DFFHV11FR2637 [KYOCERA AVX]
Medium Power Film Capacitors;
| 型号: | DFFHV11FR2637 |
| 厂家: | 
KYOCERA AVX |
| 描述: | Medium Power Film Capacitors |
| 文件: | 总13页 (文件大小:630K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
The FFHV and FTHV series are specifically designed for DC filtering applications
such as DC link or resonant filters for voltages up to 3000V.
These capacitors are proposed in 2 different versions: resin top for the FFHV series
and hermetic case for the FTHV.
Large case sizes up to 36 liters and high specific energy up to 380J/l together with
safe and reliable Controlled Self Healing Technology make this series particularly
suitable for power converters in traction, drives, renewable energy and power
transmission areas.
FFHV and FTHV use a wet solution with polypropylene metallized film and oil
(without free oil). Standard designs proposed in this catalogue are covering a wide
range of voltage and capacitance values.
In case of specific requirements about shape and performances, feel free to
contact your local AVX representative.
PACKAGING MATERIAL
FFHV
FTHV
Non-painted rectangular resin filled aluminium case
Mounting brackets
Non-painted rectangular aluminium hermetic case
Mounting brackets
M8/17 female connections or M12/30 male connections
2 or 4 connections
M8/17 female terminals or M12/30 male terminals
2 or 4 terminals
STANDARDS
FFHV
FTHV
IEC 61071: Power electronic capacitors
IEC 61881: Railway applications, rolling stock equipment,
capacitors for power electronics
IEC 61071: Power electronic capacitors
IEC 61881: Railway applications, rolling stock equipment,
capacitors for power electronics
IEC 60068-2: Environmental testing
UL 94: Fire requirements
NF F 16-101: Rolling stock – Fire behaviour – Materials
choosing
IEC 60068-2: Environmental testing
EN 45545-2: Railways applications – Fire protection on
railway vehicles. Part 2 : Requirements for
fire behaviour of materials and components
NF F 16-102: Rolling stock – Fire behaviour – Materials
choosing, application for electric equipments
EN 45545-2: Railways applications – Fire protection on
railway vehicles. Part 2: Requirements for
fire behaviour of materials and components
HOW TO ORDER
D
FFHV
1
1
M
R
2637
Series
Section and Option
Height
Terminal
Code
F = female
M = male
Voltage
R = 1500V
S = 1750V
N = 2000V
T = 2250V
P = 2500V
W = 2750V
X = 3000V
Capacitance
EIA code
FFHV: resin top 1 = 340x125 2 connexions
2 = 340x125 4 connexions
1 = 230mm
2 = 295mm
3 = 370mm
4 = 450mm
5 = 530mm
6 = 610mm
3 = 340x175 2 connexions
4 = 340x175 4 connexions
D
FTHV
1
1
M
R
2637
Series
Section and Option
Height
Terminal
Code
F = female
M = male
Voltage
R = 1500V
S = 1750V
N = 2000V
T = 2250V
P = 2500V
W = 2750V
X = 3000V
Capacitance
EIA code
FTHV: hermetic case 1 = 340x125 2 connexions
2 = 340x125 4 connexions
1 = 240mm
2 = 305mm
3 = 380mm
4 = 460mm
5 = 540mm
6 = 620mm
3 = 340x175 2 connexions
4 = 340x175 4 connexions
092315
55
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
DEFINITIONS
CHARACTERISTICS
C
n (μF)
capacitance
nominal value of the capacitance measured at θamb = 25 10°C
maximum operating peak voltage of either polarity (non-reversing
type waveform), for which the capacitor has been designed for
continuous operation
value of the maximum operating recurrent voltage for a given hot
spot temperature and an expected lifetime
Capacitance range Cn
Tolerance on Cn
Rated DC voltage Un
Lifetime at Un and 70°C
hot-spot temperature
590μF to 12600μF
10ꢀ
1500 to 3000V
Un (V)
rated DC voltage
100,000h
Uw (V)
working voltage
and ΔC / C < 2ꢀ
Ur (V)
s (nH)
s (mΩ)
ripple voltage
parasitic inductance
series resistance
peak-to-peak alternating component of the unidirectional voltage
capacitor series self-inductance
Parasitic inductance Ls
Maximum rms current Irms
Test voltage between terminals
@ 25°C
Test voltage between terminals 7kVrms @ 50Hz
and Case @ 25°C
Dielectric
27nH to 88nH
up to 400Arms
L
R
capacitor series resistance due to galvanic circuit
