

LTC6246

+

–

624678 TA01a

LTC2366

V

REF

GND

V

DD

3.3V 2.5V

CS

SDO

SCK

OV

DD

3.3V

V

IN

A

IN

499Ω
1%

499Ω

1%

10pF

FREQUENCY (kHz)

0

MAGNITUDE (dB)

0

–10

–30

–50

–70

–20

–40

–60

–80

–90
–100
–110

400 800200 600

624678 TA01b

1000

fIN = 350.195kHz
f

SAMP

= 2.2Msps
SFDR = 82dB
SNR = 70dB
1024 POINT FFT

180MHz, 1mA Power

Efficient Rail-to-Rail

I/O Op Amps

FeaTures

n

Gain Bandwidth Product: 180MHz

n

–3dB Frequency (AV = 1): 120MHz

n

Low Quiescent Current: 1mA Max

n

High Slew Rate: 90V/µs

n

Input Common Mode Range Includes Both Rails

n

Output Swings Rail-to-Rail

n

Low Broadband Voltage Noise: 4.2nV/√Hz

n

Power-Down Mode: 42μA

n

Fast Output Recovery

n

Supply Voltage Range: 2.5V to 5.25V

n

Input Offset Voltage: 0.5mV Max

n

Input Bias Current: 100nA

n

Large Output Current: 50mA

n

CMRR: 110dB

n

Open Loop Gain: 45V/mV

n

Operating Temperature Range: –40°C to 125°C

n

Single in 6-Pin TSOT-23

n

Dual in MS8, 2mm × 2mm Thin DFN,TS0T-23, MS10

n

Quad in MS16

applicaTions

n

Low Voltage, High Frequency Signal Processing

n

Driving A/D Converters

n

Rail-to-Rail Buffer Amplifiers

n

Active Filters

n

Video Amplifiers

n

Fast Current Sensing Amplifiers

n

Battery Powered Equipment

DescripTion

The LTC®6246/LTC6247/LTC6248 are single/dual/quad low
power, high speed unity gain stable rail-to-rail input/output
operational amplifiers. On only 1mA of supply current they
feature an impressive 180MHz gain-bandwidth product,
90V/µs slew rate and a low 4.2nV/√Hz of input-referred
noise. The combination of high bandwidth, high slew rate,
low power consumption and low broadband noise makes
these amplifiers unique among rail-to-rail input/output op
amps with similar supply currents. They are ideal for lower
supply voltage high speed signal conditioning systems.

The LTC6246 family maintains high efficiency performance
from supply voltage levels of 2.5V to 5.25V and is fully
specified at supplies of 2.7V and 5.0V.

For applications that require power-down, the LTC6246
and the LTC6247 in MS10 offer a shutdown pin which
disables the amplifier and reduces current consumption
to 42µA.

The LTC6246 family can be used as a plug-in replacement
for many commercially available op amps to reduce power
or to improve input/output range and performance.

L, LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks of Linear
Technology Corporation. All other trademarks are the property of their respective owners.

Typical applicaTion

Low Noise Low Distortion Gain = 2 ADC Driver

350kHz FFT Driving ADC

624678fa

1

LTC6246/LTC6247/LTC6248

TOP VIEW

9

KC PACKAGE

8-LEAD PLASTIC UTDFN (2mm s 2mm)

