LM10CLH/NOPB datasheet, PDF - EEWORLD Datasheet

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LM10CLH/NOPB: DescriptionOP-AMP, 5000uV OFFSET-MAX, MBCY8, METAL CAN-8; CategoryAnalog mixed-signal IC Amplifier circuit; File Size1MB，26 Pages; ManufacturerRochester Electronics; Websitehttps://www.rocelec.com/; Environmental Compliance

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LM10CLH/NOPB Overview

OP-AMP, 5000uV OFFSET-MAX, MBCY8, METAL CAN-8

LM10CLH/NOPB Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	conform to
Maker	Rochester Electronics
Parts packaging code	BCY
package instruction	METAL CAN-8
Contacts	8
Reach Compliance Code	unknown
Amplifier type	OPERATIONAL AMPLIFIER
Maximum average bias current (IIB)	0.04 µA
Nominal Common Mode Rejection Ratio	102 dB
Maximum input offset voltage	5000 µV
JESD-30 code	O-MBCY-W8
Humidity sensitivity level	1
Negative supply voltage upper limit	-3.5 V
Nominal Negative Supply Voltage (Vsup)	-3.25 V
Number of functions	1
Number of terminals	8
Maximum operating temperature	70 °C
Minimum operating temperature
Package body material	METAL
Package shape	ROUND
Package form	CYLINDRICAL
Peak Reflow Temperature (Celsius)	260
Nominal slew rate	0.2 V/us
Supply voltage upper limit	3.5 V
Nominal supply voltage (Vsup)	3.25 V
surface mount	NO
technology	BIPOLAR
Temperature level	COMMERCIAL
Terminal surface	NOT SPECIFIED
Terminal form	WIRE
Terminal location	BOTTOM
Maximum time at peak reflow temperature	NOT SPECIFIED

LM10CLH/NOPB Preview

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LM10 Operational Amplifier and Voltage Reference

August 2000

LM10

Operational Amplifier and Voltage Reference

General Description

The LM10 series are monolithic linear ICs consisting of a

precision reference, an adjustable reference buffer and an

independent, high quality op amp.

The unit can operate from a total supply voltage as low as

1.1V or as high as 40V, drawing only 270µA. A complemen-

tary output stage swings within 15 mV of the supply termi-

nals or will deliver

±

20 mA output current with

±

0.4V satu-

ration. Reference output can be as low as 200 mV.

The circuit is recommended for portable equipment and is

completely specified for operation from a single power cell.

In contrast, high output-drive capability, both voltage and

current, along with thermal overload protection, suggest it in

demanding general-purpose applications.

The device is capable of operating in a floating mode, inde-

pendent of fixed supplies. It can function as a remote com-

parator, signal conditioner, SCR controller or transmitter for

analog signals, delivering the processed signal on the same

line used to supply power. It is also suited for operation in a

wide range of voltage- and current-regulator applications,

from low voltages to several hundred volts, providing greater

precision than existing ICs.

This series is available in the three standard temperature

ranges, with the commercial part having relaxed limits. In

addition, a low-voltage specification (suffix “L”) is available in

the limited temperature ranges at a cost savings.

Features

n

input offset voltage: 2.0 mV (max)

input offset current: 0.7 nA (max)

input bias current: 20 nA (max)

reference regulation: 0.1% (max)

offset voltage drift: 2µV/˚C

reference drift: 0.002%/˚C

Connection and Functional Diagrams

Metal Can Package (H)

Dual-In-Line Package (N)

00565201

Order Number LM10BH, LM10CH,

LM10CLH or LM10H/883

available per SMA# 5962-8760401

See NS Package Number H08A

Small Outline Package (WM)

00565215

Order Number LM10CN or LM10CLN

See NS Package Number N08E

00565216

00565217

Order Number LM10CWM or LM10CWMX

See NS Package Number M14B

DS005652

www.national.com

LM10

Absolute Maximum Ratings

8)

(Notes 1,

See AN-450 “Surface Mounting Methods and Their Effect on

Product Reliability” for other methods of soldering surface

mount devices.

ESD rating is to be determined.

