MC33077DR2G Datasheet MC33077DR2G, MC33077DG, MC33077P | P4-P6

MC33077

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4

AC ELECTRICAL CHARACTERISTICS (V

CC

= +15 V, V

EE

= −15 V, T

A

= 25°C, unless otherwise noted.)

Characteristics

Symbol Min Typ Max Unit

Slew Rate (V

in

= −10 V to +10 V, R

L

= 2.0 k, C

L

= 100 pF, A

V

= +1.0) SR 8.0 11 − V/s

Gain Bandwidth Product (f = 100 kHz) GBW 25 37 − MHz

AC Voltage Gain (R

L

= 2.0 k, V

O

= 0 V)

f = 100 kHz

f = 20 kHz

A

VO

−

370

1850

−

V/V

Unity Gain Bandwidth (Open Loop) BW − 7.5 − MHz

Gain Margin (R

L

= 2.0 k, C

L

= 10 pF) A

m

− 10 − dB

Phase Margin (R

L

= 2.0 k, C

L

= 10 pF) ∅

m

− 55 −

Deg

Channel Separation (f = 20 Hz to 20 kHz, R

L

= 2.0 k, V

O

= 10 V

pp

) CS − −120 − dB

Power Bandwidth (V

O

= 27

p−p

, R

L

= 2.0 k, THD ≤ 1%) BW

p

− 200 − kHz

Distortion (R

L

= 2.0 k

A

V

= +1.0, f = 20 Hz to 20 kHz

V

O

= 3.0 V

RMS

A

V

= 2000, f = 20 kHz

V

O

= 2.0 V

pp

V

O

= 10 V

pp

A

V

= 4000, f = 100 kHz

V

O

= 2.0 V

pp

V

O

= 10 V

pp

THD

−

0.007

0.215

0.242

0.3.19

0.316

−

%

Open Loop Output Impedance (V

O

= 0 V, f = f

U

) |Z

O

| − 36 − 

Differential Input Resistance (V

CM

= 0 V) R

in

− 270 − k

Differential Input Capacitance (V

CM

= 0 V) C

in

− 15 − pF

Equivalent Input Noise Voltage (R

S

= 100 )

f = 10 Hz

f = 1.0 kHz

e

n

−

6.7

4.4

−

nV/ Hz√

Equivalent Input Noise Current (f = 1.0 kHz)

f = 10 Hz

f = 1.0 kHz

i

n

−

1.3

0.6

−

pA/ Hz√

P

D(MAX)

, MAXIMUM POWER DISSIPATION (mW)

Figure 2. Maximum Power Dissipation

versus Temperature

Figure 3. Input Bias Current

versus Supply Voltage

T

A

, AMBIENT TEMPERATURE (°C)

MC33077P

MC33077D

V

CC

, |V

EE

|, SUPPLY VOLTAGE (V)

, INPUT BIAS CURRENT (nA)I

IB

V

CM

= 0 V

T

A

= 25°C

2400

2000

1600

1200

800

400

0

800

600

400

200

0

−60 −40 −20 0 20 40 60 80 100 120 140 160 180

0 2.5 5.0 7.5 10 12.5 15 17.5 20

MC33077

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5

Figure 4. Input Bias Current

versus Temperature

Figure 5. Input Offset Voltage

versus Temperature

Figure 6. Input Bias Current versus

Common Mode Voltage

Figure 7. Input Common Mode Voltage Range

versus Temperature

Figure 8. Output Saturation Voltage versus

Load Resistance to Ground

Figure 9. Output Short Circuit Current

versus Temperature

T

A

, AMBIENT TEMPERATURE (°C)

V

CC

= +15 V

V

EE

= −15 V

V

CM

= 0 V

, INPUT BIAS CURRENT (nA)I

IB

V, INPUT OFFSET VOLTAGE (mV)

IO

T

A

, AMBIENT TEMPERATURE (°C)

V

CC

= +15 V

V

EE

= −15 V

R

S

= 10 

V

CM

= 0 V

A

V

= +1.0

V

CM

, COMMON MODE VOLTAGE (V)

, INPUT BIAS CURRENT (nA)I

IB

V

CC

= +15 V

V

EE

= −15 V

T

A

= 25°C

T

A

, AMBIENT TEMPERATURE (°C)

