RM4136D/883 [ETC]
Voltage-Feedback Operational Amplifier ; 电压反馈运算放大器\n型号: | RM4136D/883 |
厂家: | ETC |
描述: | Voltage-Feedback Operational Amplifier
|
文件: | 总18页 (文件大小:121K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
www.fairchildsemi.com
RC4 1 3 6
Ge n e ra l P e rfo rm a n c e Qu a d 7 4 1
Op e ra t io n a l Am p lifie r
Features
• Large common mode and differential voltage ranges
• Low power consumption
• Unity gain bandwidth – 3 MHz
• Short circuit protection
• Parameter tracking over temperature range
• Gain and phase match between amplifiers
• No frequency compensation required
• No latch-up
Description
The RC4136 is made up of four 741 type independent high
gain operational amplifiers internally compensated and con-
structed on a single silicon chip using the planar epitaxial
process.
of the RC4136 quad amplifier in all 741 operational ampli-
fier applications providing the highest possible packaging
density.
The specially designed low noise input transistors allow the
RC4136 to be used in low noise signal processing applica-
tions such as audio preamplifiers and signal conditioners.
This amplifier meets or exceeds all specifications for 741
type amplifiers. Excellent channel separation allows the use
Block Diagram
Pin Assignments
1
2
3
4
5
6
7
14
13
12
11
10
9
–Input (A)
+Input (A)
Output (A)
Output (B)
+Input (B)
–Input (B)
–Input (D)
+Input (D)
Output (D)
–Input (A)
+Input (A)
Output (A)
–Input (D)
+Input (D)
Output (D)
A
D
C
+
+
+
+V
S
Output (C)
+Input (C)
–Input (C)
Output (B)
+Input (B)
–Input (B)
Output (C)
+Input (C)
–Input (C)
8
–V
S
+
65-4136-02
B
65-4136-01
Rev. 1.0.0
PRODUCT SPECIFICATION
RC4136
Absolute Maximum Ratings
(beyond which the device may be damaged)
1
Parameter
Min
Typ
Max
±18
±22
±30
30
Units
Supply Voltage
RC4136
RM4136
V
V
V
V
Input Voltage2
Differential Input Voltage
Output Short Circuit Duration3
Indefinite
P T < 50°C
SOIC
300
468
1042
70
mW
mW
mW
°C
D A
PDIP
CerDIP
RC4136
RM4136
Operating Temperature
0
-55
-65
125
150
125
175
300
260
°C
Storage Temperature
Junction Temperature
°C
SOIC, PDIP
CerDIP
DIP
°C
°C
Lead Soldering Temperature
(60 seconds)
°C
SOIC
°C
Notes:
1. Functional operation under any of these conditions is NOT implied. Performance and reliability are guaranteed only if
Operating Conditions are not exceeded.