5

6

7

8

4

3

2

1OUT A

–IN A

+IN A

V

–

V

+

OUT B

–IN B

+IN B

+–+

–

1
2
3
4

OUT A

–IN A
+IN A

V

–

8
7
6
5

V

+

OUT B
–IN B
+IN B

TOP VIEW

MS8 PACKAGE

8-LEAD PLASTIC MSOP

+

–

+

–

1
2
3
4
5

OUT A

–IN A
+IN A

V

–

SHDNA

10
9
8
7
6

V

+

OUT B
–IN B
+IN B

SHDNB

TOP VIEW

MS PACKAGE

10-LEAD PLASTIC MSOP

+

–

+

–

1
2
3
4
5
6
7
8

OUT A

–IN A
+IN A

V

+

+IN B
–IN B

OUT B

16
15
14
13
12
11
10
9

OUT D
–IN D
+IN D
V

–

+IN C
–IN C
OUT C

TOP VIEW

MS PACKAGE

16-LEAD PLASTIC MSOP

+–+

–
+–+

–

OUT 1

V

–

2

+IN 3

6 V

+

5 SHDN
4 –IN

TOP VIEW

S6 PACKAGE

6-LEAD PLASTIC TSOT-23

+

–

OUT A 1

–IN A 2
+IN A 3

V

–

4

8 V

+

7 OUT B
6 –IN B
5 +IN B

TOP VIEW

TS8 PACKAGE

8-LEAD PLASTIC TSOT-23

+

–

+

–

absoluTe MaxiMuM raTings

Total Supply Voltage (V+ to V–) ................................5.5V

Input Current (+IN, –IN, SHDN) (Note 2) ..............±10mA

Output Current (Note 3) ..................................... ±100mA

Operating Temperature Range (Note 4) . –40°C to 125°C

pin conFiguraTion

= 125°C, θJA = 102°C/W (NOTE 9)

T

JMAX

EXPOSED PAD (PIN 9) IS V

–

, MUST BE SOLDERED TO PCB

(Note 1)

Specified Temperature Range (Note 5) .. –40°C to 125°C

Storage Temperature Range .................. –65°C to 150°C

Junction Temperature ........................................... 150°C

Lead Temperature (Soldering, 10 sec)

(MSOP, TSOT Packages Only) ...............................300°C

= 150°C, θJA = 163°C/W (NOTE 9)

T

JMAX

= 150°C, θJA = 160°C/W (NOTE 9)

T

JMAX

orDer inForMaTion

LEAD FREE FINISH TAPE AND REEL PART MARKING* PACKAGE DESCRIPTION SPECIFIED TEMPERATURE RANGE

LTC6246CS6#TRMPBF LTC6246CS6#TRPBF LTDWF 6-Lead Plastic TSOT-23 0°C to 70°C
LTC6246IS6#TRMPBF LTC6246IS6#TRPBF LTDWF 6-Lead Plastic TSOT-23 –40°C to 85°C
LTC6246HS6#TRMPBF LTC6246HS6#TRPBF LTDWF 6-Lead Plastic TSOT-23 –40°C to 125°C
LTC6247CKC#TRMPBF LTC6247CKC#TRPBF DWJT
LTC6247IKC#TRMPBF LTC6247IKC#TRPBF DWJT
LTC6247CMS8#PBF LTC6247CMS8#TRPBF LTDWH 8-Lead Plastic MSOP 0°C to 70°C
LTC6247IMS8#PBF LTC6247IMS8#TRPBF LTDWH 8-Lead Plastic MSOP –40°C to 85°C
LTC6247CTS8#TRMPBF LTC6247CTS8#TRPBF LTDWK 8-Lead Plastic TSOT-23 0°C to 70°C
LTC6247ITS8#TRMPBF LTC6247ITS8#TRPBF LTDWK 8-Lead Plastic TSOT-23 –40°C to 85°C
LTC6247HTS8#TRMPBF LTC6247HTS8#TRPBF LTDWK 8-Lead Plastic TSOT-23 –40°C to 125°C

2

= 150°C, θJA = 125°C/W (NOTE 9)

T

JMAX

= 150°C, θJA = 192°C/W (NOTE 9)

T

JMAX

8-Lead (2mm × 2mm) UTDFN
8-Lead (2mm × 2mm) UTDFN

= 150°C, θJA = 195°C/W (NOTE 9)

