5962-8962101HA

更新时间:2025-07-03 01:49:41
品牌:NSC
描述:High Speed Operational Amplifier

5962-8962101HA 概述

High Speed Operational Amplifier 高速运算放大器 运算放大器

5962-8962101HA 规格参数

是否Rohs认证:不符合生命周期:Obsolete
零件包装代码:DFP包装说明:DFP, FL10,.3
针数:10Reach Compliance Code:unknown
ECCN代码:EAR99HTS代码:8542.33.00.01
风险等级:5.85Is Samacsys:N
放大器类型:OPERATIONAL AMPLIFIER架构:VOLTAGE-FEEDBACK
最大平均偏置电流 (IIB):6 µA25C 时的最大偏置电流 (IIB):3 µA
最小共模抑制比:80 dB标称共模抑制比:80 dB
频率补偿:YES最大输入失调电压:10000 µV
JESD-30 代码:R-CDFP-F10JESD-609代码:e0
低-失调:NO负供电电压上限:-18 V
标称负供电电压 (Vsup):-15 V功能数量:1
端子数量:10最高工作温度:125 °C
最低工作温度:-55 °C封装主体材料:CERAMIC, METAL-SEALED COFIRED
封装代码:DFP封装等效代码:FL10,.3
封装形状:RECTANGULAR封装形式:FLATPACK
峰值回流温度(摄氏度):NOT SPECIFIED电源:+-15 V
认证状态:Not Qualified筛选级别:MIL-STD-883
座面最大高度:2.032 mm最小摆率:200 V/us
标称压摆率:200 V/us子类别:Operational Amplifiers
最大压摆率:6.8 mA供电电压上限:18 V
标称供电电压 (Vsup):15 V表面贴装:YES
技术:BIPOLAR温度等级:MILITARY
端子面层:Tin/Lead (Sn/Pb) - hot dipped端子形式:FLAT
端子节距:1.27 mm端子位置:DUAL
处于峰值回流温度下的最长时间:NOT SPECIFIED标称均一增益带宽:40000 kHz
最小电压增益:550宽度:6.3246 mm
Base Number Matches:1

