COMCHIP TV06B430KB

SMD Transient Voltage Suppressor
COMCHIP
www.comchip.com.tw
TV06B5V0 Thru TV06B171
Working Peak Reverse Voltage: 5.0 - 170 Volts
Power Dissipation: 600 Watts
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 bidirectiona, from 0 V to BV min.
SMB/DO-214AA
0.083(2.11)
0.075(1.91)
0.155(3.94)
0.130(3.30)
0.185(4.70)
0.160(4.06)
0.012(0.31)
0.006(0.15)
Mechanical data
0.096(2.44)
0.083(2.13)
Case: JEDEC DO-214AA molded plastic
Terminals: solderable per MIL-STD-750,
method 2026
Polarity: Cathode band denoted
Mounting position: Any
Approx. Weight:0.093 gram
0.050(1.27)
0.030(0.76)
0.220(5.59)
0.200(5.08)
0.008(0.20)
0.203(0.10)
Dimensions in inches and (millimeter)
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%
Value
Characteristics
Symbol
Peak Power Dissipation on 10/1000uS
Waveform (Note 1, Fig. 1)
P PPM
600
Watts
Peak Pulse Current of on 10/1000uS
Waveform (Note 1, Fig. 3)
I PPM
See Table 1
A
P M(AV)
5.0
Watts
I FSM
100
A
Maxinum Instantaneous Forward Voltage
at 35.0A for Uni-Directional only
(Note 3 & 4)
VF
3.5/5.0
Volts
Operation Junction Temperature Range
Tj
-55 to +150
C
T STG
-55 to +150
C
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)
Storage Temperature Range
Units
Note: 1. Non-Repetitive Current Pulse, per Fig. 3 and Derated above TA=25 C, per Fig. 2.
2. Mounted on 5.0x5.0mm 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 TV06B5V0 thru TV06B900 Devices and VF=5.0V on TV06B101 thru TV06B171.
MDS0211011A
Page 1
SMD Transient Voltage Suppressor
COMCHIP
www.comchip.com.tw
Rating and Characteristic Curves (TV06B5V0 Thru TV06B171)
Fig. 2 - Pulse Derating Curve
Fig. 1 - Reverse Characteristics
Peak Pulse Power, P PPM (KW)
Mounted on 5mmx5mm
Copper Pads
10
1.0
Non-Repetitive
Pulse Waveform
Shown in Fig. 3
T A =25 C
Peak pulse Power (Ppp) or Current (Ipp)
Derating in Percent (%)
140
100
0.1
0.1
1.0
10
100
1000
Mounted on
5mmx5mm
Copper pads
120
100
80
60
40
20
0
0
10000
75
100
125
150
175
Fig. 4 - Typical Junction Capacitance
for Uni-Directional Devices
Fig. 3 - Pulse Waveform
125
10,000
100
Peak Value I PPM
75
Half Value Ipp/2
10/1000 uS Waveform
as Defined by R.E.A.
50
25
Measure at
Zero Bias
Junction Capacitance, Cj (pF)
Pulse Width (td) is Defined
as the Point Where the peak
Current Decay to 50% of Ipp
tr =10uS
Peak Pulse Current, I PPM ( %)
50
Ambient Temperature,T A ( C)
Pulse Width, td (uS)
1,000
Measure at
Standard-off
Voltage, Vwm
100
Tj=25 C
f=1.0MHz
Vsig=50mVp-p
0
0
0
1.0
2.0
3.0
1.0
4.0
Time, t (mS)
Measure at
Zero Bias
1,000
Measure at
Standard-off
Voltage, Vwm
100
Tj=25 C
f=1.0MHz
Vsig=50mVp-p
0
10
100
Breakdown Voltage,VBR (Volts)
MDS0211011A
100
200
200
Fig. 6 - Maxinum Non-Repetitive Peak
Forward Surge Current (UniDirectional Only)
Peak Forward Surge Current, I FSM (A)
10,000
1.0
10
Breakdown Voltage,VBR (Volts)
Fig. 5 - Typical Junction Capacitance
for Bi-Directional Devices
Junction Capacitance, Cj (pF)
25
100
50
30
8.3mS Single Half Sine-Wave
(JEDEC Method) Tj=Tjmax
10
1
10
100
Number of Cycle at 60Hz
Page 2
SMD Transient Voltage Suppressor
COMCHIP
www.comchip.com.tw
Table 1. Specification
Absolute Maxim um Rating (Ta=25 C)
Part No.
