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參數(shù)資料

型號：	an6077
廠商：	Intersil Corporation
元件分類：	運動控制電子
英文描述：	An IC Operational Transconductance Amplifier With Power Capability
中文描述：	一個集成電路運算跨導(dǎo)放大器，具有功率能力
文件頁數(shù)：	1/11頁
文件大?。?/td>	178K
代理商：	AN6077

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4-1

AN6077.3

An IC Operational Transconductance Amplifier

(OTA) With Power Capability

OBSOLETE PRODUCT

NO RECOMMENDED REPLACEMENT

Call Central Applications 1-888-INTERSIL

or email: centapp@intersil.com

In 1969, the first triple operational transconductance

amplifier or OTA was introduced. The wide acceptance of

this new circuit concept prompted the development of the

single, highly linear operational transconductance amplifier,

the CA3080. Because of its extremely linear

transconductance characteristics with respect to amplifier

bias current, the CA3080 gained wide acceptance as a gain

control block. The CA3094 improved on the performance of

the CA3080 through the addition of a pair of transistors;

these transistors extended the current carrying capability to

300mA, peak. This new device, the CA3094, is useful in an

extremely broad range of circuits in consumer and industrial

applications; this paper describes only a few of the many

consumer applications.

What Is an OTA

The OTA, operational transconductance amplifier, concept is

as basic as the transistor; once understood, it will broaden the

designer's horizons to new boundaries and make realizable

designs that were previously unobtainable. Figure 1 shows an

equivalent diagram of the OTA. The differential input circuit is

the same as that found on many modern operational

amplifiers. The remainder of the OTA is composed of current

mirrors as shown in Figure 2. The geometry of these mirrors is

such that the current gain is unity. Thus, by highly

degenerating the current mirrors, the output current is

precisely defined by the differential input amplifier. Figure 3

shows the output current transfer characteristic of the

amplifier. The shape of this characteristic remains constant

and is independent of supply voltage. Only the maximum

current is modified by the bias current.

The major controlling factor in the OTA is the input amplifier

bias current I

ABC

; as explained in Figure 1, the total output

current and g

are controlled by this current. In addition, the

input bias current, input resistance, total supply current, and

output resistance are all proportional to this amplifier bias

current. These factors provide the key to the performance of

this most flexible device, an idealized differential amplifier,

i.e., a circuit in which differential input to single ended output

conversion can be realized. With this knowledge of the

basics of the OTA, it is possible to explore some of the

applications of the device.

DC Gain Control

The methods of providing DC gain control functions are

numerous. Each has its advantage: simplicity, low cost, high

level control, low distortion. Many manufacturers who have

nothing better to offer propose the use of a four quadrant

OTA

ABC

V+

V-

OUT

= g

(

)

(mS)

≈

7.5/I

ABC

)

19.2 I

ABC

(mA)

OUT

≈

ABC

Max

(mA)

FIGURE 1. EQUIVALENT DIAGRAM OF THE OTA

OUTPUT

NON-INVERTING

INPUT

INVERTING

INPUT

AMPLIFIER

BIAS

CURRENTI

ABC

V-

V+

FIGURE 2. CURRENT MIRRORS W, X, Y AND Z USED IN

THE OTA

DIFFERENTIAL AMPLIFIER

TRANSFER CHARACTERISTIC

(mV)

1.0

0.8

0.6

0.4

0.2

-0.2

-0.4

-0.6

-0.8

-1.0

-150

-100

-50

100

150

FIGURE 3. THE OUTPUT CURRENT TRANSFER

CHARACTERISTIC OF THE OTA IS THE SAME AS

THAT OF AN IDEALIZED DIFFERENTIAL

AMPLIFIER

Application Note

October 2000

[ /Title

(AN60

77)

/Sub-

ject

(An IC

Opera-

tional

Transc

onduc-

tance

Ampli-

fier

(OTA)

With

Power

Capa-

bility)

/Autho

r ()

/Key-

words

(Inter-

sil

Corpo-

ration,

power

switch,

power

ampli-

fier,

pro-

gram-

mable

power

switch)

/Cre-

ator ()

1-888-INTERSIL or 321-724-7143

Intersil Corporation 2000

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