Working Peak Reverse Voltage: 5.0 - 170 Volts
Power Dissipation: 1500 Watts
TV15C5V0 Thru TV15C171
Features
Ideal for surface mount applications
Easy pick and place
Plastic package has Underwriters Lab.
flammability classification 94V-0
Typical IR less than 1uA above 10V
Fast reponse time: typically less 1nS for
uni-direction, less than 5nS for bi-
directiona, from 0 V to BV min.
Mechanical data
Case: JEDEC DO-214AB molded plastic
Terminals: solderable per MIL-STD-750,
method 2026
Polarity: Cathode band denoted
Mounting position: Any
Approx. Weight:0.21 gram
SMD Transient Voltage Suppressor
SMD Transient Voltage Suppressor
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COMCHIP
COMCHIP
Maximum Ratings and Electrical Characterics
Rating at 25 C ambient temperature unless otherwise specified.
Single phase, half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%
MDS0211016A
Page 1
Characteristics
Peak Power Dissipation on 10/1000uS
Waveform (Note 1, Fig. 1)
Peak Pulse Current of on 10/1000uS
Waveform (Note 1, Fig. 3)
Steady State Power Dissipation at
T
L
=75 C (Note 2)
Peak Forfard Surge Current, 8.3mS Single
Half Sine-Wave Superimposed on Rated
Load, Uni-Directional Only (Note 3)
Maxinum Instantaneous Forward Voltage
at 100A for Uni-Directional only
(Note 3 & 4)
Operation Junction Temperature Range
Storage Temperature Range
Symbol
P
PPM
I
PPM
P
M(AV)
I
FSM
VF
Tj
T
STG
Note: 1. Non-Repetitive Current Pulse, per Fig. 3 and Derated above TA=25 C, per Fig. 2.
2. Mounted on 8.0x8.0 mm . Copper Pads to Each Terminal.
3. Measured on 8.3 mS Single Half Sine-Wave or Equivalent Square Wave, Duty Cycle=4 Pulse per Minute Maximum.
4. VF=3.5V on TV15C5V0 thru TV15C900 Devices and VF=5.0V on TV15C101 thru TV15C171.
Value
1500
See Table 1
5.0
200
3.5/5.0
-55 to +150
-55 to +150
Units
Watts
A
Watts
A
Volts
C
C
SMC/DO-214AB
Dimensions in inches and (millimeter)
0.008(0.20)
0.0203(0.10)
0.124(3.15)
0.108(2.75)
0.103(2.62)
0.079(2.00)
0.050(1.27)
0.030(0.76)
0.245(6.22)
0.220(5.59)
0.280(7.11)
0.260(6.60)
0.012(0.31)
0.006(0.15)
0.320(8.13)
0.305(7.75)
Rating and Characteristic Curves (TV15C5V0 Thru TV15C171)
Fig. 1 - Reverse Characteristics
Fig. 2 - Pulse Derating Curve
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COMCHIP
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0.1 1.0 10 100 1000 10000
MDS0211016A
Page 2
SMD Transient Voltage Suppressor
