LH0041 [NSC]
1.0 Amp Power Operational Amplifier; 1.0安培功耗运算放大器型号: | LH0041 |
厂家: | National Semiconductor |
描述: | 1.0 Amp Power Operational Amplifier |
文件: | 总14页 (文件大小:257K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
August 1989
LH0021/LH0021C 1.0 Amp Power Operational Amplifier
LH0041/LH0041C 0.2 Amp Power Operational Amplifier
General Description
The LH0021/LH0021C and LH0041/LH0041C are general
purpose operational amplifiers capable of delivering large
output currents not usually associated with conventional IC
Op Amps. The LH0021 will provide output currents in ex-
12 pin TO-8 (2.5 watts with clip on heatsink) and a power 8
pin ceramic DIP (2 watts with suitable heatsink). The
LH0021 and LH0041 are guaranteed over the temperature
b
a
LH0041C are guaranteed from 25 C to 85 C.
range of
55 C to
§
125 C while the LH0021C and
a
§
b
g
cess of one ampere at voltage levels of 12V; the LH0041
§
§
delivers currents of 200 mA at voltage levels closely ap-
proaching the available power supplies. In addition, both the
inputs and outputs are protected against overload. the de-
vices are compensated with a single external capacitor and
are free of any unusual oscillation or latch-up problems.
Features
Y
Output current
LH0021
LH0041
1.0 Amp
0.2 Amp
The excellent input characteristics and high output capabili-
ty of the LH0021 make it an ideal choice for power applica-
tions such as DC servos, capstan drivers, deflection yoke
drivers, and programmable power supplies.
Y
Output voltage swing
LH0021
LH0041
g
12V into 10X
g
14V into 100X
Y
Wide full power bandwidth
15 kHz
The LH0041 is particularly suited for applications such as
torque driver for inertial guidance systems, diddle yoke driv-
er for alpha-numeric CRT displays, cable drivers, and pro-
grammable power supplies for automatic test equipment.
Y
g
100 mW at 15V
Low standby power
Y
Low input offset
voltage and current
1 mV and 20 nA
3.0V/ms
Y
High slew rate
The LH0021 is supplied in a 8 pin TO-3 package rated at 20
watts with suitable heatsink. The LH0041 is supplied in both
Y
High open loop gain
100 dB
Schematic Diagram
TL/H/9298–1
*R
external on ‘‘G’’ and ‘‘K’’ packages. R
SC
SC
internal on ‘‘J’’ package. Offset Null connec-
tions available only on ‘‘G’’ package.
C
1995 National Semiconductor Corporation
TL/H/9298
RRD-B30M115/Printed in U. S. A.
Absolute Maximum Ratings
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Output Short Circuit Duration (Note 3)
Continuous
Operating Temperature Range
LH0021/LH0041
LH0021C/LH0041C
b
a
55 C to 125 C
§
§
25 C to 85 C
b a
g
Supply Voltage
18V
§
65 C to 150 C
§
§
b
a
Power Dissipation
See Curves
Storage Temperature Range
§
g
g
Differential Input Voltage
Input Voltage (Note 1)
30V
15V
Lead Temperature (Soldering, 10 sec.)
ESD rating to be determined.
