VF14M17150K (AVX)
Zinc Oxide Varistors

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Zinc Oxide Varistors
VE 07/09/13/17/24
VF 05/07/10/14/20
FEATURES
• Radial lead varistors
• Wide operating voltage range from 11 V to 625 V (Vrms for
VE types) or 18 V to 1000 V (V1mA for VF types)
• Available in tape and reel for use with automatic insertion
equipment (see pages 31 to 33 for details).
D
t
E
PARTICULAR CHARACTERISTICS
UL
(USA and
Canadian
Standards)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
VE Series
P/N codification using
(Dmax , Vrms)
VE07M00110K _ _
VE09M00110K _ _
VE07M00140K _ _
VE09M00140K _ _
VE13M00140K _ _
VE17M00140K _ _
VE07M00170K _ _
VE09M00170K _ _
VE13M00170K _ _
VE17M00170K _ _
VE07M00200K _ _
VE09M00200K _ _
VE13M00200K _ _
VE17M00200K _ _
VE07M00250K _ _
VE09M00250K _ _
VE13M00250K _ _
VE17M00250K _ _
VE07M00300K _ _
VE09M00300K _ _
VE13M00300K _ _
VE17M00300K _ _
VE07M00350K _ _
VE09M00350K _ _
VE13M00350K _ _
VE17M00350K _ _
VE07M00400K _ _
VE09M00400K _ _
VE13M00400K _ _
VE17M00400K _ _
VE07M00500K _ _
VE09M00500K _ _
VE13M00500K _ _
VE17M00500K _ _
VF Series
P/N codification using
(d ,ceramic V1mA)
VF05M10180K _ _
VF07M10180K _ _
VF05M10220K _ _
VF07M10220K _ _
VF10M10220K _ _
VF14M10220K _ _
VF05M10270K _ _
VF07M10270K _ _
VF10M10270K _ _
VF14M10270K _ _
VF05M10330K _ _
VF07M10330K _ _
VF10M10330K _ _
VF14M10330K _ _
VF05M10390K _ _
VF07M10390K _ _
VF10M10390K _ _
VF14M10390K _ _
VF05M10470K _ _
VF07M10470K _ _
VF10M10470K _ _
VF14M10470K _ _
VF05M10560K _ _
VF07M10560K _ _
VF10M10560K _ _
VF14M10560K _ _
VF05M10680K _ _
VF07M10680K _ _
VF10M10680K _ _
VF14M10680K _ _
VF05M10820K _ _
VF07M10820K _ _
VF10M10820K _ _
VF14M10820K _ _
Maximum
operating voltage
Vrms
11
VDC
14
14 18
17 22
20 26
25 31
30 38
35 45
40 56
50 65
Nominal voltage
at 1 mA dc
V1mA mini
16.0
V1mA nominal
18
V1mA maxi
20.0
19.8 22 24.2
24.0 27 30.0
29.5 33 36.5
35 39 43
42 47 52
50 56 62
61 68 75
73 82 91
12 TPC


