LT1013/LT1014

= ±15V, V

= 0V, –55°C ≤ T

≤ 125°C unless otherwise noted

ELECTRICAL CHARACTERISTICS

Note 2: This parameter is not 100% tested.

The

● denotes specifications which apply over the full operating temperature range.

LT1013AM LT1014AM LT1013M/LT1014M

MIN TYP MAX MIN TYP MAX MIN TYP MAX

Input Offset Voltage ● — 80 300 — 90 350 — 110 550 µV

= +5V, 0V; V

= +1.4V

–55°C ≤ T

≤ 100°C ● — 80 450 — 90 480 — 100 750 µV

= 0.1V, T

= 125°C — 120 450 — 150 480 — 200 750 µV

= 0V, T

= 125°C — 250 900 — 300 960 — 400 1500 µV

Input Offset Voltage Drift (Note 2) ● — 0.4 2.0 — 0.4 2.0 — 0.5 2.5 µV/°C

Input Offset Current ● — 0.3 2.5 — 0.3 2.8 — 0.4 5.0 nA

= +5V, 0V; V

= +1.4V ● — 0.6 6.0 — 0.7 7.0 — 0.9 10.0 nA

Input Bias Current ● —1530—1530—1845 nA

= +5V, 0V; V

= +1.4V ● —2080—2590—28120 nA

VOL

Large Signal Voltage Gain V

= ±10V, R

= 2k ● 0.5 2.0 — 0.4 2.0 — 0.25 2.0 — V/µV

CMRR Common-Mode Rejection V

= +13.0V, –14.9V ● 97 114 — 96 114 — 94 113 — dB

PSRR Power Supply Rejection V

= ±2V to ±18V ● 100 117 — 100 117 — 97 116 — dB

Ratio

OUT

Output Voltage Swing R

= 2k ● ±12 ±13.8 — ±12 ±13.8 — ±11.5 ±13.8 — V

= +5V, 0V

= 600Ω to Ground

Output Low

● — 6 15— 615— 618 mV

Output High ● 3.2 3.8 — 3.2 3.8 — 3.1 3.8 — V

Supply Current ● — 0.38 0.60 — 0.38 0.60 — 0.38 0.7 mA

Per Amplifier V

= +5V, 0V; V

= +1.4V ● — 0.34 0.55 — 0.34 0.55 — 0.34 0.65 mA

SYMBOL PARAMETER CONDITIONS UNITS

ELECTRICAL CHARACTERISTICS

= ±15V, V

= 0V, –40°C ≤ T

≤ 85°C for LT1013I, LT1014I, 0°C ≤ T

≤ 70°C for LT1013C, LT1013D, LT1014C, LT1014D unless otherwise noted

LT1013C/D/I

LT1014C/D/I

MIN TYP MAX MIN TYP MAX MIN TYP MAX

Input Offset Voltage ● — 55 240 — 65 270 — 80 400 µV

LT1013D/I, LT1014D/I ● — — — — — — — 230 1000 µV

= +5V, 0V; V

= 1.4V ● — 75 350 — 85 380 — 110 570 µV

LT1013D/I, LT1014D/I

= +5V, 0V; V

= 1.4V ● — — — — — — — 280 1200 µV

Average Input Offset (Note 2) ● — 0.3 2.0 — 0.3 2.0 — 0.4 2.5 µV/°C

Voltage Drift LT1013D/I, LT1014D/I ● ———————0.75.0µV/°C

Input Offset Current ● — 0.2 1.5 — 0.2 1.7 — 0.3 2.8 nA

= +5V, 0V; V

= 1.4V ● — 0.4 3.5 — 0.4 4.0 — 0.5 6.0 nA

Input Bias Current ● —1325—1325—1638 nA

= +5V, 0V; V

= 1.4V ● —1855—2060—2490 nA

VOL

Large Signal Voltage Gain V

= ±10V, R

= 2k ● 1.0 5.0 — 1.0 5.0 — 0.7 4.0 — V/µV

CMRR Common-Mode Rejection V

= +13.0V, –15.0V ● 98 116 — 98 116 — 94 113 — dB

Ratio

PSRR Power Supply Rejection V

= ±2V to ±18V ● 101 119 — 101 119 — 97 116 — dB

Ratio

OUT

Output Voltage Swing R

= 2k ● ±12.5 ±13.9 — ±12.5 ±13.9 — ±12.0 ±13.9 — V

= +5V, 0V; R

= 600Ω

Output Low

● — 613— 613— 613 mV

Output High ● 3.3 3.9 — 3.3 3.9 — 3.2 3.9 — V

Supply Current per Amplifier ● — 0.36 0.55 — 0.36 0.55 — 0.37 0.60 mA

= +5V, 0V; V

= 1.4V ● — 0.32 0.50 — 0.32 0.50 — 0.34 0.55 mA

SYMBOL PARAMETER CONDITIONS UNITS

LT1013AC LT1014AC

LT1013/LT1014

TYPICAL PERFORMANCE CHARACTERISTICS

Offset Voltage Drift with

Temperature of Representative

Units

TEMPERATURE (°C)