5962-8962101HA 数据手册

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May 1999  
LM6161/LM6261/LM6361  
High Speed Operational Amplifier  
n High unity gain freq 50 MHz  
n Low supply current 5 mA  
n Fast settling 120 ns to 0.1%  
General Description  
The LM6161 family of high-speed amplifiers exhibits an ex-  
cellent speed-power product in delivering 300 V/µs and  
50 MHz unity gain stability with only 5 mA of supply current.  
Further power savings and application convenience are pos-  
sible by taking advantage of the wide dynamic range in oper-  
ating supply voltage which extends all the way down to +5V.  
<
n Low differential gain  
0.1%  
n Low differential phase 0.1˚  
n Wide supply range 4.75V to 32V  
n Stable with unlimited capacitive load  
n Well behaved; easy to apply  
These amplifiers are built with National’s VIP (Vertically In-  
tegrated PNP) process which provides 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 di-  
electric isolation.  
Applications  
n Video amplifier  
n High-frequency filter  
n Wide-bandwidth signal conditioning  
n Radar  
Features  
n High slew rate 300 V/µs  
n Sonar  
Connection Diagrams  
10–Lead Flatpak  
DS009057-13  
See NS Package Number W10A  
DS009057-5  
See NS Package Number J08A,  
N08E or M08A  
Temperature Range  
Package  
NSC  
Drawing  
Military  
Industrial  
−25˚C TA +85˚C  
LM6261N  
Commercial  
0˚C TA +70˚C  
LM6361N  
−55˚C TA +125˚C  
8-Pin  
Molded DIP  
8-Pin  
N08E  
LM6161J/883  
LM6361J  
LM6361M  
J08A  
5962-8962101PA  
Ceramic DIP  
8-Pin Molded  
Surface Mt.  
10-Lead  
LM6261M  
M08A  
LM6161WG/883  
5962-8962101XA  
LM6161W/883  
WG10A  
W10A  
Ceramic SOIC  
10-Pin  
5962-8962101HA  
Ceramic Flatpak  
VIP is a trademark of National Semiconductor Corporation.  
© 1999 National Semiconductor Corporation  
DS009057  
www.national.com  
Absolute Maximum Ratings (Note 12)  
If Military/Aerospace specified devices are required,  
please contact the National Semiconductor Sales Office/  
Distributors for availability and specifications.  
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  
150˚C  
Max Junction Temperature  
ESD Tolerance (Notes 6, 7)  
Supply Voltage (V+ − V)  
Differential Input Voltage  
(Note 8)  
36V  
±
700V  
±
8V  
Operating Ratings (Note 12)  
Common-Mode Voltage Range  
(Note 10)  
Temperature Range (Note 2)  
(V+ − 0.7V) to (V+ 0.7V)  
Continuous  
LM6161  
−55˚C TJ +125˚C  
−25˚C TJ +85˚C  
0˚C TJ +70˚C  
4.75V to 32V  
Output Short Circuit to GND  
(Note 1)  
LM6261  
LM6361  
Soldering Information  
Dual-In-Line Package (N, J)  
Soldering (10 sec.)  
Supply Voltage Range  
260˚C  
Small Outline Package (M)  
Vapor Phase (60 sec.)  
Infrared (15 sec.)  
215˚C  
220˚C  
DC Electrical Characteristics  
=
=
=
±
The following specifications apply for Supply Voltage  
15V, VCM 0, RL 100 kand RS 50unless otherwise noted.  
=
=
Boldface limits apply for TJ TMIN to TMAX; all other limits TJ 25˚C.  
Symbol  
Parameter  
Conditions  
Typ  
LM6161  
LM6261  
Limit  
(Note 3)  
7
LM6361  
Limit  
(Note 3)  
20  
Units  
Limit  
(Notes 3, 11)  
VOS  
Input Offset Voltage  
5
10  
2
7
mV  
Max  
10  
9
22  
VOS  
Drift  
Ib  
Input Offset Voltage  
Average Drift  
µV/˚C  
Input Bias Current  
3
3
5
µA  
Max  
nA  
6
5
6
IOS  
Input Offset Current  
150  
0.4  
350  
800  
350  
600  
1500  
1900  
Max  
nA/˚C  
IOS  
Input Offset Current  
Average Drift  
Drift  
RIN  
Input Resistance  
Input Capacitance  
Large Signal  
Differential  
325  
1.5  
kΩ  
pF  
=
@
AV +1 10 MHz  
CIN  
=
±
AVOL  
VOUT  
10V,  
750  
550  
550  
400  
V/V  
Min  
V/V  
Volts  
Min  
Volts  
Min  
Volts  
Min  
Volts  
Max  
dB  
=
Voltage Gain  
RL 2 k(Note 9)  
300  
400  
350  
=
RL 10 k(Note 9)  
2900  
=
±
VCM  
Input Common-Mode  
Voltage Range  
Supply  
15V  
+14.0  
+13.9  
+13.8  
−12.9  
−12.7  
3.9  
+13.9  
+13.8  
−12.9  
−12.7  
3.9  
+13.8  
+13.7  
−12.8  
−12.7  
3.8  
−13.2  
4.0  
1.8  
94  
=
Supply +5V  
(Note 4)  
3.8  
3.8  
3.7  
2.0  
2.0  
2.1  
2.2  
2.2  
2.2  
CMRR  
PSRR  
Common-Mode  
Rejection Ratio  
Power Supply  
Rejection Ratio  
−10V VCM +10V  
80  
80  
72  
74  
76  
70  
Min  
dB  
±
±
±
16V  
10V V  
90  
80  
80  
72  
74  
76  
70  
Min  
www.national.com  
2
DC Electrical Characteristics (Continued)  
=
= =  
15V, VCM 0, RL 100 kand RS 50unless otherwise noted.  
±
The following specifications apply for Supply Voltage  
=
=
