PANJIT 3KP18

3KP SREIES
SURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSOR PEAK PULSE POWER 3000 Watts
5.0 to 220 Volts
STAND-OFF VOLTAGE
P-600
Unit: inch(mm)
Recongnized File # E210467
• Plastic package has Underwriters Laboratory
Flammability Classification 94V-O
• Glass passivated chip junction in P-600 package
• 3000W Peak Pulse Power capability at on 10/1000µs waveform
1.0(25.4)MIN.
FEATURES
.052(1.3)
.048(1.2)
• Excellent clamping capability
• Low zener impedance
• Typical IR less than 1µA above 10V
.360(9.1)
• Fast response time: typically less than 1.0 ps from 0 volts to BV min
.340(8.6)
• Repetition rate(Duty Cycle):.05%
• High temperature soldering guaranteed: 260°C/10 seconds/.375"
,(9.5mm) lead length/5lbs., (2.3kg) tension
• In compliance with EU RoHS 2002/95/EC directives
MECHANICALDATA
• Case: JEDEC P600 molded plastic
• Terminals: Axial leads, solderable per MIL-STD-750, Method 2026
1.0(25.4)MIN.
.360(9.1)
.340(8.6)
• Polarity: Color band denoted cathode except Bipolar
• Mounting Position: Any
• Weight: 1.75 ounce, 0.067 gram
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types 3KP5.0 thru types 3KP220
Electrical characteristics apply in both directions.
MAXIMUM RATINGS AND CHARACTERISTICS
Rating at 25°Cambient temperature unless otherwise specified.
Rating
Symbol
Value
Units
Peak Power Dissipation at T A =25O C, T P =1ms(Note 1)
PP K
3000
Watts
Typical Thermal Resistance Junction to Air Lead Lengths .375", (9.5mm) (Note 2)
RθJA
15
Peak Forward Surge Current, 8.3ms Single Half Sine-Wave
Superimposed on Rated Load (JECED Method) (Note 3)
I FSM
300
TJ ,TS T G
-55 to +175
Operating Junction and Storage Temperature Range
O
C/W
Amps
O
C
NOTES:
1.Non-repetitive current pulse, per Fig. 3 and derated above TA=25°Cper Fig. 2.
2.Mounted on Copper Leaf area of 0.79in2(20mm2).
3.8.3ms single half sine-wave, duty cycle= 4 pulses per minutes maximum.
STAD-APR.01.2009
1
PAGE . 1
3KP SREIES
V BR @ IT
Part N umber
U N I-
IR @ VRWM
V R WM
B I-
VC @ IPP
Marking C ode
Min .
Ma x .
IT
U N I-
B I-
V
V
V
mA
µA
µA
V
A
U N I-
B I-
3000W Transient Voltage Suppressor
3KP5.0
3KP5.0C
5
6.4
7.55
10
1000
2000
9.6
312.5
3KP5.0A
3KP5.0C A
5
6.4
7.25
10
1000
2000
9.2
326
3KP6.0
3KP6.0C
6
6.67
8.45
10
1000
2000
11.4
263.2
3KP5.0
3KP5.0C
3KP5.0A
3KP5.0C A
3KP6.0
3KP6.0C
3KP6.0A
3KP6.0C A
6
6.67
7.67
10
1000
2000
10.3
291.3
3KP6.0A
3KP6.0C A
3KP6.5
3KP6.5C
6.5
7.22
9.14
10
500
1000
12.3
243.9
3KP6.5
3KP6.5C
3KP6.5A
3KP6.5C A
6.5
7.22
8.3
10
500
1000
11.2
267.9
3KP6.5A
3KP6.5C A
3KP7.0
3KP7.0C
7
7.78
9.86
10
200
400
13.3
225.6
3KP7.0
3KP7.0C
3KP7.0A
3KP7.0C A
7
7.78
8.95
10
200
400
12
250
3KP7.5
3KP7.5C
7.5
8.33
10.67
1
100
200
14.3
209.8
3KP7.5A
3KP7.5C A
7.5
8.33
9.58
1
100
200
12.9
232.6
3KP8.0
3KP8.0C
8
8.89
11.3
1
50
100
15
220
