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PDF ( 数据手册 , 数据表 ) NCV33074A

零件编号 NCV33074A
描述 Single Supply 3.0 V to 44 V Operational Amplifiers
制造商 ON Semiconductor
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NCV33074A 数据手册, 描述, 功能
MC34071,2,4,A
MC33071,2,4,A,
NCV33072,4,A
Single Supply 3.0 V to 44 V
Operational Amplifiers
Quality bipolar fabrication with innovative design concepts are
employed for the MC33071/72/74, MC34071/72/74, NCV33072/74A
series of monolithic operational amplifiers. This series of operational
amplifiers offer 4.5 MHz of gain bandwidth product, 13 V/ms slew rate
and fast settling time without the use of JFET device technology.
Although this series can be operated from split supplies, it is
particularly suited for single supply operation, since the common
mode input voltage range includes ground potential (VEE). With a
Darlington input stage, this series exhibits high input resistance, low
input offset voltage and high gain. The all NPN output stage,
characterized by no deadband crossover distortion and large output
voltage swing, provides high capacitance drive capability, excellent
phase and gain margins, low open loop high frequency output
impedance and symmetrical source/sink AC frequency response.
The MC33071/72/74, MC34071/72/74, NCV33072/74,A series of
devices are available in standard or prime performance (A Suffix)
grades and are specified over the commercial, industrial/vehicular or
military temperature ranges. The complete series of single, dual and
quad operational amplifiers are available in plastic DIP, SOIC, QFN
and TSSOP surface mount packages.
Features
Wide Bandwidth: 4.5 MHz
High Slew Rate: 13 V/ms
Fast Settling Time: 1.1 ms to 0.1%
Wide Single Supply Operation: 3.0 V to 44 V
Wide Input Common Mode Voltage Range: Includes Ground (VEE)
Low Input Offset Voltage: 3.0 mV Maximum (A Suffix)
Large Output Voltage Swing: −14.7 V to +14 V (with ±15 V
Supplies)
Large Capacitance Drive Capability: 0 pF to 10,000 pF
Low Total Harmonic Distortion: 0.02%
Excellent Phase Margin: 60°
Excellent Gain Margin: 12 dB
Output Short Circuit Protection
ESD Diodes/Clamps Provide Input Protection for Dual and Quad
NCV Prefix for Automotive and Other Applications Requiring
Unique Site and Control Change Requirements; AEC−Q100
Qualified and PPAP Capable
These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS
Compliant
http://onsemi.com
8
1
8
1
PDIP−8
P SUFFIX
CASE 626
SOIC−8
D SUFFIX
CASE 751
WQFN10
MT SUFFIX
CASE 510AJ
14
1
14
1
PDIP−14
P SUFFIX
CASE 646
SOIC−14
D SUFFIX
CASE 751A
14
1
TSSOP−14
DTB SUFFIX
CASE 948G
ORDERING INFORMATION
See detailed ordering and shipping information on page 18 of
this data sheet.
DEVICE MARKING INFORMATION
See general marking information in the device marking
section on page 21 of this data sheet.
© Semiconductor Components Industries, LLC, 2014
July, 2014 − Rev. 22
1
Publication Order Number:
MC34071/D







