THAT4311 ETC, THAT4311 Datasheet - Page 10

THAT4311

Manufacturer Part Number

THAT4311

Description

Low-voltage/ Low-power Analog Engine Dynamics Processor

Manufacturer

ETC

Datasheet

1.THAT4311.pdf (12 pages)

Current page: 10 of 12
Download datasheet (231Kb)

Page 10

within the linear range of the THAT 4311. (Peak VCA

input currents should be kept under 250 mA for best

distortion performance.) The coupling capacitor (Cl,

47 mF) is strongly recommended to block DC current

from preceding stages (and from offset voltage at the

input of the VCA). Any DC current into the VCA will

be modulated by varying gain in the VCA, showing up

in the output as “thumps”. Note that Cl, in conjunc-

tion with R1, will set the low frequency limit of the

circuit.

as an inverting current-to-voltage converter.

feedback components (R2, 20 kW, and C2, 47 pF) de-

termine the constant of current-to-voltage conversion.

The simplest way to deal with this is to recognize that

when the VCA is set for unity (zero dB) gain, the in-

put to output voltage gain is simply R2/R1, much like

the case of a single inverting stage. If, for some rea-

son, more than zero dB gain is required when the

VCA is set to unity, then the resistors may be skewed

to provide it. Note that the feedback capacitor (C2) is

required for stability. The VCA output has approxi-

mately 45pF of capacitance to ground, which must be

neutralized via the 47pF feedback capacitor across

R2.

whereby gain in dB will be proportional to the nega-

tive of the voltage at EC-. In this application the EC+

terminal is tied to VREF , though it could be the

driven port, or the control ports could be driven dif-

ferentially. The SYM terminal is returned nearly to

the EC+ terminal (which is in this case VREF) via a

small resistor (R3, 51W). The VCA SYM trim (R5,

20kW) allows a small voltage to be applied to the

SYM terminal via R4 (33kW). This voltage adjusts for

small mismatches within the VCA gain cell, thereby

reducing even-order distortion products. To adjust

the trim, apply to the input a middle-level, mid-

dle-frequency signal (1kHz at 200mV

choice with this circuit) and observe THD at the sig-

nal output. Adjust the trim for minimum THD.

RMS-Level Detector

VCA. An input resistor (R6, 28.7kW) converts the AC

input voltage to a current within the linear range of

the THAT 4311. The coupling capacitor (C3, 47mF)

is recommended to block the current from preceding

stages (and from offset voltage at the input of the de-

tector). Any DC current into the detector will limit

the low-level resolution of the detector, and will upset

the rectifier balance at low levels. Note that, as with

The VCA output is connected to OA3, configured

The VCA gain is controlled via the EC- terminal,

The RMS detector’s input is similar to that of the

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

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

rms

is a good

OA3’s

the VCA input circuitry, C3 in conjunction with R6

will set the lower frequency limit of the detector.

mined by the capacitor attached to CT (C4, 10 uF)

and the size of the current in pin IT (determined by

R7, 267 kW and VREF , 2V). Since the voltage at IT is

approximately 2V, the circuit of Figure 19 produces

7.5 mA in IT, The current in IT is mirrored to the CT

pin, where it is available to discharge the timing ca-

pacitor (C4). The combination produces a log filter

with time constant equal to approximately 0.026

CT/IT (~35 ms in the circuit shown).

bel) value of the input signal envelope, plus a DC off-

set of about 2V

capacitor used should be a low-leakage, electrolytic

type in order not to add significantly to the timing

current.

buffer the voltage at CT and removes the 1.3 V

(2 V

VREF for input signals of about 245 mV

-10 dBu. The output voltage increases 6.1 mV for ev-

ery 1 dB increase in input signal level. This relation-

ship holds over more than a 60 dB range in input

currents.

Control Path

to reduce a signal's dynamic range. A 2:1 compres-

sor reduces a 100 dB dynamic range to 50 dB. A

limiter, or infinite compressor, is a special case of

compressor where the dynamic range is reduced to

the point where the rms level of the signal is con-

stant.

plished by a) raising the gain when the signal is

below some particular level -- often referred to as the

'zero dB reference level' -- and b) reducing the gain

when the signal is above that level. In addition, these

devices often have a threshold, below which the sig-

nal is passed unprocessed and above which compres-

sion takes place. This feature keeps the noise floor

from rising to noticeable levels in the absence of sig-

nal.

ence level of the detector is -10 dBu (zero dB refer-

ence level = 7.5 , R6 = 28.7 kilohms). Neglecting the

effect of the threshold control (R11 and R12), when

the output is below this level the output of OA2 is

driven high, forward biasing CR1 and reverse biasing

CR2.

passed to the VCA's control port by OA1. When the

signal level exceeds -10 dBu, the output of the RMS

detector goes positive, and CR2 begins to conduct. In

The time response of the RMS detector is deter-

The waveform at CT will follow the logged (deci-

The output stage of the RMS detector serves to

The primary function of an audio compressor is

We previously established that the zero dB refer-

) offset, resulting in an output centered around

Low-voltage, Analog Engine

Since CR2 is not conducting, no signal is

This reduction in dynamic range is accom-

plus VREF or about 3.3V.

Preliminary Information

Dynamics Processor

rms

, or

The

THAT4311 ETC, THAT4311 Datasheet - Page 10

THAT4311

Related parts for THAT4311