NE571 Philipss, NE571 Datasheet - Page 8

NE571

Manufacturer Part Number

NE571

Description

Compandor

Manufacturer

Philipss

Datasheet

1.NE571.pdf (11 pages)

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output signal. The distortion trim is effective in nulling out any control

current source to the G input pin. This effectively trims I

Philips Semiconductors

Control signal feedthrough is generated in the gain cell by imperfect

device matching and mismatches in the current sources, I

When no input signal is present, changing I

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

shows such a trim network.

OPERATIONAL AMPLIFIER

The main op amp shown in the chip block diagram is equivalent to a

741 with a 1MHz bandwidth. Figure 18 shows the basic circuit. Split

collectors are used in the input pair to reduce g

compensation capacitor of just 10pF may be used. The output

stage, although capable of output currents in excess of 20mA, is

biased for a low quiescent current to conserve power. When driving

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

1997 Aug 14

Compandor

–100

–IN

Figure 17. Control Signal Feedthrough

+20

–20

–40

–60

–80

–40

Figure 18. Operational Amplifier

100k

Figure 16. Dynamic Range

110dB

3.6V

R-SELECT FOR

VCA GAIN (0dB)

470k

–20

SIGNAL LEVEL

+IN

MAXIMUM

TO PIN 3 OR 14

will cause a small

20kHz BW

NOISE IN

, so that a small

90dB

OUT

. Figure 17

SR00690

and I

SR00691

SR00692

Inspection of the gain equations in Figures 7 and 8 will show that the

external resistors, the internal resistor accuracy and tempco become

RESISTORS

basic compressor and expander circuit gains may be set entirely by

resistor ratios and the internal voltage reference. Thus, any form of

resistors that match well would suffice for these simple hook-ups,

and absolute accuracy and temperature coefficient would be of no

importance. However, as one starts to modify the gain equation with

very significant. Figure 19 shows the effects of temperature on the

diffused resistors which are normally used in integrated circuits, and

the ion-implanted resistors which are used in this circuit. Over the

critical 0 C to +70 C temperature range, there is a 10-to-1 improve-

ment in drift from a 5% change for the diffused resistors, to a 0.5%

change for the implemented resistors. The implanted resistors have

another advantage in that they can be made the size of the diffused

resistors due to the higher resistivity. This saves a significant

amount of chip area.

Figure 19. Resistance vs Temperature

1.15

1.10

1.05

1.00

.95

Ç Ç Ç Ç Ç Ç

–40

TEMPERATURE

120

140 /

1 % ERROR

1k /

DIFFUSED

RESISTOR

LOW TC

IMPLANTED

RESISTOR

Product specification

BAND

SA571

SR00693

NE571 Philipss, NE571 Datasheet - Page 8

NE571

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