3KP7.0A
3KP7.0C A
3KP7.5
3KP7.5C
3KP7.5A
3KP7.5C A
3KP8.0
3KP8.0C
3KP8.0A
3KP8.0C A
8
8.89
10.23
1
50
100
13.6
220.6
3KP8.0A
3KP8.0C A
3KP8.5
3KP8.5C
8.5
9.44
11.92
1
25
50
15.9
188.8
3KP8.5
3KP8.5C
3KP8.5A
3KP8.5C A
8.5
9.44
10.82
1
25
50
14.4
208.4
3KP8.5A
3KP8.5C A
3KP9.0
3KP9.0C
9
10
12.6
1
10
20
16.9
177.4
3KP9.0
3KP9.0C
3KP9.0A
3KP9.0C A
9
10
11.5
1
10
20
15.4
194.8
3KP9.0A
3KP9.0C A
3K P 10
3K P 10C
10
11.1
14.1
1
3
3
18.8
159.6
3K P 10
3K P 10C
3K P 10C A
3K P 10A
3K P 10C A
10
11.1
12.8
1
3
3
17
176.4
3K P 10A
3KP11
3KP11C
11
12.2
15.4
1
3
3
20.1
149.2
3KP11
3KP11C
3KP11A
3KP11C A
11
12.2
14
1
3
3
18.2
184.8
3KP11A
3KP11C A
3K P 12
3K P 12C
12
13.3
16.9
1
3
3
22
136.4
3K P 12
3K P 12C
3K P 12A
3K P 12C A
12
13.3
15.3
1
3
3
19.9
150.6
3K P 12A
3K P 12C A
3K P 13
3K P 13C
13
14.4
18.2
1
3
3
23.8
126
3K P 13
3K P 13C
3K P 13A
3K P 13C A
13
14.4
16.5
1
3
3
21.5
139.4
3K P 13A
3K P 13C A
3K P 14
3K P 14C
14
15.6
19.8
1
3
3
25.8
116.2
3K P 14
3K P 14C
3K P 14A
3K P 14C A
14
15.6
17.9
1
3
3
23.2
129.4
3K P 14A
3K P 14C A
3K P 15
3K P 15C
15
16.7
21.1
1
3
3
26.9
111.6
3K P 15
3K P 15C
3K P 15A
3K P 15C A
15
16.7
19.2
1
3
3
24.4
123
3K P 16
3K P 16C
16
17.8
22.6
1
3
3
28.8
104.2
3K P 15A
3K P 15C A
3K P 16
3K P 16C
3K P 16A
3K P 16C A
16
17.8
20.5
1
3
3
26
115.4
3K P 16A
3K P 16C A
3 K P J1 7
3 K P J1 7 C
17
18.9
23.9
1
3
3
30.5
98.4
3 K P J1 7
3 K P J1 7 C
3K P 17A
3K P 17C A
17
18.9
21.7
1
3
3
27.6
106.6
3K P 17A
3K P 17C A
3K P 18
3K P 18C
18
20
25.3
1
3
3
32.2
93.2
3K P 18
3K P 18C
3K P 18A
3K P 18C A
18
20
23.3
1
3
3
29.2
102.8
3K P 18A
3K P 18C A
3K P 20
3K P 20C
20
22.2
28.1
1
3
3
35.8
83.8
3K P 20
3K P 20C
3K P 20A
3K P 20C A
20
22.2
25.5
1
3
3
32.4
92.6
3K P 20A
3K P 20C A
3K P 22
3K P 22C
22
24.4
30.9
1
3
3
39.4
76.2
3K P 22
3K P 22C
3K P 22A
3K P 22C A
22
24.4
28
1
3
3
35.5
84.4
3K P 22A
3K P 22C A
3K P 24
3K P 24C
24
26.7
33.8
1
3
3
43
69.8
3K P 24
3K P 24C
3K P 24A
3K P 24C A
24
26.7
30.7
1
3
3
38.9
77.2
3K P 24A
3K P 24C A
3K P 26
3K P 26C
26
28.9
36.6
1
3
3
46.6
64.4
3K P 26
3K P 26C
3K P 26A
3K P 26C A
26
28.9
33.2
1
3
3
42.1
71.2
3K P 28
3K P 28C
28
31.1
39.4
1
3
3
50
60
3K P 28A
3K P 28C A
28
31.1
35.8
1
3
3
45.4
66
3K P 28A
3K P 28C A
3K P 30
3K P 30C
30
33.3
42.2
1
3
3
53.5
56
3K P 30
3K P 30C
3K P 30A
3K P 30C A
30
33.3
38.3
1
3
3
48.4
62
3K P 33
3K P 33C
33
36.7
46.5
1
3
3
59
50.4
3K P 33A
3K P 33C A
33
36.7
42.2
1
3
3
53.3
56.2
3K P 33A
3K P 33C A
3K P 36
3K P 36C
36
40
50.7
1
3
3
64.3
46.6
3K P 36
3K P 36C
3K P 36A
3K P 36C A
36
40
46
1
3
3
58.1
51.6
3K P 40
3K P 40C
40
44.4
56.3
1
3
3
71.4
42
STAD-APR.01.2009
1
3K P 26A
3K P 26C A
3K P 28
3K P 28C
3K P 30A
3K P 30C A
3K P 33
3K P 33C
3K P 36A
3K P 36C A
3K P 40
3K P 40C
PAGE . 2
3KP SREIES
V BR @ IT
Part N umber
U N I-
IR @ VRWM
V R WM
B I-
V
VC @ IPP
Min .
