Datasheet NE4558D, NE4558N, SA4558D, SA4558FE, SA4558N Datasheet (Philips)

Philips Semiconductors Linear Products Product specification

NE/SA/SE4558Dual general-purpose operational amplifier

65

August 31, 1994 853-0840 13721

DESCRIPTION

The 4558 is a dual operational amplifier that is internally
compensated. Excellent channel separation allows the use of a dual
device in a single amp application, providing the highest packaging
density. The NE/SA/SE4558 is a pin-for-pin replacement for the
RC/RM/RV4558.

FEATURES

•2MHz unity gain bandwidth guaranteed

•Supply voltage ±22V for SE4558 and ±18V for NE4558

•Short-circuit protection

•No frequency compensation required

•No latch-up

•Large common-mode and differential voltage ranges

•Low power consumption

PIN CONFIGURATIONS

D and N Packages

1

2

3

4 5

6

7

8

– +

+

–

A

B

V+

B

OUT

A

OUT

A

IN–

A

IN+

V–

B

IN–

B

IN+

ORDERING INFORMATION

DESCRIPTION TEMPERATURE RANGE ORDER CODE DWG #

8-Pin Plastic Small Outline (SO) Package 0 to +70°C NE4558D 0174C
8-Pin Plastic Dual In-Line Package (DIP) 0 to +70°C NE4558N 0404B
8-Pin Plastic Dual In-Line Package (DIP) -40 to +85°C SA4558N 0404B
8-Pin Plastic Dual In-Line Package (DIP) -40 to +85°C SA4558D 0404B
8-Pin Plastic Dual In-Line Package (DIP) -55 to +125°C SE4558N 0404B

EQUIVALENT SCHEMATIC

8

v

+

2(6)

–

INPUTS

3(5)

+

4

V

–

OUYPUT 1(7)

Philips Semiconductors Linear Products Product specification

NE/SA/SE4558Dual general-purpose operational amplifier

August 31, 1994

66

ABSOLUTE MAXIMUM RATINGS

SYMBOL PARAMETER RATING UNIT

V

CC

Supply voltage

SE4558 ±22 V
NE4558, SA4558 ±18 V

P

D MAX

Maximum power dissipation,

TA=25°C (Still air)

1

N package 1160 mW
D package 780 mW

Differential input voltage ±30 V

V

IN

Input voltage

2

±15 V

T

STG

Storage temperature range -65 to +150 °C

T

A

Operating ambient temperature range

SE4558 -55 to +125 °C
SA4558 -40 to +85 °C
NE4558 0 to +70 °C

T

SOLD

Lead soldering temperature (10sec max) 300 °C
Output short-circuit duration

3

Indefinite

NOTES:

1. Derate above 25°C at the following rates:
N package at 9.3mW/°C
D package at 6.2mW/°C

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 amp only. Rating applies to +125°C case temperature or +75°C ambient temperature for NE4558 and

to +85°C ambient temperature for SA4558.

DC ELECTRICAL CHARACTERISTICS

VCC=+15V, TA= 25°C unless otherwise specified.

SE4558 SA/NE4558

SYMBOL

PARAMETER

TEST CONDITIONS

Min Typ Max Min Typ Max

UNIT

V

OS

Input offset voltage RS≤10kΩ 1.0 5.0 2.0 6.0 mV
∆VOS/∆T Over temp. 4 4 µV/°C

I

OS

Input offset current 50 200 30 200 nA
∆IOS/∆T Over temp. 20 20 pA/°C

I

BIAS

Input bias current 40 500 200 500 nA
∆IB/∆T Over temp. 40 40 pA/°C

R

IN

Input resistance 0.3 1.0 0.3 1.0 MΩ

A

V

Large-signal voltage gain

RL≥2kΩ

V

OUT

=±10V

50,000300,0

00

20,000300,0

00

V/V

Output voltage swing

RL≥10kΩ

R

L

≥2kΩ

±12
±10

±14
±13

±12
±10

±14
±13

V
V

V

IN

Input voltage range ±12 ±13 ±12 ±13 V
CMRR Common-mode rejection ratio RS≤10kΩ 70 100 70 100 dB
PSRR Power supply rejection ratio RS≤10kΩ 10 150 10 150 µV/V
I

SC

Short-circuit current 5 25 60 5 25 60 mA

Power consumption (all amplifiers) RL=∞ 120 170 120 170 mW

Philips Semiconductors Linear Products Product specification

NE/SA/SE4558Dual general-purpose operational amplifier

August 31, 1994

67

DC ELECTRICAL CHARACTERISTICS (Continued)

SE4558 SA/NE4558

SYMBOL

PARAMETER

TEST CONDITIONS

Min Typ Max Min Typ Max

UNIT

t

Transient response (unity gain)

VIN=20mV

R

L

=2kΩ

C

L

≤100pF

t

R

Rise time 100 100 ns

Overshoot 15.0 15.0 %
SR Slew rate (unity gain) RL≥2kΩ 1.0 1.0 V/µs

Channel separation (gain=100)

f=10kHz
R

S

=1kΩ

90 90 dB

GBW Unity gain bandwidth (gain=1) 2.0 3.0 2.0 3.0 MHz

θ

M

Phase margin 45 45

De-

gree

V

NOISE

Input noise voltage f=1kΩ 25 25

nV/√H

z

NOTE: The following specifications apply over operating temperature range.
V

OS

Input offset voltage RS≤10kΩ 6.0 7.5 mV
I

OS

Input offset current 500 300/500

1

nA

I

BIAS

Input bias current 1500

800/1500

1

nA

A

V

Large-signal voltage gain

RL≥2kΩ

V

OUT

=±10V

25,000 15,000 V/V

Output voltage swing RL≥2kΩ ±10 ±10 V
P

C

Power consumption

TA=HIGH

T

A

=LOW

105
125

150
200

115
120

150
200

mW
mW

NOTES:

1. SA4558 only.

Philips Semiconductors Linear Products Product specification

NE/SA/SE4558Dual general-purpose operational amplifier

August 31, 1994

68

TYPICAL PERFORMANCE CURVES

100

80

60

40

20

0

0 10 20 30 40 50 60 70

TEMPERATURE (

o

C)

INPUT BIAS CURRENT ( A)

µ

VS = + 15V

25

20

15

10

5

0

0 10 20 30 40 50 60 70

TEMPERATURE (oC)

INPUT offset current ( A)

µ

TA = 25oC

–15

–10

–5

0

5

10

15

4 6 8 10 12 14 16 18

SUPPLY VOLTAGE (V)

COMMON MODE

VOLTAGE RANGE (V)

TA = 25oC

15

10

5

0

–5

–10

–15

4 6 8 10 12 14 16 18

RL = 2KΩ

SUPPLY VOLTAGE (V)

OUTPUT SWING (V)

VS = + 15V

800K

600K

400K

200K

0K

0 10 20 30 40 50 60 70

RL = 2KΩ

VS = + 15V

TEMPERATURE (

o

C)

VOLTAGE GAIN

POWER CONSUMPTION (mV)

0 10 20 30 40 50 60 70

TEMPERATURE (

o

C)

140

130

120

110

100

90

80

120
100

80
60

40
20

0

–20

1 10 100 1K 10K 100K1K 10M

FREQUENCY (Hz)

VOLTAGE GAIN (dB)

28
26
24
22
20
18

16
14
12
10

8

0.1 0.2 0.5 1.0 2.0 5.0 10

LOAD RESISTANCE (KΩ))

PEAK TO PEAK

OUTPUT SWING (V)

VS = + 15V

TA = 25oC

40
36
32

28
24
20
18
12

8
4

0

PEAK TO PEAK

OUTPUT SWING (V)

100 1K 10K 100K 1M

FREQUENCY (Hz)

VS = + 15V
TA = 25oC

RL = 25KΩ

Input Bias as a

Function of Ambient

Temperature

Input Offset Current as

as a Function of Ambient

Temperature

Common–Mode Range as

a Function of Supply

Voltage

Open–Loop Voltage Gain

as a Function of

Frequency

Open–Loop Gain as a

Function of

Temperature

Power Consumption as

a Function of Ambient

Temperature

Typical Output Voltage

as a Function of

Supply Voltage

Output Voltage Swing

as a Function of

Load Resistance)

Output Voltage Swing

as a Function of

Frequency

VS = + 15V

Philips Semiconductors Linear Products Product specification

NE/SA/SE4558Dual general-purpose operational amplifier

August 31, 1994

69

TYPICAL PERFORMANCE CURVES (Continued)

VS = + 15V

TA = 25oC

6

5

4
3

2

1

0

0 3 6 9 12 15 18

SUPPLY VOLTAGE (V)

TA = 25oC

QUIESCENT CURRENT (mA)

100

10

1

0.1
1 10 100 1K

FREQUENCY (Hz)

10K 100K

NOISE CURRENT (PA Hz)

√

RS = 100K
A

V

= 60dB

V

S

= + 15V

T = 25

o

C

NOISE CURRENT (nV Hz)

√

1000

100

10

1

1 10 100 1K

FREQUENCY (Hz)

10K 100K

RS = 50Ω
A

V

= 60dB

V

S

= + 15V

TA = 25oC

90%

10% RISE TIME

28
24
20

16
12

8
4

0

OUTPUT (mV)

0 .25 .50 .75 1.0 1.25

TIME (µS)

RS = 2KΩ
C

L

= 100pF

V

S

= + 15V

T

A

= 25oC

10

8
6
4

2

0
–2
–4
–6
–8

–10

0 5 10 20

TIME (µS)

OUTPUT VOLTAGE

30 40

140
120
100

80
60
40
20

0

10 100 1K 10K

FREQUENCY (Hz)

100k

CHANNEL SEPARATION (dB)

VS = +
15V
T

A

= 25oC

6

5

4
3
2
1

0

1 2 3 4 5 6 7 8 9 10

V

O

OUTPUT VOLTAGE (V

RMS

)

TOTAL HARMONIC DISTROTION

ON (2) 1kHz (%)

VS = +
15V
R

L

= 2KΩ

A

V

= 40dB
= 1kHz
R

S

= 1KΩ

V

10S

= +30V

RIAA COMPENSATION

7
6

5
4
3
2
1

0

0 100 1K 10K 100K

FREQUENCY (Hz)

TOTAL HARMONIC DISTORATION (%)

Quiescent Current as a

Function of

Supply Voltage

Transient Response

Voltage–Follower

Large–Signal Pulse

Response

Input Noise Voltage as a Function

of Frequency

Input Noise Current as a Function

of Frequency

Channel Separation

Total Harmonic Distortion vs

Output Voltage

Distortion vs Frequency

V

O

= 1V

RMS