T

JMAX

0°C to 70°C
–40°C to 85°C

624678fa

LTC6246/LTC6247/LTC6248

orDer inForMaTion

LEAD FREE FINISH TAPE AND REEL PART MARKING* PACKAGE DESCRIPTION SPECIFIED TEMPERATURE RANGE

LTC6247CMS#PBF LTC6247CMS#TRPBF LTDWM 10-Lead Plastic MSOP 0°C to 70°C
LTC6247IMS#PBF LTC6247IMS#TRPBF LTDWM 10-Lead Plastic MSOP –40°C to 85°C
LTC6248CMS#PBF LTC6248CMS#TRPBF 6248 16-Lead Plastic MSOP 0°C to 70°C
LTC6248IMS#PBF LTC6248IMS#TRPBF 6248 16-Lead Plastic MSOP –40°C to 85°C
LTC6248HMS#PBF LTC6248HMS#TRPBF 6248 16-Lead Plastic MSOP –40°C to 125°C
TRM = 500 pieces. *Temperature grades are identified by a label on the shipping container.

Consult LTC Marketing for parts specified with wider operating temperature ranges.
Consult LTC Marketing for information on lead based finish parts.

For more information on lead free part marking, go to: http://www.linear.com/leadfree/
For more information on tape and reel specifications, go to: http://www.linear.com/tapeandreel/

(V

elecTrical characTerisTics

specified temperature range, otherwise specifications are at TA = 25°C. For each amplifier VS = 5V, 0V; V

= 5V) The l denotes the specifications which apply across the

S

= 2V; VCM = V

SHDN

OUT

= 2.5V,

unless otherwise noted.

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

V

OS

∆V

OS

V

OS TC

I

B

I

OS

e

n

i

n

C

IN

R

IN

A

VOL

CMRR Common Mode Rejection Ratio V

Input Offset Voltage VCM = Half Supply

Input Offset Voltage Match
(Channel-to-Channel) (Note 8)

Input Offset Voltage Drift
Input Bias Current (Note 7) VCM = Half Supply

Input Offset Current VCM = Half Supply

Input Noise Voltage Density f = 100kHz 4.2 nV/√Hz
Input 1/f Noise Voltage f = 0.1Hz to 10Hz 1.6 µV
Input Noise Current Density f = 100kHz 2.0 pA/√Hz
Input Capacitance Differential Mode

Input Resistance Differential Mode

Large Signal Voltage Gain RL = 1k to Half Supply (Note 10)

= V+ – 0.5V, NPN Mode

V

CM

VCM = Half Supply

= V+ – 0.5V, NPN Mode

V

CM

= V+ – 0.5V, NPN Mode

V

CM

= V+ – 0.5V, NPN Mode

V

CM

Common Mode

Common Mode

= 100Ω to Half Supply (Note 10)

R

L

= 0V to 3.5V

CM

–500

l

–1000

–2.5

l

–3

–600

l

–1000

–3.5

l

–4

l

–350

l

–550

100

l

0

–250

l

–400
–250

l

–400

30

l

14

5

l

2.5
78

l

76

50 500

1000

0.1 2.5
3

50 600

1000

0.1 3.5
4

–2 µV/°C

–30 350

550

400 1000

1500

–10 250

400

–10 250

400

2

0.8

32
14

45 V/mV

15 V/mV

110 dB

µV
µV

mV
mV

µV
µV

mV
mV

nA
nA

nA
nA

nA
nA

nA
nA

P-P

pF
pF

kΩ

MΩ

V/mV

V/mV

dB

624678fa

3

LTC6246/LTC6247/LTC6248

elecTrical characTerisTics

(V
specified temperature range, otherwise specifications are at TA = 25°C. For each amplifier VS = 5V, 0V; V
unless otherwise noted.

