TRIAC
(Through Hole / Non-isolated)
TMG20C60
Triac
TMG20C60
is designed for full wave AC control applications.
It can be used as an ON/OFF function or for phase control operation.
(1.3)
9.9
0.3
±
(8.7)
4.5
0.2
±
1.3
0.2
±
TO-220AB2
2
Typical Applications
Home Appliances : Washing Machines, Vacuum Cleaners, Rice Cookers, Micro
Wave Ovens, Hair Dryers, other control applications
●
Industrial Use
: SMPS, Copier Machines, Motor Controls, Dimmer, SSR,
Heater Controls, Vending Machines, other control
applications
●
(1.7)
1
φ3
.2±
0.2
15.7
0.3
±
3
9.2
0.3
±
2
13.1
0.5
±
3
0.3
±
1.52
0.2
±
0.8
0.15
±
2.4
0.2
±
0.5
0.15
±
Features
I
T(RMS)
=20A
●
High Surge Current
●
Low Voltage Drop
●
Lead-Free Package
●
1 T1
2 T2
3 Gate
1
2
3
2.54
0.25
±
5.08
0.5
±
Identifying Code:T20C6
Unit:
mm
■Maximum
Ratings
Symbol
V
DRM
(
I
T RMS)
I
TSM
I
2
t
P
GM
(AV)
P
G
I
GM
V
GM
Tj
Tstg
Item
Repetitive Peak Off-State Voltage
R.M.S. On-State Current
Surge On-State Current
I
2
t(for fusing)
Peak Gate Power Dissipation
Average Gate Power Dissipation
Peak Gate Current
Peak Gate Voltage
Operating Junction Temperature
Storage Temperature
Mass
Reference
(Tj=25℃
unless otherwise specified)
Tc=103℃
One cycle, 50Hz/60Hz, Peak value non-repetitive
Ratings
600
20
183/200
165
5
0.5
2
10
−40∼+125
−40∼+150
2
Unit
V
A
A
A
2
S
W
W
A
V
℃
℃
g
■Electrical
Characteristics
Symbol
I
DRM
V
TM
+
I
GT1
−
I
GT1
+
I
GT3
−
I
GT3
+
V
GT1
−
V
GT1
+
V
GT3
−
V
GT3
V
GD
〔dv
/
dt〕
c
I
H
Rth
Item
Repetitive Peak Off-State Current
Peak On-State Voltage
1
2
Gate Trigger Current
3
4
1
2
Gate Trigger Voltage
3
4
Non-Trigger Gate Voltage
Critical Rate of Rise of Off-State
Voltage at Commutation
Reference
V
D
=V
DRM
, Single phase, half wave, Tj=125℃
I
T
=30A,
Inst. measurement
V
D
=6V,R
L
=10Ω
Tj=125℃,V
D
=
1 2
V
DRM
/
Tj=125℃,
/
dt〕
〔di
c=−8A
/
ms,V
D
=
2 3
V
DRM
/
Junction to case
Ratings
Min. Typ. Max.
2
1.4
30
30
―
30
1.5
1.5
―
1.5
0.2
10
25
1.0
Unit
mA
V
mA
V
V
V
/
μs
mA
℃
/
W
Holding Current
Thermal Resistance
Trigger mode of the triac
Mode
1
I
(
+
)
Mode
2
I
)
(
−
Mode
3 III
(
+
)
Mode
4 III )
(
−
TMG20C60
10
0
Gate Characteristics
10
00
On-State Characteristics
T= 5
½2 ℃
T =1 5
½ 2℃
1
0
V
GM
(10V)
P
GM
(5W)
P
G
(0.5W)
(AV)
I
GM
(2A)
On-State Peak Current A)
(
Gate Voltage
(V)
10
0
1
25℃
1
+
GT1
1
−
GT1
1
−
GT3
V
GD
0.2V)
(
1
0
01
.
1
0
10
0
10
00
100
00
1
05
.
1
15
.
2
25
.
3
3.
5
Gate Current mA)
(
On-State Voltage
(V)
Power Dissipation
(W)
2
0
0
θ
π
θ
2π
=180゜
θ
=150゜
θ
θ
=120゜
θ
=90゜
θ
=60゜
θ
=30゜
30
6゜
θ Conduction Angle
:
1
5
1
0
Allowable Case Temperature
(℃)
2
5
RMS On-State Current vs
Maximum Power Dissipation
15
2
10
2
15
1
10
1
RMS On-State vs
Allowable Case Temperature
θ
=30゜
θ
=60゜
0
θ
30
6゜
π
θ
2π
θ
=90゜
θ
=120゜
θ
=150゜
θ
=180゜
5
0
0
15
0
θ Conduction Angle
:
5
1
0
1
5
2
0
10
0
0
5
10
1
5
2
0
RMS On-State Current
(A)
RMS On-State Current
(A)
Transient Thermal Impedance
(℃/W)
Surge On-State Current Rating
(Non-Repetitive)
Surge On-State Current A)
(
20
0
1
0
Transient Thermal Impedance
10
5
60H
Z
50H
Z
10
0
1
5
0
0
1
1
0
10
0
01
.
00
.1
01
.
1
1
0
10
0
Time
(Cycles)
Time
(Sec.)
I
GT
−Tj
(Typical)
10
00
10
00
V
GT
−Tj
(Typical)
I
GT
(t℃)
×100
(%)
I
GT
2 ℃)
( 5
10
0
I
+
GT1
!
+
)
(
I
−
GT1
!
−
)
(
V
GT
(t℃)
×100
(%)
V
GT
2 ℃)
( 5
10
0
V
+
GT1
(!
+
)
V
−
GT1
(!
−
)
V
−
GT3
(#
−
)
I
−
GT3
#
−
)
(
1
0
−0
5
−5
2
0
2
5
5
0
7
5
10
0
15
2
1
0
−0
5
−5
2
0
2
5
5
0
7
5
10
0
15
2
Junction Temp. Tj
(℃)
Junction Temp. Tj
(℃)