Boldface limits apply for TJ TMIN to TMAX; all other limits TJ 25˚C.  
Symbol  
Parameter  
Conditions  
Typ  
LM6161  
Limit  
(Notes 3, 11)  
+13.5  
+13.3  
−13.0  
−12.7  
3.5  
LM6261  
Limit  
(Note 3)  
+13.5  
+13.3  
−13.0  
−12.8  
3.5  
LM6361  
Limit  
(Note 3)  
+13.4  
+13.3  
−12.9  
−12.8  
3.4  
Units  
=
±
VO  
Output Voltage  
Swing  
Supply  
15V  
+14.2  
−13.4  
4.2  
Volts  
Min  
=
and RL 2 kΩ  
Volts  
Min  
=
Supply +5V  
Volts  
Min  
=
and RL 2 kΩ  
3.3  
3.3  
3.3  
(Note 4)  
Source  
Sink  
1.3  
1.7  
1.7  
1.8  
Volts  
Max  
mA  
2.0  
1.9  
1.9  
Output Short  
65  
30  
30  
30  
Circuit Current  
20  
25  
25  
Min  
65  
30  
30  
30  
mA  
20  
25  
25  
Min  
IS  
Supply Current  
5.0  
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 kand RS 50unless otherwise noted.  
=
=
Boldface limits apply for TJ TMIN to TMAX; all other limits TJ 25˚C.  
LM6161  
Limit  
LM6261  
Limit  
(Note 3)  
40  
LM6361  
Limit  
(Note 3)  
35  
Symbol  
Parameter  
Conditions  
Typ  
Units  
(Notes 3, 11)  
40  
=
@
GBW  
Gain-Bandwidth  
Product  
f
20 MHz  
50  
MHz  
Min  
30  
35  
32  
=
±
Supply  
5V  
35  
MHz  
V/µs  
Min  
=
SR  
Slew Rate  
AV +1 (Note 8)  
300  
200  
200  
200  
180  
180  
180  
=
±
Supply  
5V (Note 8)  
200  
4.5  
V/µs  
MHz  
ns  
=
PBW  
tS  
Power Bandwidth  
Settling Time  
VOUT 20 VPP  
10V Step to 0.1%  
120  
=
=
AV −1, RL 2 kΩ  
φm  
Phase Margin  
45  
Deg  
%
=
<
AD  
Differential Gain  
Differential Phase  
Input Noise Voltage  
NTSC, AV +4  
0.1  
=
φD  
NTSC, AV +4  
0.1  
Deg  
=
enp-p  
f
10 kHz  
15  
=
inp-p  
Input Noise Current  
f
10 kHz  
1.5  
Note 1: Continuous short-circuit operation at elevated ambient temperature can result in exceeding the maximum allowed junction temperature of 150˚C.  
Note 2: The typical junction-to-ambient thermal resistance of the molded plastic DIP (N) is 105˚C/W, the molded plastic SO (M) package is 155˚C/W, and the cerdip  
(J) package is 125˚C/W. All numbers apply for packages soldered directly into a printed circuit board.  
Note 3: Limits are guaranteed by testing or correlation.  
+
=
=
=
=
2.5V, V  
OUT  
Note 4: For single supply operation, the following conditions apply: V  
5V, V  
0V, V  
2.5V. Pin 1 & Pin 8 (Vos Adjust) are each connected to  
Drift, and Input Voltage Noise.  
CM  
Pin 4 (V ) to realize maximum output swing. This connection will degrade V , V  
OS OS  
Note 5:  
C 5 pF.  
L
Note 6: In order to achieve optimum AC performance, the input stage was designed without protective clamps. Exceeding the maximum differential input voltage re-  
sults 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).  
3
www.national.com  
AC Electrical Characteristics (Continued)  
Note 7: 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.  
=
=
=
5V, V 5V step.  
IN  
±
Note 8:  
V
8V step. For supply  
IN  
Note 9: Voltage Gain is the total output swing (20V) divided by the input signal required to produce that swing.  
+
Note 10: The voltage between V and either input pin must not exceed 36V.  
Note 11: A military RETS electrical test specification is available on request. At the time of printing, the RETS6161X specs complied with all Boldface limits in this  
column.  
Note 12: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is  
intended to be functional, but do not guarantee specific performance limits. For guaranteed specifications and test conditions, see the Electrical Characteristics. The  
guaranteed specifications apply only for the test conditions listed.  
Typical Performance Characteristics (RL = 10 k, TA = 25˚C unless otherwise specified)  
Supply Current vs  
Supply Voltage  
Common-Mode  
Rejection Ratio  
Power Supply  
Rejection Ratio  
DS009057-15  
DS009057-16  
DS009057-17  
Gain-Bandwidth  
Product  
Propagation Delay  
Rise and Fall Times  
Gain-Bandwidth Product  
vs Load Capacitance  
DS009057-18  
DS009057-20  
DS009057-19  
Slew Rate vs  
Load Capacitance  
Overshoot vs  
Capacitive Load  
Slew Rate  
DS009057-23  
DS009057-21  
DS009057-22  
www.national.com  
4
Typical Performance Characteristics (RL = 10 k, TA = 25˚C unless otherwise  
specified) (Continued)  
Voltage Gain  
Gain vs Supply Voltage  
vs Load Resistance  
DS009057-25  
DS009057-24  
Differential Gain (Note 13)  
Differential Phase (Note 13)  
DS009057-8  
DS009057-7  
Note 13: Differential gain and differential phase measured for four series LM6361 op amps configured as unity-gain followers, in series with an LM6321 buffer. Error  