VF14M17150K (AVX)
Zinc Oxide Varistors

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Zinc Oxide Varistors
VE 07/09/13/17/24
VF 05/07/10/14/20
DIMENSIONS millimeters (inches)
D
Maximum
ø
Type Type Ceramic coated H
t +10%
E
diameter diameter max. max. –0.05 (.002) ± 0.8
VE07 VF05 5 (.196) 7 (.275) 10 (.394)
0.6 (.024) 5.08 (0.20)
VE09 VF07 7 (.275) 9 (.354) 12 (.472)
0.6 (.024) 5.08 (0.20)
VE13* VF10* 10 (.393) 13* (.512) 16 (.630) see 0.8* (.031) 7.62*(0.30)
VE17 VF14 14 (.551) 17 (.669) 20 (.787) table 0.8 (.031) 7.62 (0.30)
VE24** VF20** 20 (.787) 24 (.945) 27 (1.06)
0.8** (.031) 7.62 (0.30)
* VE13 / VF10: For models with VRMS 320 V
other version/suffixes available with:
E = 5.08 (0.20) Suffix:
Ø = 0.6 (.024) Bulk: HB
D = 12.5 (.492) max Tape: DA, DB, DC,
DD, DQ, ...
**VE24 / VF20: For lead diameter = 1.0 (.039),
please consult us.
GENERAL CHARACTERISTICS
Storage temperature:
-40°C to +125°C
Max. operating temperature: +85°C
Response time:
< 25 ns
Voltage coefficient temp.: K< 0.09%/°C
Voltage proof:
2500 V
Epoxy coating:
Flame retardant
UL94-VO
MARKING
Type
AC nominal voltage (EIA coding) for VE types
V1mA varistor voltage (EIA coding) for VF types
Logo
UL logo (when approved)
Lot number (VE13/17/24 and VF10/14/20 only)
Max. clamping
voltage (8 x 20 µs)
Vp (V) Ip (A)
36 1
36 2.5
43 1
43 2.5
43 5
43 10
53 1
53 2.5
53 5
53 10
65 1
65 2.5
65 5
65 10
77 1
77 2.5
77 5
77 10
93 1
93 2.5
93 5
93 10
110 1
110 2.5
110 5
110 10
135 1
135 2.5
135 5
135 10
135 5
135 10
135 25
135 50
Max. energy absorption
(10 x 1000 µs)
W (J)
Number of surges
1 10
0.3 0.15
0.8 0.5
0.4 0.2
0.9 0.6
2 1.3
4 2.6
0.5 0.3
1.1 0.7
2.5 1.6
4.7 3.0
0.6 0.3
1.3 0.9
3.1 2.0
5.7 4.0
0.7 0.4
1.6 1.0
3.7 3
75
0.9 0.4
2.0 1
4.4 4
9.0 7
1.1 0.4
2.5 1
5.4 4.4
10.0 8
1.3 0.5
3.0 1
8.4 5.9
13.0 8.5
1.8 0.6
4.2 1.6
8.4 6
15.0 11
Max. permissible
peak current
(8 x 20 µs)
Ip (A)
1 surge 2 surges
100 50
250 125
100 50
250 125
500 250
1000
500
100 50
250 125
500 250
1000
500
100 50
250 125
500 250
1000
500
100 50
250 125
500 250
1000
500
100 50
250 125
500 250
1000
500
100 50
250 125
500 250
1000
500
100 50
250 125
500 250
1000
500
400 200
1200
600
2500 1250
4500 2500
Typical
capacitance
f = 1kHz
pF
1050
1900
1050
1900
4000
4000
1050
1900
4000
6800
750
1500
3100
5700
660
1250
2800
4600
580
1050
2150
3500
460
850
1900
3100
400
720
1700
2800
300
530
950
1800
Mean Maximum
power thickness
dissipation
t
W mm (inches)
0.01 3.6 (.142)
0.02 3.6 (.142)
0.01 3.6 (.142)
0.02 3.6 (.142)
0.05 4.3 (.169)
0.10 4.3 (.169)
0.01 3.7 (.146)
0.02 3.7 (.146)
0.05 4.3 (.169)
0.10 4.3 (.169)
0.01 3.9 (.154)
0.02 3.9 (.154)
0.05 4.5 (.177)
0.10 4.5 (.177)
0.01 3.6 (.142)
0.02 3.6 (.142)
0.05 4.4 (.173)
0.10 4.4 (.173)
0.01 3.8 (.150)
0.02 3.8 (.150)
0.05 4.4 (.173)
0.10 4.4 (.173)
0.01 3.9 (.154)
0.02 3.9 (.154)
0.05 4.7 (.185)
0.10 4.7 (.185)
0.01 4.1 (.161)
0.02 4.1 (.161)
0.05 4.9 (.193)
0.10 4.9 (.193)
0.1 3.5 (.138)
0.2 3.5 (.138)
0.4 4.1 (.161)
0.6 4.1 (.161)
V/I
characteristic
Page
22
22
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
Derating
curves
Page
24
25
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
TPC
13


