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UT136FG-6 [UTC]

TRIAC, 600V V(DRM), 4A I(T)RMS, TO-220AB, PLASTIC, TO-220F, 3 PIN;
UT136FG-6
型号: UT136FG-6
厂家: Unisonic Technologies    Unisonic Technologies
描述:

TRIAC, 600V V(DRM), 4A I(T)RMS, TO-220AB, PLASTIC, TO-220F, 3 PIN

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UTC UT136FF/FG  
TRIAC  
TRIACS  
DESCRIPTION  
Glass passivated triacs in a full pack plastic envelope, intended  
for use in applications requiring high bidirectional transient and  
blocking voltage capability and high thermal cycling performance.  
Typical applications include motor control, industrial and  
domestic lighting, heating and static switching.  
SYMBOL  
MT2  
1
TO-220F  
G
MT1  
1:MT1  
2:MT2  
3:GATE  
UNIT  
ABSOLUTE MAXIMUM RATINGS  
PARAMETER  
Repetitive Peak Off-State Voltages  
UT136FF/FG-5  
SYMBOL  
RATINGS  
500*  
600*  
800  
VDRM  
V
A
UT136FF/FG-6  
UT136FF/FG-8  
RMS On-state Current  
IT(RMS)  
4
Full sine wave, Ths92°C  
Non-Repetitive Peak. On-State Current  
Full sine wave, Tj=125°C prior to surge,with reapplied VDRM(max)  
ITSM  
I2t  
A
t=20ms  
25  
27  
3.1  
t=16.7ms  
I2t For Fusing (t=10ms)  
A2s  
Repetitive Rate of Rise of On-state Current after Triggering  
ITM=6A,IG=0.2A,dIG/dt=0.2A/µs  
T2+ G+  
50  
dIT /dt  
A/µs  
T2+ G-  
50  
T2- G-  
T2- G+  
50  
10  
Peak Gate Voltage  
Peak Gate Current  
Peak Gate Power  
Average Gate Power (Over any 20ms period)  
Operating Junction Temperature  
Storage Temperature  
VGM  
IGM  
PGM  
PG(AV)  
Tj  
5
2
5
V
A
W
W
°C  
°C  
0.5  
125  
-40~150  
Tstg  
*Although not recommended, off-state voltages up to 800V may be applied without damage, but the triac may switch  
to the on-state. The rate of rise of current should not exceed 3A/µs.  
1
UTC UNISONIC TECHNOLOGIES CO., LTD.  
QW-R401-018,B  
UTC UT136FF/FG  
TRIAC  
ISOLATION LINITING VALUE & CHARACTERISTIC(Ths=25°C,unless otherwise specified)  
PARAMETER  
SYMBOL  
Visol  
MIN  
TYP  
MAX  
1500  
UNIT  
V
Repetitive paek voltage form all three terminals to  
external heatsink (R.H.65%,clean and dustfree)  
Capacitance from MT2 to external heatsink (f=1MHz)  
Cisol  
12  
pF  
THERMAL RESISTANCES  
PARAMETER  
SYMBOL  
Rth j-hs  
Rth j-a  
MIN  
TYP  
55  
MAX  
UNIT  
K/W  
Thermal Resistance, Junction to heatsink  
(full or half cycle)  
with heatsink compound  
without heatsink compound  
5.5  
7.2  
Thermal Resistance, Junction to Ambient (In free air)  
K/W  
STATIC CHARACTERISTICS (Tj=25°C,unless otherwise specified)  
MIN TYP  
MAX  
UT136FF UT136FG  
PARAMETER  
SYMBOL  
CONDITIONS  
UNIT  
mA  
Gate trigger current  
VD=12V, IT=0.1A  
T2+ G+  
T2+ G-  
T2- G-  
T2- G+  
5
8
11  
30  
25  
25  
25  
70  
50  
50  
IGT  
50  
100  
Latching current  
VD=12V, IGT=0.1A  
T2+ G+  
T2+ G-  
T2- G-  
T2- G+  
7
16  
5
20  
30  
20  
30  
30  
45  
30  
45  
IL  
mA  
7
Holding current  
On-state voltage  
Gate trigger voltage  
IH  
VT  
VD = 12 V, IGT = 0.1 A  
IT=5A  
VD=12V, IT=0.1A  
VD=400V, IT=0.1A, Tj=125°C  
VD=VDRM(max) , Tj=125°C  
5
1.4  
0.7  
15  
30  
mA  
V
V
V
mA  
1.70  
1.5  
VGT  
ID  
0.25 0.4  
0.1  
Off-state leakage current  
0.5  
DYNAMIC CHARACTERISTICS(Tj=25°C,unless otherwise specified)  
MIN  
UT136FF UT136FG  
PARAMETER  
SYMBOL  
CONDITIONS  
TYP MAX UNIT  
Critical rate of rise of  
Off-state voltage  
VDM = 67% VDRM(max) , Tj =125°C,  
exponential waveform, gate open  