NCV33074A pdf, 数据表
MC34071,2,4,A MC33071,2,4,A, NCV33072,4,A
0.4
0.3
0.2
0.1
0
10
AV = 1000
AV = 100
VCC = +15 V
VEE = -15 V
VO = 2.0 Vpp
RL = 2.0 k
TA = 25°C
AV = 10
100 1.0 k
f, FREQUENCY (Hz)
AV = 1.0
10 k 100 k
Figure 16. Total Harmonic Distortion
versus Frequency
4.0
3.0 AV = 1000
VCC = +15 V
VEE = -15 V
RL = 2.0 k
TA = 25°C
2.0
1.0
0
0
AV = 100
AV = 10
AV = 1.0
4.0 8.0 12 16
VO, OUTPUT VOLTAGE SWING (Vpp)
20
Figure 17. Total Harmonic Distortion
versus Output Voltage Swing
116
112 VCC = +15 V
VEE = -15 V
VO= -10 V to +10 V
108 RL = 10 k
f 10Hz
104
100
96
-55
-25 0 25 50 75 100
TA, AMBIENT TEMPERATURE (°C)
Figure 18. Open Loop Voltage Gain
versus Temperature
125
100
0
80
Gain
Phase
60
40
VCC = +15 V
VEE = -15 V
20 VO = 0 V
RL = 2.0 k
TA = 25°C
0
1.0 10 100 1.0 k 10 k
100 k
1.0 M
45
Phase
Margin 90
= 60°
135
180
10 M 100 M
f, FREQUENCY (Hz)
Figure 19. Open Loop Voltage Gain and
Phase versus Frequency
20
1 Phase
100
10 Margin = 60°
Gain 120
0 Margin = 12 dB
140
-10
1. Phase RL = 2.0 k
-20
2. Phase RL = 2.0 k, CL = 300 pF
3. Gain RL = 2.0 k
4. Gain RL = 2.0 k, CL = 300 pF
-30 VCC = +15 V
VEE = 15 V
-40 VO = 0 V     TA = 25°C
1.0 2.0 3.0 5.0
7.0
2
10
160
3
180
4
20 30
f, FREQUENCY (MHz)
Figure 20. Open Loop Voltage Gain and
Phase versus Frequency
1.15
VCC = +15 V
1.1 VEE = -15 V
RL = 2.0 k
1.05
1.0
0.95
0.9
0.85
-55
-25
0
25 50 75 100 125
TA, AMBIENT TEMPERATURE (°C)
Figure 21. Normalized Gain Bandwidth
Product versus Temperature
http://onsemi.com
8







NCV33074A equivalent, schematic
MC34071,2,4,A MC33071,2,4,A, NCV33072,4,A
GENERAL ADDITIONAL APPLICATIONS INFORMATION VS = ±15.0 V
C2
0.02
R1
560
C1
0.44
Ǹ2
R2 =
4pfoC2
R2
R3 5.6 k
510
-
MC34071
+
fo = 1.0 kHz
Ho = 10
Choose: fo, Ho, C2
Then: C1 = 2C2 (Ho+1)
R2
R3 = Ho+1
R2
R1 = Ho
Figure 56. Second Order Low−Pass Active Filter
C2
0.05
C1
1.0
C1
1.0
R2
1.1 k
R1
46.1 k
-
MC34071
+
fo = 100 Hz
Ho = 20
Choose: fo, Ho, C1
Then: R1 =
Ho+0.5
pfoC1 Ǹ2
Ǹ2
R2 =
2pfoC1 (1/Ho+2)
C
C2 =
Ho
Figure 57. Second Order High−Pass Active Filter
CF*
RF
2.0 k
VO = 10 V
Step
-
MC34071
+
I
Uncompensated
High Speed
DAC
Compensated
*Optional Compensation
VO
ts = 1.0 ms
to 1/2 LSB (8-Bits)
ts = 2.2 ms
to 1/2 LSB (12-Bits)
SR = 13 V/ms
Figure 58. Fast Settling Inverter
R1
Vin
+
MC34071
-
R2
VO
RL
VO
Vin
=
R2
R1
BW (-3.0 dB) = GBW
R1
R1 +R2
SR = 13 V/ms
Figure 59. Basic Inverting Amplifier
+
MC34071
-
VO
Vin
R2
RL
R1
VO = 1 + R2
Vin R1
BW (-3.0 dB) = GBW R1
R1 +R2
Figure 60. Basic Noninverting Amplifier
Vin +
MC34071
-
VO
BWp = 200 kHz
VO = 20 Vpp
SR = 10 V/ms
Figure 61. Unity Gain Buffer (AV = +1.0)
http://onsemi.com
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