added by LM6321 is negligible. Test performed using Tektronix Type 520 NTSC test system.  
=
Step Response; Av +1  
(50 ns/div)  
DS009057-1  
5
www.national.com  
Typical Performance Characteristics (RL = 10 k, TA = 25˚C unless otherwise  
specified) (Continued)  
Input Noise Voltage  
Input Noise Current  
Power Bandwidth  
DS009057-26  
DS009057-27  
DS009057-28  
Open-Loop  
Frequency Response  
Open-Loop  
Frequency Response  
Output Impedence  
(Open-Loop)  
DS009057-29  
DS009057-30  
DS009057-31  
Common-Mode Input  
Saturation Voltage  
Bias Current vs  
Common-Mode Voltage  
Output Saturation Voltage  
DS009057-33  
DS009057-32  
DS009057-34  
www.national.com  
6
Simplified Schematic  
DS009057-3  
Applications Tips  
The LM6361 has been compensated for unity-gain opera-  
tion. Since this compensation involved adding emitter-  
degeneration resistors to the op amp’s input stage, the  
open-loop gain was reduced as the stability increased. Gain  
error due to reduced AVOL is most apparent at high gains;  
thus, for gains between 5 and 25, the less-compensated  
LM6364 should be used, and the uncompensated LM6365 is  
appropriate for gains of 25 or more. The LM6361, LM6364,  
and LM6365 have the same high slew rate, regardless of  
their compensation.  
ever, improve the stability and transient response and is rec-  
ommended for every design. 0.01 µF to 0.1 µF ceramic ca-  
pacitors should be used (from each supply “rail” to ground);  
if the device is far away from its power supply source, an ad-  
ditional 2.2 µF to 10 µF of tantalum may provide extra noise  
reduction.  
Keep all leads short to reduce stray capacitance and lead in-  
ductance, and make sure ground paths are low-impedance,  
especially where heavier currents will be flowing. Stray ca-  
pacitance in the circuit layout can cause signal coupling  
across adjacent nodes and can cause gain to unintentionally  
vary with frequency.  
The LM6361 is unusually tolerant of capacitive loads. Most  
op amps tend to oscillate when their load capacitance is  
greater than about 200 pF (especially in low-gain circuits).  
The LM6361’s compensation is effectively increased with  
load capacitance, reducing its bandwidth and increasing its  
stability.  
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.  
Power supply bypassing is not as critical for the LM6361 as  
it is for other op amps in its speed class. Bypassing will, how-  
Typical Applications  
Offset Voltage Adjustment  
1 MHz Low-Pass Filter  
DS009057-4  
DS009057-10  
7
www.national.com  
Typical Applications (Continued)  
Modulator with Differential-to-Single-Ended Converter  
DS009057-11  
www.national.com  
8
Physical Dimensions inches (millimeters) unless otherwise noted  
Ceramic Dual-In-Line Package (J)  
Order Number LM6161J/883  
NS Package Number J08A  
Molded Package SO (M)  
Order Number LM6261M or LM6361M  
NS Package Number M08A  
9
www.national.com  
Physical Dimensions inches (millimeters) unless otherwise noted (Continued)  
Molded Dual-In-Line Package (N)  
Order Number LM6261N or LM6361N  
NS Package Number N08E  
10-Pin Ceramic Flatpak  
Order Number LM6161W/883  
NS Package Number W10A  
www.national.com  
10  
Notes  
LIFE SUPPORT POLICY  
NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT  
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL  
COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein:  
1. Life support devices or systems are devices or  
systems which, (a) are intended for surgical implant  
into the body, or (b) support or sustain life, and  
whose 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.  
National Semiconductor  
Corporation  
Americas  
Tel: 1-800-272-9959  
Fax: 1-800-737-7018  
Email: support@nsc.com  
National Semiconductor  
Europe  
National Semiconductor  
Asia Pacific Customer  
Response Group  
Tel: 65-2544466  
Fax: 65-2504466  
National Semiconductor  
Japan Ltd.  
Tel: 81-3-5639-7560  
Fax: 81-3-5639-7507  
Fax: +49 (0) 1 80-530 85 86  
Email: europe.support@nsc.com  
Deutsch Tel: +49 (0) 1 80-530 85 85  
English Tel: +49 (0) 1 80-532 78 32  
Français Tel: +49 (0) 1 80-532 93 58  
Italiano Tel: +49 (0) 1 80-534 16 80  
Email: sea.support@nsc.com  
www.national.com  
National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.  

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