Ma x .
IT
U N I-
B I-
V
V
mA
µA
µA
Marking C ode
V
A
U N I-
B I-
3000W Transient Voltage Suppressor
3K P 40A
3K P 40C A
3K P 43
3K P 43C
40
44.4
51.1
1
3
3
64.5
46.4
3K P 40A
3K P 40C A
43.00
47.8
60.5
1
3
3
76.7
39.2
3K P 43
3K P 43C
3K P 43A
3K P 45
3K P 43C A
43
47.8
54.9
1
3
3
69.4
43.2
3K P 43A
3K P 43C A
3K P 45C
45
50
63.3
1
3
3
80.3
37.4
3K P 45
3K P 45C
3K P 45A
3K P 45C A
45
50
57.5
1
3
3
72.7
41.2
3K P 48
3K P 48C
48
53.3
67.5
1
3
3
85.5
35
3K P 48A
3K P 48C A
48
53.3
61.3
1
3
3
77.4
38.8
3K P 51
3K P 51C
51
56.7
71.8
1
3
3
91.1
37
3K P 51A
3K P 51C A
51
56.7
65.2
1
3
3
82.4
36.4
3K P 51A
3K P 51C A
3K P 54
3K P 54C
54
60
76
1
3
3
96.3
31.2
3K P 54
3K P 54C
3K P 54A
3K P 54C A
54
60
69
1
3
3
87.1
34.4
3K P 54A
3K P 54C A
3K P 58
3K P 58C
58
64.4
81.6
1
3
3
103
29.2
3K P 58
3K P 58C
3K P 58A
3K P 58C A
58
64.4
74.1
1
3
3
93.6
32
3K P 58A
3K P 58C A
3K P 60
3K P 60C
60
66.7
84.5
1
3
3
107
28
3K P 60
3K P 60C
3K P 60A
3K P 60C A
60
66.7
76.7
1
3
3
96.8
31
3K P 60A
3K P 60C A
3K P 64
3K P 64C
64
71.1
90.1
1
3
3
114
26.4
3K P 64
3K P 64C
3K P 64A
3K P 64C A
64
71.1
81.8
1
3
3
103
29.2
3K P 64A
3K P 64C A
3K P 70
3K P 70C
70
77.8
98.6
1
3
3
125
24
3K P 70
3K P 70C
3K P 70A
3K P 70C A
70
77.8
89.5
1
3
3
113
26.6
3K P 70A
3K P 70C A
3K P 75
3K P 75C
75
83.3
105.7
1
3
3
134
22.4
3K P 75
3K P 75C
3K P 75A
3K P 75C A
75
83.3
95.8
1
3
3
121
24.8
3K P 75A
3K P 75C A
3K P 78
3K P 78C
78
86.7
109.8
1
3
3
139
21.6
3K P 78
3K P 78C
3K P 78A
3K P 78C A
78
86.7
99.7
1
3
3
126
22.8
3K P 78A
3K P 78C A
3K P 85
3K P 85C
85
94.4
119.2
1
3
3
151
19.8
3K P 85
3K P 85C
3K P 85A
3K P 85C A
85
94.4
108.2
1
3
3
137
20.8
3K P 85A
3K P 85C A
3K P 90
3K P 90C
90
100
126.5
1
3
3
160
18.8
3K P 90
3K P 90C
3K P 45A
3K P 45C A
3K P 48
3K P 48C
3K P 48A
3K P 48C A
3K P 51
3K P 51C
3K P 90A
3K P 90C A
90
100
115.5
1
3
3
146
20.6
3K P 90A
3K P 90C A
3K P 100
3K P 100C
100
111
141
1
3
3
179
16.6
3K P 100
3K P 100C
3K P 100A
3K P 100C A
100
111
128
1
3
3
162
18.6
3K P 100A
3K P 100C A
3KP110
3KP110C
110
122
154.5
1
3
3
196
15.4
3KP110
3KP110C
3KP110A
3KP110C A
3K P 120
3K P 120C
3KP110A
3KP110C A
110
122
140.5
1
3
3
177
16.8
3K P 120
3K P 120C
120
133
169
1
3
3
214
14
3K P 120A
3K P 120C A
120
133
153
1
3
3
193
15.6
3K P 130
3K P 130C
130
144
182.5
1
3
3
231
13
3K P 120A
3K P 120C A
3K P 130
3K P 130C
3K P 130A
3K P 130C A
130
144
165.5
1
3
