GOOD-ARK P6KE8.2A

P6KE6.8 thru P6KE550CA
Transient Voltage Suppressors
Peak Pulse Power 600W Breakdown Voltage 6.8 to 550V
Features
Plastic package has Underwriters Laboratory Flammability
Classification 94V-0
Glass passivated junction
600W peak pulse power capabililty with a 10/1000us
waveform, repetition rate (duty cycle): 0.01%
Excellent clamping capability
Low incremental surge resistance
Very fast response time
High temp. soldering guaranteed: 265oC/10 seconds,
0.375” (9.5mm) lead length, 5lbs. (2.3 kg) tension
Mechanical Data
Case: JEDEC DO-204AC(DO-15) molded plastic body over
passivated junction
Terminals: Solder plated axial leads, solderable per
MIL-STD-750, Method 2026
Polarity: For unidirectional types the color band denotes the
cathode, which is positive with respect to the anode under
normal TVS operation
Mounting Position: Any
Weight: 0.015oz., 0.4g
Devices for Bidirectional Applications
For bi-directional devices, use suffix C or CA for types P6KE6.8 through types P6KE440 (e.g. P6KE6.8C, P6KE440CA).
Electrical characteristics apply in both directions.
Maximum Ratings and Characteristics
(TA=25oC unless otherwise noted)
Parameter
Symbol
Peak power dissipation with a 10/1000us waveform (Fig. 1)
Peak pulse current with a 10/1000us waveform
(1)
Steady state power dissipation
at TL=75oC, lead lengths 0.375" (9.5mm) (2)
Peak forward surge current, 8.3ms single half sine-wave
(3)
Value
Unit
P PPM
Minimum 600
(1)
W
IPPM
See Next Table
A
PM(AV)
5.0
W
IFSM
100
A
Maximum instantaneous forward voltage
at 50A for unidirectional only (4)
VF
3.5/5.0
Volts
Typical thermal resistance junction-to-lead
RθJL
20
o
C/W
RθJA
75
o
C/W
TJ, TSTG
-55 to +150
Typical thermal resistance junction-to-ambient
Operating junction and storage temperature range
Notes:
o
o
C
1. Non-repetitive current pulse, per Fig.3 and derated above TA=25 C per Fig. 2
2. Mounted on copper pad area of 1.6 x 1.6” (40 x 40mm) per Fig. 5
3. Measured on 8.3ms single half sine-wave or equivalent square wave, duty cycle = 4 pulses per minute maximum
4. VF=3.5 V for devices of V(BR)<220V, and VF=5.0 Volt max. for devices of V(BR)>220V
582
Electrical Characteristics
(Ratings at 25oC ambient temperature unless otherwise specified.)
Breakdow n voltage
V(BR)
(Volts) (1)
Stand-off
voltage
VWM
(Volts)
Maximum
reverse
leakage
at VWM
ID(3)
(uA)
Maximum
peak pulse
current
IPPM(2)
(A)
Maximum
clamping
voltage at
IPPM
VC (Volts)
Maximum
temperature
coefficient
of V(BR)
(% / oC)
Device type
Min.
Max.
Test
current
at IT
(mA)
P6KE6.8
6.12
7.48
10
5.50
1000
55.6
10.8