Maximum Junction Temperature

LM10

LM10B

LM10C

150˚C

100˚C

85˚C

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

LM10/LM10B/LM10BL/

LM10C

Total Supply Voltage

Differential Input Voltage (Note 2)

Power Dissipation (Note 3)

Output Short-circuit Duration (Note

4)

Storage-Temp. Range

Lead Temp. (Soldering, 10 seconds)

Metal Can

Lead Temp. (Soldering, 10

seconds) DIP

Vapor Phase (60 seconds)

Infrared (15 seconds)

300˚C

260˚C

215˚C

220˚C

45V

LM10CL

7V

±

40V

±

7V

internally limited

continuous

−55˚C to +150˚C

Operating Ratings

Package Thermal Resistance

θ

JA

H Package

N Package

WM Package

θ

JC

H Package

45˚C/W

150˚C/W

87˚C/W

90˚C/W

Electrical Characteristics

T

J

=25˚C,

T

MIN

≤T

J

≤T

MAX

(Boldface type refers to limits over temperature range)

(Note 5)

Parameter

Input offset voltage

Input offset current

(Note 6)

Input bias current

Input resistance

Large signal voltage

gain

V

S

=

±

20V, I

OUT

=0

V

OUT

=

±

19.95V

V

S

=

±

20V, V

OUT

=

±

19.4V

I

OUT

=

±

20 mA

(

±

15 mA)

V

S

=

±

0.6V

(0.65V),

I

OUT

=

±

2 mA

V

OUT

=

±

0.4V

(

±

0.3V), V

CM

=−0.4V

Shunt gain (Note 7)

1.2V

(1.3V)

≤V

OUT

≤40V,

R

L

=1.1 kΩ

0.1 mA≤I

OUT

≤5

mA

1.5V≤V

+

≤40V,

R

L

=250Ω

0.1 mA≤I

OUT

≤20

mA

Common-mode

rejection

Supply-voltage

rejection

−20V≤V

CM

≤19.15V

(19V)

V

S

=

±

20V

−0.2V≥V

≥−39V

−

Conditions

Min

LM10/LM10B

Typ

0.3

0.25

10

250

150

120

80

50

20

1.5

0.5

14

6

8

4

93

87

90

84

96

90

2.0

106

96

102

25

33

3.0

130

400

500

Max

2.0

3.0

0.7

1.5

20

30

150

115

80

50

25

15

1.0

0.75

10

6

4

90

87

84

93

90

Min

LM10C

Typ

0.5

0.4

12

400

130

3.0

33

Max

4.0

5.0

2.0

3.0

30

40

Units

mV

nA

kΩ

V/mV

25

102

96

106

5.0

90

V/mV

dB

µV/˚C

pA/˚C

V

+

=1.0V

(1.1V)

1.0V

(1.1V)

≤V ≤39.8V

+

V

−

=−0.2V

Offset voltage drift

Offset current drift

Bias current drift

T

C

<

100˚C

60

www.national.com

2

LM10

Electrical Characteristics

T

J

=25˚C,

T

MIN

≤T

J

≤T

MAX

Parameter

Line regulation

Load regulation

Amplifier gain

Feedback sense

voltage

Feedback current

Reference drift

Supply current

change

(Continued)

(Boldface type refers to limits over temperature range)

(Note 5)

Conditions

Min

LM10/LM10B

Typ

0.001

0.01

50

23

195

194

20

0.002

270

400

500

75

200

205

206

50

65

0.003

300

15

500

570

75

Max

0.003

0.006

0.1

0.15

25

15

190

189

22

200

210

211

75

90

70

0.01

Min

LM10C

Typ

0.001

Max

0.008

0.01

0.15

0.2

%/V

%

V/mV

mV

nA

%/˚C

µA

Units

1.2V

(1.3V)

≤V

S

≤40V

0≤I

REF

≤1.0

mA, V

REF

=200 mV

0≤I

REF

≤1.0

mA

V −V

REF

≥1.0V

(1.1V)

+

0.2V≤V

REF

≤35V

1.2V

(1.3V)

≤V

S

≤40V

15

Electrical Characteristics

T

J

=25˚C,

T

MIN

≤T

J

≤T

MAX

(Boldface type refers to limits over temperature range)

(Note 5)

