ETC LH2101AD/883B

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LM101A/LH2101A
General Purpose Operational Amplifier
Features
Description
•
•
•
•
•
The LM101A/LH2101A is a general purpose high performance operational amplifier fabricated monolithically on a
silicon chip by an advanced epitaxial process. The LH2101A
consists of two LM101A ICs in one 16-lead DIP. The units
may be fully compensated with the addition of a 30 pF
capacitor stabilizing the circuit for all feedback configurations including capacitive loads.
Input offset voltage 0.7 mV
Input bias current 30 nA
Input offset current 1.5 nA
Full frequency compensation 30pF
Supply voltage ±5.0V to ±20V
The device may be operated as a comparator with a differential input as high as 30V. Used as a comparator the output
can be clamped at any desired level to make it compatible
with logic circuits.
The LM101A and LH2101A operate over the full military
temperature range from -55°C to +125°C.
Rev 1.0.1
LM101A/LH2101A
PRODUCT SPECIFICATION
Pin Assignments
8-Lead Metal Can
(Top View)
8-Lead DIP
(Top View)
Comp
8
Comp/VOS Trim
-Input
7
1
+VS
6
2
8
Comp
-Input 2
7
+VS
+Input 3
6
Output
-VS 4
5
VOS Trim
Output
5
3
+Input
Comp/VOS Trim 1
VOS Trim
4
-VS
65-101A-01
16-Lead DIP
(Top View)
+VS (A) 1
16 Output (A)
15 NC
Comp (A) 2
Comp/VOS Trim (A) 3
A
-Input (A) 4
13 +Input (B)
+Input (A) 5
-VS 6
14 VOS Trim (A)
12 -Input (B)
B
11 Comp/VOS Trim (B)
10 Comp (B)
VOS Trim (B) 7
Ouput (B) 8
9 +VS (B)
65-101A-02
Absolute Maximum Ratings
Parameter
Min.
Max.
Units
Supply Voltage
±22
V
Differential Input Voltage
30
V
±15
V
1
Input Voltage
Output Short-Circuit Duration2
Indefinite
Storage Temperature Range
-65
+150
°C
Operating Temperature Range
-55
+125
°C
+300
°C
Lead Soldering Temperature (60 sec)
Notes:
1. For supply voltages less than ±15V, the absolute maximum input voltage is equal to the supply voltage.
2. Observe package thermal characteristics.
2
PRODUCT SPECIFICATION
LM101A/LH2101A
Thermal Characteristics
Parameter
8-Lead
Ceramic
DIP
8-Lead
TO-99
Metal Can
16-Lead
Ceramic
DIP
Maximum Junction Temperature
+175°C
+175°C
+175°C
Maximum PD TA <50°C
833 mW
658 mW
1042 mW
Thermal Resistance, qJC
45°C/W
50°C/W
60°C/W
Thermal Resistance, qJA
150°C/W
190°C/W
120°C/W
For TA > 50°C Derate at
8.33 mW/°C
5.26 mW/°C
8.33 mW/°C
Electrical Characteristics
C = 30pF; ±5.0V £ VS £ ±20V; -55°C £ TA £ +125°C unless otherwise specified
LM101A/LH2101 A
Parameters
Test Conditions
Mln.
Typ.
Max.
Units
Input Offset Voltage
TA = +25°C, RS £ 50 kW
0.7
2.0
mV
Input Offset Current
TA = +25°C
1.5
10
nA
Input Bias Current
TA = +25°C
30
75
nA
Input Resistance
TA = +25°C
Supply Current
TA = +25°C VS = ±20V
1.5
Large Signal Voltage Gain
TA = +25°C, VS = ±15V
VOUT = ±10V, RL ³ 2 KW
Input Offset Voltage
RS £ 50 KW
Average Input Offset Voltage Drift
RS £ 50 KW
4.0
1.8
50
160
3.0
Input Offset Current
Average Input Offset Current Drift
MW
3.0
V/mV
3.0
mV
15
mV/°C
20
nA
nA/°C
+25°C £ TA +125°C
0.01
0.1
-55°C £ TA +25°C
0.02
0.2
Input Bias Current
100
Supply Current
TA = +125°C, VS = ±20V
Large Signal Voltage Gain
VS = ±15V
VOUT = ±10V, RL ³ 2 KW
25
Output Voltage Swing
VS = ±15V,
RL = 10 KW
±12
±14
RL = 2 KW
±10
±13
1.2
mA
2.5
nA
mA
V/mV
V
Input Voltage Range
VS = ±20V
±15
Common Mode Rejection Ratio
RS £ 50 KW
80
96
dB
Power Supply Rejection Ratio
RS £ 50 KW
80
96
dB
V
3
LM101A/LH2101A
PRODUCT SPECIFICATION