rms current value @ 100Hz for continuous operation under natural
convection generating 20°C overheating (255Arms maximum for 2
connexions or terminals and 400Arms maximum for 4 connexions
or terminals)
rms current value @ 100Hz for continuous operation under forced
air generating 20°C overheating (255Arms maximum for 2
connexions or terminals and 400Arms maximum for 4 connexions
or terminals)
1.5 x Un for 10s
Irms (A)
RMS current
Thermal 1
for 10s
polypropylene
40 / 85 / 56
(IEC 60068)
-40°C / +85°C
(according to the
power dissipated)
Climatic Category
Irms (A)
RMS current
Thermal 2
Working temperature
temperature of the cooling air measured at the hottest position of
the capacitor, under steady-state conditions, midway between
Storage temperature
Calorific value
-40°C / +85°C
34 MJ/kg
θamb (°C) cooling air temperature two units
NOTE If only one unit is involved, it is the temperature measured
at a point approximately 0.1 m away from the capacitor container and at two-thirds of
the height from its base
highest temperature obtained inside the case of the capacitor in
thermal equilibrium
θHS (°C)
hot spot temperature
LIFETIME EXPECTANCY VS HOT SPOT TEMPERATURE AND VOLTAGE
1.5
θHS = 60ºC
1.4
θHS = 70ºC
1.3
θHS = 80ºC
1.2
1.1
θHS = 85ºC
1
0.9
0.8
0.7
100
1,000
10,000
100,000
1,000,000
Lifetime Expectancy (hours)
092315
56
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
HOW TO CHOSE THE RIGHT CAPACITOR
The capacitor lifetime depends on the working voltage and the hot spot temperature.
Our caps are designed to meet 100000 hours lifetime at rated voltage and 70°C hot spot temperature. In accordance with
operating conditions, please calculate the hot spot temperature and deduce from this calculation if the obtained lifetime can suit
the application.
1. From the tables, select a capacitor with required capacitance
Un
Uw
Cn and voltage Un.
Calculate the maximum ripple voltage allowed for the selected cap:
Urmax = 0.2Un
Ur
If Ur>Urmax, select a capacitor with higher rated voltage
Make sure Irms application < Irms table
1/f
Copy out:
• serial resistance (Rs): see table of values
• thermal resistances Rth1 and Rth2 (depending on cooling conditions)
Time
2. Hot spot temperature calculation
Total losses are calculated as follow: Pt=Pj+Pd
Joule losses: Pj = Rs x Irms²
Rth1
Rth2
Dielectric losses: Pd = Q x tgδ0 with
• Q(reactive power) = Irms2 for a sinusoidal waveform
–––––
C
HS
CASE
AMB
• tgδ0 = 2 x 10-4 (dielectric losses of polypropylene)
Hot spot temperature will be:
HS = amb + (Pj + Pd) x (Rth1 + Rth2)
HS absolute maximum is 85°C
If temperature is higher than 85°C, come back to #1 and start again
with another selection.
width
Rth1: thermal resistance between hot spot and case
Rth2: thermal resistance between case and ambient air
3. Refer to the curve and deduce the lifetime vs Uw/Un ratio
1.5
1.4
θHS = 65ºC
1.3
1.2
1.1
eg: rated voltage 2000V
working voltage 1900V
ρ = 0.95 ⇒ lifetime 200,000 hours
1
0.95
0.9
@ 70°C hot spot temperature
Please, find a calculation form at the end of the catalog
0.8
0.7
100
1,000
10,000
100,000 200,000
1,000,000
Lifetime Expectancy (hours)
092315
57
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
THERMAL RESISTANCES
R
th2 (°C/W): Thermal resistance between case and ambient air
Rth1 (°C/W): Thermal resistance
between hot spot and case
under natural convection and forced air
Rth2 (°C)
Rth1 (°C/W)
Natural air cooling
Width (mm)
Forced air cooling >2m/s
Width (mm)
Height
(mm)
Width (mm)
Height
(mm)
125
175
0.41
0.36
0.30
0.26
0.22
0.19
125
0.3
175
0.26
0.21
0.18
0.15
0.13
0.11
125
175
0.13
0.11
0.09
0.08
0.07
0.06
230/240
295/305
370/380
450/460
530/540
610/620
0.40
0.33
0.27
0.22
0.19
0.17
230/240
295/305
370/380
450/460
530/540
610/620
0.15
0.13
0.1
0.25
0.2
0.17
0.15
0.13
0.09
0.08
0.07
For confined area, capacitor working in a closed cabinet, a thermal test
under real conditions is necessary to evaluate the thermal resistance.