3
209
14.4
3K P 130A
3K P 130C A
3K P 150
3K P 150C
150
167
211.5
1
3
3
268
11.2
3K P 150
3K P 150C
3K P 150A
3K P 150C A
150
167
192.5
1
3
3
243
12.4
3K P 150A
3K P 150C A
3K P 160
3K P 160C
160
178
226
1
3
3
287
10.4
3K P 160
3K P 160C
3K P 160A
3K P 160C A
160
178
205
1
3
3
259
11.6
3K P 160A
3K P 160C A
3K P 170
3K P 170C
170
189
239.5
1
3
3
304
9.8
3K P 170
3K P 170C
3K P 170A
3K P 170C A
170
189
217.5
1
3
3
275
11
3K P 170A
3K P 170C A
3K P 180
3K P 180C
180
198
253.8
1
3
3
322
9.3
3K P 180
3K P 180C
3K P 180A
3K P 180C A
180
198
230.4
1
3
3
292
10.3
3K P 180A
3K P 180C A
3K P 190
3K P 190C
190
209
267.9
1
3
3
340
8.8
3K P 190
3K P 190C
3K P 190A
3K P 190C A
190
209
243.2
1
3
3
308
9.7
3K P 190A
3K P 190C A
3K P 200
3K P 200C
200
220
282
1
3
3
358
8.4
3K P 200
3K P 200C
3K P 200A
3K P 200C A
200
220
256
1
3
3
324
9.3
3K P 200A
3K P 200C A
3K P 210
3K P 210C
210
231
296.1
1
3
3
376
7.8
3K P 210
3K P 210C
3K P 210A
3K P 210C A
210
231
268.8
1
3
3
340
8.8
3K P 210A
3K P 210C A
3K P 220
3K P 220C
220
242
310.2
1
3
3
394
7.6
3K P 220
3K P 220C
3K P 220A
3K P 220C A
220
242
281.6
1
3
3
356
8.4
3K P 220A
3K P 220C A
STAD-APR.01.2009
1
PAGE . 3
3KP SREIES
100
Non-Rep etitve
Pulse Wa vefom
Shown in Flg ure3
O
TA= 25 C
10
1.0
0.1
0.1
1.0
10
100
1000
10000
PEAK PULSE FORWARD (P PP ) OR CURRENT (I PP)
DERATING IN PERCENTAGE %
P PPM , PEAK PULSE POWER, kW
100
75
50
25
0
0
td,PULSE WIDTH,usec
25
50
75
100
125
150
175
200
O
T A ,AMBIENT TEMPERATURE, C
Fig.1 PEAK PULSE POWER RATING VERSUS
PULSE TIME CURVE
Fig.2 PULSE DERATING CURVE
Unidirectional
Bidirectional
tf= 10u se c
TA = 25 C
Pulse Wid th (td ) is Define d
a s the Point Where t he Pea k
Current De c a ys to 5 0% of Ip p
Pea k Va lue
Ip p m
CJ,CAPACITANCE,p F
I PPM ,PEAK PULSE CURRENT,%
10000
150
100
Ha lf Va lue -Ip p
2
10/1000u se c Wa ve form
a s Defined b ye R.E.A.
50
VR = Rated
Stand-off Voltage
100
f = 1MHz
Vsig = 50mVp-p
TJ = 25°C
e-kt
td
0
0
1.0
2.0
3.0
4.0
10
5
10
10
100
500
VRWM, Reverse Stand-off Voltage (V)
T,TIME,ms
Fig.4 TYPICAL JUNCTION CAPACITANCE
Fig.3 PULSE WAVEFORM
IFSM , PEAK FORWARD SURGE CURRENT
AMPERES
VR = 0
1000
400
Tj= Tj ma x
8.3ms SINGLE HALF sinc e -WAVE
JEDEC M ETHOD
350
300
250
200
150
100
1
2
3
5
10
20 30 50
100
NUMBER OF CYCLES AT 60 Hz
Fig.5 MAXIMUN NON-REPETITEVE PEAK FORWARD
SURGE CURRENT UNIDIRECTIONAL
STAD-APR.01.2009
1
PAGE . 4