V RWM
V BR Min V BR Ma x
IT
E le c tr ic a l C h a ra c te r ist ic s ( Ta = 2 5 C )
IFSM
(V)
(V)
(V)
T V0 6 B 5 V 0 K (B )
5.00
6.40
7.55
( mA ) (A) @ 8.3m S
10
100
Max Vc
IR @ V RWM Marking Code
(V)
Ipp(A)
( uA )
UNI
BI
9.6
62.5
800
KD
AD
AE
T V0 6 B 5 V 0 J( B )
5.00
6.40
7.25
10
100
9.2
65.2
800
KE
T V0 6 B 6 V 0 K (B )
6.00
6.67
8.45
10
100
11.4
52.6
800
KF
AF
T V0 6 B 6 V 0 J( B )
6.00
6.67
7.67
10
100
10.3
58.3
800
KG
AG
T V0 6 B 6 V 5 K (B )
6.50
7.22
9.14
10
100
12.3
48.7
500
KH
AH
T V0 6 B 6 V 5 J( B )
6.50
7.22
8.30
10
100
11.2
53.6
500
KK
AK
T V0 6 B 7 V 0 K (B )
7.00
7.78
9.86
1
100
13.3
45.1
200
KL
AL
T V0 6 B 7 V 0 J( B )
7.00
7.78
8.95
1
100
12.0
50.0
200
KM
AM
T V0 6 B 7 V 5 K (B )
7.50
8.33
10.67
1
100
14.3
42.0
100
KN
AN
T V0 6 B 7 V 5 J( B )
7.50
8.33
9.58
1
100
12.9
46.5
100
KP
AP
T V0 6 B 8 V 0 K (B )
8.00
8.89
11.30
1
100
15.0
40.0
50
KQ
AQ
T V0 6 B 8 V 0 J( B )
8.00
8.89
10.23
1
100
13.6
44.1
50
KR
AR
T V0 6 B 8 V 5 K (B )
8.50
9.44
11.9
1
100
15.9
37.7
10
KS
AS
T V0 6 B 8 V 5 J( B )
8.50
9.44
10.8
1
100
14.4
41.7
10
KT
AT
T V0 6 B 9 V 0 K (B )
9.00
10.0
12.6
1
100
16.9
35.5
5
KU
AU
T V0 6 B 9 V 0 J( B )
9.00
10.0
11.5
1
100
15.4
39.0
5
KV
AV
T V0 6 B 1 0 0 K ( B )
10.00
11.1
14.1
1
100
18.8
31.9
5
KW
AW
T V0 6 B 1 0 0 J ( B )
10.00
11.1
12.8
1
100
17.0
35.3
5
KX
AX
T V0 6 B 1 1 0 K ( B )
11.00
12.2
15.4
1
100
20.1
29.9
5
KY
AY
T V0 6 B 1 1 0 J ( B )
11.00
12.2
14.0
1
100
18.2
33.0
5
KZ
AZ
T V0 6 B 1 2 0 K ( B )
12.00
13.3
16.9
1
100
22.0
27.3
5
LD
BD
BE
T V0 6 B 1 2 0 J ( B )
12.00
13.3
15.3
1
100
19.9
30.2
5
LE
T V0 6 B 1 3 0 K ( B )
13.00
14.4
18.2
1
100
23.8
25.2
5
LF
BF
T V0 6 B 1 3 0 J ( B )
13.00
14.4
16.5
1
100
21.5
27.9
5
LG
BG
T V0 6 B 1 4 0 K ( B )
14.00
15.6
19.8
1
100
25.8
23.3
5
LH
BH
T V0 6 B 1 4 0 J ( B )
14.00
15.6
17.9
1
100
23.2
25.8
5
LK
BK
T V0 6 B 1 5 0 K ( B )
15.00
16.7
21.1
1
100
26.9
22.3
5
LL
BL
T V0 6 B 1 5 0 J ( B )
15.00
16.7
19.2
1
100
24.4
24.0
5
LM
BM