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

I

CMR

PSRR Power Supply Rejection Ratio V

V

OL

V

OH

I

SC

I

S

I

SD

I

SHDNL

I

SHDNH

V

L

V

H

I

OSD

t

ON

t

OFF

BW –3dB Closed Loop Bandwidth A
GBW Gain-Bandwidth Product f = 2MHz, R

, 0.1% Settling Time to 0.1% AV = –1, VO = 2V Step RL = 1k 74 ns

t

S

, 0.01% Settling Time to 0.01% AV = –1, VO = 2V Step RL = 1k 202 ns

t

S

SR Slew Rate A

FPBW Full Power Bandwidth V

Input Common Mode Range

Supply Voltage Range (Note 6)
Output Swing Low (V

Output Swing High (V+ – V

– V–) No Load

OUT

) No Load

OUT

Output Short-Circuit Current Sourcing

Supply Current per Amplifier VCM = Half Supply

Disable Supply Current per Amplifier V

SHDN Pin Current Low V

SHDN Pin Current High V

SHDN Pin Input Voltage Low
SHDN Pin Input Voltage High

Output Leakage Current Magnitude in
Shutdown

Turn-On Time V
Turn-Off Time V

= 5V) The l denotes the specifications which apply across the

S

= 2.5V to 5.25V

S

V

= 1V

CM

= 5mA

I

SINK

= 25mA

I

SINK

= 5mA

I

SOURCE

= 25mA

I

SOURCE

Sinking

= V+ – 0.5V

V

CM

= 0.8V

SHDN

= 0.8V

SHDN

= 2V

SHDN

V

= 0.8V, Output Shorted to Either

SHDN

l

l

l

l

l

l

l

l

l

l

l

l

l

l

l

–300

l

–350

l

l

= 2V; VCM = V

SHDN

0 V

69

73 dB

OUT

S

= 2.5V,

65

2.5 5.25 V
25 40

55

70 110

160

160 250

450

70 100

150

130 175

225

300 500

750

–80 –35

–30

60

100 mA

40

0.95 1

1.4

1.25 1.4

1.8

42 75

200

–3
–4

–1.6 0

0

35 300

350

0.8 V

2 V

100 nA

Supply

= 0.8V to 2V 5 µs

SHDN

= 2V to 0.8V 2 µs

SHDN

= 1, RL = 1k to Half Supply 120 MHz

V

= 1k to Half Supply

L

= –3.33, 4.6V Step (Note 11)

V

= 4V

OUT

(Note 13) 4 MHz

P-P

100

l

70

60

l

50

180 MHz

90 V/µs

dB

mV
mV

mV
mV

mV
mV

mV
mV

mV
mV

mV
mV

mA
mA

mA
mA

mA
mA

mA

µA
µA

µA
µA

nA
nA

MHz

V/µs

V

4

624678fa

LTC6246/LTC6247/LTC6248

(V

elecTrical characTerisTics

specified temperature range, otherwise specifications are at TA = 25°C. For each amplifier VS = 5V, 0V; V

= 5V) The l denotes the specifications which apply across the

S

= 2V; VCM = V

SHDN

OUT

= 2.5V,

unless otherwise noted.

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

= 100kHz, VO = 2V

HD2/HD3 Harmonic Distortion

= 1k to Half Supply

R

L

R

= 100Ω to Half Supply fC = 100kHz, VO = 2V

L

∆G
∆θ

Differential Gain (Note 14) A
Differential Phase (Note 14) A
Crosstalk A

(V

elecTrical characTerisTics

f

C

fC = 1MHz, VO = 2V
fC = 2MHz, VO = 2V

fC = 1MHz, VO = 2V
fC = 2MHz, VO = 2V

= 1, RL = 1k, VS = ±2.5V 0.2 %

V

= 1, RL = 1k, VS = ±2.5V 0.08 Deg

V

= –1, RL = 1k to Half Supply,

V

V

= 2V

OUT

P-P

= 2.7V) The l denotes the specifications which apply across the

S

P-P
P-P
P-P

P-P
P-P
P-P

, f = 1MHz

specified temperature range, otherwise specifications are at TA = 25°C. For each amplifier VS = 2.7V, 0V; V

110/90

88/80
78/62

90/79
66/60
59/51

–90 dB

= 2V; VCM = V

SHDN

OUT

dBc
dBc
dBc

=

1.35V, unless otherwise noted.