2. For supply voltages less than ±15V, the absolute maximum input voltage is equal to the supply voltage.
3. Short circuit may be to ground, typically 45 mA.
Operating Conditions
Parameter
Min
Typ
60
Max
Units
°C/W
°C/W
°C/W
°C/W
mW/°C
q
JC
q
JA
Thermal resistance
Thermal resistance
SOIC
PDIP
200
160
120
5.0
CerDIP
SOIC
For T > 50°C Derate at
A
2
RC4136
PRODUCT SPECIFICATION
Electrical Characteristics
(V = ±15V and T = +25˚C, unless otherwise noted)
S
A
RM4136
Typ
0.5
RC4136
Parameters
Test Conditions
£ 10kW
Min
Max
5.0
Min
Typ
0.5
Max Units
Input Offset Voltage
Input Offset Current
Input Bias Current
Input Resistance
R
S
6.0
200
500
mV
nA
5.0
200
500
5.0
40
40
nA
0.3
50
5.0
0.3
20
5.0
MW
V/mV
V
Large Signal Voltage Gain R ³ 2kW, V
OUT
= ±10V
300
±14
±13
±14
100
300
±14
±13
±14
100
L
Output Voltage Swing
R ³ 10kW
L
±12
±10
±12
70
±12
±10
±12
70
R ³ 2kW
L
Input Voltage Range
V
Common Mode Rejection
Ratio
R
R
£ 10kW
£ 10kW
dB
S
Power Supply Rejection
Ratio
76
100
210
76
100
210
dB
S
Power Consumption
Transient Response
Rise Time
R = ¥ , All Outputs
L
340
340
mW
V
IN
= 20mV, R = 2kW
0.13
5.0
3.0
1.5
90
0.13
5.0
3.0
1.0
90
mS
%
L
Overshoot
C £ 100pF
L
Unity Gain Bandwidth
Slew Rate
MHz
V/mS
dB
R ³ 2kW
L
Channel Separation
F = 1.0kHz, R =1kW
S
Electrical Characteristics
(RM = -55°C £ T £ = 125°, RC = 0°C £ T £ = 70°, V = ± 15V)
A
A
S
RM4136
Typ
RC4136
Typ Max Units
Parameters
Test Conditions
Min
Max
6.0
Min
Input Offset Voltage
Input Offset Current
Input Bias Current
R
S
£ 10kW
7.5
300
800
mV
nA
500
1500
nA
Large Signal Voltage Gain R ³ 2kW, V
OUT
= ±10V
25
15
V/mV
V
L
Output Voltage Swing
Power Consumption
R ³ 2kW
L
±10
±10
240
400
240
400
mW
3
PRODUCT SPECIFICATION
RC4136
Electrical Characteristics Comparison
(V = ±15V and T +25˚C unless otherwise noted)
S
A
Parameter
RC4136 (Typ.)
RC741 (Typ.)
LM324 (Typ.)
Units
Input Offset Voltage
Input Offset Current
Input Bias Current
Input Resistance
0.5
5.0
2.0
10
2.0
5.0
55
mV
nA
40
80
nA
5.0
2.0
MW
V/mV
V
Large Signal Voltage Gain (R = 2kW)
300
±13V
200
±13V
100
L
Output Voltage Swing (R = 2kW)
|+V – 1.2V| to
S
L
–V
S
Input Voltage Range
±14V
±13V
|+V – 1.5V| to
V
S
–V
S
Common Mode Rejection Ratio
Power Supply Rejection Ratio
Transient Response
Rise Time
100
100
90
90
85
dB
dB
100
0.13
5.0
3.0
1.0
10
0.3
5.0
mS
%
Overshoot
Unity Gain Bandwidth
Slew Rate
0.8
0.8
0.5
MHz
V/mS
nV/ÖHz
mA
0.5
Input Noise Voltage Density (F= 1kHz)
Short Circuit Current
22.5
±25
±45
4
RC4136
PRODUCT SPECIFICATION
Typical Performance Characteristics
25
20
15
10
5
100
80
60