0.057
P6KE6.8A
6.45
7.14
10
5.80
1000
57.1
10.5
0.057
P6KE7.5
6.75
8.25
10
6.05
500
51.3
11.7
0.061
P6KE7.5A
7.13
7.88
10
6.40
500
53.1
11.3
0.061
P6KE8.2
7.38
9.02
10
6.63
200
48.0
12.5
0.065
P6KE8.2A
7.79
8.61
10
7.02
200
49.6
12.1
0.065
P6KE9.1
8.19
10.0
1.0
7.37
50
43.5
13.8
0.068
P6KE9.1A
8.65
9.55
1.0
7.78
50
44.8
13.4
0.068
P 6K E 10
9.00
11.0
1.0
8.10
10
40.0
15.0
0.073
P 6K E 10A
9.50
10.5
1.0
8.55
10
41.4
14.5
0.073
P6KE11
9.90
12.1
1.0
8.92
5.0
37.0
16.2
0.075
P6KE11A
10.5
11.6
1.0
9.40
5.0
38.5
15.6
0.075
P 6K E 12
10.8
13.2
1.0
9.72
5.0
34.7
17.3
0.076
P 6K E 12A
11.4
12.6
1.0
10.2
5.0
35.9
16.7
0.078
0.081
P 6K E 13
11.7
14.3
1.0
10.5
5.0
31.6
19.0
P 6K E 13A
12.4
13.7
1.0
11.1
5.0
33.0
18.2
0.081
P 6K E 15
13.5
16.5
1.0
12.1
1.0
27.3
22.0
0.084
P 6K E 15A
14.3
15.8
1.0
12.8
1.0
28.3
21.2
0.084
P 6K E 16
14.4
17.6
1.0
12.9
1.0
25.5
23.5
0.086
P 6K E 16A
15.2
16.8
1.0
13.6
1.0
26.7
22.5
0.086
P 6K E 18
16.2
19.8
1.0
14.5
1.0
22.6
26.5
0.088
0.088
P 6K E 18A
17.1
18.9
1.0
15.3
1.0
23.8
25.2
P 6K E 20
18.0
22.0
1.0
16.2
1.0
20.6
29.1
0.090
P 6K E 20A
19.0
21.0
1.0
17.1
1.0
21.7
27.7
0.090
P 6K E 22
19.8
24.2
1.0
17.8
1.0
18.8
31.9
0.092
P 6K E 22A
20.9
23.1
1.0
18.8
1.0
19.6
30.6
0.092
P 6K E 24
21.6
26.4
1.0
19.4
1.0
17.3
34.7
0.094
P 6K E 24A
22.8
25.2
1.0
20.5
1.0
18.1
33.2
0.094
P 6K E 27
24.3
29.7
1.0
21.8
1.0
15.3
39.1
0.096
P 6K E 27A
25.7
28.4
1.0
23.1
1.0
16.0
37.5
0.096
P 6K E 30
27.0
33.0
1.0
24.3
1.0
13.8
43.5
0.097
P 6K E 30A
28.5
31.5
1.0
25.6
1.0
14.5
41.4
0.097
P 6K E 33
29.7
36.3
1.0
26.8
1.0
12.6
47.7
0.098
P 6K E 33A
31.4
34.7
1.0
28.2
1.0
13.1
45.7
0.098
P 6K E 36
32.4
39.6
1.0
29.1
1.0
11.5
52.0
0.099
P 6K E 36A
34.2
37.8
1.0
30.8
1.0
12.0
49.9
0.099
P 6K E 39
35.1
42.9
1.0
31.6
1.0
10.6
56.4
0.100
P 6K E 39A
37.1
41.0
1.0
33.3
1.0
11.1
53.9
0.100
P 6K E 43
38.7
47.3
1.0
34.8
1.0
9.7
61.9
0.101
P 6K E 43A
40.9
45.2
1.0
36.8
1.0
10.1
59.3
0.101
P 6K E 47
42.3
51.7
1.0
38.1
1.0
8.8
67.8
0.101
P 6K E 47A
44.7
49.4
1.0
40.2
1.0
9.3
64.8
0.101
P 6K E 51
45.9
56.1
1.0
41.3
1.0
8.2
73.5
0.102
P 6K E 51A
48.5
53.6
1.0
43.6
1.0
8.6
70.1
0.102
P 6K E 56
50.4
61.6
1.0
45.4
1.0
7.5
80.5
0.103
P 6K E 56A
53.2
58.8
1.0
47.8
1.0
7.8
77.0
0.103
583
Electrical Characteristics
(Ratings at 25oC ambient temperature unless otherwise specified.)
Breakdow n voltage
V(BR)
(Volts) (1)
Stand-off
voltage
VWM
(Volts)
Maximum
reverse
leakage
at VWM
ID(3)
(uA)
Maximum
peak pulse
current
IPPM(2)
(A)
Maximum
clamping
voltage at
IPPM
VC (Volts)
Maximum
temperature
coefficient
of V(BR)
(% / oC)
Device type
Min.
Max.