SMD Transient Voltage Suppressor
100
10
1.0
0.1
Non-Repetitive
Pulse Waveform
Shown in Fig. 3
T
A
=25 C
Mounted on 8mmx8mm
Copper Pads
Pulse Width, t
d
(uS)
P
e
a
k
P
u
l
s
e
P
o
w
e
r
,
P
P
P
M
(
K
W
)
0 25 50 75 100 125 150 175
Ambient Temperature,T
A
( C)
Ambient Temperature,T
A
( C)
P
e
a
k
p
u
l
s
e
P
o
w
e
r
(
P
p
p
)
o
r
C
u
r
r
e
n
t
(
I
p
p
)
D
e
r
a
t
i
n
g
i
n
P
e
r
c
e
n
t
(
%
)
140
120
100
80
60
40
20
0
Fig. 4 - Typical Junction Capacitance
for Uni-Directional Devices
J
u
n
c
t
i
o
n
C
a
p
a
c
i
t
a
n
c
e
,
C
j
(
p
F
)
Breakdown Voltage,V
BR
(Volts)
10,000
1,000
100
0
5.0 10 100 500
Tj=25 C
f=1.0MHz
Vsig=50mVp-p
8.3mS Single Half Sine-Wave
(JEDEC Method) Tj=Tjmax
Fig. 6 - Maxinum Non-Repetitive Peak
Forward Surge Current (Uni-
Directional Only)
P
e
a
k
F
o
r
w
a
r
d
S
u
r
g
e
C
u
r
r
e
n
t
,
I
F
S
M
(
A
)
200
100
50
20
10
1 10 100
Number of Cycle at 60Hz
Mounted on
5mmx5mm
Copper pads
Fig. 3 - Pulse Waveform
Time, t (mS)
0 1.0 2.0 3.0 4.0
125
100
75
50
25
0
Pulse Width (td) is Defined
as the Point Where the peak
Current Decay to 50% of Ipp
Peak Value I
PPM
Half Value Ipp/2
10/1000 uS Waveform
as Defined by R.E.A.
P
e
a
k
P
u
l
s
e
C
u
r
r
e
n
t
,
I
P
P
M
(
%
)
tr =10uS
Fig. 5 - Steady State Power Derating Curve
Leadt Temperature,T
L
( C)
S
t
e
a
d
y
S
t
a
t
e
P
o
w
e
r
D
i
s
s
i
p
a
t
i
o
n
,
P
M
(
A
V
)
,
W
a
t
t
s
60Hz
Resistive or
Inductive
Load
Mounted on
8mmx8mm
Copper pads
7.0
6.0
5.0
4.0
3.0
2.0
1.0
0
0 25 50 75 100 125 150 175
Uni-Directional
Bi-Directional
Measure at
Zero Bias
Measure at
Standard-off
Voltage, Vwm
SMD Transient Voltage Suppressor
SMD Transient Voltage Suppressor
www.comchip.com.tw
COMCHIP
COMCHIP
MDS0211016A
Page 4
Note:
1) Suffix K denotes 10% tolerance devices, suffix J denotes 5% tolerance devices.
2) Suffix B after part number to specify bi-directional devices.
3) For bi-directional devices having VR of 10 volts and under, the IR limit is double.
P a rt N o .
V
R W M
V
B R M i n
V
B R M a x
I
T
I
F S M
I
R @
V
R W M
( V )
( V )
( V )
( mA )
(A) @ 8.3 m S
( V )
I p p (A )
( uA )
U N I
B I
T V1 5 C 4 8 0 K ( B )
48.00
53.30
67.5
1
100
85.5
17.5
5
G F W
B F W
T V1 5 C 4 8 0 J ( B )
48.00
53.30
61.3
1
100
77.4
19.4
5
G F X
B F X
T V1 5 C 5 1 0 K ( B )
51.00
56.70
71.8
1
100
91.1
16.5
5
G F Y
B F Y
T V1 5 C 5 1 0 J ( B )
51.00
56.70
65.2
1
100
82.4
18.2
5
G F Z
B F Z
T V1 5 C 5 4 0 K ( B )
54.00
60.00
76.0
1
100
96.3