Typical Performance Characteristics
120
2.5
T A = -55 C
T A = +25 C
1.0
T A = +125 C
0.5
0
±5
±10
±15
T A = -55 C
T A = +25 C
100
T A = +125 C
90
80
±5
±20
±10
±VS (V)
65-101A-04
1.5
AV (dB)
110
65-101A-03
ISY (mA)
2.0
±15
±20
±VS (V)
Figure 1. Supply Current vs. Supply Voltage
Figure 2. Voltage Gain vs. Supply Voltage
400
15
Vs =
200
T A = -55 C
65-101A-05
100
T A = -55 C
±5
±10
±15
10
TA = +125 C
5
0
±20
TA = +25 C
65-101A-06
IB (nA)
±VOUT (V)
T A = -55 C
300
0
0
5
±VS (V)
15
20
25
30
Figure 4. Current Limiting Output Voltage
vs. Output Current
400
600
VS =
500
15V
Pd (mW)
300
IB
200
Metal Can
400
300
DIP
0
-75
IOS
-50
-25
0
+25 +50 +75 +100 +125
TA (¡C)
Figure 5. Input Bias, Offset Current vs. Temperature
65-101A-08
200
100
65-101A-07
IB, IOS (nA)
10
IOUT (mA)
Figure 3. Input Bias Current vs. Supply Voltage
4
15V
100
0
+25
+45
+65
+85
+105
+125
TA (¡C)
Figure 6. Maximum Power Dissipation vs. Temperature
PRODUCT SPECIFICATION
LM101A/LH2101A
Typical Performance Characteristics (continued)
16
120
12
±VOUT (V)
60
C1 = 3 pF
40
20
65-101A-09
C1 = 30 pF
0
1
10
100
1K
10K 100K
1M
10M
10
8
C1 = 3 pF
6
4
2
0
1K
C1 = 30 pF
10K
100K
Figure 7. Open Loop Gain vs. Frequency
10
8
6
4
2
0
-2
-4
-6
-8
-10
1M
10M
F (Hz)
F (Hz)
Figure 8. Output Voltage Swing vs. Frequency
VS = 15V
TA = +25 C
Input
Output
65-101A-11
-20
VOUT (V)
AVOL (dB)
80
65-101A-10
100
V S = 15V
T A = +25 C
14
VS = 15V
T A = +25 C
0
10 20 30 40 50 60 70 80
Time (µS)
Figure 9. Follower Large Signal Pulse Response Output Voltage vs. Time
5
LM101A/LH2101A
PRODUCT SPECIFICATION
Typical Applications
R2
R1
Input
2
R EQ*
6
LM101A
3
8
1
Output
5
C1
30 pF
R5
5.1M
2
Inputs
-VS
R4
10M
3
LM101A
6
Output
8
R3
50K
D1
LM103
36
*May be zero or equal to parallel combination of R1 and R2
for minimum offset.
65-101A-13
65-101A-12
Figure 10. Inverting Amplifier with Balancing Circuit
Q1
2N3456
Output
Figure 11. Voltage Comparator for Driving
DTL or TTL ICs
+VS
R2
150K
2
-VS
Input
LM101A
3
8
1
Output
Q2
6
R1
91K Sample
C2*
0.01m F
Figure 12. Low Drift Sample and Hold
6
Inputs
3
LM101A
6
R1
60W
Q1
2N2222
8
D1
FD777
C1
30 pF
*Polycarbonate dielectric capacitor
2
65-101A-14
D2
FD777
65-101A-15
Figure 13. Voltage Comparator for Driving RTL Logic
or High Current Driver
PRODUCT SPECIFICATION
LM101A/LH2101A
Notes:
7
LM101A/LH2101A
Notes:
8
PRODUCT SPECIFICATION
PRODUCT SPECIFICATION
LM101A/LH2101A
Mechanical Dimensions
8-Lead TO-99 Metal Can
øD
Symbol
Min.
øD1
F
L1
Q
A
øb
øb1
øD
øD1
øD2
e
e1
A
L2
L
Inches
øb
BASE and
SEATING
PLANE
øb1
REFERENCE
PLANE
F
k
k1
L
L1
L2
Q
a
Max.
.165
.185
.016
.019
.016
.021
.335
.375
.305
.335
.110
.160
.200 BSC
.100 BSC
—
.040
.027
.034
.027
.045
.500
.750
—
.050
.250
—
.010
.045
45¡ BSC
Millimeters
Min.
Notes
Max.
4.19
4.70
.41
.48
.41
.53
8.51
9.52
7.75
8.51
2.79
4.06
5.08 BSC
2.54 BSC
—
1.02
.69
.86
.69
1.14
12.70
19.05
—
1.27
6.35
—
.25
1.14
45¡ BSC
1, 5
1, 5
2
1
1
1
e
Notes:
e1
øD2
1. (All leads) øb applies between L1 & L2. øb1 applies between
L2 & .500 (12.70mm) from the reference plane. Diameter is
uncontrolled in L1 & beyond .500 (12.70mm) from the
reference plane.
2. Measured from the maximum diameter of the product.
3. Leads having a maximum diameter .019 (.48mm) measured in
gauging plane, .054 (1.37mm) +.001 (.03mm) –.000 (.00mm)
below the reference plane of the product shall be within
.007 (.18mm) of their true position relative to a maximum width
tab.
