ICL8013BCTX 데이터 시트보기 (PDF) - Intersil

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ICL8013BCTX

1MHz, Four Quadrant Analog Multiplier

Intersil 

ICL8013

RL

IE

1/2 IE + ∆

+

VIN

-

1/2 IE - ∆

Q1 Q2

IE

V+

∆VOUT = 0

IE

RL

1/2 IE - ∆ 1/2 IE + ∆

Q3 Q4

IE

V-

FIGURE 4A. INPUT SIGNAL WITH BALANCED CURRENT

SOURCES ∆VOUT = 0V

V+

RL

IE

1/2 IE

+

Q1 Q2

VIN = 0

-

2IE

∆VOUT = 0

RL

IE

1/2 IE

Q3 Q4

IE

V-

FIGURE 4B. NO INPUT SIGNAL WITH UNBALANCED

CURRENT SOURCES ∆VOUT = 0V

RL 3/2I + ∆

IE + 2∆

+

1/2 IE - ∆

Q1 Q2

V-IN

2IE

V+

∆VOUT = 0

3/2I - ∆ RL

1/2 IE - 2∆ 1/2 IE + ∆

Q3 Q4

IE

V-

FIGURE 4C. INPUT SIGNAL WITH UNBALANCED CURRENT

SOURCES, DIFFERENTIAL OUTPUT VOLTAGE

This circuit of Figure 5 still has the problem that the input

voltage VIN must be small to keep the differential amplifier in

the linear region. To be able to handle large signals, we need

an amplitude compression circuit.

V+

RL

∆V = K • (VX • VY)

R

+

Q1 Q2

VIN

-

VIN

IE

Q3 Q4

RE

IE

V-

FIGURE 5. TYPICAL FOUR QUADRANT MULTIPLIER-

MODULATOR

Figure 2 showed a current source formed by relying on the

matching characteristics of a diode and the emitter base

junction of a transistor. Extension of this idea to a differential

circuit is shown in Figure 6A. In a differential pair, the input

voltage splits the biasing current in a logarithmic ratio. (The

usual assumption of linearity is useful only for small signals.)

Since the input to the differential pair in Figure 6A is the

difference in voltage across the two diodes, which in turn is

proportional to the log of the ratio of drive currents, it follows

that the ratio of diode currents and the ratio of collector

currents are linearly related and independent of amplitude. If

we combine this circuit with the voltage to current converter

of Figure 3, we have Figure 6B. The output of the differential

amplifier is now proportional to the input voltage over a large

dynamic range, thereby improving linearity while minimizing

drift and noise factors.

The complete schematic is shown after the Electrical

Specifications Table. The differential pair Q3 and Q4 form a

voltage to current converter whose output is compressed in

collector diodes Q1 and Q2. These diodes drive the

balanced cross-coupled differential amplifier Q7/Q8 Q14/Q15.

The gain of these amplifiers is modulated by the voltage to

current converter Q9 and Q10. Transistors Q5, Q6, Q11, and

Q12 are constant current sources which bias the voltage to

current converter. The output amplifier comprises transistors

Q16 through Q27.

X x ID

X x IE (I - X) IE

(I - X) ID

2 IE

FIGURE 6A. CURRENT GAIN CELL

5

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