THAT2180A Datasheet, PDF(4/8 Page) List of Unclassifed Manufacturers – Pre-Trimmed IC Voltage Controlled Amplifiers

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THAT2180A Datasheet, PDF (4/8 Pages) List of Unclassifed Manufacturers – Pre-Trimmed IC Voltage Controlled Amplifiers

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Page 4

THAT2180 Series IC VCAs

Theory of Operation3

The THAT 2180 Series VCAs are designed for high

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.

Figure 5 presents a considerably simplified internal

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 Vbe

drops.)

Gain Control

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

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, the output current will equal the in-

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

put current will be scaled larger than the input current.

For pin 2 negative or pin 3 positive, the output current is

scaled smaller than the input.

The scale factor between the output and input cur-

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-

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

Figure 6. Gain vs. Control Voltage (EC+, Pin 2) at 25Â°C

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

2 Q1

Ec+

IIN

Voltage

Bias

Generator

Q2 3

Ec-

OUT

Q4 4

SYM

V-

Icell

Iadj

Figure 5. Simplified Internal Circuit Diagram

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

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 2180 versus the voltage at Ec+, while Fig-

ure 7 shows gain versus the Ec-.

Temperature Effects

The logging and antilogging in the VCA depends on

the logarithmic relationship between voltage and current

in a semiconductor junction (in particular, between a

transistor's Vbe and Ic). As is well known, this relation-

ship is temperature dependent. Therefore, the gain of

any log-antilog VCA depends on its temperature.

3. For more details about the internal workings of the 2180 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.

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

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

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