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

V

OS

∆V

V

OS TC

I

B

I

OS

e

n

i

n

C

IN

R

IN

A

VOL

OS

Input Offset Voltage VCM = Half Supply

= V+ – 0.5V, NPN Mode

V

CM

Input Offset Voltage Match

VCM = Half Supply

(Channel-to-Channel) (Note 8)

= V+ – 0.5V, NPN Mode

V

CM

Input Offset Voltage Drift
Input Bias Current (Note 7) VCM = Half Supply

= V+ – 0.5V, NPN Mode

V

CM

Input Offset Current VCM = Half Supply

= V+ – 0.5V, NPN Mode

V

CM

Input Noise Voltage Density f = 100kHz 4.6 nV/√Hz
Input 1/f Noise Voltage f = 0.1Hz to 10Hz 1.7 µV
Input Noise Current Density f = 100kHz 1.8 pA/√Hz
Input Capacitance Differential Mode

Common Mode

Input Resistance Differential Mode

Common Mode

Large Signal Voltage Gain RL = 1k to Half Supply

(Note 12)

= 100Ω to Half Supply

R

L

(Note 12)

–100

l

–300

–1.75

l

–2.25

–700

l

–1000

–3.5

l

–4

l

–450

l

–600

50

l

0

–250

l

–350
–250

l

–350

500 1000

1400

0.75 3.25

3.75

–20 700

1000

0.1 3.5
4

2 µV/°C

–100 450

600

350 1000

1500

–10 250

350

–10 250

350

mV
mV

mV
mV

nA
nA

nA
nA

nA
nA

nA
nA

P-P

2

0.8

32
12

15

l

7.5
2

l

1.3

25 V/mV

7.5 V/mV

kΩ

MΩ

V/mV

V/mV

µV
µV

µV
µV

pF
pF

624678fa

5

LTC6246/LTC6247/LTC6248

elecTrical characTerisTics

(V
specified temperature range, otherwise specifications are at TA = 25°C. For each amplifier VS = 2.7V, 0V; V

1.35V, unless otherwise noted.