PARASITIC INDUCTANCE VS SIZE
Measurement @ 1MHz
Ls (nH) FTHV hermetic case
Width (mm)
Ls (nH) FFHV resin top
Width (mm)
Height
(mm)
Height
(mm)
2 Connections
4 Connections
2 Connections
4 Connections
125
73
75
78
82
85
88
175
76
80
85
89
94
99
125
28
30
33
37
40
43
175
31
35
40
44
49
54
125
70
72
75
79
82
85
175
73
77
82
86
91
96
125
27
29
32
36
39
42
175
30
34
39
43
48
53
240
305
380
460
540
620
230
295
370
450
530
610
092315
58
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
MTBF CALCULATION
Based on Return Of Experience from the field of more than 30 years, we have established the following relation.
The failure rate λB depends on hot spot temperature θHS and charge ratio ρ.
ρ = Uw/Un
in failures/hour
(
)
GENERAL FAILURE RATE
λ=λB x πQ x πB x πE failures/hour • πQ, πB and πE see following tables
Qualification
factor πQ
Environment
factor πE
Environment
factor πB
Qualification
Environment
Environment
Product qualified on IEC61071
and internal qualification
Product qualified on IEC61071
Product answering on
another norm
Product without qualification
On ground (good conditions)
On ground (fixed materials)
On ground (on board)
On ship
1
2
4
9
15
Favorable
Unfavourable
1
5
1
2
5
On plane
15
MEAN TIME BETWEEN FAILURE (MTBF)
MTBF = 1/λ hours
SURVIVAL FUNCTION
N = N0 x exp (-λt)
N is the number of pieces still working after t hours.
N0 is the number of pieces at the origin (t = 0)
FAILURE MODE
Main failure mode due to AVX’s Controlled Self-Healing Technology is only losses of capacitance. Thanks to Controlled
Self-Healing solution to interrupt self-healing process in order to prevent avalanche effect due to polypropylene molecular
cracking producing gas and potential explosion in confined box for none Controlled Self-Healing capacitors.
092315
59
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
DIMENSIONS
2 FEMALE CONNECTIONS
4 FEMALE CONNECTIONS
=
165
1
=
=
80
1
80
1
80
1
=
22,5
10
22,5
10
15
1
15
1
18 0,5
18 0,5
340
385
430
340
385
430
General tolerances:
3
2
General tolerances:
3
2
1
2 MALE CONNECTIONS
MALE CONNECTIONS
=
165
1
=
=
80
1
80
1
80
1
=
22,5
22,5
10
10
15
1
15
1
18 0,5
18 0,5
340
385
430
340
385
430
General tolerances:
3
General tolerances:
3
2
2
1
092315
60
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
DIMENSIONS
2 FEMALE TERMINALS
4 FEMALE TERMINALS
=
165
1
=
=
80
1
80
1
80
1
=
22,5
22,5
10
10
15
1
15
1
Obturation screw 30,h~7
18 0,5
Obturation screw 30,h~7
18 0,5
340
385
430
340
385
430
General tolerances:
3
2
General tolerances:
3
2
1
2 MALE TERMINALS
MALE TERMINALS
=
165
1
=
=
80
1
80
1
80
1
=
22,5
22,5
10
10
15
1
15
1
Obturation screw 30,h~7
18 0,5
18 0,5
Obturation screw 30,h~7
340
385
430
340
385
430
General tolerances:
3
2
General tolerances:
3
2
1
092315
61
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
DIMENSIONS
FEMALE CONNECTIONS (max torque 15Nm)
MALE CONNECTIONS (max torque 25Nm)
M12
M8 depth 17-0+4
20 1
25 1
FEMALE TERMINAL (max torque 15Nm)
MALE TERMINAL (max torque 25Nm)
M12
ø28 1
