ACS102-6T1-TR STMicroelectronics, ACS102-6T1-TR Datasheet - Page 6

ACS102-6T1-TR

Manufacturer Part Number

ACS102-6T1-TR

Description

IC AC SWITCH 0.2A 600V 8-SOIC

Manufacturer

STMicroelectronics

Series

ACS™r

Datasheet

1.ACS102-6TA-TR.pdf (11 pages)

Specifications of ACS102-6T1-TR

Triac Type

Alternistor - Snubberless

Mounting Type

Surface Mount

Configuration

Single

Current - Hold (ih) (max)

20mA

Voltage - Off State

600V

Current - Gate Trigger (igt) (max)

5mA

Current - Non Rep. Surge 50, 60hz (itsm)

7.3A, 7.6A

Current - On State (it (rms)) (max)

200mA

Voltage - Gate Trigger (vgt) (max)

900mV

Package / Case

8-SOIC (0.154", 3.90mm Width)

Current - On State (it (rms) (max)

200mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-5565-2

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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Part Number:

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AC line switch - basic application

2.1

2.1.1

6/11

AC line switch - basic application

The ACS102-6T switch is triggered by a negative gate current flowing from the gate pin G.

The switch can be driven directly by the digital controller through a resistor as shown in

Figure

Thanks to its overvoltage protection and turn-off commutation performance, the ACS102-6T

switch can drive a small power high inductive load with neither varistor nor additional turn-off

snubber.

Figure 13. Typical application program

Protection against overvoltage: the best choice is ACS

In comparison with standard triacs, which are not robust against surge voltage, the ACS102-

6T is over-voltage self-protected, specified by the new parameter V

in two operating conditions: in case of turn-off of very inductive load, and in case of surge

voltage that can occur on the electrical network.

High inductive load switch-off: turn-off overvoltage clamping

With high inductive and low RMS current loads the rate of decrease of the current is very

low. An overvoltage can occur when the gate current is removed and the OUT current is

lower than I

As shown in

current decreases (1). The load current reaches the holding current level I

ACS turns off (3). The water valve, as an inductive load (up to 15 H), reacts as a current

generator and an overvoltage is created, which is clamped by the ACS (4). The current flows

through the ACS avalanche and decreases linearly to zero. During this time, the voltage

across the switch is limited to the clamping voltage V

of the load is dissipated in the clamping section that is designed for this purpose. When the

energy has been dissipated, the ACS voltage falls back to the mains voltage value (5).

13.

Power supply

Figure 14

and

Figure

MCU

15, at the end of the last conduction half-cycle, the load

. The energy stored in the inductance

Valve

ACS102-6T

. This feature is useful

AC Mains

(2), and the

ACS102-6T

ACS102-6T1-TR STMicroelectronics, ACS102-6T1-TR Datasheet - Page 6

ACS102-6T1-TR

Specifications of ACS102-6T1-TR

Available stocks

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