NSC LH0022

LH0042
Low Cost FET Op Amp
General Description
The LH0042 is a FET input operational amplifier with very
high input impedance and low input currents with no compromise in noise, common mode rejection ratio, open loop
gain, or slew rate. The LH0042 is internally compensated
and is free of latch-up.
The LH0042 is specified for operation over the b55§ C to
a 125§ C military temperature range. The LH0042C is specified for operation over the b25§ C to a 85§ C temperature
range.
The LH0042 op amp is intended to fulfill a wide variety of
applications for process control, medical instrumentation,
and other systems requiring very low input currents. The
LH0042 provides low cost high performance for such applications as electrometer and photocell amplification, picoammeters, and high input impedance buffers.
Features
Y
Y
Y
High open loop gainÐ100 dB typ
Internal compensation
Pin compatible with standard IC op amps
(TO-99 package)
Connection Diagram
Metal Can Package
TL/K/5557 – 3
Top View
Order Number LH0042H-MIL, LH0042H or LH0042CH
See NS Package Number H08D
C1995 National Semiconductor Corporation
TL/K/5557
RRD-B30M115/Printed in U. S. A.
LH0042 Low Cost FET Op Amp
February 1995
Absolute Maximum Ratings
Short Circuit Duration
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Supply Voltage
g 22V
Power Dissipation (see Graph)
Input Voltage (Note 1)
Differential Input Voltage (Note 2)
Voltage Between Offset Null and Vb
Continuous
Operating Temperature Range
LH0022, LH0042, LH0052
LH0022C, LH0042C, LH0052C
500 mW
g 15V
g 30V
g 0.5V
b 55§ C to a 125§ C
b 25§ C to a 85§ C
Storage Temperature Range
Lead Temperature (Soldering, 10 sec.)
b 65§ C to a 150§ C
300§ C
DC Electrical Characteristics for LH0022/LH0022C (Note 3) TA e TJ(Max)
Limits
Parameter
Conditions
LH0022
Min
Input Offset Voltage
RS s 100 kX, TA e 25§ C
VS e g 15V
Typ
Max
2.0
4.0
RS s 100 kX, VS e g 15V
Temperature Coefficient of
Input Offset Voltage
10
TA e 25§ C (Note 4)
0.2
Units
Typ
Max
3.5
6.0
mV
7.0
mV
15
3
Temperature Coefficient of
Input Offset Current
mV/§ C
4
pA
2.0
0.5
nA
Doubles Every 10§ C
Doubles Every 10§ C
0.1
0.1
TA e 25§ C (Note 4)
5
2.0
1.0
mV/week
5.0
Offset Current Drift with Time
Input Bias Current
Min
5.0
RS s 100 kX
Offset Voltage Drift with Time
Input Offset Current
LH0022C
pA
10
2.5
nA
Doubles Every 10§ C
Doubles Every 10§ C
Differential Input Resistance
1012
1012
Common Mode Input Resistance
1012
1012
X
4.0
4.0
pF
Input Capacitance
10
pA/week
25
Temperature Coefficient of
Input Bias Current
10
X
Input Voltage Range
VS e g 15V
g 12
g 13.5
g 12
g 13.5
V
Common Mode Rejection Ratio
RS s 10 kX, VIN e g 10V
74
90
70
90
dB
Supply Voltage Rejection Ratio
RS s 10 kX, g 5V s VS s g 15V
74
90
70
90
dB
Large Signal Voltage Gain
RL e 2 kX, VOUT e g 10V
TA e 25§ C, VS e g 15V
75
100
75
100
V/mV
RL e 2 kX, VOUT e g 10V
VS e g 15V
30
Output Voltage Swing
Output Current Swing
RL e 1 kX, TA e 25§ C
VS e g 15V
g 10
RL e 2 kX, VS e g 15V
g 10
VOUT e g 10V, TA e 25§ C
g 10
30
g 12.5
g 10
V/mV
g 12
V
g 15
mA
g 10
g 15
g 10
V
Output Resistance
75
75
X
Output Short Circuit Current
25
25
mA
Supply Current
VS e g 15V
Power Consumption
VS e g 15V
2.0
2.5
75
2
2.4
2.8
mA
85
mW
