THAT2181B ETC1 [List of Unclassifed Manufacturers], THAT2181B Datasheet - Page 4

THAT2181B

Manufacturer Part Number

THAT2181B

Description

Trimmable IC Voltage Controlled Amplifiers

Manufacturer

ETC1 [List of Unclassifed Manufacturers]

Datasheet

1.THAT2181B.pdf (10 pages)

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performance in audio-frequency applications requiring

exponential gain control, low distortion, wide dynamic

range and low control-voltage feedthrough. These parts

control gain by converting an input current signal to a

bipolar logged voltage, adding a dc control voltage, and

re-converting the summed voltage back to a current

through a bipolar antilog circuit.

circuit diagram of the IC. The ac input signal current

flows in pin1, the input pin. An internal operational

transconductance amplifier (OTA) works to maintain

pin 1 at a virtual ground potential by driving the emitters

of Q1 and (through the Voltage Bias Generator) Q3.

Q3/D3 and Q1/D1 act to log the input current, producing

a voltage, V3, which represents the bipolar logarithm of

the input current. (The voltage at the junction of D1 and

D2 is the same as V3, but shifted by four forward V

drops.)

Gain Control

tual ground, Q2/D2 and Q4/D4 take the bipolar antilog

of V3, creating an output current which is a precise rep-

lica of the input current. If pin 2 (Ec+) and pin 3 (Ec-)

are held at ground (with pin 4 - SYM - connected to a

high impedance current source), the output current will

equal the input current. For pin 2 positive or pin 3 nega-

tive, the output current will be scaled larger than the in-

put current. For pin 2 negative or pin 3 positive, the

output current is scaled smaller than the input.

rents is the gain of the VCA. Either pin 2 (Ec+) or pin 3

(Ec-), or both, may be used to control gain. Gain is expo-

3. For more details about the internal workings of the 2181 Series of VCAs, see An Improved Monolithic Volt-

age-Controlled Amplifier, by Gary K. Hebert (Vice-President, Engineering, for THAT Corporation), presented at the 99th

convention of the Audio Engineering Society, New York, Preprint number 4055.

The THAT 2181 Series VCAs are designed for high

Figure 5 presents a considerably simplified internal

Since pin 8, the output, is usually connected to a vir-

The scale factor between the output and input cur-

Figure 5. Simplified Internal Circuit Diagram

Ec+

V-

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

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

Generator

Voltage

Icell

Bias

Theory of Operation

Iadj

Ec-

OUT

SYM

nentially proportional to the voltage at pin 2, and expo-

nentially proportional to the negative of the voltage at

pin 3. Therefore, pin 2 (Ec+) is the positive control port,

while pin 3 (Ec-) is the negative control port. Because of

the exponential characteristic, the control voltage sets

gain linearly in decibels. Figure 6 shows the decibel cur-

rent gain of a 2181 versus the voltage at Ec+, while Fig-

ure 7 shows gain versus the Ec-.

Temperature Effects

the logarithmic relationship between voltage and current

in a semiconductor junction (in particular, between a

transistor's V

Figure 8. Gain vs. Control Voltage (Ec-) with Temp (°C)

Figure 6. Gain vs. Control Voltage (E

Figure 7. Gain vs. Control Voltage (Ec-, Pin 3) at 25°C

The logging and antilogging in the VCA depends on

and I

). As is well known, this relation-

THAT2181 Series IC VCAs

C+

, Pin 2) at 25°C

THAT2181B ETC1 [List of Unclassifed Manufacturers], THAT2181B Datasheet - Page 4

THAT2181B

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