TL H 7783
LM143LM343
High
Voltage
Operational
Amplifier
February 1995
LM143 LM343 High Voltage
Operational Amplifier
General Description
The LM143 is a general purpose high voltage operational
amplifier featuring operation to
g
40V complete input over-
voltage protection up to
g
40V and input currents compara-
ble to those of other super-b op amps Increased slew rate
together with higher common-mode and supply rejection
insure improved performance at high supply voltages Oper-
ating characteristics in particular supply current slew rate
and gain are virtually independent of supply voltage and
temperature Furthermore gain is unaffected by output
loading at high supply voltages due to thermal symmetry on
the die The LM143 is pin compatible with general purpose
op amps and has offset null capability
Application areas include those of general purpose op
amps but can be extended to higher voltages and higher
output power when externally boosted For example when
used in audio power applications the LM143 provides a
power bandwidth that covers the entire audio spectrum In
addition the LM143 can be reliably operated in environ-
ments with large overvoltage spikes on the power supplies
where other internally-compensated op amps would suffer
catastrophic failure
The LM343 is similar to the LM143 for applications in less
severe supply voltage and temperature environments
Features
Y
Wide supply voltage range
g
4 0V to
g
40V
Y
Large output voltage swing
g
37V
Y
Wide input common-mode range
g
38V
Y
Input overvoltage protection
Full
g
40V
Y
Supply current is virtually independent of supply voltage
and temperature
Unique Characteristics
Y
Low input bias current
8 0 nA
Y
Low input offset current
1 0 nA
Y
High slew rate
essentially independent of temperature
and supply voltage
2 5V ms
Y
High voltage gain
virtually independent of resistive
loading temperature and supply voltage
100k min
Y
Internally compensated for unity gain
Y
Output short circuit protection
Y
Pin compatible with general purpose op amps
Connection Diagram
Metal Can Package
Top View
TL H 7783 1
Order Number LM143H LM143H 883 or LM343H
See NS Package Number H08C
Available per SMD
7800303
C1995 National Semiconductor Corporation
RRD-B30M115 Printed in U S A
Absolute Maximum Ratings
(Note 1)
If Military Aerospace specified devices are required please contact the National Semiconductor Sales Office
Distributors for availability and specifications
(Note 4)
LM143
LM343
Supply Voltage
g
40V
g
34V
Power Dissipation (Note 1)
680 mW
680 mW
Differential Input Voltage (Note 2)
80V
68V
Input Voltage (Note 2)
g
40V
g
34V
Operating Temperature Range
b
55 C to
a
125 C
0 C to
a
70 C
Storage Temperature Range
b
65 C to
a
150 C
b
65 C to
a
150 C
Output Short Circuit Duration
5 seconds
5 seconds
Lead Temperature (Soldering 10 sec )
300 C
300 C
ESD rating to be determined
Electrical Characteristics
(Note 3)
Parameter
Conditions
LM143
LM343
Units
Min
Typ
Max
Min
Typ
Max
Input Offset Voltage
T
A
e
25 C
2 0
5 0
2 0
8 0
mV
Input Offset Current
T
A
e
25 C
1 0
3 0
1 0
10
nA
Input Bias Current
T
A
e
25 C
8 0
20
8 0
40
nA
Supply Voltage
T
A
e
25 C
10
100
10
200
m
V V
Rejection Ratio
Output Voltage Swing
T
A
e
25 C R
L
t
5 kX
22
25
20
25
V
Large Signal Voltage
T
A
e
25 C V
OUT
e
g
10V
100k
180k
70k
180k
V V
Gain
R
L
t
100 kX
Common-Mode
T
A
e
25 C
80
90
70
90
dB
Rejection Ratio
Input Voltage Range
T
A
e
25 C
g
24
g
26
g
22
g
26
V
Supply Current (Note 5)
T
A
e
25 C
2 0
4 0
2 0
5 0
mA
Short Circuit Current
T
A
e
25 C
20
20
mA
Slew Rate
T
A
e
25 C A
V
e
1
2 5
2 5
V ms
Power Bandwidth
T
A
e
25 C V
OUT
e
40 V
p-p
20k
20k
Hz
R
L
e
5 kX THD
s
1%
Unity Gain Frequency
T
A
e
25 C
1 0M
1 0M
Hz
Input Offset Voltage
T
A
e
Max
6 0
10
mV
T
A
e
Min
6 0
10
Input Offset Current
T
A
e
Max
0 8
4 5
0 8
14
nA
T
A
e
Min
1 8
7 0
1 8
14
Input Bias Current
T
A
e
Max
5 0
35
5 0
55
nA
T
A
e
Min
16
35
16
55
Large Signal Voltage
R
L
t
100 kX T
A
e
Max
50k
150k
50k
150k
V V
Gain
R
L
t
100 kX T
A
e
Min
50k
220k
50k
220k
Output Voltage Swing
R
L
t
5 0 kX T
A
e
Max
22
26
20
26
V
R
L
t
5 0 kX T
A
e
Min
22
25
20
25
Note 1
Absolute maximum ratings are not necessarily concurrent and care must be taken not to exceed the maximum junction temperature of the LM143 (150 C)
or the LM343 (100 C) For operating at elevated temperatures devices in the H08 package must be derated based on a thermal resistance of 155 C W junction to
ambient or 20 C W junction to case
Note 2
For supply voltage less than
g
40V for the LM143 and less than
g
34V for the LM343 the absolute maximum input voltage is equal to the supply voltage
Note 3
These specifications apply for V
S
e g
28V For LM143 T
A
e
max
e
125 C and T
A
e
min
e b
55 C For LM343 T
A
e
max
e
70 C and T
A
e
min
e
0 C
Note 4
Refer to RETS143X for LM143H and LM1536H military specifications
Note 5
The maximum supply currents are guaranteed at V
S
e g
40V for the LM143 and V
S
e g
34V for the LM343
2
Schematic Diagram
TLH7783
2
3
Typical Performance Characteristics
Voltage Follower Slew Rate
Supply Current
Short Circuit Current
Unity Gain Bandwidth
Input Noise Voltage
Input Noise Current
Common-Mode Rejection
Power Supply Rejection
Response
Large Signal Frequency
Response
Open Loop Frequency
Response
Voltage Follower Pulse
Inverter Pulse Response
TL H 7783 4
4
Typical Performance Characteristics
(Continued)
Input Voltage Range
Output Voltage Swing
Voltage Gain
