NE570DR2G ON Semiconductor, NE570DR2G Datasheet - Page 8

NE570DR2G

Manufacturer Part Number

NE570DR2G

Description

IC COMPANDOR DUAL GAIN 16-SOIC

Manufacturer

ON Semiconductor

Type

Compandorr

Datasheet

1.NE570DR2G.pdf (10 pages)

Specifications of NE570DR2G

Applications

Cellular Radio, Players

Mounting Type

Surface Mount

Package / Case

16-SOIC (0.300", 7.5mm Width)

Operating Supply Voltage (typ)

9/12/15/18V

Operating Supply Voltage (min)

Operating Supply Voltage (max)

24V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Package Type

SOIC W

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

NE570DR2G
NE570DR2GOSTR

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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Manufacturer:

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Quantity:

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Part Number:

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this, which means our overall offsets are typically about mV.

The distortion is not affected by the magnitude of the gain

control current, and it does not increase as the gain is

changed. This second harmonic distortion could be

eliminated by making perfect transistors, but since that

would be difficult, we have had to resort to other methods.

A trim pin has been provided to allow trimming of the

internal offsets to zero, which effectively eliminated second

harmonic distortion. Figure 14 shows the simple trim

network required.

maximum output level before clipping occurs in the gain cell

is plotted along with the output noise in a 20 kHz bandwidth.

Note that the noise drops as the gain is reduced for the first

20 dB of gain reduction. At high gains, the signal to noise

ratio is 90 dB, and the total dynamic range from maximum

signal to minimum noise is 110 dB.

Figure 15 shows the noise performance of the DG cell. The

−100

+20

−20

−40

−60

−80

−40

Figure 14. THD Trim Network

To THD Trim

Figure 15. Dynamic Range

110 dB

200 pF

VCA GAIN (dB)

−20

6.2 kW

SIGNAL LEVEL

MAXIMUM

3.6 V

20 kW

20 kHz BW

NOISE IN

90 dB

http://onsemi.com

NE570

imperfect device matching and mismatches in the current

sources, I

effective in nulling out any control signal feedthrough, but

in general, the null for minimum feedthrough will be

different than the null in distortion. The control signal

feedthrough can be trimmed independently of distortion by

tying a current source to the DG input pin. This effectively

trims I

OPERATIONAL AMPLIFIER

equivalent to a 741 with a 1.0 MHz bandwidth. Figure 17

shows the basic circuit. Split collectors are used in the input

pair to reduce g

just 10 pF may be used. The output stage, although capable

of output currents in excess of 20 mA, is biased for a low

quiescent current to conserve power. When driving heavy

loads, this leads to a small amount of crossover distortion.

Control signal feedthrough is generated in the gain cell by

The main op amp shown in the chip block diagram is

will cause a small output signal. The distortion trim is

−IN

. Figure 16 shows such a trim network.

Figure 16. Control Signal Feedthrough

and I

Figure 17. Operational Amplifier

100 kW

. When no input signal is present, changing

, so that a small compensation capacitor of

3.6 V

R−SELECT FOR

+IN

470 kW

TO PIN 3 OR 14

OUT

NE570DR2G ON Semiconductor, NE570DR2G Datasheet - Page 8

NE570DR2G

Specifications of NE570DR2G

Available stocks

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