Input

Voltage

Range

V

CC

= +3.0 V to +15 V

V

EE

= −3.0 V to −15 V

 V

IO

= 5.0 mV

V

O

= 0 V

+V

CM

−V

CM

V

ICR

, INPUT COMMON MODE VOTAGE RANGE (V)

R

L

, LOAD RESISTANCE TO GROUND (k)

V , OUTPUT SATURATION VOLTAGE (V)

sat

V

CC

= +15 V

V

EE

= −15 V

125°C

25°C

−55°C

125°C

25°C

−55°C

Sink

Source

T

A

, AMBIENT TEMPERATURE (°C)

|I|, OUTPUT SHORT CIRCUIT CURRENT (mA)

SC

V

CC

= +15 V

V

EE

= −15 V

V

ID

= ±1.0 V

R

L

< 100 

1000

800

600

400

200

0

1.0

0.5

0

−0.5

−1.0

600

500

400

300

200

100

0

V

CC

0.0

V

CC

−0.5

V

CC

−1.0

V

CC

−1.5

V

EE

+1.5

V

EE

+1.0

V

EE

+0.5

V

EE

+0.0

V

CC

0

V

CC

−2

V

CC

−4

V

EE

+4

V

EE

+2

V

EE

0

50

40

30

20

10

−55 −25 0 25 50 75 100 125 −55 −25 0 25 50 75 100 125

−15 −10 −5.0 0 5.0 10 15

−55 −25 0 25 50 75 100 125

0 0.5 1.0 1.5 2.0 2.5 3.0 −55 −25 0 25 50 75 100 125

MC33077

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6

Figure 10. Supply Current

versus Temperature

Figure 11. Common Mode Rejection

versus Frequency

Figure 12. Power Supply Rejection

versus Frequency

Figure 13. Gain Bandwidth Product

versus Supply Voltage

Figure 14. Gain Bandwidth Product

versus Temperature

Figure 15. Maximum Output Voltage

versus Supply Voltage

±15 V

I, SUPPLY CURRENT (mA)

CC

T

A

, AMBIENT TEMPERATURE (°C)

±5.0 V

V

CM

= 0 V

R

L

= ∞

V

O

= 0 V

CMR, COMMON MODE REJECTION (dB)

f, FREQUENCY (Hz)

V

CC

= +15 V

V

EE

= −15 V

V

CM

= 0 V

 V

CM

= ±1.5 V

T

A

= 25°C

f, FREQUENCY (Hz)

PSR, POWER SUPPLY REJECTION (dB)

−PSR

+PSR

+PSR = 20Log

V

O

/A

DM

 V

CC

−PSR = 20Log

V

O

/A

DM

 V

EE

R

L

= 10 k

C

L

= 0 pF

f = 100 kHz

T

A

= 25°C

GBW, GAIN BANDWIDTH PRODUCT (MHz)

V

CC

, |V

EE

|, SUPPLY VOLTAGE (V)

T

A

, AMBIENT TEMPERATURE (°C)

GBW, GAIN BANDWIDTH PRODUCT (MHz)

V

CC

= +15 V

V

EE

= −15 V

f = 100 kHz

R

L

= 10 k

C

L

= 0 pF

V

p

+

V

p

−

V

CC

, |V

EE

|, SUPPLY VOLTAGE (V)

V

O

,OUTPUT VOLTAGE (V )

p

R

L

= 10 k

R

L

= 10 k

R

L

= 2.0 k

R

L

= 2.0 k

T

A

= 25°C

5.0

4.0

3.0

2.0

1.0

0

120

100

80

60

40

20

0

120

100

80

60

40

20

0

48

44

40

36

32

28

24

50

46

42

38

34

30

26

20

15

10

5.0

0

−5.0

−10

−15

−20

−55 −25 0 25 50 75 100 125

100 1.0 k 10 k 100 k 1.0 M 10 M

100 1.0 k 10 k 100 k 1.0 M 0 5 10 15 20

−55 −25 0 25 50 75 100 125

0 5.0 10 15 20

CMR = 20Log

−

+

A

DM

 V

CM

 V

O

 V

O

 V

CM

× A

DM

V

CC

= +15 V

V

EE

= −15 V

T

A

= 25°C

−

+

 V

O

A

DM

V

EE

V

CC

MC33077DR2G

MC33077DR2G

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