T V0 6 B 1 6 0 K ( B )
16.00
17.8
22.6
1
100
28.8
20.8
5
LN
BN
T V0 6 B 1 6 0 J ( B )
16.00
17.8
20.5
1
100
26.0
23.1
5
LP
BP
T V0 6 B 1 7 0 K ( B )
17.00
18.9
23.9
1
100
30.5
19.7
5
LQ
BQ
T V0 6 B 1 7 0 J ( B )
17.00
18.9
21.7
1
100
27.6
21.7
5
LR
BR
T V0 6 B 1 8 0 K ( B )
18.00
20.0
25.3
1
100
32.2
18.6
5
LS
BS
T V0 6 B 1 8 0 J ( B )
18.00
20.0
23.3
1
100
29.2
20.5
5
LT
BT
T V0 6 B 2 0 0 K ( B )
20.00
22.2
28.1
1
100
35.8
16.4
5
LU
BU
T V0 6 B 2 0 0 J ( B )
20.00
22.2
25.5
1
100
32.4
18.5
5
LV
BV
T V0 6 B 2 2 0 K ( B )
22.00
24.4
30.9
1
100
39.4
15.2
5
LW
BW
T V0 6 B 2 2 0 J ( B )
22.00
24.4
28.0
1
100
35.5
16.9
5
LX
BX
T V0 6 B 2 4 0 K ( B )
24.00
26.7
33.8
1
100
43.0
14.0
5
LY
BY
T V0 6 B 2 4 0 J ( B )
24.00
26.7
30.7
1
100
38.9
15.4
5
LZ
BZ
T V0 6 B 2 6 0 K ( B )
26.00
28.9
36.6
1
100
46.6
12.4
5
MD
CD
CE
T V0 6 B 2 6 0 J ( B )
26.00
28.9
33.2
1
100
42.1
14.2
5
ME
T V0 6 B 2 8 0 K ( B )
28.00
31.1
39.4
1
100
50.0
12.0
5
MF
CF
T V0 6 B 2 8 0 J ( B )
28.00
31.1
35.8
1
100
45.4
13.2
5
MG
CG
T V0 6 B 3 0 0 K ( B )
30.00
33.3
42.2
1
100
53.5
11.2
5
MH
CH
T V0 6 B 3 0 0 J ( B )
30.00
33.3
38.3
1
100
48.4
12.4
5
MK
CK
T V0 6 B 3 3 0 K ( B )
33.00
36.7
46.5
1
100
59.0
10.2
5
ML
CL
T V0 6 B 3 3 0 J ( B )
33.00
36.7
42.2
1
100
53.3
11.3
5
MM
CM
T V0 6 B 3 6 0 K ( B )
36.00
40.0
50.7
1
100
64.3
9.3
5
MN
CN
T V0 6 B 3 6 0 J ( B )
36.00
40.0
46.0
1
100
58.1
10.3
5
MP
CP
T V0 6 B 4 0 0 K ( B )
40.00
44.4
56.3
1
100
71.4
8.4
5
MQ
CQ
T V0 6 B 4 0 0 J ( B )
40.00
44.4
51.1
1
100
64.5
9.3
5
MR
CR
T V0 6 B 4 3 0 K ( B )
43.00
47.8
60.5
1
100
76.7
7.8
5
MS
CS
T V0 6 B 4 3 0 J ( B )
43.00
47.8
54.9
1
100
69.4
8.6
5
MT
CT
T V0 6 B 4 5 0 K ( B )
45.00
50.0
63.3
1
100
80.3
7.5
5
MU
CU
T V0 6 B 4 5 0 J ( B )
45.00
50.0
57.5
1
100
72.7
8.3
5
MV
CV
MDS0211011A
Page 3
SMD Transient Voltage Suppressor
COMCHIP
www.comchip.com.tw
Absolute Maxim um Rating (Ta=25 C)
V BR Min V BR Ma x
IT
E le c tr ic a l C h a ra c te r ist ic s ( Ta = 2 5 C )
Part No.