Test
current
at IT
(mA)
P 6K E 62
55.8
68.2
1.0
50.2
1.0
6.7
89.0
0.104
P 6K E 62A
58.9
65.1
1.0
53.0
1.0
7.1
85.0
0.104
P 6K E 68
61.2
74.8
1.0
55.1
1.0
6.1
98.0
0.104
P 6K E 68A
64.6
71.4
1.0
58.1
1.0
6.5
92.0
0.104
P 6K E 75
67.5
82.5
1.0
60.7
1.0
5.6
108
0.105
P 6K E 75A
71.3
78.8
1.0
64.1
1.0
5.8
103
0.105
P 6K E 82
73.8
90.2
1.0
66.4
1.0
5.1
118
0.105
P 6K E 82A
77.9
86.1
1.0
70.1
1.0
5.3
113
0.105
P 6K E 91
81.9
100
1.0
73.7
1.0
4.6
131
0.106
P 6K E 91A
86.5
95.5
1.0
77.8
1.0
4.8
125
0.106
P 6K E 100
90.0
110
1.0
81.0
1.0
4.2
144
0.106
P 6K E 100A
95.0
105
1.0
85.5
1.0
4.4
137
0.106
P6KE110
99.0
121
1.0
89.2
1.0
3.8
158
0.107
P6KE110A
105
116
1.0
94.0
1.0
3.9
152
0.107
P 6K E 120
108
132
1.0
97.2
1.0
3.5
173
0.107
P 6K E 120A
114
126
1.0
102
1.0
3.6
165
0.107
P 6K E 130
117
143
1.0
105
1.0
3.2
187
0.107
P 6K E 130A
124
137
1.0
111
1.0
3.4
179
0.107
P 6K E 150
135
165
1.0
121
1.0
2.8
215
0.108
P 6K E 150A
143
158
1.0
128
1.0
2.9
207
0.108
P 6K E 160
144
176
1.0
130
1.0
2.6
230
0.108
P 6K E 160A
152
168
1.0
136
1.0
2.7
219
0.108
P 6K E 170
153
187
1.0
138
1.0
2.5
244
0.108
P 6K E 170A
162
179
1.0
145
1.0
2.6
234
0.108
P 6K E 180
162
198
1.0
146
1.0
2.3
258
0.108
P 6K E 180A
171
189
1.0
154
1.0
2.4
246
0.108
P 6K E 200
180
220
1.0
162
1.0
2.1
287
0.108
P 6K E 200A
190
210
1.0
171
1.0
2.2
274
0.108
P 6K E 220
198
242
1.0
175
1.0
1.7
344
0.108
P 6K E 220A
209
231
1.0
185
1.0
1.8
328
0.108
P 6K E 250
225
275
1.0
202
1.0
1.7
360
0.110
P 6K E 250A
237
263
1.0
214
1.0
1.7
344
0.110
P 6K E 300
270
330
1.0
243
1.0
1.4
430
0.110
P 6K E 300A
285
315
1.0
256
1.0
1.4
414
0.110
P 6K E 350
315
385
1.0
284
1.0
1.2
504
0.110
P 6K E 350A
333
368
1.0
300
1.0
1.2
482
0.110
P 6K E 400
360
440
1.0
324
1.0
1.0
574
0.110
P 6K E 400A
380
420
1.0
342
1.0
1.1
548
0.110
P 6K E 440
396
484
1.0
356
1.0
0.95
631
0.110
P 6K E 440A
418
462
1.0
376
1.0
1.0
602
0.110
P 6K E 480A
456
504
1.0
408
1.0
0.9
658
0.110
P 6K E 510A
485
535
1.0
434
1.0
0.9
698
0.110
P 6K E 530A
503.5
556.5
1.0
450
1.0
0.8
725
0.110
P 6K E 540A
513
567
1.0
459
1.0
0.8
740
0.110
P 6K E 550A
522.5
577.5
1.0
467
1.0
0.8
760
0.110
Notes:
1. V(BR) measured after IT applied for 300us, IT=square wave pulse or equivalent
2. Surge current waveform per Fig. 3 and derate per Fig. 2
3. For bidirectional types with VWM of 10 volts and less, the ID limit is doubled
4. All terms and symbols are consistent with ANSI/IEEE C62.35
5. For parts without A, the VBR is +10%
Description:
This P6KE TVS series is a low cost commercial product for use in applications where large voltage transients can permanently damage voltage-sensitive
components.
The P6KE series device types are designed in a small package size where power and space is a consideration. They are characterized by their high surge capability,
extremely fast response time, and low impedance, (Ron). Because of the unpredictable nature of transients, and the variation of the impedance with respect to these
transients, impedance, per se, is not specified as a parametric value. However, a minimum voltage at low current conditions (BV) and a maximum clamping voltage
(Vc) at a maximum peak pulse current is specified.
In some instances, the thermal effect (see Vc Clamping Voltage) may be responsible for 50% to 70%. of the observed voltage differential when subjected to high
current pulses for several duty cycles, thus making a maximum impedance specification insignificant.
In case of a severe current overload or abnormal transient beyond the maximum ratings, the Transient Voltage Suppressor will initially fail 'short' thus tripping the
system's circuit breaker or fuse while protecting the entire circuit. Curves depicting clamping voltage vs. various current pulses are available from the factory.
Extended power curves vs. pulse time are also available.
584
RATINGS AND CHARACTERISTIC CURVES
(TA = 25oC unless otherwise noted)
585