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SANREX TG16C

TRIAC(ISOLATED MOLD TYPE)
TG16C
UL:E76102(M)
Triac TG16C is isolated mold TRIAC suitable for wide range of
applications like Copier Machines, Micro Wave Ovens, Solid State Switches,
Motor Controls, Light Controls and Heater Controls.
39.2 MAX
20.2 MAX
10.8
(T1) (G)
20.1 MAX
21.6 MAX
30.0±0.1
13.9
T'
6.35±0.15
4( III−)
3.0±0.3
8.2
Tc Point(depth 2mm)
2.6
5-φ1.3±0.2
G
+0.2
φ1.55 (G)
- 0.0
T
7.95±0.15
3( III+)
9.75±0.3
T1
+0.2
φ2.0 (T1.T2)
- 0.0
22.5 MAX
16A
● High surge capability 160A
● Isolated Mounting
(AC2500V)
● Tab Terminals
2( −)
(T2)
23.0 MAX
● IT
(AV)
1( +)
TO3
2-φ4.2±0.1
T2
T1:TAB250(T=6.35, T'=8.25, t=0.8)
T2:TAB250(T=6.35, T'=8.25, t=0.8)
G:TAB187(T=4.75, T'=5.7, t=0.5)
■Maximum Ratings
Unit:mm
(Tj=25℃ unless otherwise specified)
Symbol
Item
VDRM
Repetitive Peak Off-State Voltage
Symbol
IT(RMS)
ITSM
I2t
PGM
PG(AV)
IGM
VGM
di/dt
Tj
Tstg
VISO
Item
R.M.S. On-State Current
Surge On-State Current
I2t
Peak Gate Power Dissipation
Average Gate Power Dissipation
Peak Gate Current
Peak Gate Voltage
Critical Rate of Rise of On-State Current
Operating Junction Temperature
Storage Temperature
Isolation Breakdown Voltage(R.M.S.)
Ratings
TG16C40
400
Unit
TG16C60
600
Conditions
Tc=83℃
One cycle, 50Hz/60Hz, peak, non-repetitive
Value for one cycle of surge current
IG=100mA,
Tj=25℃,
VD=1/2VDRM,
dIG/dt=1A/μs
A.C.1 minute
Mounting Torque(M4)
Recommended Value 1.0∼1.4(10∼14)
Mass
Typical value(Excluding bolt, nut and wrapping material)
V
Ratings
16
140/160
106
10
1
3
10
50
−25 to +125
−40 to +125
2500
Unit
A
A
A2S
W
W
A
V
A /μs
℃
℃
V
N・m
1.5(15)
(kgf・B)
23
g
■Electrical Characteristics
Symbol
Item
IDRM
Reptitive Peak Off-State Current, max
VD=VDRM, Single phase, half wave, Tj=125℃
VTM
+
I GT1
Peak On-State Voltage, max
1
−
I GT1
2
+
I GT3
3
−
I GT3
+
V GT1
−
Ratings
Unit
3
mA
On-State Current〔√2×IT(RMS)〕
,Inst. measurement
1.5
V
Tj=25℃,IT=1A,VD=6V
50
Tj=25℃,IT=1A,VD=6V
50
4
Tj=25℃,IT=1A,VD=6V
−
50
1
Tj=25℃,IT=1A,VD=6V
3
Tj=25℃,IT=1A,VD=6V
3
Gate Trigger Current, max
Conditions
mA
V GT1
2
+
V GT3
3
−
V GT3
4
Tj=25℃,IT=1A,VD=6V
−
3
Non-Trigger Gate Voltage, min
Tj=125℃,VD=1/2VDRM
0.2
V
Turn On Time, max.
IT(RMS),IG=100mA,VD=1/2VDRM,Tj=25℃,dIG/dt=1A/μs
10
V
dv/dt
Critical Rate of Rise on-State
Voltage,min.
Tj=125℃,VD=2/3VDRM,Exoponential wave.
50
V/μs
〔dv/dt〕c
Critical Rate of Rise off-State
Voltage at commutation, min
Tj=125℃,VD=2/3VDRM,
〔di/dt〕c=8A/ms
6
V/μs
Holding Current, typ.
Tj=25℃
Junction to case
30
mA
2.0
℃/W
VGD
tgt
IH
Gate Trigger Voltage, max
Rth
(j-c) Thermal Impedance, max
V
;
Gate Characteristics
Pe
Po ak G
we at
(
r1 e
0W
Gate
)
Distribution
5
Av
2
er
−25℃
ag
e
25℃
100
Ga
te
Po
we
(
r
125℃
5
2
1W
)
On-State Current(A)
Gate Voltage(V)
103
Peak Gate Voltage(10V)
101
Peak Gate Current(3A)
2
TG16C
2
102
5
2
103
5
2
5
2
102
5
2
101
Maximum Gate Voltage that will not trigger any unit
10−1 1
10
On-State Voltage(MAX)
5
0
5
1
2
Gate Current(mA)
θ=180゜
20
π
0
θ
θ=150゜
θ=120゜
θ=90゜
2π
θ
16
360゜
θ=60゜
θ
:Conduction Angle
θ=30゜
12
8
4
0
0
4
12
8
16
130
Allowable Case Temperature(℃)
Power Dissipation(W)
24
On State Current vs.
Maximum Power Dissipation
110
100
120゜
×3Rth:2.7℃/W
100゜
×3Rth:3.3℃/W
12
8
4
0
0
80゜
×3Rth:4.6℃/W
Conduction Angle 180゜
Apply following figures for
different conduction angles
θ
:150゜
:1.05
θ
:120゜
:1.16
θ
: 90゜
:1.26
θ
: 60゜
:1.40
θ
: 30゜
:1.61
20
(Rth:heat Sink Thermal Impedance)
40
60
80
100
120
θ
360゜
θ
:Conduction Angle
80
70
0
4
8
10ー1
16
20
250
Surge On-State Current Rating
(Non-Repetitive)
200
Tj=25℃ start
150
100
60Hz
50Hz
50
2
5
101
2
5
Time(cycles)
Transient Thermal Impedance
10ー2
12
RMS On-State Current(A)
Maximum Allowable Ambient Temperature(℃)
12
11
10
9
8
7
6
5
4
3
2
1
0 ー3
10
θ=30゜
θ=60゜
θ=90゜
θ=120゜
θ=150゜
θ=180゜
2π
θ
90
0 0
10
140
π
0
Surge On-State Current(A)
θ=180゜
16
Transient Thermal Impedance θj-c(℃/W)
RMS On-State Current(A)
FIn:Al plate pained black
5
On State Current vs.
Allowable Case Temperature
RMS On-State Current(A)
20
4
120
20
Ambient temp. vs. RMS On-State Current
3
On-State Voltage(V)
100
101
Time t(sec)
102
12
11
10
9
Fin:Al plate pained black
8
7
80゜
×3t
6
100゜
×3t
5
120゜
×3t
4
3
Junction to case
2
1
0
103
104
102
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