DC Electrical Characteristics for LH0042/LH0042C (Note 3)
Limits
Parameter
Conditions
LH0042
Min
LH0042C
Typ
Max
20
Min
Units
Typ
Max
6.0
20
Input Offset Voltage
RS s 100 kX
5.0
Temperature Coefficient of
Input Offset Voltage
RS s 100 kX
10
Input Offset Current
TA e 25§ C (Note 4)
1.0
5.0
2.0
10
pA
Input Bias Current
TA e 25§ C (Note 4)
10
25
15
50
pA
Offset Voltage Drift with Time
15
7.0
Temperature Coefficient of
Input Bias Current
mV/§ C
10
Doubles Every 10§ C
mV
mV/week
Doubles Every 10§ C
Differential Input Resistance
1012
1012
Common Mode Input Resistance
1012
1012
X
4.0
4.0
pF
g 13.5
V
Input Capacitance
Input Voltage Range
g 12
g 13.5
g 12
X
Common Mode Rejection Ratio
RS s 10 kX, VIN e g 10V
70
86
70
80
dB
Supply Voltage Rejection Ratio
RS s 10 kX, g 5V s VS s g 15V
70
86
70
86
dB
Large Signal Voltage Gain
RS s 2 kX, VOUT e g 10V,
TA e 25§ C
50
100
25
100
V/mV
g 12.5
g 10
RS s 2 kX, VOUT e g 10V
Output Voltage Swing
Output Current Swing
30
RL e 1 kX, TA e 25§ C
g 10
RL e 2 kX
g 10
VOUT e g 10V
g 10
25
V/mV
g 12
V
g 15
mA
g 10
g 15
g 10
V
Output Resistance
75
75
X
Output Short Circuit Current
20
20
mA
Supply Current
VS e g 15V
Power Consumption
VS e g 15V
2.5
3.5
105
3
2.8
4.0
mA
120
mW
DC Electrical Characteristics for LH0052/LH0052C (Note 3) (Continued)
Limits
Parameter
Conditions
LH0052
Min
Input Bias Current
TA e 25§ C (Note 4)
Typ
LH0052C
Max
0.5
Min
2.5
Max
1.0
5.0
pA
0.5
nA
2.5
Temperature Coefficient of
Input Bias Current
Doubles Every 10§ C
Units
Typ
Doubles Every 10§ C
Differential Input Resistance
1012
1012
Common Mode Input Resistance
1012
1012
X
4.0
4.0
pF
Input Capacitance
X
Input Voltage Range
VS e g 15V
g 12
g 13.5
g 12
g 13.5
V
Common Mode Rejection Ratio
RS s 10 kX, VIN e g 10V
74
90
70
90
dB
Supply Voltage Rejection Ratio
RS s 10 kX, g 5V s VS s g 15V
74
90
70
90
dB
Large Signal Voltage Gain
RL e 2 kX, VOUT e g 10V
VS e g 15V, TA e 25§ C
75
100
75
100
V/mV
RL e 2 kX, VOUT e g 10V
VS e g 15V
30
Output Voltage Swing
Output Current Swing
RL e 1 kX, TA e 25§ C
VS e g 15V
g 10
RL e 2 kX, VS e g 15V
g 10
VOUT e g 10V, TA e 25§ C
g 10
30
g 12.5
g 10
V/mV
g 12
V
g 15
mA
g 10
g 15
g 10
V
Output Resistance
75
75
X
Output Short Circuit Current
25
25
mA
Supply Current
VS e g 15V
Power Consumption
VS e g 15V
3.0
3.5
3.0
105
3.8
mA
114
mW
AC Electrical Characteristics for all amplifiers (TA e 25§ C, VS e g 15V)
Limits
Parameter
Conditions
Slew Rate
Voltage Follower
Large Signal Bandwidth
Voltage Follower
LH0022/42/52
Min
Typ
1.5
3.0
LH0022C/42C/52C
Max
Min
Typ
1.0
3.0
Units
Max
V/ms
40
40
kHz
Small Signal Bandwidth
1.0
1.0
MHz
Rise Time
0.3
1.5
10
30
Overshoot
Settling Time (0.1%)
Overload Recovery
DVIN e 10V
0.3
1.5
15
40
ms
%
4.5
4.5
ms
4.0
4.0
ms
4
AC Electrical Characteristics for all amplifiers (TA e 25§ C, VS e g 15V) (Continued)
Limits
Parameter
Conditions
LH0042
Min
Input Noise Voltage
Typ
LH0042C
Max
Min
Typ
Units
Max
RS e 10 kX, fo e 10 Hz
150
150
nV/ SHz
RS e 10 kX, fo e 100 Hz
55
55
nV/ SHz
RS e 10 kX, fo e 1 kHz
35
35
nV/ SHz
RS e 10 kX, fo e 10 kHz
30
30
nV/ SHz
BW e 10 Hz to 10kHz, RS e 10 kX
12
12
mVrms
Note 1: For supply voltages less than g 15V, the absolute maximum input voltage is equal to the supply voltage.
