ETC RM4558D/883B

www.fairchildsemi.com
RC4558
Dual High-Gain Operational Amplifier
Features
• 2.5 MHz unity gain bandwidth
• Supply voltage ±22V for RM4558 and ±18V for
RC/RV4558
• Short-circuit protection
• No frequency compensation required
•
•
•
•
•
No latch-up
Large common-mode and differential voltage ranges
Low power consumption
Parameter tracking over temperature range
Gain and phase match between amplifiers
Description
The RC4558 integrated circuit is a dual high-gain operational amplifier internally compensated and constructed on a
single silicon IC using an advanced epitaxial process.
Combining the features of the 741 with the close parameter
matching and tracking of a dual device on a monolithic chip
results in unique performance characteristics. Excellent
channel separation allows the use of this dual device in dense
single 741 operational amplifier applications. It is especially
well suited for applications in differential-in, differential-out
as well as in potentiometric amplifiers and where gain and
phase matched channels are mandatory.
Block Diagram
Output (A)
–Input (A)
–Input (A)
Output (B)
_
A
+
B
_
–Input (B)
+
+Input (B)
65-4558-01
Rev. 1.0.0
PRODUCT SPECIFICATION
RC4558
Pin Assignments
+VS
8
Output (A)
–Input (A)
1
1
8
+VS
–Input (A)
2
7
Output (B)
+Input (A)
3
6
–Input (B)
–VS
4
5
+Input (B)
Output (B)
7
6
2
+Input (A)
Output (A)
–Input (B)
5
3
+Input (B)
4
–VS
65-3473-03
65-3473-02
Absolute Maximum Ratings
(beyond which the device may be damaged)1
Parameter
Min
Supply Voltage
Input
Max
Units
RM4558
Typ
±22
V
RC4558
±18
Voltage2
Differential Input Voltage
PDTA < 50°C
Junction Temperature
Lead Soldering Temperature
Output Short Circuit
V
30
V
mW
SOIC
300
PDIP
468
CerDIP
833
TO-99
658
SOIC, PDIP
125
CerDIP, TO-99
Operating Temperature
±15
175
RM4558
-55
125
RC4558
0
70
PDIP, CerDIP, TO-99 (60 sec)
300
SOIC (10 sec)
260
Duration3
°C
°C
°C
Indefinite
Notes:
1. Functional operation under any of these conditions is NOT implied.
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 on one op amp only. Rating applies to +75°C ambient temperature.
Matching Characteristics
(VS = ±15V, TA = +25°C unless otherwise specified)
Parameter
2
Test Conditions
Typ
Units
Voltage Gain
RL ³ 2 kW
±1.0
dB
Input Bias Current
RL ³ 2 kW
±15
nA
Input Offset Current
RL ³ 2 kW
±7.5
nA
RC4558
PRODUCT SPECIFICATION
Electrical Characteristics
(VS = ±15V and TA = +25°C unless otherwise specified)
RM4558
Parameters
Test Conditions
Input Offset Voltage
RS £ 10kW
RC4558
Typ
Max
1.0
Input Offset Current
Input Bias Current
Input Resistance
Min
Min
Typ
Max Units
5.0
2.0
6.0
mV
5.0
200
5.0
200
nA
40
500
40
500
nA
0.3
1.0
0.3
1.0
MW
Large Signal Voltage Gain
RL ³ 2kW, VOUT = ±10V
50
300
20
300
V/mV
Output Voltage Swing
