NCV7101SN2T1G Datasheet NCV7101SN1T1G, NCS7101SN1T1G, NCS7101SN2T1G | P4-P6

NCS7101, NCV7101

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4

DC ELECTRICAL CHARACTERISTICS (continued)

(V

CC

= 2.5 V, V

EE

= −2.5 V, V

CM

= V

O

= 0, R

L

to GND, T

A

= 25°C, unless otherwise noted.)

Characteristics UnitMaxTypMinSymbol

Power Supply Rejection Ratio

V

CC

/V

EE

= 10 V/Ground, DV

S

= 2.5 V

PSRR 65 − − dB

Output Short Circuit Current (V

in

Diff = "1.0 V)

V

CC

= +0.9 V, V

EE

= −0.9 V

Source

Sink

V

CC

= +2.5 V, V

EE

= −2.5 V

Source

Sink

V

CC

= 5.0 V, V

EE

= −5.0 V

Source

Sink

I

SC

−

20

−60

50

−140

3.0

−3.0

25

−25

72

−72

−

60

−20

140

−50

mA

Power Supply Current (V

O

= 0 V)

V

CC

= +0.9 V, V

EE

= −0.9 V

T

A

= 25°C

T

A

= −40°C to 85°C

T

A

= −40°C to 125°C

V

CC

= +2.5 V, V

EE

= −2.5 V

T

A

= 25°C

T

A

= −40°C to 85°C

T

A

= −40°C to 125°C

V

CC

= 5.0 V, V

EE

= −5.0 V

T

A

= 25°C

T

A

= −40°C to 85°C

T

A

= −40°C to 125°C

I

D

−

0.97

−

1.05

−

1.13

−

1.20

1.30

1.60

1.30

1.40

1.70

1.40

1.50

1.80

mA

AC ELECTRICAL CHARACTERISTICS

(V

CC

= 2.5 V, V

EE

= −2.5 V, V

CM

= V

O

= 0, R

L

to GND, T

A

= 25°C, unless otherwise noted.)

Characteristics

Symbol Min Typ Max Unit

Slew Rate (V

O

= −2.0 to 2.0 V, R

L

= 2.0 kW, A

V

= 1.0)

SR 0.7 1.2 3.0

V/ms

Gain Bandwidth Product (V

CC

= 10 V) GBW 0.5 1.0 3.0 MHz

Gain Margin (R

L

= 10 k, C

L

= 5.0 pF) Am − 6.5 − dB

Phase Margin (R

L

= 10 k, C

L

= 5.0 pF) φm − 60 − Deg

Power Bandwidth (V

O

= 4.0 Vpp, R

L

= 2.0 kW, THD v 1.0%)

BW

P

− 130 − kHz

Total Harmonic Distortion (V

O

= 4.0 Vpp, R

L

= 2.0 kW, A

V

= 1.0)

f = 1.0 kHz

f = 10 kHz

THD

−

0.02

0.2

−

%

Differential Input Resistance (V

CM

= 0 V) R

in

− u1.0 −

tera W

Differential Input Capacitance (V

CM

= 0 V) C

in

− 2.0 − pF

Equivalent Input Noise Voltage (Freq = 1.0 kHz) e

n

− 140 − nV/√Hz

NCS7101, NCV7101

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5

t, time (1.0 ms/Div)t, time (500 ns/Div)

T

A

, AMBIENT TEMPERATURE (°C)

Figure 2. Output Saturation Voltage versus

Load Resistance

Figure 3. Output Saturation Voltage versus

Load Current

Figure 4. Input Bias Current versus

Temperature

Figure 5. Gain and Phase versus Frequency

Figure 6. Transient Response

Figure 7. Slew Rate

0

100 1.0 k 10 k 100 k 1.0 M

R

L

, LOAD RESISTANCE (W)

400

800

1200

−1200

−800

−400

0

High State Output

Sourcing Current

Low State Output

Sinking Current

V

S

= ±2.5 V

R

L

= to GND

T

A

= 25°C

0

0 2.0 8.0 10 12

I

L

, LOAD CURRENT (mA)

