MAC97A6L-T92-K - Unisonic Technologies Co., Ltd.

UNISONIC TECHNOLOGIES CO., LTD

MAC97A6/8

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QW-R401-023.C

LOGIC LEVEL TRIAC

.

 DESCRIPTION

Logic level sensitive gate triac intended to be interfaced directly

to microcontrollers, logic integrated circuits and other low power

gate trigger circuits.

 FEATURES

*Blocking voltage to 600 V (MAC97A8)

*RMS on-state current to 0.6 A

*Sensitive gate in all four quadrants

 APPLICATIONS

*General purpose bidirectional switching

*Phase control applications

*Solid state relays.

 SYMBOL

MT2 MT1

G

TO-92

1

SOT-223

1

*Pb-free plating product number:

MAC97A6L/MAC97A8L

 ORDERING INFORMATION

Order Number Pin Assignment

Normal Lead Free Plating Package 1 2 3 Packing

MAC97A6-AA3-R MAC97A6L-AA3-R SOT-223 MT1 MT2 Gate Tape Box

MAC97A6-T92-B MAC97A6L-T92-B TO-92 MT1 Gate MT2 Tape Box

MAC97A6-T92-K MAC97A6L-T92-K TO-92 MT1 Gate MT2 Bulk

MAC97A6-T92-R MAC97A6L-T92-R TO-92 MT1 Gate MT2 Tape Reel

MAC97A8-AA3-R MAC97A8L-AA3-R SOT-223 MT1 MT2 Gate Tape Box

MAC97A8-T92-B MAC97A8L-T92-B TO-92 MT1 Gate MT2 Tape Box

MAC97A8-T92-K MAC97A8L-T92-K TO-92 MT1 Gate MT2 Bulk

MAC97A8-T92-R MAC97A8L-T92-R TO-92 MT1 Gate MT2 Tape Reel

MAC97A6L-AA3-R

(1)Packing Type

(2)Package Type

(3)Lead Plating

(1) B: Tape Box, K: Bulk, R: Tape Reel

(2) AA3: SOT-223, T92: TO-92

(3) L: Lead Free Plating, Blank: Pb/Sn

MAC97A6/8

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 ABSOLUTE MAXIMUM RATINGS

CHARACTERISTIC SYMBOL RATINGS UNIT

MAC97A6 400 V

Repetitive Peak off-State Voltage (T

J

=25 ~125 )

℃

MAC97A8 V

DRM

600 V

RMS on-State Current (Full Sine Wave, T

LEAD

≤50 )

℃

I

T(RMS)

0.6 A

t=20ms 8.0 A Non-Repetitive Peak on-State Current

(Full Sine Wave, T

J

=25

℃

Prior to Surge) t=16.7ms I

TSM

8.8 A

I

2

t for Fusing (t=10ms) I

2

t 0.32 A

2

s

T2+G+ 50 A/µs

T2+G- 50 A/µs

T2-G- 50 A/µs

Repetitive Rate of Rise of on-State Current After

Triggering(I

TM

=1.0A, I

G

=0.2A, dI

G

/dt=0.2A/µs)

T2-G+

dI

T

/dt

10 A/µs

Peak Gate Voltage [ t=2µs (max) ] V

GM

5 V

Peak Gate Current [ t=2µs (max) ] I

GM

1 A

Peak Gate Power [ t=2µs (max) ] P

GM

5 W

Average Gate Power [ Tcase=80

℃

, t=2us (max) ] P

G(AV)

0.1 W

Operating Junction Temperature T

J

-40~+125

℃

Storage Temperature T

STG

-40~+150

℃

Note: Absolute maximum ratings are those values beyond which the device could be permanently damaged.

Absolute maximum ratings are stress ratings only and functional device operation is not implied.

 THERMAL DATA

PARAMETER SYMBOL RATINGS UNIT

TO-92 150

℃

/W

Thermal Resistance Junction to Ambient SOT-223

θ

JA

165

℃

/W

 STATIC CHARACTERISTICS

(T

J

=25

℃

, unless otherwise specified)

 DYNAMIC CHARACTERISTICS

(T

J

=25

℃

, unless otherwise specified)

PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITS

T2+G+ 1 5 mA

T2+G- 2 5 mA

T2-G- 2 5 mA

Gate Trigger Current I

GT

V

D

=12V, I

T

=0.1A

T2-G+ 4 7 mA

T2+G+ 1 10 mA

T2+G- 5 10 mA

T2-G- 1 10 mA

Latching Current I

L

V

D

=12V, I

GT

=0.1A

T2-G+ 2 10 mA

Holding Current I

H

V

D

=12V, I

GT

=0.1A 1 10 mA

On-State Voltage V

T

I

T

=0.85A 1.4 1.9 V

V

D

=12V,I

T

=0.1A 0.9 2 V

Gate Trigger Voltage V

GT

V

D

=V

DRM

, I

T

=0.1A, T

J

=110

℃

0.1 0.7 V

Off-State Leakage Current I

D

V

D

=V

DRM(MAX)