–50

INPUT OFFSET VOLTAGE (µV)



200



100



0



–100



–200

–25

100

125

= ±15V

TIME AFTER POWER ON (MINUTES)

CHANGE IN OFFSET VOLTAGE (µV)

5

4

3

2

1

= ±15V

= 25°C



LT1013 CERDIP (J) PACKAGE

LT1013 METAL CAN (H) PACKAGE

LT1014

Warm-Up Drift

BALANCED SOURCE RESISTANCE (Ω)

1k 3k 10k 30k 100k 300k 1M 3M 10M

INPUT OFFSET VOLTAGE (mV)

10

1

0.1

0.01

= 5V, 0V, –55°C TO 125°C

= ±15V, 0V, –55°C TO 125°C

= 5V, 0V, 25°C

= ±15V, 0V, 25°C

–

Offset Voltage vs Balanced

Source Resistance

Common-Mode Rejection Ratio

vs Frequency 0.1Hz to 10Hz Noise

Power Supply Rejection Ratio

vs Frequency

FREQUENCY (Hz)

COMMON-MODE REJECTION RATIO (dB)

120

100

80

60

40

20

100 1k 10k 100k

= 5V, 0V V

= ±15V

= 25°C

FREQUENCY (Hz)

0.1

POWER SUPPLY REJECTION RATIO (dB)

120

100

80

60

40

20

100 10k

110

1k 100k 1M

POSITIVE

SUPPLY

NEGATIVE

SUPPLY

= ±15V + 1V

P-P

SINE WAVE

= 25°C



TIME (SECONDS)

NOISE VOLTAGE (200nV/DIV)

2

= 25°C

= ±2V TO ±18V

10Hz Voltage Noise

DistributionNoise Spectrum Supply Current vs Temperature

FREQUENCY (Hz)

VOLTAGE NOISE DENSITY (nV/√Hz)

CURRENT NOISE DENSITY (fA/√Hz)

1000



100



300



30



10 100 1k

CURRENT NOISE

VOLTAGE NOISE

1/f CORNER 2Hz

= 25°C

= ±2V TO ±18V

VOLTAGE NOISE DENSITY (nV/√Hz)

NUMBER OF UNITS

200

180

160

140

120

100

80

60

40

20

20

= ±15V

= 25°C

328 UNITS TESTED

FROM THREE RUNS

TEMPERATURE (°C)

–50

SUPPLY CURRENT PER AMPLIFIER (µA)

460



420



380



340



300



260

–25

100

125

= ±15V

= 5V, 0V

LT1013/LT1014

TYPICAL PERFORMANCE CHARACTERISTICS

INPUT BIAS CURRENT (nA)

COMMON-MODE INPUT VOLTAGE, V

= +5V, 0V (V)

5

4

3

2

1

0

–1

COMMON-MODE INPUT VOLTAGE, V

= ±15V (V)

15

10

5

0

–5

–10

–15

–5

–10 –15 –20

–25 –30

= 25°C

= 5V, 0V

= ±15V

Input Bias Current vs

Common-Mode Voltage

TEMPERATURE (°C)

–50

INPUT BIAS CURRENT (nA)

–30

–25

–20

–15

–10

–5

25 75

–25 0

50 100 125

= 0V

= 5V, 0V

= ±15V

= ±2.5V



TEMPERATURE (°C)

–50

INPUT OFFSET CURRENT (nA)

1.0



0.8



0.6



0.4



0.2



–25

100

125

= 0V

= 5V, 0V

= ±2.5V

= ±15V

Input Bias Current vs

Temperature

Large Signal Transient

Response, V

= ±15V

5V/DIV

= +1 50µs/DIV

Large Signal Transient

Response, V

= 5V, 0V

= +1 10µs/DIV

NO LOAD

INPUT = 0V TO 4V PULSE

Small Signal Transient

Response, V

= ±15V

20mV/DIV

= +1 2µs/DIV

Large Signal Transient

Response, V

= 5V, 0V

= +1 10µs/DIV

= 4.7k TO 5V

INPUT = 0V TO 4V PULSE

Output Saturation vs Sink

Current vs Temperature

TEMPERATURE (°C)

–50 –25 0 25 50 75 100 125

SATURATION VOLTAGE (V)

10

1

0.1

0.01

= 5V TO 30V

–

= 0V

SINK

= 10mA

SINK

= 5mA

SINK

= 1mA

SINK

= 100µA

SINK

= 10µA

SINK

= 0

= +1 20µs/DIV

= 600Ω TO GROUND

INPUT = 0V TO 100mV PULSE

Small Signal Transient

Response, V

= 5V, 0V

100mV

50mV

Input Offset Current vs

Temperature

Part #	LT1014ACJ
Description	OP Amp Quad GP Â±22V/44V14-Pin CDip
Category	IC
Availability	In Stock
Qty	4

Qty	Price
1 - 2	$52.06735
3 +	$39.44496

LT1014ACJ

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Technical Document