ø28 1
M8 depth 17-0+4
ø60 1
ø60 1
Creepage distance : 52mm
Air distance : 30mm
Creepage distance : 52mm
Air distance : 30mm
WEIGHT VS SIZE
Weight (kg) FFHV resin top
Width (mm)
2 Connections
Weight (kg) FTHV hermetic case
Width (mm)
2 Connections 4 Connections
Height
(mm)
Height
(mm)
4 Connections
125
13
17
21
25
175
17.5
22.5
27.5
33.5
39
125
13.5
17.5
21.5
25.5
29.5
34
175
18
23
28
34
125
14.5
18
175
19
24
29.5
35
125
15
18.5
22.5
27
175
19.5
24.5
30
35.5
41
230
295
370
450
530
610
240
305
380
460
540
620
22
26.5
30.5
34.5
29
39.5
45
40.5
46
31
35
33.5
44.5
46.5
092315
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Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
TABLE OF VALUES
Capacitance
(μF)
Width
Height (mm)
Rs
(mΩ)
Irms Thermal 1 Irms Thermal 2
Part Number
(
mm)
FFHV
FTHV
(A)
(A)
Un = 1500Vdc
DF*HV11°R2637
DF*HV21°R2637
DF*HV12°R3447
DF*HV22°R3447
DF*HV31°R4127
DF*HV41°R4127
DF*HV13°R4597
DF*HV23°R4597
DF*HV32°R5407
DF*HV42°R5407
DF*HV14°R5747
DF*HV24°R5747
DF*HV15°R6897
DF*HV25°R6897
DF*HV33°R7207
DF*HV43°R7207
DF*HV16°R8047
DF*HV26°R8047
DF*HV34°R9007
DF*HV44°R9007
DF*HV35°R1088
DF*HV45°R1088
DF*HV36°R1268
DF*HV46°R1268
2630
2630
3440
3440
4120
4120
4590
4590
5400
5400
5740
5740
6890
6890
7200
7200
8040
8040
9000
9000
10800
10800
12600
12600
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,42
0,35
0,36
0,29
0,57
0,48
0,32
0,25
0,48
0,39
0,30
0,23
0,29
0,22
0,42
0,33
0,28
0,21
0,39
0,30
0,37
0,28
0,36
0,27
215
230
255
285
205
220
255
345
245
270
255
400
255
400
255
325
255
400
255
375
255
400
255
400
240
255
255
320
230
245
255
390
255
300
255
400
255
400
255
360
255
400
255
400
255
400
255
400
Un = 1750Vdc
DF*HV11°S1917
DF*HV21°S1917
DF*HV12°S2507
DF*HV22°S2507
DF*HV31°S3007
DF*HV41°S3007
DF*HV13°S3347
DF*HV23°S3347
DF*HV32°S3927
DF*HV42°S3927
DF*HV14°S4177
DF*HV24°S4177
DF*HV15°S5017
DF*HV25°S5017
DF*HV33°S5227
DF*HV43°S5227
DF*HV16°S5847
DF*HV26°S5847
DF*HV34°S6537
DF*HV44°S6537
DF*HV35°S7837
DF*HV45°S7837
DF*HV36°S9147
DF*HV46°S9147
1910
1910
2500
2500
3000
3000
3340
3340
3920
3920
4170
4170
5010
5010
5220
5220
5840
5840
6530
6530
7830
7830
9140
9140
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,46
0,39
0,39
0,32
0,63
0,54
0,34
0,27
0,53
0,44
0,32
0,25
0,31
0,24
0,46
0,37
0,30
0,23
0,42
0,33
0,39
0,30
0,38
0,29
200
210
245
260
195
205
255
320
230
250
255
375
255
400
255
300
255
400
255
350
255
395
255
400
225
235
255
295
215
225
255
360
255
275
255
400
255
400
255
335
255
400
255
390
255
400
255
400
* Insert F for resin top or T for hermetic case
° Insert F for female terminals or M for male terminals
092315
63
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
TABLE OF VALUES
Capacitance
(μF)
Width
Height (mm)
Rs
(mΩ)
Irms Thermal 1 Irms Thermal 2
Part Number
(
mm)
FFHV
FTHV
(A)
(A)
Un = 2000Vdc
DF*HV11°N1447
DF*HV21°N1447
DF*HV12°N1887
DF*HV22°N1887
DF*HV31°N2257
DF*HV41°N2257
DF*HV13°N2517
DF*HV23°N2517
DF*HV32°N2957
DF*HV42°N2957
DF*HV14°N3147
DF*HV24°N3147
DF*HV15°N3777
DF*HV25°N3777
