NSC LM3086N

LM3045/LM3046/LM3086 Transistor Arrays
General Description
Features
The LM3045, LM3046 and LM3086 each consist of five
general purpose silicon NPN transistors on a common
monolithic substrate. Two of the transistors are internally
connected to form a differentially-connected pair. The transistors are well suited to a wide variety of applications in low
power system in the DC through VHF range. They may be
used as discrete transistors in conventional circuits however, in addition, they provide the very significant inherent integrated circuit advantages of close electrical and thermal
matching. The LM3045 is supplied in a 14-lead cavity dualin-line package rated for operation over the full military temperature range. The LM3046 and LM3086 are electrically
identical to the LM3045 but are supplied in a 14-lead molded dual-in-line package for applications requiring only a limited temperature range.
Y
Y
Y
Y
Y
Y
Two matched pairs of transistors
VBE matched g 5 mV
Input offset current 2 mA max at IC e 1 mA
Five general purpose monolithic transistors
Operation from DC to 120 MHz
Wide operating current range
Low noise figure
3.2 dB typ at 1 kHz
Full military
b 55§ C to a 125§ C
temperature range (LM3045)
Applications
Y
Y
Y
General use in all types of signal processing systems
operating anywhere in the frequency range from DC to
VHF
Custom designed differential amplifiers
Temperature compensated amplifiers
Schematic and Connection Diagram
Dual-In-Line and Small Outline Packages
TL/H/7950 – 1
Top View
Order Number LM3045J, LM3046M, LM3046N or LM3086N
See NS Package Number J14A, M14A or N14A
C1995 National Semiconductor Corporation
TL/H/7950
RRD-B30M115/Printed in U. S. A.
LM3045/LM3046/LM3086 Transistor Arrays
December 1994
Absolute Maximum Ratings (TA e 25§ C)
If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
LM3045
LM3046/LM3086
Each
Total
Each
Total
Units
Transistor
Package
Transistor
Package
Power Dissipation:
TA e 25§ C
300
750
300
750
mW
TA e 25§ C to 55§ C
300
750
mW
TA l 55§ C
Derate at 6.67
mW/§ C
TA e 25§ C to 75§ C
300
750
mW
TA l 75§ C
Derate at 8
mW/§ C
Collector to Emitter Voltage, VCEO
15
15
V
Collector to Base Voltage, VCBO
20
20
V
Collector to Substrate Voltage, VCIO (Note 1)
20
20
V
5
5
V
Emitter to Base Voltage, VEBO
50
50
mA
Collector Current, IC
b 55§ C to a 125§ C
b 40§ C to a 85§ C
Operating Temperature Range
b 65§ C to a 150§ C
b 65§ C to a 85§ C
Storage Temperature Range
Soldering Information
Dual-In-Line Package Soldering (10 Sec.)
260§ C
260§ C
Small Outline Package
Vapor Phase (60 Seconds)
215§ C
Infrared (15 Seconds)
220§ C
See AN-450 ‘‘Surface Mounting Methods and Their Effect on Product Reliability’’ for other methods of soldering surface mount
devices.
Electrical Characteristics (TA e 25§ C unless otherwise specified)
Parameter
Conditions
Limits
Limits
LM3045, LM3046
LM3086
Min
Typ
Max
Min
Typ
Units
Max
Collector to Base Breakdown Voltage (V(BR)CBO)
IC e 10 mA, IE e 0
20
60
20
60
V
Collector to Emitter Breakdown Voltage (V(BR)CEO)
IC e 1 mA, IB e 0
15
24
15
24
V
Collector to Substrate Breakdown
Voltage (V(BR)CIO)
IC e 10 mA, ICI e 0
20
60
20
60
V
Emitter to Base Breakdown Voltage (V(BR)EBO)
IE 10 mA, IC e 0
5
Collector Cutoff Current (ICBO)
VCB e 10V, IE e 0
VCE e 10V, IB e 0
Collector Cutoff Current (ICEO)
Static Forward Current Transfer
Ratio (Static Beta) (hFE)
VCE e 3V
Ð
IC e 10 mA
IC e 1 mA
IC e 10 mA
Input Offset Current for Matched
Pair Q1 and Q2 lIO1 b IIO2l
VCE e 3V, IC e 1 mA
Base to Emitter Voltage (VBE)
VCE e 3V
I e 1 mA
Ð IEE e 10 mA
Magnitude of Input Offset Voltage for
Differential Pair lVBE1 b VBE2l
VCE e 3V, IC e 1 mA
Magnitude of Input Offset Voltage for Isolated
Transistors lVBE3 b VBE4l, lVBE4 b VBE5l,
lVBE5 b VBE3l
VCE e 3V, IC e 1 mA
Temperature Coefficient of Base to
Emitter Voltage DVBE
DT
Collector to Emitter Saturation Voltage (VCE(SAT))
VCE e 3V, IC e 1 mA
#
J
Temperature Coefficient of
Input Offset Voltage DV10
DT
#
J
IB e 1 mA, IC e 10 mA
7
0.002
5
40
7
0.002
0.5
100
40
nA
5
mA
100
100
40
54
0.3
V
100
100
54
2
mA
0.715
0.715
0.800
0.800
V
0.45
5
mV
0.45
5
mV
b 1.9
b 1.9
mV/§ C
0.23
0.23
V
VCE e 3V, IC e 1 mA
1.1
mV/§ C
Note 1: The collector of each transistor of the LM3045, LM3046, and LM3086 is isolated from the substrate by an integral diode. The substrate (terminal 13) must
be connected to the most negative point in the external circuit to maintain isolation between transistors and to provide for normal transistor action.
