that4301 THAT Corporation, that4301 Datasheet - Page 8

that4301

Manufacturer Part Number

that4301

Description

That Analog Engine Ic Dynamics Processor

Manufacturer

THAT Corporation

Datasheet

1.THAT4301.pdf (12 pages)

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value of the input signal current. Some ac component

(at twice the input frequency) remains superimposed

on the dc output. The ac signal is attenuated by a

log-domain filter, which constitutes a single-pole

rolloff with cutoff determined by an external capaci-

tor and a programmable dc current.

RMS IN pin. This input is a virtual ground, so a re-

sistor (R

put voltages to the desired current. The level detector

is capable of accurately resolving signals well below

10 mV (with a 10 kW input resistor). However, if the

detector is to accurately track such low-level signals,

ac coupling is normally required.

placed well below the frequency range of interest. For

an audio-band detector, a typical value would be

5 Hz, or a 32 ms time constant (t). The filter’s time

constant is determined by an external capacitor at-

tached to the C

grammed via the I

time constant t is approximately equal to 0.026 C

Note that, as a result of the mathematics of RMS de-

tection, the attack and release time constants are

fixed in their relationship to each other.

same constant of proportionality as the VCA gain

control: 6.5 mV/dB. The detector’s 0 dB reference

determined by I

tector output stage is capable of sinking or sourcing

100 μA.

tor circuitry and that of the THAT 2252 RMS Detec-

tor are as follows:

in0

) connected to C

, the input current which causes 0 V output), is

As in the VCA, input signals are currents to the

The log-domain filter cutoff frequency is usually

with a gain of approximately 1.1. The resulting

The dc output of the detector is scaled with the

Differences between the 4301’s RMS-Level Detec-

1) The rectifier in the 4301 RMS Detector is inter-

nally balanced by design, and cannot be balanced

via an external control. The 4301 will typically bal-

ance positive and negative halves of the input signal

within ±1.5%, but in extreme cases the mismatch

may reach ±15%. However, a 15% mismatch will

not significantly increase ripple-induced distortion

in dynamics processors over that caused by signal

in Figure 2) is normally used to convert in-

pin, and an internal current source

as follows: I

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

pin: current in I

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

. The current source is pro-

in0

= 9.6 mA I

is mirrored to

The de-

The Opamps — in Brief

general purpose applications. All are 5 MHz opamps

with slew rates of approximately 2V/ms. All use bipo-

lar PNP input stages. However, the design of each is

optimized for its expected use. Therefore, to get the

most out of the 4301, it is useful to know the major

differences among these opamps.

the VCA, is intended for current-to-voltage conver-

sion. Its input noise performance, at 7 5 .

plements that of the VCA, adding negligible noise at

unity gain. Its output section is capable of driving a

2 kΩ load to within 2V of the power supply rails,

making it possible to use this opamp directly as the

output stage in single-ended designs.

noise voltage, at 6 5 .

choice for input stages. Note that its output drive ca-

pability is limited (in order to reduce the chip’s

power dissipation) to approximately ±3 mA. It is

comfortable driving loads of 5 kΩ or more to within

1V of the power supply rails.

processor. Its input noise parallels that of OA

its output drive capability parallels that of OA

ripple alone.

2) The time constant of the 4301’s RMS detector is

determined by the combination of an external ca-

pacitor (connected to the C

programmable current source. The current source

is equal to 1.1 I

nected directly to the C

3) The 0 dB reference point, or level match, is not

adjustable via an external current source. However,

as in the 2252, the level match is affected by the

timing current, which, in this case, is drawn from

the I

4) The input stage of the 4301 RMS detector uses

integrated

bias-current corrected bipolar differential amplifier.

Input bias currents are therefore negligible, improv-

ing performance at low signal levels.

The three opamps in the 4301 are intended for

, being internally connected to the output of

is the quietest opamp of the three. Its input

is intended primarily as a control-voltage

pin and mirrored internally to C

P-channel

. Normally, a resistor is not con-

Hz, makes it the opamp of

pin on the 4301.

FETs

Document 600069 Rev 02

pin) and an internal,

rather

Hz, com-

than

, and

that4301 THAT Corporation, that4301 Datasheet - Page 8

that4301

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