NSC LM6165W883 High speed operational amplifier Datasheet

LM6165/LM6265/LM6365
High Speed Operational Amplifier
General Description
The LM6165 family of high-speed amplifiers exhibits an excellent speed-power product in delivering 300 V/µs and
725 MHz GBW (stable for gains as low as +25) with only
5 mA of supply current. Further power savings and application convenience are possible by taking advantage of the
wide dynamic range in operating supply voltage which extends all the way down to +5V.
These amplifiers are built with National’s VIP™ (Vertically Integrated PNP) process which produces fast PNP transistors
that are true complements to the already fast NPN devices.
This advanced junction-isolated process delivers high speed
performance without the need for complex and expensive dielectric isolation.
n
n
n
n
n
n
n
High GBW product: 725 MHz
Low supply current: 5 mA
Fast settling: 80 ns to 0.1%
Low differential gain: < 0.1%
Low differential phase: < 0.1˚
Wide supply range: 4.75V to 32V
Stable with unlimited capacitive load
Applications
n
n
n
n
Video amplifier
Wide-bandwidth signal conditioning
Radar
Sonar
Features
n High slew rate:
300 V/µs
Connection Diagrams
10-Lead Flatpak
Top View
DS009152-14
Order Number LM6165W/883
See NS Package Number W10A
DS009152-8
Order Number LM6165J/883
See NS Package Number J08A
Order Number LM6365M
See NS Package Number M08A
Order Number LM6265N or LM6365N
See NS Package Number N08E
VIP™ is a trademark of National Semiconductor Corporation.
© 1999 National Semiconductor Corporation
DS009152
www.national.com
LM6165/LM6265/LM6365 High Speed Operational Amplifier
May 1999
Connection Diagrams
(Continued)
Temperature Range
Military
Industrial
Commercial
−55˚C ≤ TA ≤ +125˚C
−25˚C ≤ TA ≤ +85˚C
0˚C ≤ TA ≤ +70˚C
LM6265N
LM6365N
Package
NSC
Drawing
8-Pin
N08E
Molded DIP
LM6165J/883
8-Pin
5962-8962501PA
J08A
Ceramic DIP
LM6365M
8-Pin Molded
M08A
Surface Mt.
LM6165WG/883
10-Lead
5962-8962501XA
Ceramic SOIC
LM6165W883
10-Pin
5962-8962501HA
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Ceramic Flatpak
2
WG10A
W10A
Absolute Maximum Ratings (Note 1)
See AN-450 “Surface Mounting Methods and Their Effect
on Product Reliability” for other methods of soldering
surface mount devices.
Storage Temp Range
−65˚C to +150˚C
Max Junction Temperature
(Note 3)
150˚C
± 700V
ESD Tolerance (Notes 7, 8)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Supply Voltage (V+ − V−)
Differential Input Voltage
(Note 7)
Common-Mode Voltage
Range (Note 11)
Output Short Circuit to GND
(Note 2)
Soldering Information
Dual-In-Line Package (N, J)
Soldering (10 sec.)
Small Outline Package (M)
Vapor Phase (60 sec.)
Infrared (15 sec.)
36V
± 8V
Operating Ratings
(V+ − 0.7V) to (V− + 0.7V)
Temperature Range (Note 3)
LM6165, LM6165J/883
LM6265
LM6365
Supply Voltage Range
Continuous
260˚C
−55˚C ≤ TJ ≤ +125˚C
−25˚C ≤ TJ ≤ +85˚C
0˚C ≤ TJ ≤ +70˚C
4.75V to 32V
215˚C
220˚C
DC Electrical Characteristics
The following specifications apply for Supply Voltage = ± 15V, VCM = 0, RL ≥ 100 kΩ and RS = 50Ω unless otherwise noted.
Boldface limits apply for TA = TJ = TMIN to TMAX; all other limits TA = TJ = 25˚C.