40
20
0
VS
=
15V
VS
=
15V
0
0
+10 +20 +30 +40 +50 +60 +70
0
+10 +20 +30 +40 +50 +60 +70
TA (¡C)
TA (¡C)
Figure 1. Input Bias Current vs. Temperature
Figure 2. Input Offset Current vs. Temperature
15
15
TA = +25 C
10
10
5
T A= +25 C
5
0
0
-5
-5
-10
-10
-15
W
RL = 2 k
-15
±4
±6
±8
±10 ±12 ±14 ±16 ±18
±4
±6
±8
±10 ±12 ±14 ±16 ±18
±VS (V)
+VS/-VS (V)
Figure 3. Input Common Mode Voltage Range
vs. Supply Voltage
Figure 4. Output Voltage vs. Supply Voltage
800K
600K
400K
200K
0
240
VS
=
15V
VS
= 15V
220
200
180
160
RL = 2 k W
0
+70
+10 +20 +30 +40 +50 +60
0
+10 +20 +30 +40 +50 +60 +70
TA (¡C)
TA (¡C)
Figure 5. Open Loop Gain vs. Temperature
Figure 6. Power Consumption vs. Temperature
5
PRODUCT SPECIFICATION
RC4136
Typical Performance Characteristics (continued)
120
100
80
60
40
20
0
40
36
32
28
24
20
16
12
8
VS
= 15V
TA = +25 C
RL = 2 kW
4
0
100
-20
1K
10K
100K
1M
1
10 100
1K 10K 100K 1M 10M
F (Hz)
F (Hz)
Figure 7. Open Loop Gain vs. Frequency
Figure 8. Output Voltage Swing vs. Frequency
10
28
26
24
22
20
18
16
14
12
10
8
TA = +25¡C
VS
=
15V
TA = +25 C
8
6
4
2
0
0
±3
±6
±9
±12
±15
±18
0.1
1.0
10
+VS/-VS (V)
RL (kW)
Figure 9. Output Voltage Swing vs. Load Resistance
Figure 10. Quiescent Current vs. Supply Voltage
28
24
20
16
10
8
VS
=
15V
6
4
TA = +25 C
Output
2
VS
=
15V
90%
0
12
8
TA = +25 C
RL = 2 k
CL = 100 pF
-2
-4
-6
-8
-10
W
Input
4
10% Rise Time
0
0
0.25 0.50
0.75
1.00 1.25
0
10
20
30
40
Time (µS)
Time (µS)
Figure 11. Follower Large Signal Pulse Response
Figure 12. Transient Response Output Voltage vs. Time
6
RC4136
PRODUCT SPECIFICATION
Typical Performance Characteristics (continued)
140
VOUT = 1 VRMS
0.6
0.5
0.4
0.3
0.2
0.1
0
120
100
80
60
40
20
0
VS
=
30V
VS
=
15V
TA = +25 C
10
100
1K
F (Hz)
Figure 14. Total Harmonic Distortion vs. Frequency
10K
100K
10
100
1K
10K
100K
F (Hz)
Figure 13. Channel Separation vs. Frequency
0.6
0.5
0.4
0.3
0.2
0.1
0
VS
R L = 2K
A V = 40 dB
f = 1 kHz
RS = 1k W
=
15V
4
1
2
3
6
7
8
9
10
5
VOUT (VRMS
)
Figure 15. Total Harmonic Distortion vs. Output Voltage
7
PRODUCT SPECIFICATION
RC4136
RC4136 Versus LM324
Although the LM324 is an excellent device for single-supply
applications where ground sensing is important, it is a poor
substitute for four 741s in split supply circuits. The simpli-
fied input circuit of the RC4136 exhibits much lower noise
than that of the LM324 and exhibits no crossover distortion
as compared with the LM324 (see Figure 16). The LM324
shows significant crossover distortion and pulse delay in
attempting to handle a large signal input pulse.