300 C
§
Peak Output Current (Note 2)
LH0021/LH0021C
LH0041/LH0041C
2.0 Amps
0.5 Amps
DC Electrical Characteristics for LH0021/LH0021C (Note 4)
Limits
Parameter
Conditions
LH0021
LH0021C
Units
Min Typ Max Min Typ Max
k
k
e
Input Offset Voltage
R
S
R
S
100X, T
100X
25 C
§
1.0 3.0
5.0
3.0 6.0
7.5
mV
mV
C
k
Voltage Drift with Temperature
Offset Voltage Drift with Time
Offset Voltage Change with Output Power
Input Offset Current
R
100X
3
5
5
25
5
5
5
30
mV/ C
§
S
mV/week
15
20
mV/W
e
T
C
25 C
§
30 100
300
50 200
500
nA
nA
Offset Current Drift with Temperature
Offset Current Drift with Time
Input Bias Current
0.1 1.0
2
0.2 1.0
2
nA/ C
§
nA/week
e
e
T
T
25 C
§
100 300
1.0
200 500
1.0
nA
mA
C
Input Resistance
25 C
§
0.3
70
1.0
3
0.3 1.0
MX
pF
dB
V
C
Input Capacitance
3
e
g
g
Common Mode Rejection Ratio
Input Voltage Range
Power Supply Rejection Ratio
Voltage Gain
R
100X, DV
10V
90
70
90
S
CM
e
s
g
g
g
12
70
V
15V
100X, DV
12
S
e
S
g
R
10V
80
96
90
dB
S
e
e
e
e
e
g
V
R
V
R
15V, V
O
10V
S
e
1 kX, T
25 C
e
100
25
200
100 200
20
V/mV
V/mV
§
L
C
15V, V
g
g
10V
S
O
100X
L
e
e
e
e
g
g
g
g
g
g
g
g
Output Voltage Swing
V
S
V
S
15V, R
15V, R
100X
10X, T
13.5 14
g
12
13
10
14
12
V
V
L
L
e
25 C
§
11.0
C
e
e
e
e
e
0.5X
SC
g
g
g
Output Short Circuit Current
Power Supply Current
Power Consumption
V
S
V
S
V
S
15V, T
25 C, R
§
0.8
1.2 1.6 0.8 1.2 1.6
Amps
mA
C
e
15V, V
0
2.5 3.5
75 105
3.0 4.0
90 120
OUT
OUT
e
15V, V
0
mW
e
e
e
15V, C 3000 pF)
C
g
AC Electrical Characteristics for LH0021/LH0021C (T
25 C, V
§
A
S
Limits
Parameter
Conditions
LH0021
Typ
3.0
20
LH0021C
Units
Min
Max
Min
1.0
Typ
3.0
20
0.3
10
4
Max
e a
e
100X
Slew Rate
A
1, R
0.8
V/ms
kHz
V
L
e
Power Bandwidth
R
100X
L
Small Signal Transient Response
Small Signal Overshoot
Settling Time (0.1%)
Overload Recovery Time
Harmonic Distortion
0.3
5
1.0
20
1.5
30
ms
%
e
e a
1
DV
10V, A
4
ms
IN
V
3
3
ms
e
e
0.5W
f
1 kHz, P
0.2
5
0.2
5
%
O
e
e
Input Noise Voltage
R
50X, B.W.
10 Hz to 10 kHz
mV/rms
nA/rms
s
e
Input Noise Current
B.W.
10 Hz to 10 kHz
0.05
0.05
2
DC Electrical Characteristics for LH0041/LH0041C (Note 4)
Limits
Parameter
Conditions
LH0041
Typ Max
LH0041C
Typ
Units
Min
Min
Max
k
k
e
Input Offset Voltage
R
R
100X, T
100X
25 C
§
1.0
3.0
3.0
6.0
7.5
mV
mV
S
A
5.0
S
k
Voltage Drift with Temperature
Offset Voltage Drift with Time
Offset Voltage Change with Output Power
Offset Voltage Adjustment Range
Input Offset Current
R
100X
3
5
mV/ C
§
S
5
5
mV/week
mV/W
mV
15
20
30
15
20
50
(Note 5)
e
T
A
25 C
§
100
300
200
500
nA
nA
Offset Current Drift with Temperature
Offset Current Drift with Time
Input Bias Current
0.1
2
1.0
0.2
2
1.0
nA/ C
§
nA/week
e
e
T
T
25 C
§
100
300
1.0
200
500
1.0
nA
A
mA
Input Resistance
25 C
§
0.3
70
1.0
3
0.3
70
1.0
3
MX
pF
dB
V
A
Input Capacitance
e
g
g
Common Mode Rejection Ratio
Input Voltage Range
Power Supply Rejection Ratio
Voltage Gain
R
100X, DV
10V
90
90
S
CM
e
s
a
a
g
V
15V
100X, DV
12
12
S
e
S
g
R
10V
80
96
70
90
dB
S
e
e
e
e
e
g
V
15V, V
O
10V
S
e
R
1 kX, T
25 C
100
25
200
100
20
200
V/mV
§
L
A
15V, V
e
g
g
10V
V
S
O
R
100X
V/mV
V
L
S
S
e
e
e
e
g
g
g
g
g
14
Output Voltage Swing
V
15V, R
100X
13
14
13
L
Output Short Circuit Current
V
15V, T
25 C
§
200
300
200
300
mA
A
(Note 6)
e
e
e
g
g
Power Supply Current
Power Consumption
V
15V, V
15V, V
0
2.5
75
3.5
3.0
90
4.0
mA
S
S
OUT
e
V
0
105
120
mW
OUT
e
e
e
3000 pF)
g
AC Electrical Characteristics for LH0041/LH0041C (T
25 C, V
§
15V, C
A
S
C
Limits
Parameter
Conditions
LH0041
Typ
3.0
20
LH0041C
Units
Min
Max
Min
Typ
3.0
20
0.3
10
4
Max
e a
e
100X
Slew Rate
A
1, R
1.5
1.0
V/ms
kHz
V
L
e
Power Bandwidth
R
100X
L
Small Signal Transient Response
Small Signal Overshoot
Settling Time (0.1%)
Overload Recovery Time
Harmonic Distortion
0.3
5
1.0
20
1.5
30
ms
%
e
e a
1
DV
10V, A
4
ms
IN
V
3
3
ms
e
e
0.5W
f
1 kHz, P
0.2
5
0.2
5
%
O
e
e
Input Noise Voltage
R
50X, B.W.
