BRT22F Vishay, BRT22F Datasheet - Page 4

BRT22F

Manufacturer Part Number

BRT22F

Description

Manufacturer

Vishay

Datasheet

1.BRT22F.pdf (9 pages)

Specifications of BRT22F

Number Of Elements

Forward Voltage

1.35V

Repetitive Peak Off-state Volt

600V

Operating Temp Range

-40C to 100C

Output Current

300mA

Package Type

PDIP SMD

Reverse Breakdown Voltage

Mounting

Surface Mount

Pin Count

Trigger Current

1.2mA

Zero Crossing Circuit

Yes

Operating Temperature Classification

Industrial

Forward Current

60mA

Power Dissipation

600mW

Output Device

Triac

Isolation Voltage

5300Vrms

Lead Free Status / RoHS Status

Compliant

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BRT21/BRT22/BRT23

Vishay Semiconductors

Note

As per IEC 60747-5-2, § 7.4.3.8.1, this optocoupler is suitable for "safe electrical insulation" only within the safety ratings. Compliance with the

safety ratings shall be ensured by means of protective circuits.

POWER FACTOR CONSIDERATIONS

A snubber is not needed to eliminate false operation of the

TRIAC driver because of the high static and commutating

dV/dt with loads between 1.0 and 0.8 power factors. When

inductive loads with power factors less than 0.8 are being

driven, include a RC snubber or a single capacitor directly

across the device to damp the peak commutating dV/dt

spike. Normally a commutating dV/dt causes a turning-off

device to stay on due to the stored energy remaining in the

turning-off device.

But in the case of a zero voltage crossing optotriac, the

commutating dV/dt spikes can inhibit one half of the TRIAC

from turning on. If the spike potential exceeds the inhibit

voltage of the zero cross detection circuit, half of the TRIAC

will be heldoff and not turn-on. This hold-off condition can be

eliminated by using a snubber or capacitor placed directly

across the optotriac as shown in Figure 1. Note that the value

of the capacitor increases as a function of the load current.

The hold-off condition also can be eliminated by providing a

higher level of LED drive current. The higher LED drive

provides

phototransistor to turn-on before the commutating spike has

activated the zero cross network. Figure 2 shows the

relationship of the LED drive for power factors of less than

1.0. The curve shows that if a device requires 1.5 mA for a

resistive load, then 1.8 times 2.7 mA) that amount would be

required to control an inductive load whose power factor is

less than 0.3.

www.vishay.com

196

SAFETY AND INSULATION RATINGS

PARAMETER

Climatic classification

(according to IEC 68 part 1)

Comparative tracking index

Creepage distance

Clearance distance

Creepage distance

Clearance distance

IOTM

IORM

larger

photocurrent

For technical questions, contact: optocouplers.answers@vishay.com

TEST CONDITION

which

standard DIP-6

400 mil DIP-6

Optocoupler, Phototriac Output,

causes

Zero Crossing

the

SYMBOL

CTI

iil410_01

Fig. 1 - Shunt Capacitance vs. Load Current

0.001

0.01

6000

MIN.

0.1

175

630

(µF) = 0.0032 (µF)*10^0.0066 I

- Load Current (mA) (RMS)

100

40/100/21

TYP.

150

T a = 25 °C, PF = 0.3

I F = 2.0 mA

200

250

Document Number: 83690

MAX.

399

200

400

175

300

Rev. 1.5, 07-May-08

350

(mA)

400

UNIT

°C

BRT22F Vishay, BRT22F Datasheet - Page 4

BRT22F

Specifications of BRT22F

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