THAT2252 Datasheet, PDF(5/10 Page) List of Unclassifed Manufacturers

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

THAT2252 Datasheet, PDF (5/10 Pages) List of Unclassifed Manufacturers – IC RMS-Level Detector

◁

600032 Rev 01

Page 5

Figure 5. Tone Burst Response

lows the (1- e-t ) shape of the attack curve. The

transformation from the linear to the log world

steepens the apparent attack shape.

The time constant, t, also determines the amount

of ripple (at frequency 2fin) in the output for any

given input frequency, fin. Larger values of t reduce

ripple at the expense of longer attack and release

times. For

fin

the

ripple

voltage

the

out-

put

given

by:

Â»

int

where

the

rms

ripple voltage.

Taking the Square Root

The square root portion of the Root-Mean Square

is implied by the constant of proportionality for

the output voltage: it is not computed explicitly.

This is because, in the log representation, taking

the square root is equivalent to division by two.

The voltage at pin 6 is proportional to the mean of

the square at approximately 3 mV/dB, and propor-

tional to the square root of the mean of the square

at approximately 6 mV/dB.

Figure 6. 2252 DC Output Vs. AC Input Level

Output Buffering and Level Shifting

The voltage at pin 6 is buffered by OA3, and level

shifted down by the bias voltage V3. Level shifting

is required so that the output voltage will be zero

when the rms input current reaches a predeter-

mined value, Iin0. This current is often called level

match, and represents the 0 dB reference of the

circuit.

The various level shifts throughout the 2252 are as

follows: V2 represents one diode drop, so the volt-

age at the emitter of Q4 is +1VBE. The output of

OA2 is two diode drops higher than this, or

+3VBE. Q6 will subtract one diode drop from the

output of OA2, so the voltage at pin 6 will be

+2VBE. Finally, V3 represents two diode drops,

setting the voltage at pin 7 to 0 V.

Of course, the actual value of all these level shifts

is dependent on the currents through the transis-

tors responsible for each VBE. These currents, in

turn, are dependent on the bias programming cur-

rent in pin 2 (IBIAS) and the timing current pulled

from pin 6 (IT). This dependence may be given as

follows:

Iin0 =

IBIAS

2.9

where Iin0 is the input current

causing 0 V output, IT is the current in pin 6, and

IBIAS is the current in pin 2. The factor 2.9 derives

from the geometry of the transistors involved.

Figure 7. 2252 DC Output Vs. Frequency at

Various Levels

Figure 6 plots output voltage versus input level for

a 2252 in its recommended circuit configuration

(Figure 4). In this plot, 0 dBr Â» 43 mV. Figure 7

plots output voltage for several different con-

stant-amplitude frequency sweeps for the same cir-

cuit. The vertical divisions are 60 mV apart,

representing approximately 10 dB increments. Full

audio bandwidth is maintained over a 60 dB dy-

namic range.

Current Programming

All the internal current sources in the 2252 are

slaved to the current in pin 2, IBIAS. As mentioned

above, the choice of this current affects Iin0. IBIAS

THAT Corporation; 45 Sumner Street; Milford, Massachusetts 01757-1656; USA

Tel: +1 508 478 9200; Fax: +1 508 478 0990; Web: www.thatcorp.com

▷