NCS2535DTBG Datasheet NCS2535DTBR2G, NCS2535DTBG | P7-P9

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DC ELECTRICAL CHARACTERISTICS (V

CC

= +2.5 V, V

EE

= −2.5 V, T

A

= −40°C to +85°C, R

L

= 150 W to GND, R

F

= 330 W,

A

V

= +2.0, Enable is left open, unless otherwise specified).

Symbol Characteristic Conditions Min Typ Max Unit

DC PERFORMANCE

V

IO

Input Offset Voltage −10 0 +10 mV

DV

IO

/DT

Input Offset Voltage

Temperature Coefficient

6.0

mV/°C

I

IB

Input Bias Current +Input (Non−Inverting), V

O

= 0 V

−Input (Inverting), V

O

= 0 V (Note 5)

"3.0

"6.0

"35

mA

DI

IB

/DT

Input Bias Current Temperature

Coefficient

+Input (Non−Inverting), V

O

= 0 V

−Input (Inverting), V

O

= 0 V

+40

−10

nA/°C

V

IH

Input High Voltage (Enable)

(Note 5)

+1.5 V

V

IL

Input Low Voltage (Enable)

(Note 5)

+0.5 V

INPUT CHARACTERISTICS

V

CM

Input Common Mode Voltage

Range (Note 5)

"1.1 "1.5 V

CMRR Common Mode Rejection Ratio (See Graph) 40 50 dB

R

IN

Input Resistance +Input (Non−Inverting)

−Input (Inverting)

150

70

kW

W

C

IN

Differential Input Capacitance 1.0 pF

OUTPUT CHARACTERISTICS

R

OUT

Output Resistance Closed Loop

Open Loop

0.1

13

W

V

O

Output Voltage Range "1.1 "1.5 V

I

O

Output Current "80 "120 mA

POWER SUPPLY

V

S

Operating Voltage Supply 5.0 V

I

S,ON

Power Supply Current − Enabled

per amplifier (Note 5)

V

O

= 0 V 6.0 11 18 mA

I

S,OFF

Power Supply Current −

Disabled per amplifier

V

O

= 0 V 0.09 0.3 mA

Crosstalk Channel to Channel, f = 5.0 MHz 60 dB

PSRR Power Supply Rejection Ratio (See Graph) 40 55 dB

5. Guaranteed by design and/or characterization.

+

−

V

IN

R

L

R

F

R

F

V

OUT

Figure 4. Typical Test Setup

(A

V

= +2.0, R

F

= 330 W, R

L

= 150 W)

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8

Figure 5. Frequency Response:

Gain (dB) vs. Frequency

A

V

= +2.0

Figure 6. Frequency Response:

Gain (dB) vs. Frequency

A

V

= +1.0

Figure 7. Large Signal Frequency Response

Gain (dB) vs. Frequency

Figure 8. Small Signal Frequency Response

Gain (dB) vs. Frequency

Figure 9. Small Signal Step Response

Vertical: 500 mV/div

Horizontal: 10 ns/div

Figure 10. Large Signal Step Response

Vertical: 2 V/div

Horizontal: 10 ns/div

V

S

= ±5 V V

S

= ±5 V

A

V

= +1

A

V

= +2

V

OUT

= 1.0 V

PP

V

OUT

= 0.5 V

PP

0

−3

−6

−9

−12

NORMALIZED GAIN (dB)

FREQUENCY (Hz)

−15

3

6

3

−3

−9

−15

NORMALIZED GAIN (dB)

FREQUENCY (Hz)

0

−12

6

A

V

= +1

V

S

= ±5 V

R

F

= 330 W

R

L

= 150 W

V

OUT

= 1.0 V

PP

V

S

= ±5 V

R

F

= 330 W

R

L

= 150 W

−6

A

V

= +1

A

V

= +2

3

−3

−9

−15

NORMALIZED GAIN (dB)

FREQUENCY (Hz)

0

−12

6

V

OUT

= 0.5 V

PP

V

S

= ±5 V

R

F

= 330 W

R

L

= 150 W

−6

10k 1M 10M 1G100k 100M 10G

10k 1M 10M 1G100k 100M 10G 10k 1M 10M 1G100k 100M 10G

V

OUT

= 2.0 V

PP

V

OUT

= 0.5 V

PP

0

−6

−9

−12

−15

10k 1M 10M 1G

NORMALIZED GAIN (dB)

FREQUENCY (Hz)

−3

6

A

V

= +2

V

S

= ±5 V

R

F

= 330 W

R

L

= 150 W

100k 100M 10G

V

OUT

= 1.0 V

PP

3

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9

HD2

0.03

0.02

0.01

0

−0.01

−0.03

−0.8 −0.2 0.4 0.8

DIFFERENTIAL GAIN (%)

OFFSET VOLTAGE (V)

−0.02

−0.6 −0.4 0 0.6

0.2

Figure 11. THD, HD2, HD3 vs. Frequency Figure 12. THD, HD2, HD3 vs. Frequency

FREQUENCY (MHz) V

OUT

(V

PP

)

100101

−80

−75

−70

−65

−60

−55

−50

3.532.521.510.50

−80

−75

−70

−65

−60

−55

−50

Figure 13. Input Referred Voltage Noise vs.

Frequency

FREQUENCY (Hz)

1M100k10k1k100

0

10

20

30

40

50

DISTORTION (dB)

THD

HD2

HD3

4.54

V

OUT

= 2 V

PP

V

S

= ±5 V

R

F

= 330 W

R

L

= 150 W

THD

HD3

f = 5 MHz

V

S

= ±5 V

R

F

= 330 W

R

L

= 150 W

DISTORTION (dB)

VOLTAGE NOISE (nV/√Hz)

60

V

S

= ±5 V

V

S

= ±5 V

R

L

= 150 W

A

V

= +2

20 MHz

50 MHz

10 MHz

4.43 MHz

3.58 MHz

Figure 14. CMRR vs. Frequency

FREQUENCY (Hz)

100M10M1M100k10k

−55

−50

−45

−40

−35

−30

CMRR (dB)

−25

V

S

= ±5 V

Figure 15. PSRR vs. Frequency

FREQUENCY (Hz)

100M10M1M100k10k

−60

−50

−40

−30

−20

−10

PSRR (dB)

0

+5 V

−5 V

Figure 16. Differential Gain

NCS2535DTBG

NCS2535DTBG

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