324
4136
F = 10 kHz
VOUT = 8 VP-P
F = 50 kHz
VOUT = 8 VP-P
RL = 2 kW
A V = 1
VS
= 5V
65-4136-18
Figure 16. Comparative Crossover Distortion
40
36
32
28
24
20
16
12
8
120
100
80
60
40
20
0
VS
=
15V
4136
741
TA = +25 C
RL = 2 k
W
4136
741
324
4
0
100
-20
1
10
100
1K 10K 100K 1M 10M
1K
100K
1M
10K
F (Hz)
F (Hz)
Figure 17. Output Voltage Swing vs. Frequency
Figure 18. Open Loop Gain vs. Frequency
8
RC4136
PRODUCT SPECIFICATION
RC4136 Versus LM324 (continued)
+8
+6
16
14
12
10
8
V
=
10V
s
RL = 2 k W
0 C = TA < +70
C
+4
+2
0
4136
Outputs
Input
741
324
4136
-2
-4
-6
-8
6
4
2
0
0
30
40
60
80
±5
±20
±10
±15
+VS/-VS (V)
Time (µS)
Figure 19. Follower Large Signal Pulse Response
Output Voltage vs. Time
Figure 20. Input Common Mode Voltage Range
vs. Supply Voltage
Typical Applications
+V
s
910K
+V
s
+V
s
1
2
1
2
3
100W
4136A
3
100K
4136A
VOUT
91K
5K
100K
A
= 10
V
65-0520
65-0523
+VIN
Figure 21. Lamp Driver
Figure 22. Power Amplifier
VIN
2
3
1
VOUT
4136A
10K
1
3
4136A
VOUT
2
+VREF
VIN
10M
65-0519
65-0522
Figure 23. Voltage Follower
Figure 24. Comparator with Hysteresis
9
PRODUCT SPECIFICATION
RC4136
Typical Applications (continued)
+V
s
0.01µF
VIN
100K
1
16K
VOUT
0.001µF
16K
1
2
3
4136A
V
oUT
3
2
+V
s
4136A
0.01µF
100K
100K
100K
100K
1
0
100K
65-0527
65-0521
Figure 25. DC Coupled 1kHz Lowpass Active Filter
Figure 26. Squarewave Oscillator
0.01 µF
VIN
390K
120K
V
oUT
+V
s
390K
1
0.01 µF
620W
+V
s
39K
3
6
620K
4136A
2
4
4136B
5
10 µF
100K
100K
+V
s
65-0526
Figure 27. 1kHz Bandpass Active Filter
1M
100K
1
+V
s
+V
s
1
2
10K
3
VIN
+V
VIN
4136A
3
V
4136A
oUT
100K
2
V
s
oUT
10K
100K
100K
+V
s
0.1 µF
10K
10 µF
100K
100K
10K
10 µF
65-0525
65-0524
Figure 28. AC Coupled Non-Inverting Amplifier
Figure 29. AC Coupled Inverting Amplifier
10
RC4136
PRODUCT SPECIFICATION
Typical Applications (continued)
0.05 µF
100K
R
100K
1
2
51K
6
5
3
+VC*
4136A
51K
4
4136B
Output 1
Output 2
V+/210K
R/2
50K
51K
10K
65-0528
* Wide control voltage range: 0V < V < 2(+V -1.5V)
c
s
Figure 30. Voltage Control Oscillator (VCO)
2.5K
Cal
20K
1%
20K
1%
DC
Output
20K
1%
20K
1%
4.7 µF
AC
Input
10K
1%
4.7 µF
4.7 µF
D1
FD666
D2
FD666
1
2
6
5
4
4136A
4136B
3
5.1K
10K
65-0531
Figure 31. Full-Wave Rectifier and Averaging Filter
R2
30K
R1
30K
10K
1
2
3
741
Output
4136A
4136B
Input
Trim R, such that
1K
100
10
R3
15K
R1
R2
R3
2R4
=
6
5
C1
4
R4
7.5K
R4
7.5K
0.0001
0.001
0.001
0.01
1.0
C2
1 µF
65-0529
Center Frequency (Hz)
Figure 32. Notch Filter Using the RC4136 as a Gyrator
Figure 33. Notch Frequency vs. C1
11
PRODUCT SPECIFICATION
RC4136
Typical Applications (continued)
2
1
VIN
V4
3
VIN < V4
4136A
4136B
Q1
5
6
4
V3 < VIN < V4
V3
V2
V1
Q2
9
8
10
V2 < VIN < V3
4136C