4. The product may be measured by direct methods or by gauge.
a
5. All leads – increase maximum limit by .003 (.08mm) when lead
finish is applied.
k
k1
9
LM101A/LH2101A
PRODUCT SPECIFICATION
Mechanical Dimensions (continued)
8-Lead Ceramic DIP
Inches
Symbol
Min.
A
b1
b2
c1
D
E
e
eA
L
Q
s1
a
Millimeters
Max.
Min.
—
.200
.014
.023
.045
.065
.008
.015
—
.405
.220
.310
.100 BSC
.300 BSC
.125
.200
.015
.060
.005
—
90¡
105¡
Notes:
Notes
Max.
—
5.08
.36
.58
1.14
1.65
.20
.38
—
10.29
5.59
7.87
2.54 BSC
7.62 BSC
3.18
5.08
.38
1.52
.13
—
90¡
105¡
1. Index area: a notch or a pin one identification mark shall be located
adjacent to pin one. The manufacturer's identification shall not be
used as pin one identification mark.
8
2, 8
2. The minimum limit for dimension "b2" may be .023 (.58mm) for leads
number 1, 4, 5 and 8 only.
8
4
4
5, 9
7
3. Dimension "Q" shall be measured from the seating plane to the base
plane.
3
6
4. This dimension allows for off-center lid, meniscus and glass overrun.
5. The basic pin spacing is .100 (2.54mm) between centerlines. Each
pin centerline shall be located within ±.010 (.25mm) of its exact
longitudinal position relative to pins 1 and 8.
6. Applies to all four corners (leads number 1, 4, 5, and 8).
7. "eA" shall be measured at the center of the lead bends or at the
centerline of the leads when "a" is 90¡.
8. All leads – Increase maximum limit by .003 (.08mm) measured at the
center of the flat, when lead finish applied.
9. Six spaces.
D
4
1
Note 1
E
5
8
s1
eA
e
A
Q
a
L
b2
b1
10
c1
PRODUCT SPECIFICATION
LM101A/LH2101A
Mechanical Dimensions (continued)
16-Lead Ceramic DIP
Inches
Symbol
Min.
A
b1
b2
c1
D
E
e
eA
L
Q
s1
a
Notes:
Millimeters
Max.
Min.
—
.200
.014
.023
.050
.065
.008
.015
.745
.840
.220
.310
.100 BSC
.300 BSC
.115
.160
.015
.060
.005
—
90¡
105¡
Notes
Max.
—
5.08
.36
.58
1.27
1.65
.20
.38
18.92
21.33
5.59
7.87
2.54 BSC
7.62 BSC
2.92
4.06
.38
1.52
.13
—
90¡
105¡
1. Index area: a notch or a pin one identification mark shall be located
adjacent to pin one. The manufacturer's identification shall not be
used as pin one identification mark.
8
2
2. The minimum limit for dimension "b2" may be .023 (.58mm) for leads
number 1, 8, 9 and 16 only.
8
4
3. Dimension "Q" shall be measured from the seating plane to the base
plane.
4
5, 9
7
4. This dimension allows for off-center lid, meniscus and glass overrun.
3
6
5. The basic pin spacing is .100 (2.54mm) between centerlines. Each
pin centerline shall be located within ±.010 (.25mm) of its exact
longitudinal position relative to pins 1 and 16.
6. Applies to all four corners (leads number 1, 8, 9, and 16).
7. "eA" shall be measured at the center of the lead bends or at the
centerline of the leads when "a" is 90¡.
8. All leads – Increase maximum limit by .003 (.08mm) measured at the
center of the flat, when lead finish applied.
9. Fourteen spaces.
D
8
1
9
16
NOTE 1
E
s1
eA
e
A
Q
L
a
c1
b1
11
PRODUCT SPECIFICATION
LM101A/LH2101A
Ordering Information
Package
Operating
Temperature
Range
LM101AD
8-Lead Ceramic DIP
-55°C to +125°C
LM101AD/883B
8-Lead Ceramic DIP
-55°C to +125°C
LM101AT
8-Lead Metal Can
-55°C to +125°C
LM101AT/883B
8-Lead Metal Can
-55°C to +125°C
LH2101AD
16-Lead Ceramic DIP
-55°C to +1 25°C
LH2101AD/883B
16-Lead Ceramic DIP
-55°C to +125°C
Part Number
Notes:
1. /883B suffix denotes Mil-Std-883. Level B processing.
2. Contact a Fairchild Semiconductor sales office or representative for ordering information on special package/ temperature
range combinations.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES
OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR
CORPORATION. As used herein:
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the body,
or (b) support or sustain life, and (c) whose failure to
perform when properly used in accordance with
instructions for use provided in the labeling, can be
reasonably expected to result in a significant injury of the
user.
2. A critical component in any component of a life support
device or system whose failure to perform can be
reasonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
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