, T

J

=110

℃

3 100 µA

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

Critical Rate of Rise of Off-State

Voltage dV

D

/dt V

D

=67% of V

DRM(max)

,

Tcase=110 ,

℃

Exponential

Waveform, Gate Open Circuit

30 45 V/µs

Critical Rate of Rise of Commutation

Voltage dVcom/dt

V

D

=Rated V

DRM

, Tcase=50 ,

℃

l

TM

=0.84A, commutating

dl/dt=0.3A/ms

5 V/µs

Gate Controlled Turn-On Time tgt I

TM

=1.0A,V

D

=V

DRM(max)

,

I

G

=25mA,dI

G

/dt=5A/µs 2 µs

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 TYPICAL CHARACTERISTICS

10

1

10 10 10

Transient Thermal Impedance From Junction to

Ambient as a Function of Pulse Duration.

10 10 10

1

3

2

-5 -4 -3 -2 -1

Zth(j-a)/kW

p

t

P

t

Tp(s)

Maximum On-State Dissipation as a Function of

RMS On-State Current; Typical Values.

α=Conduction Angle.

0.60

0

P

D

(W)

I

T(RMS)/A

0.40.2 0.8

1.2

0.6

0.4

0.2

α=180

α=120

α= 90

α= 60

α= 30

α

1

0.8

α

10

1000

10

100

10

Tp/s

10

1

Maximum Permissible Non-Repetitive Peak on-

State Current as a Function of Pulse Width for

Sinusoidal Currents;Tyical Values. tp≦ 20ms.

I

TSM

(A)

-5 -4 - 1-3 -2

I

T

time

I

TSM

Tj initial=25 ℃ max

T

I

TSM

(A)

Maximum Permissible Non-Repetitive Peak

On-State Current as a Function of Number

of Cycles for Sinusoidal Currents; Typical

Values . n=Number of Cycles at f=50Hz.

8

4

010 10

2

1

10

6

2

10

3

I

T

time

I

TSM

Tj initial=25 ℃ max

T

80 10004020

1

0.6

T

LEAD

(℃)

0

0.8

I

T(RMS)

(A)

Maximum Permissible RMS Current as a

Function of Lead Temperature; Typical

Values.

0.4

0.2

60 120 140

3

1.5

2

2.5

1

0

I

T(RMS)

(A)

10

-3

10

-2

110

Maximum Permissible Repetitive RMS On -

State Current as a Function of Surge

Duration for Sinusoidal Currents; Typical

Values. f=50Hz; T

LEAD

≦ 50℃.

0.5

Tsurge(s)

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 TYPICAL CHARACTERISTICS(Cont.)

-60

1.6

0.8

TJ(℃)

1.2

1.4

1

0.6

0.4

Normalized Gate Trigger Voltage as a

of Function Junction Temperature;

Typical Values.

-104090

0.2

0

140

V

GT

(25℃)

60 100-60 20-20

1

T

J

(℃)

2

2.5

1.5

0.5

0

Normalized Gate Trigger Current as a Function

of Junction Temperature; Typical Values.

140

I

GT

(25 ℃)

T2+G+

T2-G+

T2-G -

T2+G -

1

2

2.5

1.5

0.5

0

60 100-60 20-20 140

I

L

(25℃)

1

2

2.5

1.5

0.5

0

60 100-60 20-20 140

I

H

(25℃)

1.510.5

2.0

1.6

1.

2

0.8

0.

4

0

2.0

max

typ

max

V

GT

(T

J

)

Normalized Latching Current as a Function of

Junction Temperature; Typical Values. Normalized Holding Current as a Function of

Junction Temperature; Typical Values.

I

H

(T

J

)

T

J

(℃)

T

J

(℃)

On-State Current as a Function of On-State

Voltage; Typical and Maximum Values .

I

T

(A)

T

J

=125 ℃

T

J

=25 ℃

V

T

(V )

I

GT

(T

J

)

I

L

(T

J

)

120 140400

1000

10

dV

D

/dt(V/us)

1

100

20 60 80 100

Critical Rate of Rise of Off-State Voltage as a

Function of Junction Temperature; Typical

Values.

T

J

(℃)

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UTC assumes no responsibility for equipment failures that result from using products at values that

exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or

other parameters) listed in products specifications of any and all UTC products described or contained

herein. UTC products are not designed for use in life support appliances, devices or systems where

malfunction of these products can be reasonably expected to result in personal injury. Reproduction in

whole or in part is prohibited without the prior written consent of the copyright owner. The information

presented in this document does not form part of any quotation or contract, is believed to be accurate

and reliable and may be changed without notice.