Parameter

Input offset voltage

Input offset current

(Note 6)

Input bias current

Input resistance

Large signal voltage

gain

V

S

=

±

3.25V, I

OUT

=0

V

OUT

=

±

3.2V

V

S

=

±

3.25V, I

OUT

=10 mA

V

OUT

=

±

2.75 V

V

S

=

±

0.6V

(0.65V),

I

OUT

=

±

2 mA

V

OUT

=

±

0.4V

(

±

0.3V),

V

CM

=−0.4V

Shunt gain (Note 7)

Common-mode

rejection

Supply-voltage

rejection

1.5V≤V

+

≤6.5V,

R

L

=500Ω

0.1 mA≤I

OUT

≤10

mA

−3.25V≤V

CM

≤2.4V

(2.25V)

V

S

=

±

3.25V

−0.2V≥V

≥−5.4V

−

Conditions

Min

LM10BL

Typ

0.3

0.1

10

250

150

60

40

10

4

1.5

0.5

8

4

89

83

86

80

94

88

2.0

60

106

96

102

30

3.0

25

300

500

Max

2.0

3.0

0.7

1.5

20

30

150

115

40

25

5

3

1.0

0.75

6

4

80

74

80

74

80

74

Min

LM10CL

Typ

0.5

0.2

12

400

300

25

3.0

30

102

96

106

5.0

90

0.01

0.02

0.001

0.02

0.03

Max

4.0

5.0

2.0

3.0

30

40

Units

mV

nA

kΩ

V/mV

dB

µV/˚C

pA/˚C

%/V

V

+

=1.0V

(1.2V)

1.0V

(1.1V)

≤V ≤6.3V

+

V

−

=0.2V

Offset voltage drift

Offset current drift

Bias current drift

Line regulation

1.2V

(1.3V)

≤V

S

≤6.5V

0≤I

REF

≤0.5

mA, V

REF

=200 mV

0.001

3

www.national.com

LM10

Electrical Characteristics

T

J

=25˚C,

T

MIN

≤T

J

≤T

MAX

Parameter

Load regulation

Amplifier gain

Feedback sense voltage

Feedback current

Reference drift

Supply current

(Continued)

(Boldface type refers to limits over temperature range)

(Note 5)

Conditions

Min

0≤I

REF

≤0.5

mA

V −V

REF

≥1.0V

(1.1V)

+

LM10BL

Typ

0.01

30

20

195

194

20

0.002

260

400

500

200

205

206

50

65

70

Max

0.1

0.15

20

15

190

189

Min

LM10CL

Typ

0.01

70

200

22

0.003

280

500

570

210

211

75

90

Max

0.15

0.2

Units

%

V/mV

mV

nA

%/˚C

µA

0.2V≤V

REF

≤5.5V

Note 1:

Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is

functional, but do not guarantee specific performance limits.

Note 2:

The Input voltage can exceed the supply voltages provided that the voltage from the input to any other terminal does not exceed the maximum differential

input voltage and excess dissipation is accounted for when V

IN

<

V

−

.

Note 3:

The maximum, operating-junction temperature is 150˚C for the LM10, 100˚C for the LM10B(L) and 85˚C for the LM10C(L). At elevated temperatures,

devices must be derated based on package thermal resistance.

Note 4:

Internal thermal limiting prevents excessive heating that could result in sudden failure, but the IC can be subjected to accelerated stress with a shorted

output and worst-case conditions.

Note 5:

These specifications apply for V

−

≤V

CM

≤V

+

−0.85V

(1.0V),

1.2V

(1.3V)

<

V

S

≤V

MAX

, V

REF

=0.2V and 0≤I

REF

≤1.0

mA, unless otherwise specified: V

MAX

=40V

for the standard part and 6.5V for the low voltage part. Normal typeface indicates 25˚C limits.

Boldface type indicates limits and altered test conditions for

full-temperature-range operation;

this is −55˚C to 125˚C for the LM10, −25˚C to 85˚C for the LM10B(L) and 0˚C to 70˚C for the LM10C(L). The specifications do

not include the effects of thermal gradients (τ

1

.20

ms), die heating (τ

2

.0.2s)

or package heating. Gradient effects are small and tend to offset the electrical error

(see curves).