DF*HV33°N3937
DF*HV43°N3937
DF*HV16°N4407
DF*HV26°N4407
DF*HV34°N4917
DF*HV44°N4917
DF*HV35°N5907
DF*HV45°N5907
DF*HV36°N6887
DF*HV46°N6887
1440
1440
1880
1880
2250
2250
2510
2510
2950
2950
3140
3140
3770
3770
3930
3930
4400
4400
4910
4910
5900
5900
6880
6880
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,50
0,43
0,42
0,35
0,69
0,60
0,37
0,30
0,57
0,48
0,34
0,27
0,32
0,25
0,49
0,40
0,31
0,24
0,44
0,35
0,42
0,33
0,40
0,31
180
185
225
240
175
185
255
295
215
230
255
345
255
395
255
280
255
400
255
330
255
375
255
400
200
210
255
270
195
205
255
335
240
260
255
390
255
400
255
310
255
400
255
365
255
400
255
400
Un = 2250Vdc
DF*HV11°T1157
DF*HV21°T1157
DF*HV12°T1507
DF*HV22°T1507
DF*HV31°T1807
DF*HV41°T1807
DF*HV13°T2017
DF*HV23°T2017
DF*HV32°T2357
DF*HV42°T2357
DF*HV14°T2517
DF*HV24°T2517
DF*HV15°T3017
DF*HV25°T3017
DF*HV33°T3147
DF*HV43°T3147
DF*HV16°T3517
DF*HV26°T3517
DF*HV34°T3937
DF*HV44°T3937
DF*HV35°T4727
DF*HV45°T4727
DF*HV36°T5507
DF*HV46°T5507
1150
1150
1500
1500
1800
1800
2010
2010
2350
2350
2510
2510
3010
3010
3140
3140
3510
3510
3930
3930
4720
4720
5500
5500
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,53
0,46
0,45
0,38
0,74
0,65
0,39
0,32
0,61
0,52
0,35
0,28
0,33
0,26
0,52
0,43
0,32
0,25
0,47
0,38
0,44
0,35
0,41
0,32
165
175
210
225
165
175
255
275
205
220
255
325
255
375
250
265
255
400
255
315
255
355
255
395
190
195
240
250
185
195
255
310
230
245
255
370
255
400
255
295
255
400
255
345
255
395
255
400
* Insert F for resin top or T for hermetic case
° Insert F for female terminals or M for male terminals
092315
64
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
Capacitance
(μF)
Width
Height (mm)
Rs
(mΩ)
Irms Thermal 1 Irms Thermal 2
Part Number
(
mm)
FFHV
FTHV
(A)
(A)
Un = 2500Vdc
DF*HV11°P0877
DF*HV21°P0877
DF*HV12°P1137
DF*HV22°P1137
DF*HV31°P1397
DF*HV41°P1397
DF*HV13°P1517
DF*HV23°P1517
DF*HV32°P1827
DF*HV42°P1827
DF*HV14°P1897
DF*HV24°P1897
DF*HV15°P2277
DF*HV25°P2277
DF*HV33°P2427
DF*HV43°P2427
DF*HV16°P2657
DF*HV26°P2657
DF*HV34°P3037
DF*HV44°P3037
DF*HV35°P3647
DF*HV45°P3647
DF*HV36°P4257
DF*HV46°P4257
870
870
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,57
0,50
0,48
0,41
0,80
0,71
0,41
0,34
0,65
0,56
0,37
0,30
0,35
0,28
0,55
0,46
0,33
0,26
0,49
0,40
0,46
0,37
0,43
0,34
155
160
200
205
160
165
245
260
195
205
255
305
255
350
235
250
255
400
255
295
255
340
255
380
175
185
225
235
175
185
255
290
215
230
255
345
255
400
255
280
255
400
255
330
255
375
255
400
1130
1130
1390
1390
1510
1510
1820
1820
1890
1890
2270
2270
2420
2420
2650
2650
3030
3030
3640
3640
4250
4250
Un = 2750Vdc
DF*HV11°W0717
DF*HV21°W0717
DF*HV12°W0937
DF*HV22°W0937
DF*HV31°W1147
DF*HV41°W1147
DF*HV13°W1247
DF*HV23°W1247
DF*HV32°W1497
DF*HV42°W1497
DF*HV14°W1557
DF*HV24°W1557
DF*HV15°W1867
DF*HV25°W1867
DF*HV33°W1997
DF*HV43°W1997
DF*HV16°W2177
DF*HV26°W2177
DF*HV34°W2497
DF*HV44°W2497
DF*HV35°W2997
DF*HV45°W2997
DF*HV36°W3487
DF*HV46°W3487
710
710
930
930
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,61