15.6
5
G G D
B G D
T V1 5 C 5 4 0 J ( B )
54.00
60.00
69.0
1
100
87.1
17.2
5
G G E
B G E
T V1 5 C 5 8 0 K ( B )
58.00
64.40
81.6
1
100
103.0
14.6
5
G G F
B G F
T V1 5 C 5 8 0 J ( B )
58.00
64.40
74.1
1
100
93.6
16.0
5
G G G
B G G
T V1 5 C 6 0 0 K ( B )
60.00
66.70
84.5
1
100
107.0
14.0
5
G G H
B G H
T V1 5 C 6 0 0 J ( B )
60.00
66.70
76.7
1
100
96.8
15.5
5
G G K
B G K
T V1 5 C 6 4 0 K ( B )
64.00
71.10
90.1
1
100
114.0
13.2
5
G G L
B G L
T V1 5 C 6 4 0 J ( B )
64.00
71.10
81.8
1
100
103.0
14.6
5
G G M
B G M
T V1 5 C 7 0 0 K ( B )
70.00
77.80
98.6
1
100
125.0
12.0
5
G G N
B G N
T V1 5 C 7 0 0 J ( B )
70.00
77.80
89.5
1
100
113.0
13.3
5
G G P
B G P
T V1 5 C 7 5 0 K ( B )
75.00
83.30
105.7
1
100
134.0
11.2
5
G G Q
B G Q
T V1 5 C 7 5 0 J ( B )
75.00
83.30
95.8
1
100
121.0
12.4
5
G G R
B G R
T V1 5 C 7 8 0 K ( B )
78.00
86.70
109.8
1
100
139.0
10.8
5
G G S
B G S
T V1 5 C 7 8 0 J ( B )
78.00
86.70
99.7
1
100
126.0
11.4
5
G G T
B G T
T V1 5 C 8 5 0 K ( B )
85.00
94.40
119.2
1
100
151.0
9.9
5
G G U
B G U
T V1 5 C 8 5 0 J ( B )
85.00
94.40
108.2
1
100
137.0
10.4
5
G G V
B G V
T V1 5 C 9 0 0 K ( B )
90.00
100.00
126.5
1
100
160.0
9.4
5
G G W
B G W
T V1 5 C 9 0 0 J ( B )
90.00
100.00
115.5
1
100
146.0
10.3
5
G G X
B G X
T V1 5 C 1 0 1 K ( B )
100.00
111.00
141.0
1
100
179.0
8.4
5
G G Y
B G Y
T V1 5 C 1 0 1 J ( B )
100.00
111.00
128.0
1
100
162.0
9.3
5
G G Z
B G Z
T V1 5 C 1 1 1 K ( B )
110.00
122.00
154.5
1
100
196.0
7.7
5
G H D
B H D
T V1 5 C 1 1 1 J ( B )
110.00
122.00
140.5
1
100
177.0
8.4
5
G H E
B H E
T V1 5 C 1 2 1 K ( B )
120.00
133.00
169.0
1
100
214.0
7.0
5
G H F
B H F
T V1 5 C 1 2 1 J ( B )
120.00
133.00
153.0
1
100
193.0
7.9
5
G H G
B H G
T V1 5 C 1 3 1 K ( B )
130.00
144.00
182.5
1
100
231.0
6.5
5
G H H
B H H
T V1 5 C 1 3 1 J ( B )
130.00
144.00
165.5
1
100
209.0
7.2
5
G H K
B H K
T V1 5 C 1 5 1 K ( B )
150.00
167.00
211.5
1
100
268.0
5.6
5
G H L
B H L
T V1 5 C 1 5 1 J ( B )
150.00
167.00
192.5
1
100
243.0
6.2
5
G H M
B H M
T V1 5 C 1 6 1 K ( B )
160.00
178.00
226.0
1
100
287.0
5.2
5
G H N
B H N
T V1 5 C 1 6 1 J ( B )
160.00
178.00
205.0
1
100
259.0
5.8
5
G H P
B H P
T V1 5 C 1 7 1 K ( B )
170.00
189.00
239.5
1
100
304.0
4.9
5
G H Q
B H Q
T V1 5 C 1 7 1 J ( B )
170.00
189.00
217.5
1
100
275.0
5.5
5
G H R
B H R
M a x V c
M a r k i n g C o d e
A b so l u t e M a x i m u m R a t i n g ( T a = 2 5 C )
E le c tr ic a l C h a ra c te r ist ic s ( Ta = 2 5 C )