MOC3009 Datasheet, PDF(2/7 Page) QT Optoelectronics

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MOC3009 Datasheet, PDF (2/7 Pages) QT Optoelectronics – NON-ZERO-CROSSING TRIACS

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MOC3009 THRU MOC3012

OPTOCOUPLERS/OPTOISOLATORS

SOES024A â AUGUST 1985 â REVISED APRIL 1998

electrical characteristics at 25Â°C free-air temperature (unless otherwise noted)

PARAMETER

IDRM

dv/dt

Static reverse current

Static forward voltage

Repetitive off-state current, either direction

Critical rate of rise of off-state voltage

dv/dt(c) Critical rate of rise of commutating voltage

MOC3009

IFT

Input trigger current, either

direction

MOC3010

MOC3011

MOC3012

VTM

Peak on-state voltage, either direction

Holding current, either direction

NOTE 5: Test voltage must be applied within dv/dt rating.

TEST CONDITIONS

VR = 3 V

IF = 10 mA

VDRM = 250 V,

See Figure 1

See Note 5

IO = 15 mA,

See Figure 1

Output supply voltage = 3 V

ITM = 100 mA

MIN TYP MAX UNIT

0.05 100 ÂµA

1.2 1.5 V

10 100 nA

V/Âµs

0.15

V/Âµs

1.8

100

ÂµA

PARAMETER MEASUREMENT INFORMATION

VCC

Input

(see Note A)

10 kâ¦

2N3904

Vin = 30 Vrms

NOTE A. The critical rate of rise of off-state voltage, dv/dt, is measured with the input at 0 V. The frequency of Vin is increased until the

phototriac just turns on. This frequency is then used to calculate the dv/dt according to the formula:

Å + Ç¸ dv dt 2 2 ÏfVin

The critical rate of rise of commutating voltage, dv/dt(c), is measured by applying occasional 5-V pulses to the input and increasing

the frequency of Vin until the phototriac stays on (latches) after the input pulse has ceased. With no further input pulses, the

frequency of Vin is then gradually decreased until the phototriac turns off. The frequency at which turn-off occurs may then be used

to calculate the dv/dt(c) according to the formula shown above.

Figure 1. Critical Rate of Rise Test Circuit

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