Datasheet FT1616MH, FT1616BH, FT1614MH, FT1614DH, FT1614BH Datasheet (FAGOR)

On-State Current

16 Amp

FT16...H

HIGH COMMUTATION TRIAC

This series of TRIACs uses a high
performance PNPN technology.

These parts are intended for general
purpose AC switching applications with
highly inductive loads.

Absolute Maximum Ratings, according to IEC publication No. 134

TO220-AB

Gate Trigger Current

≤ 25 mA to ≤ 50 mA

Off-State Voltage

200 V ÷ 600 V

MT1

MT2

G

MT2

RMS On-state Current

Non-repetitive On-State Current

Non-repetitive On-State Current

Fusing Current

Peak Gate Current

Average Gate Power Dissipation

Critical rate of rise of on-state current

Operating Temperature

Storage Temperature

I

T(RMS)

PARAMETER CONDITIONS Min. Max. UnitSYMBOL

I

TSM

I2t
I

GM

P

G(AV)

T

j

T

stg

All Conduction Angle, TC = 100 ºC

Full Cycle, 60 Hz

Full Cycle, 50 Hz

t = 10 ms, Half Cycle

20 µs max. T

j

=125ºC

T

j

=125ºC

I

G

= 2x IGT, t

r

≤100ns

f= 120 Hz, T

j

=125ºC

16

170

160

150

50

-40

-40

A

A

A

A

2

s

A

W

A/µs

ºC

ºC

4

1

+125

+150

di/dt

I

TSM

Jun - 03

Repetitive Peak Off State

Voltage

PARAMETER VOLTAGE UnitSYMBOL

V

DRM

V

RRM

B

200 V

M

600

D

400

FT16...H

HIGH COMMUTATION TRIAC

Jun - 03

Electrical Characteristics

Gate Trigger Current

Off-State Leakage Current

Threshold Voltage

Dynamic Resistance

On-state Voltage

Gate Trigger Voltage

Gate Non Trigger Voltage

Holding Current

Latching Current

Critical Rate of Voltage Rise

PARAMETER CONDITIONS SENSITIVITY

Unit

SYMBOL

I

GT

(1)

I

DRM

VD = 12 V

DC

, R

L

= 30Ω, T

j

= 25 ºC

mA

2

5

0.85

25

1.55

1.3

0.2

1.2

60

mA

µA

V

mΩ

V

V

V

mA

mA

V/µs

A/ms

MAX

MAX

MAX

MAX

MAX

MAX

MAX

MIN

MAX

MAX

MAX

MIN

MIN

MIN

MIN

/I

RRM

V

TM

(2)

V

GT

V

GD

I

H

(2)

I

L

dv / dt

(2)

R

th(j-a)

Thermal Resistance
Junction-Ambient

VD = V

DRM

, Tj = 125 ºC

T

j

= 25 ºC

V

R

= V

RRM

,

IT = 22.5 Amp, tp = 380 µs, Tj = 25 ºC

VD = 12 V

DC

, R

L

= 30Ω, T

j

= 25 ºC

I

T

= 100 mA , Gate open, Tj = 25 ºC

I

G

= 1.2 IGT,

Tj

= 25 ºC

V

D

= 0.67 x V

DRM

, Gate open

T

j

= 125 ºC

Quadrant

Q1÷Q3

Q1÷Q3

Q1÷Q3

Q1,Q3

Q2

V

D

= V

DRM

, R

L

= 3.3KΩ, T

j

= 125 ºC

ºC/W

ºC/W

R

GK

= 1KΩ,

16

50

50

70

80

1000

-

-

14

14

35

35

50

60

500

-

-

8.5

(1) Minimum IGT is guaranted at 5% of IGT max.

(2) For either polarity of electrode MT2 voltage with reference to electrode MT1.

R

th(j-c)

Thermal Resistance
Junction-Case

for AC 360º conduction angle

(dI/dt)c

(2)

Critical Rate of Current Rise

(dv/dt)c= 0.1 V/µs T

j

= 125 ºC

(dv/dt)c= 10 V/µs T

j

= 125 ºC

without snubber Tj = 125 ºC

V

to

(2)

R

d

(2)

Tj = 125 ºC

T

j

= 125 ºC

PART NUMBER INFORMATION

FAGOR

TRIAC

CURRENT

CASE

VOLTAGE

SENSITIVITY

F T 16 11 B H 00

FORMING

TU

PACKAGING

11

25

25

40

50

200

-

-

7.1

1 10 100 1000

180

160

140

120

100

80

60

40

20

0

I

TSM

(A)

Number of cycles

1E+0

1E-1

1E-2

K=[Zth / Rth]

1E-3 1E-2 1E-1 1E+0 1E+1 1E+2 5E+2

tp (s)

I

T(RMS)

(A)

Jun - 03

Fig. 1: Maximum power dissipation versus
RMS on-state curren (full cycle).

0 25 50 75 100 125

Fig. 2: RMS on-state current versus case
temperature (full cycle).

Fig. 3: : Relative variation of thermal
impedance versus pulse duration.

Fig. 5: Surge peak on-state current versus
number of cycles

Fig. 6: Non-repetitive surge peak on-state
current for a sinusoidal pulse with width
tp<10ms, and corresponding value of I

2

t.

Fig. 4: On-state characteristics (maximum
values)

FT16...H

HIGH COMMUTATION TRIAC

P (W)

Tc (ºC)

I

T(RMS)

(A)

0 2 4 6 168 10 12 14

0

2

4

6

16

8

10

12

14

18

20

0

2

4

6

16

8

10

12

14

18

200

100

10

1

ITM (A)

0.5 1.0 1.5 2.0 2.5 3.0 5.0

VTM (V)

Zth(j-c)

Zth(j-a)

3.5 4.0 4.5

Tj = 25 ºC

Tj max

Tj max
Vto = 0.55 V
Rt = 25mΩ

0.01 0.10 1.00 10.00

3000

1000

100

I

TSM

(A), I2 t (A2s)

tp (ms)

Non repetitive
Tj initial = 25 ºC

Repetitive
Tc = 85 ºC

Tj initial = 25 ºC

I

TSM

I2t

dl/dt limitation
50A/µs

t=20ms

One cycle

0

0.5

2.0

1.0

1.5

2.5

FT16...H

HIGH COMMUTATION TRIAC

0 25 50 75

Fig. 8: Relative variation of critical rate of
decrease of main current versus junction
temperature

(dI/dt)c [Tj]/(dI/dc)c [Tj specified]

100

6

5

4

3

2

1

0

I

GT,IH,IL

[Tj]/I

GT,IH,IL

.[Tj=25ºC]

Fig. 7: Relative variation of gate trigger
current, holding current and latching versus
junction temperature (typical values)

Tj(ºC)

Tj(ºC)

125

PACKAGE MECHANICAL DATA

TO-220AB (Plastic)

A
a1
a2

B

b1
b2

C
c1
c2

e

F

I

I4

L
I2
I3
M

REF.

DIMENSIONS

Milimeters

Min. Nominal Max.

15.20

13.00

10.00

0.61

1.23

4.40

0.49

2.40

2.40

6.20

3.75

15.80

2.65

1.14

1.14

3.75

16.40

2.60

15.90

14.00

10.40

0.88

1.32

4.60

0.70

2.72

2.70

6.60

3.85

16.80

2.95

1.70

1.70

-40 -20 0 20 40 60 80 100120 140

I

GT

IH&I

L

14

a1

L

A

e

a2

b1

12

13

øI

B

c

F

b2

c2

c1

M

Jun - 03