circuit  
dVD /dt  
50  
200  
10  
250  
V/µs  
Critical rate of change of  
Commutating voltage  
VDM=400V, Tj=95°C, IT(RMS)=4A,  
dVcom/dt dIcom /dt =1.8A/ms, gate open  
circuit  
50  
2
V/µs  
µs  
Gate controlled turn-on  
time  
ITM = 6 A, VD= VDRM(max) , IG=0.1A,  
dIG/dt=5A/µs  
tgt  
2
UTC UNISONIC TECHNOLOGIES CO., LTD.  
QW-R401-018,B  
UTC UT136FF/FG  
TRIAC  
TYPICAL CHARACTERISTICS  
Figure 1.Maximum on -state Dissipation.Ptot vs RMS On-  
state Current,IT(RMS),Whereα=Conduction Angle.  
Figure 4.Maximum Permissible RMS Current IT(RMS)  
vs Heatsink Temperature Ths  
Ptot/W  
IT(RMS)/A  
Tsp(max)/C  
5
4
8
7
6
5
4
3
2
1
0
81  
α
86.5  
92  
92℃  
α=180  
α=120  
α=90  
α=60  
α=30  
α
97.5  
3
2
103  
108.5  
114  
1
0
119.5  
125  
0
-50  
50  
100  
150  
0
1
2
3
4
5
Ths/℃  
IT(RMS)/A  
Figure 2. Maximum Permissible Non-repetitive  
Peak On-state Current ITSM,vs Pulse Width  
tp,for Sinusoidal Currents,tp20ms  
Figure 5.Maximum Permissible Repetitive RMS on-state  
Current IT(RMS),vs Surge Duration,for Sinusoidal  
Currents,f=50Hz;Ths≦92℃  
ITSM/A  
IT(RMS)/A  
1000  
12  
10  
8
ITSM  
IT  
time  
Tj initial=125max  
T
6
100  
10  
dIT/dt limit  
4
2
T2-G+ quadrant  
0
100us  
10us  
1ms  
T/s  
10ms  
100ms  
0.1  
Surge Duration /S  
1
0.01  
10  
Figure 3 .Maximum Permissible Non-Repetitive  
peak on-state Current ITSM,vs Number of Cycles,  
for Sinusoidal Currents,f=50Hz  
ITSM/A  
Figure 6.Normalised Gate Trigger Voltage VGT(Tj)/  
VGT(25),vs Junction Temperature Tj  
VGT(Tj)  
VGT(25℃)  
1.6  
30  
25  
ITSM  
time  
IT  
1.4  
1.2  
T
20  
Tj initial=125max  
1
15  
10  
0.8  
0.6  
0.4  
5
0
0
-50  
50  
Tj/℃  
100  
150  
10  
Number of Cycles at 50Hz  
1000  
100  
1
3
UTC UNISONIC TECHNOLOGIES CO., LTD.  
QW-R401-018,B  
UTC UT136FF/FG  
TRIAC  
Figure 7.Normalised Gate Trigger Current  
IGT(Tj)/IGT(25),vs Junction Temperature Tj  
Figure 10.Typical and Maximum  
On-state Characteristic  
IGT(Tj)  
IGT(25℃)  
IT/A  
12  
10  
8
3
Tj=125  
T2+G+  
T2+G-  
T2-G-  
max  
Tj=25℃  
2.5  
typ  
T2-G+  
2
1.5  
1
Vo=1.27V  
Rs=0.091 Ohms  
6
4
0.5  
0
2
0
-50  
0
50  
100  
150  
0
0.5  
1
1.5  
VT/V  
2
2.5  
3
Tj/  
Figure 8.Normalised Latching Current  
IL(Tj)/IL(25),vs Junction Temperature Tj  
IL(Tj)  
IL(25℃)  
Figure 11.Transient Thermal Impedance  
Zth j-hs,vs Pulse Width tp  
Zth j-hs (K/W)  
10  
with heatsink compound  
3
without heatsink compound  
2.5  
2
unidirectional  
1
bidirectional  
1.5  
1
tp  
0.1  
PD  
0.5  
0
t
1s  
0.01  
0
-50  
50  
Tj/℃  
100  
150  
1ms  
10ms 0.1s  
tp/s  
10s  
10us 0.1ms  
Figure 12.Typical commutation dV/dt vs junction  
temperature,parameter commutation dlT/dt.The triac should  
commutate when the dV/dt is below the value on the  
appropriate curve for pre-commutation dlT/dt  
dV/dt(V/us)  
Figure 9.Normalised Holding Current  
IH(Tj)/IH(25),vs Junction Temperature Tj  
IH(Tj)  
IH(25℃)  
1000  
off-state dV/dt limit  
3
2.5  
2
UT136FG  
UT136FF  
100  
1.5  
1
10  
1
dlcom/dt=  
5.1A/ms  
3.9  
3
2.3  
1.8  
1.4  
0.5  
0
0
0
150  
-50  
50  
Tj/℃  
100  
150  
100  
50  
Tj/℃  
4
UTC UNISONIC TECHNOLOGIES CO., LTD.  
QW-R401-018,B  
UTC UT136FF/FG  
TRIAC  
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.  
5
UTC UNISONIC TECHNOLOGIES CO., LTD.  
QW-R401-018,B  

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 TRIAC, 500V V(DRM), 4A I(T)RMS,
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