0.4

0.8

1.2

−1.2

−0.8

−0.4

0

High State Output

Sourcing Current

Low State Output

Sinking Current

V

S

= ±2.5 V

R

L

= to GND

T

A

= 25°C

4.0 6.0

V

sat

, OUTPUT SATURATION VOLTAGE (V)

I

IB

, INPUT CURRENT (pA)

1000

10

0.1

0

0 25 50 75 100 125

1.0

V

S

= ±2.5 V

R

L

= ∞

C

L

= 0

A

V

= 1.0

500 mV/div

50 mV/div

V

EE

V

CC

V

sat

, OUTPUT SATURATION VOLTAGE (mV)

V

EE

V

CC

100

V

S

= ±2.5 V

V

O

= 4.0 V

PP

R

L

= 10 k

C

L

= 10 pF

A

V

= 1.0

T

A

= 25°C

V

S

= ±2.5 V

V

O

= 4.0 V

PP

R

L

= 10 k

C

L

= 10 pF

A

V

= 1.0

T

A

= 25°C

f, FREQUENCY (Hz)

A

VOL

, GAIN (dB)

100

60

20

0

10 100

40

V

S

= ±5.0 V

R

L

= 100 k

T

A

= 25°C

80

1.0 1.0 k 10 k 100 k 1.0 M 10 M

f, EXCESS PHASE (°)

−180

−140

−100

−60

−20

0

PHASE

GAIN

NCS7101, NCV7101

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6

2.0

8.0

10 k

6.0

100 k1.0 k 1.0 M

4.0

0

R

L

= 10 k

A

V

= 1.0

T

A

= 25°C

14

Figure 8. Output Voltage versus Frequency

V

out

, OUTPUT VOLTAGE (V

PP

)

f, FREQUENCY (Hz)

10

12

V

S

= ±5.0 V

V

S

= ±2.5 V

V

S

= ±0.9 V

Figure 9. Common Mode Rejection versus

Frequency

Figure 10. Power Supply Rejection versus

Frequency

f, FREQUENCY (Hz)

10 100 1.0 k 10 k 10 M

CMR, COMMON MODE REJECTION (dB)

−10

0

10

100

100 k 1.0 M

20

30

40

50

60

70

80

90

V

S

= ±2.5 V

R

L

= ∞

T

A

= 25°C

A

V

= 1.0

f, FREQUENCY (Hz)

10 100 1.0 k 10 k 10 M

PSR, POWER SUPPLY REJECTION (dB)

−10

0

10

100

100 k 1.0 M

20

30

40

50

60

70

80

90

V

S

= ±2.5 V

R

L

= ∞

T

A

= 25°C

A

V

= 1.0

PSR+

PSR−

0

V

S

, SUPPLY VOLTAGE (V)

Figure 11. Output Short Circuit Sinking

Current versus Supply Voltage

|I

SC

|

,

OUTPUT SHORT CIRCUIT CURRENT (mA)

140

120

100

80

60

40

20

0

−40°C

85°C

25°C

Output Pulsed Test

at 3% Duty Cycle

±1.0 ±2.0 ±3.0 ±4.0 ±5.0

Figure 12. Output Short Circuit Sourcing

Current versus Supply Voltage

0

V

S

, SUPPLY VOLTAGE (V)

|I

SC

|

,

OUTPUT SHORT CIRCUIT CURRENT (mA)

140

120

100

80

60

40

20

0

−40°C

85°C

25°C

Output Pulsed Test

at 3% Duty Cycle

±1.0 ±2.0 ±3.0 ±4.0 ±5.0

V

S

, SUPPLY VOLTAGE (V)

Figure 13. Supply Current versus Supply

Voltage with No Load

0 ±1.0 ±2.0 ±3.0 ±4.0 ±5.0

R

L

= ∞

A

V

= 1.0

V

in

= 0 V

|I

D

|

,

SUPPLY CURRENT (mA)

1.2

1.0

0.8

0.6

0.4

0.2

0

−40°C

85°C

25°C

1.4

NCV7101SN2T1G

NCV7101SN2T1G

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