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

CMRR Common Mode Rejection Ratio V

I

CMR

PSRR Power Supply Rejection Ratio V

V

OL

V

OH

I

SC

I

S

I

SD

I

SHDNL

I

SHDNH

V

L

V

H

I

OSD

t

ON

t

OFF

BW –3dB Closed Loop Bandwidth A
GBW Gain-Bandwidth Product f = 2MHz, R

, 0.1 Settling Time to 0.1% AV = –1, VO = 2V Step RL = 1k 119 ns

t

S

, 0.01 Settling Time to 0.01% AV = –1, VO = 2V Step RL = 1k 170 ns

t

S

SR Slew Rate A

Input Common Mode Range

Supply Voltage Range (Note 6)
Output Swing Low (V

Output Swing High (V+ – V

– V–) No Load

OUT

) No Load

OUT

Short Circuit Current Sourcing

Supply Current per Amplifier VCM = Half Supply

Disable Supply Current per Amplifier V

SHDN Pin Current Low V

SHDN Pin Current High V

SHDN Pin Input Voltage
SHDN Pin Input Voltage

Output Leakage Current Magnitude in Shutdown V

Turn-On Time V
Turn-Off Time V

= 2.7V) The l denotes the specifications which apply across the

S

= 0V to 1.2V

CM

= 2.5V to 5.25V

S

V

= 1V

CM

= 5mA

I

SINK

= 10mA

I

SINK

= 5mA

I

SOURCE

= 10mA

I

SOURCE

Sinking

= V+ – 0.5V

V

CM

= 0.8V

SHDN

= 0.8V

SHDN

= 2V

SHDN

= 0.8V, Output Shorted to Either

SHDN

80

l

78

l

0 V

69

l

65

l

2.5 5.25 V

l

l

l

l

l

l

l

25

l

20

l

l

l

–1

l

–1.5

–300

l

–350

l

l

2.0 V

= 2V; VCM = V

SHDN

100 dB

S

73 dB

20 40

55

80 125

160

110 175

225

60 85

100

135 190

225

180 275

400

–35 –20

–15

50 mA

0.89 1

1.3

1 1.3

1.7

22 50

90

–0.5 0

0

45 300

350

0.8 V

100 nA

OUT

Supply

= 0.8V to 2V 5 µs

SHDN

= 2V to 0.8V 2 µs

SHDN

= 1, RL = 1k to Half Supply 100 MHz

V

= 1k to Half Supply

L

= –1, 2V Step 55 V/µs

V

80

l

50

150 MHz

=

dB

dB

mV
mV

mV
mV

mV
mV

mV
mV

mV
mV

mV
mV

mA
mA

mA
mA

mA
mA

mA

µA
µA

µA
µA

nA
nA

V

6

624678fa

LTC6246/LTC6247/LTC6248

INPUT OFFSET VOLTAGE (µV)

PERCENT OF UNITS (%)

22
20

16

12

8

2

18

14

10

6
4

0

–50–150 150

624678 G01

350250–250–375 50

VS = 5V, 0V
V

CM

= 2.5V

INPUT OFFSET VOLTAGE (µV)

PERCENT OF UNITS (%)

25

15

5

20

10

0

–125 –25–75

624678 G02

75 12525 175–175

VS = 5V, 0V
V

CM

= 2.5V

INPUT OFFSET VOLTAGE (µV)

PERCENT OF UNITS (%)

16

12

8

2

14

10

6

4

0

–1200 400–400

624678 G03

1200 2000–2000

VS = 5V, 0V
V

CM

= 4.5V

elecTrical characTerisTics

(V
specified temperature range, otherwise specifications are at TA = 25°C. For each amplifier VS = 2.7V, 0V; V

1.35V, unless otherwise noted.

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

FPBW Full Power Bandwidth V

Crosstalk A

= 2.7V) The l denotes the specifications which apply across the

S

= 2V

OUT

= –1, RL = 1k to Half Supply,

V

V

OUT

(Note 13) 3.3 MHz

P-P

= 2V

, f = 1MHz

P-P

= 2V; VCM = V

SHDN

–90 dB

OUT

=

Note 1: Stresses beyond those listed under Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to any Absolute
Maximum Rating condition for extended periods may affect device
reliability and lifetime.

Note 2: The inputs are protected by back-to-back diodes. If any of
the input or shutdown pins goes 300mV beyond either supply or the
differential input voltage exceeds 1.4V the input current should be limited
to less than 10mA. This parameter is guaranteed to meet specified
performance through design and/or characterization. It is not production
tested.

Note 3: A heat sink may be required to keep the junction temperature
below the absolute maximum rating when the output current is high.

Note 4: The LTC6246C/LTC6247C/LTC6248C and LTC6246I/LTC6247I/
LTC6248I are guaranteed functional over the temperature range of –40°C
to 85°C. The LTC6246H/LTC6247H/LTC6248H are guaranteed functional
over the temperature range of –40°C to 125°C.

Note 5: The LTC6246C/LTC6247C/LTC6248C are guaranteed to meet
specified performance from 0°C to 70°C. The LTC6246C/LTC6247C/
LTC6248C are designed, characterized and expected to meet specified
performance from –40°C to 85°C but are not tested or QA sampled at
these temperatures. The LTC6246I/LTC6247I/LTC6248I are guaranteed
to meet specified performance from –40°C to 85°C. The LTC6246H/
LTC6247H/LTC6248H are guaranteed to meet specified performance from
–40°C to 125°C.

Note 6: Minimum supply voltage is guaranteed by power supply rejection
ratio test.

Note 7: The input bias current is the average of the average of the currents
through the positive and negative input pins.

Note 8: Matching parameters are the difference between amplifiers A and
D and between B and C on the LTC6248; between the two amplifiers on the
LTC6247.

Note 9: Thermal resistance varies with the amount of PC board metal
connected to the package. The specified values are with short traces
connected to the leads with minimal metal area.

Note 10: The output voltage is varied from 0.5V to 4.5V during
measurement.