Note 2: Rating applies for minimum source resistance of 10 kX, for source resistances less than 10 kX, maximum differential input voltage is g 5V.
Note 3: Unless otherwise specified, these specifications apply for g 5V s VS s g 20V and b 55§ C s TA s a 125§ C for the LH0042 and b 25§ C s TA s a 85§ C
for the LH0042C. Typical values are given for TA e 25§ C.
Note 4: Input currents are a strong function of temperature. Due to high speed testing they are specified at a junction temperature Tj e 25§ C. Self heating will
cause an increase in current in manual tests. 25§ C spec is guaranteed by testing at 125§ C.
Note 5: See RETS0042X for the LH0042H military specifications.
Auxiliary Circuits (Shown for TO-99 pin out)
Offset Null
Protecting Inputs from g 150V Transients
Note: All diodes are ultra low leakage.
TL/K/5557 – 5
TL/K/5557 – 6
Boosting Output Drive to g 100 mA
TL/K/5557 – 7
5
TL/K/5557 – 1
Schematic Diagram
6
Typical Applications
Precision Voltage Comparator
TL/K/5557 – 9
Subtractor for Automatic Test Gear
TL/K/5557 – 11
eOUT e 10 c (eIN1 b eIN2)
Sensitive Low Cost ‘‘VTVM’’
TL/K/5777 – 12
7
Typical Applications (Continued)
Ultra Low Level Current Source
TL/K/5777 – 13
Sample and Hold
*Polystyrene dielectric.
TL/K/5557 – 16
Re-Zeroing Amplifier
C1Ð0.01 mF polystyrene.
8
TL/K/5557 – 17
Typical Performance Characteristics
Maximum Power Dissipation
Input Offset Current
vs Temperature
Input Bias Current vs
Temperature
Input Offset Voltage
vs Temperature
Offset Error
(without VOS Null)
Total Input Noise Voltage*
vs Source Resistance
Total Input Noise Voltage*
vs Frequency
Common Mode Input Voltage
vs Supply Voltage
Stabilization Time of
Input Offset Voltage from
Power Turn-On
Change in Input Offset
Voltage Due to Thermal
Shock vs Time
TL/K/5557 – 18
*Noise voltage includes contribution from source resistance.
9
Typical Performance Characteristics (Continued)
Supply Voltage vs
Supply Current
Voltage Gain
Output Swing vs
Supply Voltage
Output Voltage Swing
vs Load Resistance
Current Limiting
Output Voltage Swing vs
Frequency
Voltage Follower Large
Signal Response
Transient Response
Frequency Characteristics vs
Ambient Temperature
Frequency Characteristics vs
Supply Voltage
Output Resistance vs
Frequency
Open Loop Transfer
Characteristics vs Frequency
TL/K/5557 – 19
10
11
LH0042 Low Cost FET Op Amp
Physical Dimensions inches (millimeters)
Metal Can Package (H)
Order Number H0042H-MIL, LH0042H or LH0042CH
NS Package Number H08D
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