10 Hz to 10 kHz
mV/rms
nA/rms
s
e
Input Noise Current
B.W.
10 Hz to 10 kHz
0.05
0.05
g
g
Note 1: Rating applies for supply voltages above 15V. For supplies less than 15V, rating is equal to supply voltage.
e
Note 2: Rating applies for LH0041G and LH0021K with R
0X.
Note 3: Rating applies as long as package power rating is not exceeded.
SC
s
s
s
s
s
a
C
b
e
LH0041CG and LH0041CJ unless otherwise specified. Typical values are for 25 C only.
b
125 C for LH0021K and LH0041G, and 25 C
g
Note 4: Specifications apply for 5V
g
18V, and 55 C
V
S
T
T
85 C for LH0021CK,
§
§
§
§
C
§
Note 5: TO-8 ‘‘G’’ packages only.
e
Note 6: Rating applies for ‘‘J’’ DIP package and for TO-8 ‘‘G’’ package with R
3.3 ohms.
SC
Note 7: See Typical Performance Characteristics.
3
Typical Performance Characteristics
Package Power Dissipation
LH0041/LH0041C
Power Derating-LH0021
Safe Operating AreaÐLH0021
021C
TL/H/9298–6
4
Typical Performance Characteristics (Continued)
Input Current
Input Voltage Range
Input Noise Voltage
TL/H/9298–7
Connections Diagrams
TL/H/9298–3
TL/H/9298–2
Order Number LH0041G or LH0041CG
See NS Package Number H12B
Top View
Order Number LH0021K or LH0021CK
See NS Package Number K08A
5
Connection Diagrams (Continued)
TL/H/9298–4
Top View
Order Number LH0041CJ
See NS Package Number HY08A
TL/H/9298–5
Order Number LH0041E
See NS Package Number E48A
Typical Applications
Programmable One Amp Power Supply
TL/H/9298–8
6
Typical Applications (Continued)
10W (rms) Audio Amplifier
TL/H/9298–9
Dual Tracking One Amp Power Supply
TL/H/9298–10
7
Typical Applications (Continued)
CRT Deflection Yoke Driver
TL/H/9298–11
Two Way Intercom
TL/H/9298–12
Programmable High Current Source/Sink
TL/H/9298–13
8
Typical Applications (Continued)
Power Comparator
DC Servo Amplifier
–14
TL/H/9298–15
Auxiliary Circuits
LH0021 Unity Gain Circuit with Short Circuit Limiting
LH0041G Unity Gain with Short Circuit Limiting
ps
TL/H/9298–16
TL/H/9298–17
LH0041/LH0021 Offset Voltage Null Circuit
(LH0041CJ Pin Connections Shown)*
LH0041G Offset Voltage Null Circuit*
TL/H/9298–19
TL/H/9298–18
9
Auxiliary Circuits (Continued)
Operation from Single Supplies
TL/H/9298–20
TL/H/9298–21
10
Auxiliary Circuits (Continued)
Operation from Non-Symmetrical Supplies
TL/H/9298–22
TL/H/9298–23
*For additional offset null circuit techniques see National Linear Applications Handbook.
Physical Dimensions inches (millimeters)
Leadless Chip Carrier (E)
Order Number LH0041E
NS Package Number E48A
11
Physical Dimensions inches (millimeters) (Continued)
Metal Can Package (H)
Order Number LH0041G or LH0041CG
NS Package Number H12B
12
Physical Dimensions inches (millimeters) (Continued)
Ceramic Hybrid Package (HY)
Order Number LH0041CJ
NS Package Number HY08A
13
Physical Dimensions inches (millimeters) (Continued)
Metal Can Package (K)
Order Number LH0021K or LH0021CK
NS Package Number K08A
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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
to the user.
2. A critical component is 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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