RL ³ 10kW
±12
±14
±12
±14
V
RL ³ 2kW
±10
±13
±10
±13
V
±12
±13
±12
±13
V
Input Voltage Range
Common Mode Rejection Ratio
RS £ 10kW
70
100
70
100
dB
Power Supply Rejection Ratio
RS £ 10kW
76
100
76
100
dB
Power Consumption
RL = ¥
Transient Response
VIN = 20 mV
Rise Time
RL = 2kW
Overshoot
100
170
100
0.3
170
mW
mS
0.3
CL £ 100pF
35
35
%
Slew Rate
RL ³ 2kW
0.8
0.8
V/mS
Channel Separation
F = 10kHz, RS = 1kW
90
90
dB
3.0
MHz
Unity Gain Bandwidth (Gain = 1)
2.5
3.0
2.0
The following specifications apply for RM = -55°C £ TA £ +125°C, RC = 0° £ TA £ +70°C
RM4558
Parameters
Test Conditions
Input Offset Voltage
RS £ 10kW
Min
Typ
RC4558
Max
Max
Units
6.0
Min
Typ
7.5
mV
500
300
nA
Input Offset Current
RC4558
Input bias Current
RC4558
1500
800
nA
Large Signal Voltage Gain
RL ³ 2kW, VOUT = ±10
25
15
V/mV
Output Voltage Swing
RL ³ 2kW
±10
±10
V
Power Consumption
RL = ¥
120
200
120
200
mW
3
PRODUCT SPECIFICATION
RC4558
Typical Performance Characteristics
25
100
VS =
20
15V
60
40
15V
10
65-0211
0
+10
+20
+30
+40
+50
+60
65-0212
5
20
0
VS =
15
IOS (nA)
IB (nA)
80
0
0
+70
+10
+20
+30
+50
+60
+70
TA (¡C)
TA (¡C)
Figure 1. Input Bias Current vs. Temperature
Figure 2. Input Offset Current vs. Temperature
15
120
10
100
T A = +25 C
80
AVOL (dB)
5
VCM (V)
+40
0
-5
60
40
0
65-0213
-15
±4
±6
±8
±10
±12
±14
±16
65-0214
20
-10
-20
±18
1
10
100
±VS (V)
1K
10K 100K
1M
10M
F (Hz)
Figure 3. Input Common Mode Voltage Range
vs. Supply Voltage
Figure 4. Open Loop Voltage Gain vs. Frequency
800K
140
VS =
15V
VS =
15V
120
400K
PC (mV)
AVOL (V/mV)
600K
RL = 2 k W
100
80
0
0
+10
+20
+30
+40
+50
+60
+70
TA (¡C)
Figure 5. Open Loop Voltage Gain vs. Temperature
4
65 0216
65-0215
200K
60
0
+10
+20
+30
+40
+50
+60
TA (¡C)
Figure 6. Power Consumption vs. Temperature
+70
RC4558
PRODUCT SPECIFICATION
Typical Performance Characteristics (continued)
T A = +25 C
10
VOUT P-P (V)
5
0
-5
RL = 2 k W
-10
-15
±4
±6
65-0217
VOUT (V)
28
26
24
22
20
18
16
14
12
10
8
0.1
±8
±10
±12
±14
±16
±18
VS = 15V
TA = +25 C
65-0218
15
1.0
RL (kW)
+VS/-VS (V)
Figure 8. Output Voltage Swing vs. Load Resistance
5
4
IQ (mA)
VS = 15V
T A = +25 C
RL = 2 k W
1K
10K
100K
3
T A = +25 C
2
65-0220
1
65-0219
VOUT P-P (V)
Figure 7. Output Voltage Swing vs. Supply Voltage
40
36
32
28
24
20
16
12
8
4
0
100
0
1M
±3
0
±6
F (Hz)
24
VS = 15V
T A = +25 C
RL = 2 k W
C L = 100 pF
4
10% Rise Time
0
0
VOUT (V)
16
0.25
0.50
65-0221
VOUT (mV)
20
8
0.75
1.00
Time (µS)
Figure 11. Transient Response Output
Voltage vs. Time
±15
±18
Figure 10. Quiescent Current vs. Supply Voltage
28
90%
±9
±12
+VS/-VS (V)
1.25
10
8
6
4
2
0
-2
-4
-6
-8
-10
VS = 15V
TA = +25 C
Output
Input
65-0222
Figure 9. Output Voltage Swing vs. Freqeuncy
12
10
0
10
20
30
Time (µS)
40
Figure 12. Follower Large Signal Pulse Response
