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Part: 5962-8962401XA
Category:
Analog & Mixed-Signal Processing
-> Amplifiers
-> Operational Amplifiers
-> High Speed
Description: LM6164 - High Speed Operational Amplifier, Package: Cerdip, Pin Nb=8
Company: National Semiconductor Corporation
Datasheet: Download 5962-8962401XA datasheet File size : 354 kB
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Datasheet text preview:
LM6164/LM6264/LM6364 High Speed Operational Amplifier
May 1999
LM6164/LM6264/LM6364 High Speed Operational Amplifier
General Description
The LM6164 family of high-speed amplifiers exhibits an excellent speed-power product in delivering 300V per µs and 175 MHz GBW (stable down to gains as low as +5) 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 VIPTM (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.
Features
n n n n n n n n High slew rate: 300 V/µs High GBW product: 175 MHz Low supply current: 5 mA Fast settling: 100 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
Connection Diagrams
10-Lead Flatpak
DS009153-15
Top View NS Package Number W10A
DS009153-8
NS Package Number J08A, M08A or N08E
VIPTM is a trademark of National Semiconductor Corporation.
© 1999 National Semiconductor Corporation
DS009153
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Connection Diagrams
Military -55°C TA +125°C LM6164J/883 5962-8962401PA
(Continued) Package Commercial 0°C TA +70°C LM6364N 8-Pin Molded DIP 8-Pin Ceramic DIP LM6364M 8-Pin Molded Surface Mt. 10-Lead Ceramic SOIC 10-Pin Ceramic Flatpak N08E J08A M08A WG10A W10A NSC Drawing
Temperature Range Industrial -25°C TA +85°C LM6264N
LM6164WG/883 5962-8962401XA LM6164W/883 5962-8962401HA
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Absolute Maximum Ratings (Note 1)
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 Input Voltage (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
See AN-450 "Surface Mounting Methods and Their Effect on Product Reliability" for other methods of soldering surface mount devices. Storage Temperature Range -65°C to +150°C Max Junction Temperature (Note 3) 150°C ± 700V ESD Tolerance (Notes 7, 8)
± 8V
Operating Ratings
(V+ - 0.7V) to (V- + 0.7V) Continuous Temperature Range (Note 3) LM6164 LM6264 LM6364 Supply Voltage Range -55°C TJ +125°C -25°C TJ +85°C 0°C TJ +70°C 4.75V to 32V
260°C 215°C 220°C
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.
DC Electrical Characteristics
The following specifications apply for Supply Voltage = ± 15V, VCM = 0, RL 100 k and RS = 50 unless otherwise noted. Boldface limits apply for TA = TJ = TMIN to TMAX; all other limits TA = TJ = 25°C. LM6164 Symbol VOS VOS Drift Ib IOS IOS Drift RIN CIN AVOL Parameter Input Offset Voltage Input Offset Voltage Average Drift Input Bias Current Input Offset Current Input Offset Current Average Drift Input Resistance Input Capacitance Large Signal Voltage Gain VCM Input Common-Mode Voltage Range -13.5 Supply = +5V (Note 5) 1.5 CMRR PSRR Common-Mode Rejection Ratio Power Supply Rejection Ratio -10V VCM +10V 105 96 4.0 VOUT = ± 10V, RL = 2 k (Note 10) RL = 10 k Supply = ± 15V Differential 100 3.0 2.5 9 +14.0 +13.9 +13.8 -13.3 -13.1 3.9 3.8 1.7 1.9 86 80 86 80 +13.9 +13.8 -13.3 -13.1 3.9 3.8 1.7 1.9 86 82 86 82 +13.8 +13.7 -13.2 -13.1 3.8 3.7 1.8 1.9 80 78 80 78 V min V min V min V max dB min dB min 1.8 0.9 1.8 1.2 1.3 1.1 k pF V/mV min 2.5 150 0.3 3 6 350 800 3 5 350 600 5 6 1500 1900 µA max nA max nA/°C Conditions Typ 2 6 Limit (Notes 4, 12) 4 6 LM6264 Limit (Note 4) 4 6 LM6364 Limit (Note 4) 9 11 mV max µV/°C Units
± 10V V ± ± 16V
3
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DC Electrical Characteristics
(Continued)
The following specifications apply for Supply Voltage = ± 15V, VCM = 0, RL 100 k and RS = 50 unless otherwise noted. Boldface limits apply for TA = TJ = TMIN to TMAX; all other limits TA = TJ = 25°C. LM6164 Symbol VO Parameter Output Voltage Swing Conditions Supply = +5V and RL = 2 k Typ +14.2 -13.4 Supply = +5V and RL = 2 k (Note 10) Output Short Circuit Current Sink IS Supply Current 65 5.0 Source 4.2 1.3 65 Limit (Notes 4, 12) +13.5 +13.3 -13.0 -12.7 3.5 3.3 1.7 2.0 30 20 30 20 6.5 6.8 LM6264 Limit (Note 4) +13.5 +13.3 -13.0 -12.8 3.5 3.3 1.7 1.9 30 25 30 25 6.5 6.7 LM6364 Limit (Note 4) +13.4 +13.3 -12.9 -12.8 3.4 3.3 1.8 1.9 30 25 30 25 6.8 6.9 V min V min V min V max mA min mA min mA min Units
AC Electrical Characteristics
The following specifications apply for Supply Voltage = ± 15V, VCM = 0, RL 100 k and RS = 50 unless otherwise noted. Boldface limits apply for TA = TJ = TMIN to TMAX; all other limits TA = TJ = 25°C. LM6164 Symbol GBW Parameter Gain-Bandwidth Product SR Slew Rate Supply = ± 5V AV = +5 (Note 9) Supply = ± 5V VOUT = 20 VPP 10V Step to 0.1% AV = -4, RL = 2 k AV = +5 NTSC, AV = +10 NTSC, AV = +10 F = 10 kHz F = 10 kHz 120 300 200 4.5 100 45 MHz ns Deg % Deg 200 180 PBW TS m AD D enp-p inp-p Power Bandwidth Settling Time Phase Margin Differential Gain Differential Phase Input Noise Voltage Input Noise Current
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, 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: Limits are guaranteed by testing or correlation. Note 5: For single supply operation, the following conditions apply: V+ = 5V, V- = 0V, VCM = 2.5V, 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. Exceeding 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). 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 1500.
LM6264 Limit (Note 4) 140 120 200 180
LM6364 Limit (Note 4) 120 100 200 180 MHz min V/µs min Units
Conditions F = 20 MHz
Typ 175
Limit (Notes 4, 12) 140 100
< 0.1 < 0.1
8 1.5
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AC Electrical Characteristics
Note 9: VIN = 4V step. For supply = ± 5V, VIN = 1V step.
(Continued)
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 LM6164J/883 RETS spec complied with the Boldface limits in this column. The LM6164J/883 may also be procured as Standard Military Drawing #5962-8962401PA.
Typical Performance Characteristics
Supply Current vs Supply Voltage Common-Mode Rejection Ratio
(RL = 10 k, TA = 25°C unless otherwise specified) Power Supply Rejection Ratio
DS009153-16
DS009153-17
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Gain-Bandwidth Product
Propagation Delay Rise and Fall Time
Gain-Bandwidth Product vs Load Capacitance
DS009153-19
DS009153-20
DS009153-21
Slew Rate vs Load Capacitance
Overshoot vs Load Capacitance
Slew Rate
DS009153-23 DS009153-22
DS009153-24
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