V RWM
IFSM
(V)
(V)
(V)
(V)
Ipp(A)
( uA )
UNI
BI
T V0 6 B 4 8 0 K ( B )
48.00
53.3
67.5
1
100
85.5
7.0
5
MW
CW
( mA ) (A) @ 8.3m S
Max Vc
IR @ V RWM Marking Code
T V0 6 B 4 8 0 J ( B )
48.00
53.3
61.3
1
100
77.4
7.7
5
MX
CX
T V0 6 B 5 1 0 K ( B )
51.00
56.7
71.8
1
100
91.1
6.6
5
MY
CY
T V0 6 B 5 1 0 J ( B )
51.00
56.7
65.2
1
100
82.4
7.3
5
MZ
CZ
T V0 6 B 5 4 0 K ( B )
54.00
60.0
76.0
1
100
96.3
6.2
5
ND
DD
DE
T V0 6 B 5 4 0 J ( B )
54.00
60.0
69.0
1
100
87.1
6.9
5
NE
T V0 6 B 5 8 0 K ( B )
58.00
64.4
81.6
1
100
103.0
5.8
5
NF
DF
T V0 6 B 5 8 0 J ( B )
58.00
64.4
74.1
1
100
93.6
6.4
5
NG
DG
T V0 6 B 6 0 0 K ( B )
60.00
66.7
84.5
1
100
107.0
5.6
5
NH
DH
T V0 6 B 6 0 0 J ( B )
60.00
66.7
76.7
1
100
96.8
6.2
5
NK
DK
T V0 6 B 6 4 0 K ( B )
64.00
71.1
90.1
1
100
114.0
5.3
5
NL
DL
T V0 6 B 6 4 0 J ( B )
64.00
71.1
81.8
1
100
103.0
5.8
5
NM
DM
T V0 6 B 7 0 0 K ( B )
70.00
77.8
98.6
1
100
125.0
4.8
5
NN
DN
T V0 6 B 7 0 0 J ( B )
70.00
77.8
89.5
1
100
113.0
5.3
5
NP
DP
T V0 6 B 7 5 0 K ( B )
75.00
83.3
105.7
1
100
134.0
4.5
5
NQ
DQ
T V0 6 B 7 5 0 J ( B )
75.00
83.3
95.8
1
100
121.0
4.9
5
NR
DR
T V0 6 B 7 8 0 K ( B )
78.00
86.7
109.8
1
100
139.0
4.3
5
NS
DS
T V0 6 B 7 8 0 J ( B )
78.00
86.7
99.7
1
100
126.0
4.7
5
NT
DT
T V0 6 B 8 5 0 K ( B )
85.00
94.4
119.2
1
100
151.0
3.9
5
NU
DU
T V0 6 B 8 5 0 J ( B )
85.00
94.4
108.2
1
100
137.0
4.4
5
NV
DV
T V0 6 B 9 0 0 K ( B )
90.00
100.0
126.5
1
100
160.0
3.8
5
NW
DW
T V0 6 B 9 0 0 J ( B )
90.00
100.0
115.5
1
100
146.0
4.1
5
NX
DX
T V0 6 B 1 0 1 K ( B )
100.00
111.0
141.0
1
100
179.0
3.4
5
NY
DY
T V0 6 B 1 0 1 J ( B )
100.00
111.0
128.0
1
100
162.0
3.7
5
NZ
DZ
T V0 6 B 1 1 1 K ( B )
110.00
122.0
154.5
1
100
196.0
3.0
5
PD
ED
EE
T V0 6 B 1 1 1 J ( B )
110.00
122.0
140.5
1
100
177.0
3.4
5
PE
T V0 6 B 1 2 1 K ( B )
120.00
133.0
169.0
1
100
214.0
2.8
5
PF
EF
T V0 6 B 1 2 1 J ( B )
120.00
133.0
153.0
1
100
193.0
3.1
5
PG
EG
T V0 6 B 1 3 1 K ( B )
130.00
144.0
182.5
1
100
231.0
2.6
5
PH
EH
T V0 6 B 1 3 1 J ( B )
130.00
144.0
165.5
1
100
209.0
2.9
5
PK
EK
T V0 6 B 1 5 1 K ( B )
150.00
167.0
211.5
1
100
268.0
2.2
5
PL
EL
T V0 6 B 1 5 1 J ( B )
150.00
167.0
192.5
1
100
243.0
2.5
5
PM
EM
T V0 6 B 1 6 1 K ( B )
160.00
178.0
226.0
1
100
287.0
2.1
5
PN
EN
T V0 6 B 1 6 1 J ( B )
160.00
178.0
205.0
1
100
259.0
2.3
5
PP
EP
T V0 6 B 1 7 1 K ( B )
170.00
189.0
239.5
1
100
304.0
2.0
5
PQ
EQ
T V0 6 B 1 7 1 J ( B )
170.00
189.0
217.5
1
100
275.0
2.2
5
PR
ER
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.
MDS0211011A
Page 4