VF14M17150K (AVX)
Zinc Oxide Varistors

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Zinc Oxide Varistors
VE 07/09/13/17/24
VF 05/07/10/14/20
UL
(USA and
Canadian
Standards)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
VE Series
P/N codification using
(Dmax , Vrms)
VE07M00600K _ _
VE09M00600K _ _
VE13M00600K _ _
VE17M00600K _ _
VE07M00750K _ _
VE09M00750K _ _
VE13M00750K _ _
VE17M00750K _ _
VE24M00750K _ _
VE07M00950K _ _
VE09M00950K _ _
VE13M00950K _ _
VE17M00950K _ _
VE24M00950K _ _
VE07M01150K _ _
VE09M01150K _ _
VE13M01150K _ _
VE17M01150K _ _
VE24M01150K _ _
VE07M00131K _ _
VE09M00131K _ _
VE13M00131K _ _
VE17M00131K _ _
VE24M00131K _ _
VE07M00141K _ _
VE09M00141K _ _
VE13M00141K _ _
VE17M00141K _ _
VE24M00141K _ _
VE07M00151K _ _
VE09M00151K _ _
VE13M00151K _ _
VE17M00151K _ _
VE24M00151K _ _
VE07M01750K _ _
VE09M01750K _ _
VE13M01750K _ _
VE17M01750K _ _
VE24M01750K _ _
VE07M00211K _ _
VE09M00211K _ _
VE13M00211K _ _
VE17M00211K _ _
VE24M00211K _ _
VE07M00231K _ _
VE09M00231K _ _
VE13M00231K _ _
VE17M00231K _ _
VE24M00231K _ _
14
VF Series
Maximum
P/N codification using operating voltage
Nominal voltage
at 1 mA dc
(d ,ceramic V1mA)
VF05M10101K _ _
VF07M10101K _ _
VF10M10101K _ _
VF14M10101K _ _
VF05M10121K _ _
VF07M10121K _ _
VF10M10121K _ _
VF14M10121K _ _
VF20M10121K _ _
VF05M10151K _ _
VF07M10151K _ _
VF10M10151K _ _
VF14M10151K _ _
VF20M10151K _ _
VF05M10181K _ _
VF07M10181K _ _
VF10M10181K _ _
VF14M10181K _ _
VF20M10181K _ _
VF05M12050K _ _
VF07M12050K _ _
VF10M12050K _ _
VF14M12050K _ _
VF20M12050K _ _
VF05M10221K _ _
VF07M10221K _ _
VF10M10221K _ _
VF14M10221K _ _
VF20M10221K _ _
VF05M10241K _ _
VF07M10241K _ _
VF10M10241K _ _
VF14M10241K _ _
VF20M10241K _ _
VF05M10271K _ _
VF07M10271K _ _
VF10M10271K _ _
VF14M10271K _ _
VF20M10271K _ _
VF05M10331K _ _
VF07M10331K _ _
VF10M10331K _ _
VF14M10331K _ _
VF20M10331K _ _
VF05M10361K _ _
VF07M10361K _ _
VF10M10361K _ _
VF14M10361K _ _
VF20M10361K _ _
Vrms
60
VDC
80
V1mA mini
90
V1mA nominal
100
V1mA maxi
110
75 100 108 120 132
95 125 135 150 165
115 150 162 180 198
130 170 184 205 226
140 180 198 220 242
150 200 216 240 264
175 225 243 270 297
210 275 297 330 363
230 300 324 360 396
TPC


VF14M17150K (AVX)
Zinc Oxide Varistors

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Zinc Oxide Varistors
VE 07/09/13/17/24
VF 05/07/10/14/20
Max. clamping
voltage (8 x 20 µs)
Vp (V) Ip (A)
165 5
165 10
165 25
165 50
200 5
200 10
200 25
200 50
200 100
250 5
250 10
250 25
250 50
250 100
300 5
300 10
300 25
300 50
300 100
340 5
340 10
340 25
340 50
340 100
360 5
360 10
360 25
360 50
360 100
400 5
400 10
400 25
400 50
400 100
445 5
445 10
445 25
445 50
445 100
545 5
545 10
545 25
545 50
545 100
595 5
595 10
595 25
595 50
595 100
Max. energy absorption
(10 x 1000 µs)
W (J)
Number of surges
1 10
2.2
4.8
10
17
2.5
5.9
12
20
40
3.4
7.6
15
25
50
3.6
8.4
18
30
60
4.2
9.5
19
34
74
4.5
10
22
36
78
4.9
11
24
40
85
5.6
13
28
46
98
7.2
15
31
54
115
7.2
17
36
60
130
0.7
1.7
7
14
0.8
1.8
8
15
30
1
3
9
20
33
1.3
3.3
10.6
22
40
1.5
4
11
25
46
1.5
4
12.5
26.5
50
1.8
4.1
13
30
56
1.9
4.5
13.5
31
56
2.2
5.4
14.0
35
70
2.4
6
14.3
38
75
Max. permissible
peak current
(8 x 20 µs)
Ip (A)
1 surge 2 surges
400
1200
2500
4500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
200
600
1250
2500
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
Typical
capacitance
f = 1kHz
pF
165
440
870
2200
150
400
700
1900
4200
110
310
560
1200
3400
100
280
500
1100
3000
90
250
450
1000
2500
85
235
425
930
2250
80
220
400
850
2000
70
190
340
750
2000
60
155
275
600
1650
55
140
250
550
1500
Mean
power
dissipation
Maximum
thickness
t
W mm (inches)
0.1 3.8 (.150)
0.2 3.8 (.150)
0.4 4.5 (.177)
0.6 4.5 (.177)
0.1 4.0 (.157)
0.2 4.0 (.157)
0.4 4.4 (.173)
0.6 4.4 (.173)
0.8 4.8 (.189)
0.1 4.4 (.173)
0.2 4.4 (.173)
0.4 5.0 (.197)
0.6 5.0 (.197)
0.8 5.4 (.213)
0.1 4.5 (.177)
0.2 4.5 (.177)
0.4 5.1 (.201)
0.6 5.1 (.201)
0.8 5.5 (.217)
0.1 4.1 (.161)
0.2 4.1 (.161)
0.4 4.7 (.185)
0.6 4.7 (.185)
0.8 5.1 (.201)
0.1 4.2 (.165)
0.2 4.2 (.165)
0.4 4.8 (.189)
0.6 4.8 (.189)
0.8 5.2 (.205)
0.1 4.3 (.169)
0.2 4.3 (.169)
0.4 4.9 (.193)
0.6 4.9 (.193)
0.8 5.3 (.209)
0.1 4.5 (.177)
0.2 4.5 (.177)
0.4 5.1 (.201)
0.6 5.1 (.201)
0.8 5.5 (.217)
0.1 4.9 (.193)
0.2 4.9 (.193)
0.4 5.5 (.217)
0.6 5.5 (.217)
0.8 5.9 (.232)
0.1 5.1 (.201)
0.2 5.1 (.201)
0.4 5.7 (.224)
0.6 5.7 (.224)
0.8 6.1 (.240)
V/I Derating
characteristic curves
Page
Page
22 24
22 25
22 26
23 27
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
22 24
22 25
22 26
23 27
23 28
TPC
15