Output Voltage vs. Time
5
PRODUCT SPECIFICATION
RC4558
Typical Performance Characteristics (continued)
1000
0
0.1
1
10
100
1K
10K
VS = 15V
T A = +25 C
R S = 50 W
A V = 60 dB
100
10
65-0224
10
en (nV/ Hz)
VS = 15V
T A = +25 C
R S = 50 W
A V = 60 dB
65-0223
IN (pA/ Hz)
100
1
100K
0
10
100
1K
10K
100K
F (Hz)
F (Hz)
Figure 13. Input Noise Current Density vs. Frequency
Figure 14. Input Noise Voltage Density vs. Frequency
140
0.6
120
0.5
THD (%)
80
60
0.3
0.2
40
VS = 15V
TA = +25 C
100
0.1
65-0225
0
10
0.4
1K
10K
65 0226
CS (dB)
100
20
VS = 15V
R L = 2K
A V = 40 dB
f = 1 kHz
RS = 1k W
0
1
100K
2
4
3
Figure 15. Channel Separation vs. Frequency
7
8
9
10
Figure 16. Total Harmonic Distortion vs Output Voltage
VOUT = 1 VRMS
VS = 30V
0.6
0.5
THD (%)
6
VOUT (V RMS )
F (Hz)
0.4
0.3
65-0227
0.2
0.1
0
10
100
1K
10K
F (Hz)
Figure 17. Distortion vs. Frequency
6
5
100K
RC4558
PRODUCT SPECIFICATION
Typical Applications
+VS
+VS
2
8
4558A
3
2
1
4558A
4
5K
VOUT
3
VIN
100 W
1
65-0229
65-0228
Figure 18. Voltage Follower
Figure 19. Lamp Driver
910K
+VS
2
100K
3
1
4558A
91K
2
-VIN
VOUT
100K
10K
+VREF
VIN
3
4558A
A V = 10
VOUT
10M
65-0230
65-0231
Figure 20. Power Amplifier
Figure 21. Comparator With Hysteresis
0.01µF
16K
VOUT
V IN
100K
VOUT
0.001µF
16K
+VS
2
4558A
3
+VS
1
2
1
1
0
0.01µF
4558A
1
3
100K
4
100K
100K
100K
100K
65-0232
Figure 22. Squarewave Oscillator
65-0233
Figure 23. DC Coupled 1kHz Low-Pass Active Filter
7
PRODUCT SPECIFICATION
RC4558
Typical Applications (continued)
1M
VOUT
2
3
VIN
100K
+VS
8
+VS
1
4558A
10K
VIN
2
4
1M
100K
+VS
100K
10K
0.1µF
4
10 mF
10K
100K
VOUT
4
100K
+VS
10µF
1
4558A
3
100K
65-0234
65-0236
Figure 24. AC Coupled Non-Inverting Amplifier
VIN
Figure 25. AC Coupled Inverting Amplifier
0.01µF
390K
120K
390K
+VS
-VS
2
620½
VOUT
0.01 µF
1
4558A
3
39K
6
4
8
4558B
5
7
4
10µF
620K
100K
100K
+VS
65-0235
Figure 26. 1kHz Bandpass Active Filter
0.05 µF
100K
100K
+VC*
2
51K
4558A
1
51K
6
3
5
R/2
50K
51K
4558B
7
VOUT 1
+VS /2
VOUT 2
10K
* Wide control voltage range: 0V < VS < 2(+VS – 1.5VS)
Figure 27. Voltage Controlled Oscillator (VCO)
8
65-0237
RC4558
PRODUCT SPECIFICATION
Simplified Schematic Diagram
+VS
(8)
R1
8.7K
Q5
Q6
Q10
Q14
(2,6)
Q2
-Input
R6
27
Q13
Q1
Output
(1,7)
120
Q12
+Input
D1
(3,5)
R7
27
R5
50K
C2
15 pF
Q3
Q15
Q7
Q8
Q9
Q11
Q4
5.8K
R2
5K
C1
15 pF
R3
5K
D2
R4
50K
-VS
(4)
65-0208
9
PRODUCT SPECIFICATION
RC4558
Ordering Information
Product Number
Temperature Range
Screening
Package
RC4558M
0° to 70°C
Commercial
8 Pin Wide SOIC
RC4558N
0° to 70°C
Commercial
8 Pin Plastic DIP
RM4558D
0° to 70°C
Commercial
8 Pin Ceramic DIP
-55°C to +125°C
Military
8 Pin Ceramic DIP
RM4558D/883B
Note:
1. /883B suffix 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#DS30004558
Ó 1998 Fairchild Semiconductor Corporation