CA3140AS INTERSIL [Intersil Corporation], CA3140AS Datasheet - Page 12

CA3140AS

Manufacturer Part Number

CA3140AS

Description

4.5MHz, BiMOS Operational Amplifier with MOSFET Input/Bipolar Output

Manufacturer

INTERSIL [Intersil Corporation]

Datasheets

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This circuit can be adjusted most easily with a distortion

analyzer, but a good ﬁrst approximation can be made by

comparing the output signal with that of a sine wave

generator. The initial slope is adjusted with the

potentiometer R

slope is established by adjusting R

additional segments that are contributed by these diodes.

Because there is some interaction among these controls,

repetition of the adjustment procedure may be necessary.

Sweeping Generator

Figure 13 shows a sweeping generator. Three CA3140s are

used in this circuit. One CA3140 is used as an integrator, a

second device is used as a hysteresis switch that

determines the starting and stopping points of the sweep. A

third CA3140 is used as a logarithmic shaping network for

the log function. Rates and slopes, as well as sawtooth,

triangle, and logarithmic sweeps are generated by this

circuit.

Wideband Output Ampliﬁer

Figure 14 shows a high slew rate, wideband ampliﬁer

suitable for use as a 50 transmission line driver. This

circuit, when used in conjunction with the function generator

and sine wave shaper circuits shown in Figures 10 and 12

provides 18V

when terminated in 50 . The slew rate required of this

ampliﬁer is 28V/ s (18V

Power Supplies

High input impedance, common mode capability down to the

negative supply and high output drive current capability are

key factors in the design of wide range output voltage

supplies that use a single input voltage to provide a

regulated output voltage that can be adjusted from

essentially 0V to 24V.

Unlike many regulator systems using comparators having a

bipolar transistor input stage, a high impedance reference

voltage divider from a single supply can be used in

connection with the CA3140 (see Figure 15).

ADJUSTMENT

DC LEVEL

OUTPUT

2.5k

FIGURE 14. WIDEBAND OUTPUT AMPLIFIER

200

+15V

-15V

P-P

200

ADJUSTMENT

SIGNAL

, followed by an adjustment of R

output open circuited, or 9V

LEVEL

1.8k

P-P

2.4pF

CA3140

2pF

NOMINAL BANDWIDTH = 10MHz

x 0.5MHz).

50 F

25V

50 F

25V

, thereby adding

2.2

1N914

2.2

P-P

2N4037

+15V

2N3053

-15V

2.7

= 35ns

output

. The ﬁnal

CA3140, CA3140A

OUT

Essentially, the regulators, shown in Figures 16 and 17, are

connected as non inverting power operational amplifiers with a

gain of 3.2. An 8V reference input yields a maximum output

voltage slightly greater than 25V. As a voltage follower, when

the reference input goes to 0V the output will be 0V. Because

the offset voltage is also multiplied by the 3.2 gain factor, a

potentiometer is needed to null the offset voltage.

Series pass transistors with high I

prevent the output voltage from reaching zero because there

is a ﬁnite voltage drop (V

CA3140 (see Figure 2). This saturation voltage level may

indeed set the lowest voltage obtainable.

The high impedance presented by Terminal 8 is

advantageous in effecting current limiting. Thus, only a small

signal transistor is required for the current-limit sensing

ampliﬁer. Resistive decoupling is provided for this transistor

to minimize damage to it or the CA3140 in the event of

unusual input or output transients on the supply rail.

Figures 16 and 17, show circuits in which a D2201 high speed

diode is used for the current sensor. This diode was chosen

for its slightly higher forward voltage drop characteristic, thus

giving greater sensitivity. It must be emphasized that heat

sinking of this diode is essential to minimize variation of the

current trip point due to internal heating of the diode. That is,

1A at 1V forward drop represents one watt which can result in

significant regenerative changes in the current trip point as the

diode temperature rises. Placing the small signal reference

amplifier in the proximity of the current sensing diode also

helps minimize the variability in the trip level due to the

negative temperature coefficient of the diode. In spite of those

limitations, the current limiting point can easily be adjusted

over the range from 10mA to 1A with a single adjustment

potentiometer. If the temperature stability of the current

limiting system is a serious consideration, the more usual

current sampling resistor type of circuitry should be employed.

A power Darlington transistor (in a metal can with heatsink),

is used as the series pass element for the conventional

current limiting system, Figure 16, because high power

Darlington dissipation will be encountered at low output

voltage and high currents.

FIGURE 15. BASIC SINGLE SUPPLY VOLTAGE REGULATOR

INPUT

REFERENCE

VOLTAGE

SHOWING VOLTAGE FOLLOWER CONFIGURATION

VOLTAGE

ADJUSTMENT

CESAT

CA3140

) across the output of the

CBO

levels will also

REGULATED

OUTPUT

CA3140AS INTERSIL [Intersil Corporation], CA3140AS Datasheet - Page 12

CA3140AS

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