VF14M17150K (AVX)
Zinc Oxide Varistors

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Click to Download PDF File for PC

Zinc Oxide Varistors
VE 07/09/13/17/24
VF 05/07/10/14/20
UL
(USA and
Canadian
Standards)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
VE Series
P/N codification using
(Dmax , Vrms)
VE07M00251K _ _
VE09M00251K _ _
VE13M00251K _ _
VE17M00251K _ _
VE24M00251K _ _
VE07M02750K _ _
VE09M02750K _ _
VE13M02750K _ _
VE17M02750K _ _
VE24M02750K _ _
VE07M00301K _ _
VE09M00301K _ _
VE13M00301K _ _
VE17M00301K _ _
VE24M00301K _ _
VE09M00321K _ _
VE13M00321K _ _
VE17M00321K _ _
VE24M00321K _ _
VE09M00351K _ _
VE13M00351K _ _
VE17M00351K _ _
VE24M00351K _ _
VE09M03850K _ _
VE13M03850K _ _
VE17M03850K _ _
VE24M03850K _ _
VE09M00421K _ _
VE13M00421K _ _
VE17M00421K _ _
VE24M00421K _ _
VE13M00441K _ _
VE17M00441K _ _
VE24M00441K _ _
VE13M00461K _ _
VE17M00461K _ _
VE24M00461K _ _
VE13M00511K _ _
VE17M00511K _ _
VE24M00511K _ _
VE13M00551K _ _
VE17M00551K _ _
VE24M00551K _ _
VE13M05750K _ _
VE17M05750K _ _
VE24M05750K _ _
VE13M06250K _ _
VE17M06250K _ _
VE24M06250K _ _
16
VF Series
Maximum
P/N codification using operating voltage
Nominal voltage
at 1 mA dc
(d ,ceramic V1mA)
VF05M10391K _ _
VF07M10391K _ _
VF10M10391K _ _
VF14M10391K _ _
VF20M10391K _ _
VF05M10431K _ _
VF07M10431K _ _
VF10M10431K _ _
VF14M10431K _ _
VF20M10431K _ _
VF05M10471K _ _
VF07M10471K _ _
VF10M10471K _ _
VF14M10471K _ _
VF20M10471K _ _
VF07M10511K _ _
VF10M10511K _ _
VF14M10511K _ _
VF20M10511K _ _
VF07M10561K _ _
VF10M10561K _ _
VF14M10561K _ _
VF20M10561K _ _
VF07M10621K _ _
VF10M10621K _ _
VF14M10621K _ _
VF20M10621K _ _
VF07M10681K _ _
VF10M10681K _ _
VF14M10681K _ _
VF20M10681K _ _
VF10M17150K _ _
VF14M17150K _ _
VF20M17150K _ _
VF10M10751K _ _
VF14M10751K _ _
VF20M10751K _ _
VF10M10821K _ _
VF14M10821K _ _
VF20M10821K _ _
VF10M10861K _ _
VF14M10861K _ _
VF20M10861K _ _
VF10M10911K _ _
VF14M10911K _ _
VF20M10911K _ _
VF10M10102K _ _
VF14M10102K _ _
VF20M10102K _ _
Vrms
250
VDC
320
V1mA mini
351
V1mA nominal
390
V1mA maxi
429
275 350 387 430 473
300 385 423 470 517
320 420 459 510 561
350 460 504 560 616
385 505 558 620 682
420 560 612 680 748
440 585 643 715 787
460 615 675 750 825
510 670 738 820 902
550 715 774 860 946
575 730 819 910 1001
625 825 900 1000 1100
TPC