Q3
13
14
12
4136D
VIN < V1
65-0532
Figure 34. Multiple Aperture Window Discriminator
R6*
100K
0.1%
R2
10K
0.1%
2
1
(-)
3
4136A
R1
5
6
45K
1%
4
VOUT
4136B
R3
10K
1%
R1 = R4
R2 = R5
R6 = R7
Inputs
R4
45K
1%
* Matching determines CMRR
8
9
R6
R2
2R1
R3
10
A
=
( 1 +
)
v
4136C
(+)
R5*
10K
0.1%
R7*
100K
0.1%
65-0533
Figure 35. Differential Input Instrumentation Amplifier with High Common Mode Rejection
12
RC4136
PRODUCT SPECIFICATION
Typical Applications (continued)
+15V
10K
10K
D4
IN457
10K
Q1*
VIN1
10K
1
2
1K
6
5
3
4136A
4
4136B
D1
1N457
(VIN1) (VIN2)
=
V
oUT
10K
VIN
3
10K
Q4*
Q3*
1K
Q2*
10K
2
VIN 10K
14
13
8
V
IN3
10
12
4136D
4136C
9
1K
D2
1N457
D3
1N457
10K
10K
65-0534
*Matched Transistors
Figure 36. Analog Multiplier/Divider
DC-1HzN
Out
3.3M
49.9K
0.082
µF
100K
100K
49.9W
49.9W
1.0 µF
2
1
DUT
3
4136A
499K
60 dB Wideband
Amplifier
Compensate
as Required
499K
78.7K
10 µF
1 Hz
499W
1 µF
1000 µF
0.1 µF
0.01 µF
1 kHz
10 µF
3.16K 1 Hz
10K
3.16K
1 Hz
499K
6
1 µF
0.1 µF
0.01 µF
Spot Noise
Out
499W
8
9
31.6K
10
4
4136C
4136B
5
100K
1 kHz
1mV = 1nV/ Hz
RMS
499K
Selectable Frequency
Constant Q Filter
1 kHz
Stepped 10 dB
Attenuator
65-0535
Figure 37. Spot Noise Measurement Test Circuit
13
RC4136
PRODUCT SPECIFICATION
Simplified Schematic Diagram
+V
s
(11)
R1
8.7K
Q10
Q5
Q6
Q14
(1,6,8,14)
Q13
-Input
R6
50
Q2
Q1
R8
100
Output
(3,4,10,12)
Q12
+Input
(2,5,9,13)
D1
R5
50K
R7
50
Q7
Q15
Q8
15 pF
Q9
Q3
Q4
Q11
Z1
5.5V
R9
15K
R4
50K
R3
5K
R2
5K
C1
30 pF
-V
s
(7)
65-0495
14
RC4136
PRODUCT SPECIFICATION
Mechanical Dimensions
14-Lead Ceramic DIP Package
Notes:
Inches
Millimeters
Min. Max.
Symbol
Notes
1. Index area: a notch or a pin one identification mark shall be located
adjacent to pin one. The manufacturer's identification shall not be
used as pin one identification mark.
Min.
Max.
A
—
.200
.023
.065
.015
.785
.310
—
.36
1.14
.20
—
5.08
.58
2. The minimum limit for dimension "b2" may be .023 (.58mm) for leads
number 1, 7, 8 and 14 only.
b1
b2
c1
D
.014
.045
.008
—
8
2
1.65
.38
3. Dimension "Q" shall be measured from the seating plane to the base
plane.
8
4
19.94
7.87
4. This dimension allows for off-center lid, meniscus and glass overrun.
E
.220
5.59
4
5. The basic pin spacing is .100 (2.54mm) between centerlines. Each
pin centerline shall be located within ±.010 (.25mm) of its exact
longitudinal position relative to pins 1 and 14.
5, 9
7
e
.100 BSC
.300 BSC
2.54 BSC
7.62 BSC
eA
L
.125
.200
.060
—
3.18
5.08
1.52
—
6. Applies to all four corners (leads number 1, 7, 8, and 14).
Q
s1
a
.015
.005
90¡
.38
.13
90¡
3
6
7. "eA" shall be measured at the center of the lead bends or at the
centerline of the leads when "a" is 90¡.