2
Electrical Characteristics (Continued)
Parameter
Low Frequency Noise Figure (NF)
Conditions
Min
f e 1 kHz, VCE e 3V,
IC e 100 mA, RS e 1 kX
Typ
Max
3.25
Units
dB
LOW FREQUENCY, SMALL SIGNAL EQUIVALENT CIRCUIT CHARACTERISTICS
Forward Current Transfer Ratio (hfe)
f e 1 kHz, VCE e 3V,
IC e 1 mA
110 (LM3045, LM3046)
(LM3086)
Short Circuit Input Impednace (hie)
3.5
kX
Open Circuit Output Impedance (hoe)
15.6
mmho
1.8 x 10b4
Open Circuit Reverse Voltage Transfer Ratio (hre)
ADMITTANCE CHARACTERISTICS
Forward Transfer Admittance (Yfe)
Input Admittance (Yie)
f e 1 MHz, VCE e 3V,
IC e 1 mA
31 b j 1.5
0.3 a J 0.04
Output Admittance (Yoe)
0.001 a j 0.03
Reverse Transfer Admittance (Yre)
See Curve
Gain Bandwidth Product (fT)
VCE e 3V, IC e 3 mA
300
Emitter to Base Capacitance (CEB)
VEB e 3V, IE e 0
550
0.6
pF
Collector to Base Capacitance (CCB)
VCB e 3V, IC e 0
0.58
pF
Collector to Substrate Capacitance (CCI)
VCS e 3V, IC e 0
2.8
pF
Typical Performance Characteristics
Typical Collector To Base
Cutoff Current vs Ambient
Temperature for Each
Transistor
Typical Collector To Emitter
Cutoff Current vs Ambient
Temperature for Each
Transistor
Typical Static Forward
Current-Transfer Ratio and
Beta Ratio for Transistors Q1
and Q2 vs Emitter Current
TL/H/7950 – 2
Typical Static Base To Emitter
Voltage Characteristic and Input
Offset Voltage for Differential
Pair and Paired Isolated
Transistors vs Emitter Current
Typical Input Offset Current
for Matched Transistor Pair
Q1 Q2 vs Collector Current
TL/H/7950 – 3
3
Typical Performance Characteristics
Typical Base To Emitter
Voltage Characteristic for
Each Transistor vs Ambient
Temperature
(Continued)
Typical Input Offset Voltage
Characteristics for Differential
Pair and Paired Isolated
Transistors vs Ambient
Temperature
Typical Noise Figure vs
Collector Current
Typical Noise Figure vs
Collector Current
Typical Normalized Forward
Current Transfer Ratio, Short
Circuit Input Impedance,
Open Circuit Output Impedance,
and Open Circuit Reverse
Voltage Transfer Ratio vs
Collector Current
TL/H/7950 – 4
Typical Noise Figure vs
Collector Current
TL/H/7950 – 5
Typical Forward Transfer
Admittance vs Frequency
Typical Input Admittance
vs Frequency
Typical Output Admittance
vs Frequency
TL/H/7950 – 6
4
Typical Performance Characteristics
Typical Reverse Transfer
Admittance vs Frequency
(Continued)
Typical Gain-Bandwidth
Product vs Collector Current
TL/H/7950 – 7
Physical Dimensions inches (millimeters)
Ceramic Dual-In-Line Package (J)
Order Number LM3045J
NS Package Number J14A
5
LM3045/LM3046/LM3086 Transistor Arrays
Physical Dimensions inches (millimeters) (Continued)
Molded Small Outline Package (M)
Order Number LM3046M
NS Package Number M14A
Molded Dual-In-Line Package (N)
Order Number LM3046N or LM3086N
NS Package Number N14A
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