VF14M17150K (AVX)
Zinc Oxide Varistors

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Zinc Oxide Varistors
VE 07/09/13/17/24
VF 05/07/10/14/20
Max. clamping
voltage (8 x 20 µs)
Vp (V)
Ip (A)
645
645
645
645
645
710
710
710
710
710
775
775
775
775
775
840
840
840
840
910
910
910
910
1025
1025
1025
1025
1120
1120
1120
1120
1180
1180
1180
1240
1240
1240
1350
1350
1350
1420
1420
1420
1500
1500
1500
1650
1650
1650
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
10
25
50
100
10
25
50
100
10
25
50
100
10
25
50
100
25
50
100
25
50
100
25
50
100
25
50
100
25
50
100
25
50
100
Max. energy absorption
(10 x 1000 µs)
W (J)
Number of surges
1 10
8.2 2.8
19 7.3
38 19
65 39
140 100
8.6 3
21 7.4
43 20
71 40
151 105
9 3.3
25 7.5
45 20
80 42
150 107
25 7.5
45 20
82 42
150 107
25 7.5
45 20
85 42
155 107
25 7.5
45 20
88 42
155 107
25 7.5
45 20
90 42
160 107
45 20
95 44
165 115
45 20
100 47
175 120
55 22
110 57
190 150
57 24
113 57
200 150
60 25
120 60
210 160
68 25
130 60
230 160
Max. permissible
peak current
(8 x 20 µs)
Ip (A)
1 surge 2 surges
400 200
1200 600
2500 1250
4500 2500
6500 4000
400 200
1200 600
2500 1250
4500 2500
6500 4000
400 200
1200 600
2500 1250
4500 2500
6500 4000
1200 600
2500 1250
4500 2500
6500 4000
1200 600
2500 1250
4500 2500
6500 4000
1200 600
2500 1250
4500 2500
6500 4000
1200 600
2500 1250
4500 2500
6500 4000
2500 1250
4500 2500
6500 4000
2500 1250
4500 2500
6500 4000
2500 1250
4500 2500
6500 4000
2500 1250
4500 2500
6500 4000
2500 1250
4500 2500
6500 4000
2500 1250
4500 2500
6500 4000
Typical
capacitance
f = 1kHz
Mean
power
dissipation
Maximum
thickness
t
pF
50
130
230
500
1300
45
120
210
450
1200
40
100
180
400
1000
100
170
380
950
95
160
365
900
95
150
350
850
80
120
300
700
115
275
650
110
250
600
100
220
550
90
200
500
80
180
450
74
165
410
W mm (inches)
0.1 5.4 (.213)
0.2 5.4 (.213)
0.4 5.9 (.232)
0.6 5.9 (.232)
0.8 6.3 (.248)
0.1 5.7 (.224)
0.2 5.7 (.224)
0.4 6.3 (.248)
0.6 6.3 (.248)
0.8 6.7 (.264)
0.1 6.0 (.236)
0.2 6.0 (.236)
0.4 6.6 (.260)
0.6 6.6 (.260)
0.8 7.0 (.276)
0.2 6.4 (.252)
0.4 7.0 (.276)
0.6 7.0 (.276)
0.8 7.5 (.276)
0.2 6.6 (.260)
0.4 7.3 (.287)
0.6 7.3 (.287)
0.8 7.8 (.307)
0.2 7.0 (.276)
0.4 7.7 (.303)
0.6 7.7 (.303)
0.8 8.1 (.319)
0.2 7.4 (.291)
0.4 8.2 (.323)
0.6 8.2 (.323)
0.8 8.6 (.339)
0.4 8.4 (.331)
0.6 8.4 (.331)
0.8 8.8 (.346)
0.4 8.5 (.335)
0.6 8.5 (.335)
0.8 9.0 (.354)
0.4 9.0 (.354)
0.6 9.0 (.354)
0.8 9.4 (.370)
0.4 9.3 (.366)
0.6 9.3 (.366)
0.8 9.7 (.382)
0.4 9.7 (.382)
0.6 9.7 (.382)
0.8 10.1 (.398)
0.4 10.5 (.413)
0.6 10.5 (.413)
0.8 11.0 (.433)
V/I
characteristic
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Derating
curves
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TPC
17




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