105¡
105¡
8. All leads – Increase maximum limit by .003 (.08mm) measured at the
center of the flat, when lead finish applied.
9. Twelve spaces.
D
1
7
8
NOTE 1
E
14
s1
eA
e
A
Q
c1
a
L
b1
15
PRODUCT SPECIFICATION
RC4136
Mechanical Dimensions (continued)
14-Lead Plastic DIP Package
Notes:
Inches
Millimeters
Min. Max.
Symbol
Notes
1. Dimensioning and tolerancing per ANSI Y14.5M-1982.
Min.
Max.
2. "D" and "E1" do not include mold flashing. Mold flash or protrusions
shall not exceed .010 inch (0.25mm).
A
—
.210
—
—
.38
5.33
—
A1
A2
B
.015
.115
.014
.045
.008
.725
.005
.300
.240
3. Terminal numbers are shown for reference only.
4. "C" dimension does not include solder finish thickness.
5. Symbol "N" is the maximum number of terminals.
2.93
.36
.195
.022
.070
.015
.795
—
4.95
.56
B1
C
1.14
.20
1.78
.38
4
2
D
18.42
.13
20.19
—
D1
E
.325
.280
7.62
6.10
8.26
7.11
E1
e
2
5
.100 BSC
2.54 BSC
eB
L
—
.430
.200
—
10.92
5.08
.115
2.92
N
14
14
D
1
7
E1
D1
8
14
E
e
A
A1
C
L
eB
B1
B
16
RC4136
PRODUCT SPECIFICATION
Mechanical Dimensions (continued)
14-Lead SOIC Package
Notes:
Inches
Millimeters
Symbol
Notes
1. Dimensioning and tolerancing per ANSI Y14.5M-1982.
Min.
Max.
Min.
Max.
2. "D" and "E" do not include mold flash. Mold flash or protrusions
shall not exceed .010 inch (0.25mm).
A
.053
.004
.013
.008
.336
.150
.069
.010
.020
.010
.345
.158
1.35
0.10
0.33
0.19
8.54
3.81
1.75
0.25
0.51
0.25
8.76
4.01
A1
B
3. "L" is the length of terminal for soldering to a substrate.
4. Terminal numbers are shown for reference only.
5. "C" dimension does not include solder finish thickness.
6. Symbol "N" is the maximum number of terminals.
C
D
E
5
2
2
e
.050 BSC
1.27 BSC
H
h
.228
.010
.016
.244
.020
.050
5.79
0.25
0.40
6.20
0.50
1.27
L
3
6
N
a
14
14
0¡
8¡
0¡
8¡
ccc
—
.004
—
0.10
14
8
E
H
1
7
h x 45¡
D
C
A1
A
a
SEATING
PLANE
– C –
L
e
B
LEAD COPLANARITY
ccc C
17
PRODUCT SPECIFICATION
RC4136
Ordering Information
Product Number
RC4136N
Temperature Range
Screening
Commercial
Commercial
Package
Package Marking
0° to 70°C
0° to 70°C
14 Pin Plastic DIP
14 Pin Narrow SOIC
14 Pin Ceramic DIP
14 Pin Ceramic DIP
RC4136N
RC4136M
RC4136M
RM4136D
RM4136D/8831
-55°C to +125°C
-55°C to +125°C
Military
Note:
1. /883 denotes MIL-STD-883, Par. 1.2.1 compliant device.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES
OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD 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 (c) 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 of the
user.
2. A critical component in 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.
www.fairchildsemi.com
5/20/98 0.0m 001
Stock#DS30004136
Ó 1998 Fairchild Semiconductor Corporation
相关型号:
RM4136D/883B
Operational Amplifier, 4 Func, 6000uV Offset-Max, BIPolar, CDIP14, CERAMIC, DIP-14
FAIRCHILD
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