Note 11: Middle 80% of the output waveform is observed. R

= 1k at half

L

supply.
Note 12: The output voltage is varied from 0.5V to 2.2V during

measurement.
Note 13: FPBW is determined from distortion performance in a gain of +2

configuration with HD2, HD3 < –40dBc as the criteria for a valid output.
Note 14: Differential gain and phase are measured using a Tektronix

TSG120YC/NTSC signal generator and a Tektronix 1780R video
measurement set.

Typical perForMance characTerisTics

VOS Distribution, VCM = VS/2
(MS, PNP Stage)

VOS Distribution, VCM = VS/2
(TSOT-23, PNP Stage)

VOS Distribution, VCM = V+ – 0.5V
(MS, NPN Stage)

624678fa

7

LTC6246/LTC6247/LTC6248

INPUT COMMON MODE VOLTAGE (V)

0

OFFSET VOLTAGE (µV)

500

400

100

200

–300

300

0

–100

–200

–400

–500

1.5 3.51 2.5 4.5

624678 G09

530.5 2 4

–55°C

VS = 5V, 0V

125°C

25°C

OUTPUT CURRENT (mA)

–100

V

OS

(mV)

2.0

1.5

0.5

–1.0

1.0

0

–0.5

–1.5

–2.0

–75 25–25 75

624678 G10

1000–50 50

25°C

125°C

–55°C

VS = ±2.5V

TIME AFTER POWER-UP (s)

0

CHANGE IN OFFSET VOLTAGE (µV)

5

0

–10

–25

–5

–15

–20

–30

–35

20 10060 140

624678 G11

1608040 120

VS = ±2.5V
T

A

= 25°C

COMMON MODE VOLTAGE (V)

0

INPUT BIAS CURRENT (nA)

800
600

200

–200

–600

–1200

400

0

–400

–800

–1000

–1400
–1600

1.5 3.51 2.5 4.5

624678 G12

530.5 2 4

25°C

125°C

–55°C

VS = 5V, 0V

INPUT OFFSET VOLTAGE (µV)

PERCENT OF UNITS (%)

18

12

14

10

4

16

8

6

2

0

–1200

624678 G04

400 1200–400 2000–2000

VS = 5V, 0V
V

CM

= 4.5V

TEMPERATURE (°C)

VOLTAGE OFFSET (µV)

500

200

300

100

–200

400

0

–100

–300

–400

–15–35

624678 G05

5 25 65 85 105 125–55

VS = 5V, 0V
V

CM

= 2.5V

6 DEVICES

45

TEMPERATURE (°C)

VOLTAGE OFFSET (µV)

2500

1000

1500

500

–1000

2000

0

–500

–1500

–2000

–2500

–15–35

624678 G06

5 25 65 85 105 125–55

VS = 5V, 0V
V

CM

= 4.5V

6 DEVICES

45

TEMPERATURE (°C)

VOLTAGE OFFSET (µV)

1200

1000

800

600

400

200

0

–15–35

624678 G07

5 25 65 85 105 125–55

VS = 2.7V, 0V
V

CM

= 1.35V

6 DEVICES

45

TEMPERATURE (°C)

VOLTAGE OFFSET (µV)

2500

2000

1500

1000

500

0

–1500

–1000

–500

–2000

–15–35

624678 G08

5 25 65 85 105 125–55

VS = 2.7V, 0V
V

CM

= 2.2V

6 DEVICES

45

Typical perForMance characTerisTics

Distribution, VCM = V+ – 0.5V

V

OS

(TSOT-23, NPN Stage)

V

vs Temperature

OS

(MS10, PNP Stage)

VOS vs Temperature
(MS10, PNP Stage)

VOS vs Temperature
(MS10, NPN Stage)

vs Temperature

V

OS

(MS10, NPN Stage)

Offset Voltage
vs Input Common Mode Voltage

Offset Voltage vs Output Current

8

Input Bias Current

Warm-Up Drift vs Time

vs Common Mode Voltage

624678fa