NCS2552SNT1G Datasheet NCS2552SNT1G | P10-P12

NCS2552

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Figure 17. Differential Phase Figure 18. Supply Current vs. Power Supply

(Enabled)

Figure 19. Supply Current (Disabled) Figure 20. Output Voltage Swing vs. Supply

Voltage

CURRENT (mA)

POWER SUPPLY VOLTAGE (V)

85°C

0.3

0.25

0.2

VOLTAGE (V)

CURRENT (mA)

0.4

6108

0.35

0.45

7119

OUTPUT VOLTAGE (V

)

POWER SUPPLY VOLTAGE (V)

5106

7118

100

0.01

10k

OUTPUT RESISTANCE (W)

FREQUENCY (Hz)

1M100k 100M

= ±5V

10M

25°C

−40°C

85°C

25°C

−40°C

85°C

25°C

−40°C

0.5

Figure 21. Closed Loop Output Resistance vs.

Frequency

−6

NORMALIZED GAIN (dB)

FREQUENCY (Hz)

−3

100pF

10k 10M 10G100k 1M 100M

47pF

10pF

Figure 22. Frequency Response vs. Capacitive

Load

56789

1G 10G

0.1

−9

−12

0.03

−0.01

−0.02

−0.03

−0.8 0.2

DIFFERENTIAL PHASE (°)

OFFSET VOLTAGE (V)

0.01

−0.6 0 0.6−0.2

0.02

−0.4 0.80.4

3.58MHz

4.43MHz

10MHz

20MHz

Gain = +2

= ±5V

= 150W

Gain = +2

OUT

= 0.5 V

= ±5V

= 150W

NCS2552

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Figure 23. Turn ON Time Delay

Vertical: 500 mV/div (Enable), 200 mV/div (Output)

Horizontal: 5 ns/div

Output waveform: Squarewave, 32 MHz, 600 mV

= ±5V

OUT

Figure 24. Turn OFF Time Delay

Vertical: 500 mV/div (Enable), 200 mV/div (Output)

Horizontal: 5 ns/div

Output waveform: Squarewave, 32 MHz, 600 mV

OUT

= ±5V

NCS2552

http://onsemi.com

Printed Circuit Board Layout Techniques

Proper high speed PCB design rules should be used for all

wideband amplifiers as the PCB parasitics can affect the

overall performance. Most important are stray capacitances

at the output and inverting input nodes as it can effect

peaking and bandwidth. A space (3/16″ is plenty) should be

left around the signal lines to minimize coupling. Also,

signal lines connecting the feedback and gain resistors

should be short enough so that their associated inductance

does not cause high frequency gain errors. Line lengths less

than 1/4″ are recommended.

Video Performance

This device designed to provide good performance with

NTSC, PAL, and HDTV video signals. Best performance is

obtained with back terminated loads as performance is

degraded as the load is increased. The back termination

reduces reflections from the transmission line and

effectively masks transmission line and other parasitic

capacitances from the amplifier output stage.

ESD Protection

All device pins have limited ESD protection using internal

diodes to power supplies as specified in the attributes table

(see Figure 25). These diodes provide moderate protection

to input overdrive voltages above the supplies. The ESD

diodes can support high input currents with current limiting

series resistors. Keep these resistor values as low as possible

since high values degrade both noise performance and

frequency response. Under closed−loop operation, the ESD

diodes have no effect on circuit performance. However,

under certain conditions the ESD diodes will be evident. If

the device is driven into a slewing condition, the ESD diodes

will clamp large differential voltages until the feedback loop

restores closed−loop operation. Also, if the device is

powered down and a large input signal is applied, the ESD

diodes will conduct.

NOTE: Human Body Model for +IN and –IN pins are

rated at 0.8kV while all other pins are rated at

2.0kV.

Internal

Circuitry

External

Figure 25. Internal ESD Protection

ORDERING INFORMATION

Device Package Shipping

†

NCS2552SNT1G SOT23−6 (TSOP−6)

(Pb−Free)

3000 Tape & Reel

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging

Specifications Brochure, BRD8011/D.

P1-P3 P4-P6 P7-P9 P10-P12 P13-P13

NCS2552SNT1G

Mfr. #:

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Manufacturer:

ON Semiconductor

Description:

IC OPAMP VFB 750MHZ 6TSOP

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