Supply Current
Input Current
Voltage Gain
TL H 7783 3
Application Hints
(See AN-127)
The LM143 is designed for trouble free operation at any
supply voltage up to and including the guaranteed maximum
of
g
40V Input overvoltage protection both common-mode
and differential is 100% tested and guaranteed at the maxi-
mum supply voltage Furthermore all possible high voltage
destructive modes during supply voltage turn-on have been
eliminated by design As with most IC op amps however
certain precautions should be observed to insure that the
LM143 remains virtually blow-out proof
Although output short circuits to ground or either supply can
be sustained indefinitely at lower supply voltages these
short circuits should be of limited duration when operating at
higher supply voltages Units can be destroyed by any com-
bination of high ambient temperature high supply voltages
and high power dissipation which results in excessive die
temperature This is also true when driving low impedance
or reactive loads or loads that can revert to low impedance
for example the LM143 can drive most general purpose op
amps outside of the maximum input voltage range causing
heavy current to flow and possibly destroying both devices
Precautions should be taken to insure that the power sup-
plies never become reversed in polarity
even under tran-
sient conditions With reverse voltage the IC will conduct
excessive current fusing the internal aluminum intercon-
nects Voltage reversal between the power supplies will al-
most always result in a destroyed unit
In high voltage applications which are sensitive to very low
input currents special precautions should be exercised For
example with high source resistances care should be tak-
en to prevent the magnitude of the PC board leakage cur-
rents although quite small from approaching those of the
op amp input currents These leakage currents become
larger at 125 C and are made worse by high supply volt-
ages
To prevent this
PC boards should be properly
cleaned and coated to prevent contamination and to pro-
vide protection from condensed water vapor when operat-
ing below 0 C A guard ring is also recommended to signifi-
cantly reduce leakage currents from the op amp input pins
to the adjacent high voltage pins in the standard op amp pin
connection as shown in
Figure 1 Figures 2 3 and 4 show
how the guard ring is connected for the three most common
op amp configurations
Finally caution should be exercised in high voltage applica-
tions as electrical shock hazards are present Since the
negative supply is connected to the case users may inad-
vertantly contact voltages equal to those across the power
supplies
The LM143 can be used as a plug-in replacement in most
general purpose op amp applications The circuits present-
ed in the following section emphasize those applications
which take advantage of the unique high voltage abilities of
the LM143
5
Application Hints
(See AN-127) (Continued)
TL H 7783 5
Bottom View
FIGURE 1 Printed Circuit Layout for Input
Guarding with TO-5 Package
R3
a
R1
c
R2
R1
a
R2
e
R
SOURCE
TL H 7783 7
FIGURE 3 Guarded Non-Inverting Amplifier
R1
e
R
SOURCE
TL H 7783 6
FIGURE 2 Guarded Voltage Follower
R3
e
R1
c
R2
R1
a
R2
TL H 7783 8
FIGURE 4 Guarded Inverting Amplifier
TL H 7783 14
FIGURE 5 Offset Voltage Adjustment
6
Typical Applications
(For more detail see AN-127)
130 V
p-p
Drive Across a Floating Load
TL H 7783 9
g
34V Common-Mode Instrumentation Amplifier
A
V
e
1
a
2 R1
R2
J
R5
R4
WHERE
R4
e
R6
R5
e
R7
TL H 7783 10
R2 may be adjustable to trim the gain
R7 may be adjusted to compensate for the resistance tolerance of R4R7 for best CMR
The 38V supplies allow for a 5% voltage tolerance All resistors are
watt except as noted
7
Typical Applications
(Continued) (For more detail see AN-127)
Tracking
g
65V
1
Amp
Power
Supply
with
Short
Circuit
Protection
Put
on
common
heat
sink
All
resistors
are
watt
5%
except
as
noted
TLH7783
1
1
The
38V
supplies
allow
for
a
5
%
voltage
tolerance
All
resistors
are
watt
except
as
noted
8
Typical Applications
(Continued) (For more detail see AN-127)
90W Audio Power Amplifier with Safe Area Protection
Put on common heat sink
34 turns of no 20 wire on a
form
Adjust R6 to set I
Q
e
100 mA
TL H 7783 12
The 38V supplies allow for a 5% voltage tolerance All resistors are
watt except as noted
9
Typical Applications
(Continued) (For more detail see AN-127)
1 Amp Power Amplifier with Short Circuit Protection
TL H 7783 13
The 38V supplies allow for a 5% voltage tolerance All resistors are
watt except as noted
10
11
LM143LM343
High
Voltage
Operational
Amplifier
Physical Dimensions
inches (millimeters)
Metal Can Package (H)
Order Number LM143H LM143H 883 or LM343H
NS Package Number H08C
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SEMICONDUCTOR CORPORATION As used herein
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systems which (a) are intended for surgical implant
support device or system whose failure to perform can
into the body or (b) support or sustain life and whose
be reasonably expected to cause the failure of the life
failure to perform when properly used in accordance
support device or system or to affect its safety or
with instructions for use provided in the labeling can
effectiveness
be reasonably expected to result in a significant injury
to the user
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