Symbol
VOS
Parameter
VOS
Input Offset Voltage
Average Drift
Ib
Input Bias Current
1
IOS
Input Offset Current
Average Drift
RIN
Input Resistance
CIN
Input Capacitance
AVOL
Large Signal
Voltage Gain
(Note 10)
Input Common-Mode
2.5
150
Differential
(Notes 4, 12)
(Note 4)
(Note 4)
3
3
6
mV
4
4
7
Max
µV/˚C
3
3
5
µA
6
5
6
Max
350
350
1500
nA
800
600
1900
Max
kΩ
VOUT = ± 10V,
RL = 2 kΩ
10.5
RL = 10 kΩ
Supply = ± 15V
38
+14.0
4.0
1.4
−10V ≤ VCM ≤ +10V
102
Rejection Ratio
± 10V ≤ V± ≤ ± 16V
Units
20
(Note 5)
Power Supply
Limit
6.0
Supply = +5V
PSRR
LM6365
Limit
nA/˚C
−13.6
Common-Mode
LM6265
Limit
0.3
Voltage Range
CMRR
LM6165
3
Input Offset Current
Drift
VCM
Typ
Input Offset Voltage
Drift
IOS
Conditions
104
Rejection Ratio
3
pF
7.5
7.5
5.5
V/mV
Min
5.0
6.0
5.0
+13.9
+13.9
+13.8
V
+13.8
+13.8
+13.7
Min
−13.4
−13.4
−13.3
V
−13.2
−13.2
−13.2
Min
3.9
3.9
3.8
V
3.8
3.8
3.7
Min
1.6
1.6
1.7
V
1.8
1.8
1.8
Max
88
88
80
dB
82
84
78
Min
88
88
80
dB
82
84
78
Min
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DC Electrical Characteristics
(Continued)
The following specifications apply for Supply Voltage = ± 15V, VCM = 0, RL ≥ 100 kΩ and RS = 50Ω unless otherwise noted.
Boldface limits apply for TA = TJ = TMIN to TMAX; all other limits TA = TJ = 25˚C.
Symbol
VO
Parameter
Output Voltage
Swing
Conditions
Supply = ± 15V,
RL = 2 kΩ
Typ
+14.2
−13.4
Supply = +5V
RL = 2 kΩ (Note 5)
4.2
1.3
Output Short
Source
65
Circuit Current
Sink
IS
65
Supply Current
5.0
LM6165
LM6265
LM6365
Limit
Limit
Limit
Units
(Notes 4, 12)
(Note 4)
(Note 4)
+13.5
+13.5
+13.4
V
+13.3
+13.3
+13.3
Min
−13.0
−13.0
−12.9
V
−12.7
−12.8
−12.8
Min
3.5
3.5
3.4
V
3.3
3.3
3.3
Min
1.7
1.7
1.8
V
2.0
1.9
1.9
Max
30
30
30
mA
20
25
25
Min
30
30
30
mA
20
25
25
Min
6.5
6.5
6.8
mA
6.8
6.7
6.9
Max
AC Electrical Characteristics
The following specifications apply for Supply Voltage = ± 15V, VCM = 0, RL ≥ 100 kΩ and RS = 50Ω unless otherwise noted.
Boldface limits apply for TA = TJ = TMIN to TMAX; all other limits TA = TJ = 25˚C. (Note 6)
Symbol
GBW
Parameter
Gain Bandwidth
Conditions
F = 20 MHz
Typ
725
LM6165
LM6265
LM6365
Limit
Limit
Limit
(Notes 4, 12)
(Note 4)
(Note 4)
575
575
500
MHz
Min
200
200
V/µs
Min
350
Product
SR
Slew Rate
Supply = ± 5V
AV = +25 (Note 9)
500
300
200
180
PBW
Power Bandwidth
Units
Supply = ± 5V
VOUT = 20 VPP
200
4.5
MHz
10V Step to 0.1%
AV = −25, RL = 2 kΩ
AV = +25
80
ns
45
Deg
< 0.1
< 0.1
Deg
Product
tS
Settling Time
φm
Phase Margin
AD
Differential Gain
φD
Differential Phase
enp-p
Input Noise Voltage
NTSC, AV = +25
NTSC, AV = +25
F = 10 kHz
inp-p
Input Noise Current
F = 10 kHz
%
5
1.5
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: Continuous short-circuit operation at elevated ambient temperature can result in exceeding the maximum allowed junction temperature of 150˚C.
Note 3: The typical junction-to-ambient thermal resistance of the molded plastic DIP (N) is 105˚C/Watt, and the molded plastic SO (M) package is 155˚C/Watt, and
the cerdip (J) package is 125˚C/Watt. All numbers apply for packages soldered directly into a printed circuit board.
Note 4: All limits guaranteed by testing or correlation.
Note 5: For single supply operation, the following conditions apply: V+ = 5V, V− = 0V, VCM = 2.5C, VOUT = 2.5V. Pin 1 & Pin 8 (VOS Adjust) are each connected
to Pin 4 (V−) to realize maximum output swing. This connection will degrade VOS.
Note 6: CL ≤ 5 pF.
Note 7: In order to achieve optimum AC performance, the input stage was designed without protective clamps. Exeeding the maximum differential input voltage results in reverse breakdown of the base-emitter junction of one of the input transistors and probable degradation of the input parameters (especially VOS, IOS, and
Noise).
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4
AC Electrical Characteristics
(Continued)
Note 8: The average voltage that the weakest pin combinations (those involving Pin 2 or Pin 3) can withstand and still conform to the datasheet limits. The test circuit
used consists of the human body model of 100 pF in series with 1500Ω.