Note 6:

For T

J

>

90˚C, I

OS

may exceed 1.5 nA for V

CM

=V

−

. With T

J

=125˚C and V

−

≤V

CM

≤V

−

+0.1V, I

OS

≤5

nA.

Note 7:

This defines operation in floating applications such as the bootstrapped regulator or two-wire transmitter. Output is connected to the V

+

terminal of the IC

and input common mode is referred to V

−

(see typical applications). Effect of larger output-voltage swings with higher load resistance can be accounted for by adding

the positive-supply rejection error.

Note 8:

Refer to RETS10X for LM10H military specifications.

Definition of Terms

Input offset voltage:

That voltage which must be applied between the input terminals to bias the unloaded output in the linear

region.

Input offset current:

The difference in the currents at the input terminals when the unloaded output is in the linear region.

Input bias current:

The absolute value of the average of the two input currents.

Input resistance:

The ratio of the change in input voltage to the change in input current on either input with the other grounded.

Large signal voltage gain:

The ratio of the specified output voltage swing to the change in differential input voltage required to

produce it.

Shunt gain:

The ratio of the specified output voltage swing to the change in differential input voltage required to produce it with

the output tied to the V

+

terminal of the IC. The load and power source are connected between the V

+

and V

−

terminals, and input

common-mode is referred to the V

−

terminal.

Common-mode rejection:

The ratio of the input voltage range to the change in offset voltage between the extremes.

Supply-voltage rejection:

The ratio of the specified supply-voltage change to the change in offset voltage between the

extremes.

Line regulation:

The average change in reference output voltage over the specified supply voltage range.

Load regulation:

The change in reference output voltage from no load to that load specified.

Feedback sense voltage:

The voltage, referred to V

−

, on the reference feedback terminal while operating in regulation.

Reference amplifier gain:

The ratio of the specified reference output change to the change in feedback sense voltage required

to produce it.

Feedback current:

The absolute value of the current at the feedback terminal when operating in regulation.

Supply current:

The current required from the power source to operate the amplifier and reference with their outputs unloaded

and operating in the linear range.

www.national.com

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LM10CLH/NOPB Related Products

	LM10CLH/NOPB	LM10BH/NOPB
Description	OP-AMP, 5000uV OFFSET-MAX, MBCY8, METAL CAN-8	OP-AMP, 3000uV OFFSET-MAX, MBCY8, METAL CAN-8
Is it lead-free?	Lead free	Contains lead
Is it Rohs certified?	conform to	conform to
Maker	Rochester Electronics	Rochester Electronics
Parts packaging code	BCY	BCY
package instruction	METAL CAN-8	METAL CAN-8
Contacts	8	8
Reach Compliance Code	unknown	unknown
Amplifier type	OPERATIONAL AMPLIFIER	OPERATIONAL AMPLIFIER
Maximum average bias current (IIB)	0.04 µA	0.03 µA
Nominal Common Mode Rejection Ratio	102 dB	102 dB
Maximum input offset voltage	5000 µV	3000 µV
JESD-30 code	O-MBCY-W8	O-MBCY-W8
Humidity sensitivity level	1	1
Negative supply voltage upper limit	-3.5 V	-22.5 V
Nominal Negative Supply Voltage (Vsup)	-3.25 V	-20 V
Number of functions	1	1
Number of terminals	8	8
Maximum operating temperature	70 °C	85 °C
Package body material	METAL	METAL
Package shape	ROUND	ROUND
Package form	CYLINDRICAL	CYLINDRICAL
Peak Reflow Temperature (Celsius)	260	260
Nominal slew rate	0.2 V/us	0.2 V/us
Supply voltage upper limit	3.5 V	22.5 V
Nominal supply voltage (Vsup)	3.25 V	20 V
surface mount	NO	NO
technology	BIPOLAR	BIPOLAR
Temperature level	COMMERCIAL	OTHER
Terminal surface	NOT SPECIFIED	TIN SILVER COPPER
Terminal form	WIRE	WIRE
Terminal location	BOTTOM	BOTTOM
Maximum time at peak reflow temperature	NOT SPECIFIED	40

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