MOC3052SR2VM Fairchild Optoelectronics Group, MOC3052SR2VM Datasheet - Page 4

MOC3052SR2VM

Manufacturer Part Number

MOC3052SR2VM

Description

OPTOCOUPLER TRIAC VDE 6-SMD

Manufacturer

Fairchild Optoelectronics Group

Datasheet

1.MOC3051M.pdf (11 pages)

Specifications of MOC3052SR2VM

Voltage - Isolation

7500Vpk

Number Of Channels

Voltage - Off State

600V

Output Type

AC, Triac, Standard

Current - Gate Trigger (igt) (max)

10mA

Current - Hold (ih)

280µA

Current - Dc Forward (if)

60mA

Mounting Type

Surface Mount

Package / Case

6-SMD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output / Channel

Other names

MOC3052SR2VM
MOC3052SR2VMTR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MOC3052SR2VM

Manufacturer:

FAIRCHILD/仙童

Quantity:

20 000

Company:

Amily Shenzhen XNWY Technology Co., Ltd

Part Number:

MOC3052SR2VM

Company:

H&T Electronics

Part Number:

MOC3052SR2VM

Quantity:

3 185

Current page: 4 of 11
Download datasheet (550Kb)

MOC3051-M

This graph (ﬁgure 3) shows the increase of the trigger current

when the device is expected to operate at an ambient tempera-

ture below 25°C. Multiply the normalized I

with the data sheet guaranteed I

Example:

Phase Control Considerations

LED Trigger Current versus PW (normalized)

Random Phase Triac drivers are designed to be phase control-

lable. They may be triggered at any phase angle within the AC

versus Temperature (normalized)

= -40°C, I

@ -40°C = 10 mA x 1.4 = 14 mA

1.4

1.3

1.2

1.1

1.0

0.9

0.8

0.7

0.6

1.8

1.7

1.6

1.5

1.4

1.3

1.2

1.1

1.0

-40

Figure. 1 LED Forward Voltage vs. Forward Current

NORMALIZED TO T A = 25°C

Figure. 3 Trigger Current vs. Ambient Temperature

= 10 mA

-20

AMBIENT TEMPERATURE - T

- LED FORWARD CURRENT (mA)

= -55

= 100

= 25

(

shown this graph

100

Page 4 of 11

OPTOISOLATORS TRIAC DRIVERS

sine wave. Phase control may be accomplished by an AC line

zero cross detector and a variable pulse delay generator which

is synchronized to the zero cross detector. The same task can

be accomplished by a microprocessor which is synchronized

to the AC zero crossing. The phase controlled trigger current

may be a very short pulse which saves energy delivered to the

input LED. LED trigger pulse currents shorter than 100 µs must

have an increased amplitude as shown on Figure 4. This graph

shows the dependency of the trigger current I

pulse width can be seen on the chart delay t(d) versus the LED

trigger current.

minimum speciﬁed I

the device characteristic. The normalized I

plied with the devices guaranteed static trigger current.

Example:

Guaranteed I

in the graph I

(pulsed) = 10 mA x 5 = 50 mA

Figure. 4 LED Current Required to Trigger vs. LED Pulse Width

-200

-400

-600

-800

800

600

400

200

6-PIN DIP RANDOM-PHASE

-3

= 10 mA, Trigger pulse width PW = 3 µs

Figure. 2 On-State Characteristics

-2

PW in , LED TRIGGER PULSE WIDTH (µs)

versus (PW) is normalized in respect to the

ON-STATE VOLTAGE - V

for static condition, which is speciﬁed in

-1

(600 VOLT PEAK)

MOC3052-M

NORMALIZED TO:

PW in ≥ 100 µs

(V)

has to be multi-

100

versus the

9/2/04

MOC3052SR2VM Fairchild Optoelectronics Group, MOC3052SR2VM Datasheet - Page 4

MOC3052SR2VM

Specifications of MOC3052SR2VM

Available stocks

Related parts for MOC3052SR2VM