Note 9: VIN = 0.8V step. For supply = ± 5V, VIN = 0.2V step.
Note 10: Voltage Gain is the total output swing (20V) divided by the input signal required to produce that swing.
Note 11: The voltage between V+ and either input pin must not exceed 36V.
Note 12: A military RETS electrical test specification is available on request. At the time of printing, the LM6165J/883 RETS spec complied with the Boldface limits
in this column. The LM6165J/883 may also be procured as Standard Military Drawing #5962-8962501PA.
Typical Performance Characteristics
Supply Current vs
Supply Voltage
RL = 10 kΩ, TA = 25˚C unless otherwise specified
Common-Mode
Rejection Ratio
Power Supply
Rejection Ratio
DS009152-16
Gain-Bandwidth
Product
DS009152-17
Propagation Delay,
Rise and Fall Times
DS009152-19
Slew Rate vs
Load Capacitance
DS009152-18
Gain-Bandwidth Product vs
Load Capacitance
DS009152-20
Overshoot vs
Capacitive Load
DS009152-21
Slew Rate
DS009152-23
DS009152-24
DS009152-22
5
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Typical Performance Characteristics
RL = 10 kΩ, TA = 25˚C unless otherwise specified (Continued)
Output Impedance
(Open-Loop)
Gain vs Supply Voltage
DS009152-26
DS009152-25
Differential Gain (Note 13)
Differential Phase (Note 13)
DS009152-7
DS009152-6
Note 13: Differential gain and differential phase measured for four series LM6365 op amps configured with gain of +25 (each output attenuated by 96%), in series
with an LM6321 buffer. Error added by LM6321 is negligible. Test performed using Tektronix Type 520 NTSC test system.
Input (0.2v/div) Output (5v/div)
Step Response; Av = +25
TIME (50 (ns/div)
DS009152-1
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6
Typical Performance Characteristics
RL = 10 kΩ, TA = 25˚C unless otherwise specified (Continued)
Input Noise Current
Input Noise Voltage
Power Bandwidth
DS009152-27
Open-Loop
Frequency Response
DS009152-28
Open-Loop
Frequency Response
Voltage Gain vs
Load Resistance
DS009152-30
Common-Mode Input
Saturation Voltage
DS009152-29
DS009152-31
Output Saturation Voltage
DS009152-32
Bias Current vs
Common-Mode Voltage
DS009152-34
DS009152-35
DS009152-33
7
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Simplified Schematic
DS009152-3
Application Tips
(from each supply “rail” to ground); an additional 2.2 µF to
10 µF (tantalum) may be required for extra noise reduction.
Keep all leads short to reduce stray capacitance and lead inductance, and make sure ground paths are low-impedance,
especially where heavier currents will be flowing. Stray capacitance in the circuit layout can cause signal coupling between adjacent nodes, and can cause circuit gain to unintentionally vary with frequency.
Breadboarded circuits will work best if they are built using
generic PC boards with a good ground plane. If the op amps
are used with sockets, as opposed to being soldered into the
circuit, the additional input capacitance may degrade circuit
performance.
The LM6365 is stable for gains of 25 or greater. The LM6361
and LM6364, specified in separate datasheets, are compensated versions of the LM6365. The LM6361 is unity-gain
stable, while the LM6364 is stable for gains as low as 5. The
LM6361, and LM6364 have the same high slew rate as the
LM6365, typically 300 V/µs.
To use the LM6365 for gains less than 25, a series
resistor-capacitor network should be added between the input pins (as shown in the Typical Applications, Noise Gain
Compensation) so that the high-frequency noise gain rises
to at least 25.
Power supply bypassing will improve stability and transient
response of the LM6365, and is recommended for every design. 0.01 µF to 0.1 µF ceramic capacitors should be used
Typical Applications
Offset Voltage Adjustment
Noise-Gain Compensation
DS009152-11
DS009152-12
RX CX ≥ 1/(2π • 25 MHz)
[R1 + RF (1 + R1/R2)] = 25 RX
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8
Typical Applications
(Continued)
1 MHz Voltage-to-Frequency Converter
(fOUT = 1 MHz for VIN = 10V)
DS009152-13
All diodes 1N914
9
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Physical Dimensions
inches (millimeters) unless otherwise noted
Ceramic Dual-In-Line Package (J)
Order Number LM6165J/883
NS Package Number J08A
Molded Package SO (M)
Order Number LM6365M
NS Package Number M08A
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10
Physical Dimensions
inches (millimeters) unless otherwise noted (Continued)
Molded Dual-In-Line Package (N)
Order Number LM6265N or LM6365N
NS Package Number N08E
10-Pin Ceramic Flatpak
Order Number LM6165W/883
NS Package Number W10A
11
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LM6165/LM6265/LM6365 High Speed Operational Amplifier
Notes
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