VT33N3 PERKINELMER [PerkinElmer Optoelectronics], VT33N3 Datasheet - Page 33

VT33N3

Manufacturer Part Number

VT33N3

Description

Photoconductive Cells and Analog Optoisolators (Vactrols)

Manufacturer

PERKINELMER [PerkinElmer Optoelectronics]

Datasheet

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What Are Analog Optical Isolators?

PerkinElmer Optoelectronics has been a leading manufacturer of

analog optical isolators for over twenty years and makes a broad range

of standard parts under its trademark VACTROL®.

There are many kinds of optical isolators, but the most common is the

LED/phototransistor type. Other familiar types use output elements

such as light sensitive SCRs, Triacs, FETs, and ICs. The major

application for these silicon based devices is to provide electrical

isolation of digital lines connected between different pieces of

equipment. The principle of operation is very simple. When an input

current is applied to the LED, the output phototransistor turns on. The

only connection between the LED and phototransistor is through

light—not electricity, thus the term optical isolator. These optical

isolators are primarily digital in nature with fast response times suitable

for interfacing with logic gates. Rise and fall times of a few

microseconds, faster for some isolators, are typical.

The analog optical isolator (AOI) also uses an optical link between

input and output. The input element is an LED and the output element

is always photoconductive cell or simply photocell. Together, the

coupled pair act as an electrically variable potentiometer. since the

output element of the AOI is a resistor, the voltage applied to this

output resistor may be DC and/or AC and the magnitude may be as

low as zero or as high as the maximum voltage rating. Because the

input will control the magnitude of a complex waveform in a

proportional manner, this type of isolator is an analog control element.

AOIs may be used in the ON-OFF mode but the fastest response time

is only in the millisecond range. A level sensitive Schmitt trigger is

required between the AOI and logic gates when used in digital circuits.

The figure below shows the circuit diagram of a standard AOI.

Input Element

Light emitting diodes used in AOIs are usually visible LEDs best

matching the sensitivity spectrum of the photocell output element.

LEDs are the ideal input element in most applications. They require

low drive current and voltage, respond very fast and have virtually

unlimited life. They are very rugged and are unaffected by shock and

vibration. Since the LED is a diode, it conducts in one direction only.

AOI Circuit Diagram

They must be protected from excessive forward current due to the low

dynamic resistance in the forward direction. The forward characteristic

of an LED typically used in VACTROLs is shown below.

Output Element

The output element in all PerkinElmer’s AOIs is a light dependent

resistor (LDR), also called a photoconductor or photocell. Photocells

are true resistors.

These passive resistors are made from a light sensitive polycrystalline

semiconductor thin film which has a very high electron/photon gain.

There are no P/N junctions in a photocell, making it a bilateral device.

The resistance of the photocell depends on the amount of light falling

on the cell. For a given illumination, the amount of electrical current

through the cell depends on the voltage applied. This voltage may be

either AC or DC. Thus, the photocell is the ideal low distortion output

element for an analog optoisolator.

A complete discussion of photoconductive cells can be found in the

first section of this book.

LED Forward Characteristics

VT33N3 PERKINELMER [PerkinElmer Optoelectronics], VT33N3 Datasheet - Page 33

VT33N3

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