0,54
0,51
0,44
0,85
0,76
0,43
0,36
0,70
0,61
0,39
0,32
0,36
0,29
0,58
0,48
0,35
0,28
0,52
0,43
0,48
0,39
0,45
0,36
145
150
185
195
150
155
230
240
185
195
255
285
255
330
225
240
255
375
255
280
255
320
255
360
165
170
210
220
165
175
255
275
205
215
255
325
255
375
250
265
255
400
255
310
255
360
255
400
1140
1140
1240
1240
1490
1490
1550
1550
1860
1860
1990
1990
2170
2170
2490
2490
2990
2990
3480
3480
* Insert F for resin top or T for hermetic case
° Insert F for female terminals or M for male terminals
092315
65
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
Capacitance
(μF)
Width
Height (mm)
Rs
(mΩ)
Irms Thermal 1 Irms Thermal 2
Part Number
(
mm)
FFHV
FTHV
(A)
(A)
Un = 3000Vdc
DF*HV11°X0597
DF*HV21°X0597
DF*HV12°X0787
DF*HV22°X0787
DF*HV31°X0957
DF*HV41°X0957
DF*HV13°X1047
DF*HV23°X1047
DF*HV32°X1257
DF*HV42°X1257
DF*HV14°X1307
DF*HV24°X1307
DF*HV15°X1567
DF*HV25°X1567
DF*HV33°X1667
DF*HV43°X1667
DF*HV16°X1827
DF*HV26°X1827
DF*HV34°X2087
DF*HV44°X2087
DF*HV35°X2507
DF*HV45°X2507
DF*HV36°X2927
DF*HV46°X2927
590
590
780
780
950
125
125
125
125
175
175
125
125
175
175
125
125
125
125
175
175
125
125
175
175
175
175
175
175
230
230
295
295
230
230
370
370
295
295
450
450
530
530
370
370
610
610
450
450
530
530
610
610
240
240
305
305
240
240
380
380
305
305
460
460
540
540
380
380
620
620
460
460
540
540
620
620
0,65
0,58
0,54
0,47
0,91
0,82
0,45
0,38
0,75
0,66
0,41
0,34
0,38
0,31
0,62
0,53
0,36
0,29
0,55
0,46
0,50
0,41
0,47
0,38
140
145
175
180
140
145
215
225
175
185
255
270
255
315
215
225
255
355
250
270
255
310
255
345
160
165
200
205
160
165
245
255
195
205
255
305
255
355
240
250
255
400
255
295
255
340
255
385
950
1040
1040
1250
1250
1300
1300
1560
1560
1660
1660
1820
1820
2080
2080
2500
2500
2920
2920
* Insert F for resin top or T for hermetic case
° Insert F for female terminals or M for male terminals
092315
66
Medium Power Film Capacitors
FFHV/FTHV 1500Vdc to 3000Vdc
CALCULATION FORM
SPECIFICATION
Your choice
Capacitance
C (μF)
PN
Working voltage
Rms current
Uw (V)
Irms (Arms)
f (Hz)
Capacitance
Rated voltage
Serial resistance
C (μF)
Un (V)
Frequency
Rs (mΩ)
Ripple voltage
Ur (V)
between
hot spot and case
Ambient temperature
Lifetime @ Uw,Irms and θamb
Parasitic inductance
θ
amb (°C)
Rth (°C/W)
hours
L (nH)
CALCULATIONS
Maximum ripple voltage
Urmax = 0.2 Un
Urmax
=
V
The maximum ripple voltage of the selected capacitor must be in any case higher than the ripple voltage of your application
Ratio Uw/Un
ρ = Uw/Un
Pj = RsxIrms
ρ =
Pj =
Pd =
2
Joule losses
W
W
°C
Dielectric losses
Hot spot temperature
Pd = Qxtgδ0=Qx 2.10-4
θHS = θamb+(Pj+Pd)xRth
θHS
=
The hot spot temperature must be in any case lower than 85°C
LIFETIME EXPECTANCY VS HOT SPOT TEMPERATURE AND VOLTAGE
1.5
θHS = 60ºC
1.4
θHS = 70ºC
1.3
θHS = 80ºC
1.2
1.1
θHS = 85ºC
1
0.9
0.8
0.7
100
1,000
10,000
100,000
1,000,000
Lifetime Expectancy (hours)
Expected lifetime at hot spot calculated and U = Uw
092315
67
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