AVX FFLC42MB4427 Medium power film capacitor Datasheet

Medium Power Film Capacitors
FFLC
DC FILTERING
The FFLC series is specifically designed for DC filtering applications such as DC
link or resonant filters.
Large case sizes up to 35 liters and high specific energy up to 240J/l together with
safe and reliable Controlled Self Healing Technology make this series particularly
suitable for power converters in traction, drives and renewable energy areas.
FFLC uses polypropylene metallized segmented film and it is fully dry technology.
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
Non-painted rectangular resin filled aluminium case
Mounting brackets
4 M8/15 Female connections or M12/30 Male connections
STANDARDS
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
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
FFLC
3
1
M
A
4427
Series
Width
1 = 100mm
2 = 125mm
3 = 150mm
4 = 175mm
Height
1 = 245mm
2 = 315mm
3 = 385mm
4 = 455mm
5 = 525mm
6 = 595mm
Terminals
F = Female
M = Male
Voltage
A = 800V
B = 900V
C = 1000V
D = 1100V
E = 1350V
Capacitance
EIA code
CHARACTERISTICS
DEFINITIONS
nominal value of the capacitance measured at θamb = 25 ± 10°C
maximum operating peak voltage of either polarity (non-reversing
rated DC voltage
type waveform), for which the capacitor has been designed for
Un
continuous operation
value of the maximum operating recurrent voltage for a given hot
working voltage
Uw
spot temperature and an expected lifetime
Ur
ripple voltage
peak-to-peak alternating component of the unidirectional voltage
Ls
parasitic inductance
capacitor series self-inductance
Rs
capacitor series resistance capacitor series resistance due to galvanic circuit
RMS current value for continuous operation under natural
Irms
thermal 1
convection generating 20°C overheating
rms current value for continuous operation under forced air
Irms
thermal 2
generating 20°C overheating
temperature of the cooling air measured at the hottest position of
the capacitor, under steady-state conditions, midway between
θamb (°C) cooling air temperature
two units
Cn
θHS (°C)
capacitance
hot spot temperature
42 ■ JUNE 2015
Capacitance range Cn
Tolerance on Cn
Rated DC voltage Un
Lifetime at Un and 70°C
hot-spot temperature
and ΔC / C < 2%
Parasitic inductance Ls
Maximum rms current Irms
Test voltage between terminals
@ 25°C
Test voltage between terminals
and Case @ 25°C
Dielectric
Climatic Category
1750μF to 20600μF
±10%
800 to 1350V
100,000h
32 to 55nH
up to 400Arms
1.5 x Un for 10s
4kVrms @ 50Hz
for 10s
polypropylene
40 / 85 / 56
(IEC 60068)
-40°C / +85°C
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
Working temperature
(according to the
power dissipated)
highest temperature obtained inside the case of the capacitor in
thermal equilibrium
Storage temperature
Calorific value
-40°C / +85°C
27 MJ/kg
Medium Power Film Capacitors
FFLC
DC FILTERING
LIFETIME EXPECTANCY VS HOT SPOT TEMPERATURE AND VOLTAGE
1.4
1.3
θHS = 55ºC
Uw/Un
1.2
1.1
θHS = 70ºC
1.0
θHS = 85ºC
0.9
0.8
100
1,000
10,000
100,000
1,000,000
Lifetime Expectancy (hours)
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.
Un
Uw
Ur
Voltage
1. From the tables, select a capacitor with required capacitance
Cn and voltage Un.
Calculate the maximum ripple voltage allowed for the selected cap:
Urmax = 0.2Un
If Ur>Urmax, select a capacitor with higher rated voltage
Make sure Irms application < Irms table
Copy out:
• serial resistance (Rs): see table of values
• thermal resistances Rth1 and Rth2 (depending on cooling conditions)
1/f
Time
2. Hot spot temperature calculation
Total losses are calculated as follow: Pt=Pj+Pd
Joule losses: Pj = Rs x Irms²
Dielectric losses: Pd = Q x tgδ0 with
• Q(reactive power) = Irms2 for a sinusoidal waveform
–––––
C␻
Rth1
HS
Rth2
CASE
AMB
-4
• tgδ0 = 2 x 10 (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.
Rth1: thermal resistance between hot spot and case
Rth2: thermal resistance between case and ambient air
width
JUNE 2015
■ 43
Medium Power Film Capacitors
FFLC
3. Refer to the curve and deduce the lifetime vs Uw/Un ratio
1.3
eg: rated voltage 1000V
working voltage 950V
ρ = 0.95 ⇒ lifetime 200,000 hours
@ 70°C hot spot temperature
Please, find a calculation form at the end of the catalog
1.2
Uw/Un
DC FILTERING
1.4
.1.1
HS =70°C
1
0.95
0.9
0.8
100
1,000
10,000
100,000 200,000
1,000,000
Lifetime Expectancy (hours)
THERMAL RESISTANCES
Rth1 (°C/W): Thermal resistance
between hot spot and case
Height
(mm)
245
315
385
455
525
595
100
0.56
0.41
0.3
0.25
0.2
0.17
Rth1 (°C/W)
Width (mm)
125
150
0.67
0.76
0.49
0.56
0.36
0.41
0.3
0.34
0.24
0.27
0.21
0.24
Rth2 (°C/W): Thermal resistance between case and ambient air
under natural convection and forced air
Rth2 (°C)
175
0.82
0.6
0.44
0.37
0.3
0.26
Height
(mm)
245
315
385
455
525
595
100
0.47
0.36
0.30
0.25
0.22
0.19
Natural air cooling
Width (mm)
125
150
0.44
0.42
0.35
0.33
0.28
0.27
0.24
0.23
0.21
0.20
0.18
0.17
175
0.40
0.31
0.25
0.22
0.19
0.16
Forced air cooling >2m/s
Width (mm)
100
125
150
175
0.23
0.22
0.21
0.20
0.18
0.17
0.16
0.16
0.15
0.14
0.13
0.13
0.13
0.12
0.11
0.11
0.11
0.10
0.10
0.09
0.10
0.09
0.09
0.08
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
Height
(mm)
245
315
385
455
525
595
100
32
34
36
38
40
42
Ls (nH)
Width (mm)
125
150
34
35
36
38
39
41
41
44
43
47
46
51
44 ■ JUNE 2015
175
37
40
44
48
51
55
Low inductance design
available on request
Medium Power Film Capacitors
FFLC
DC FILTERING
MTBF CALCULATION
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
Product qualified on IEC61071
and internal qualification
Product qualified on IEC61071
Product answering on
another norm
Product without qualification
Qualification
factor πQ
1
2
5
15
Environment
On
On
On
On
On
ground (good conditions)
ground (fixed materials)
ground (on board)
ship
plane
Environment
factor πE
1
2
4
9
15
Environment
Favorable
Unfavourable
Environment
factor πB
1
5
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.
JUNE 2015
■ 45
Medium Power Film Capacitors
FFLC
DC FILTERING
DIMENSIONS
Female terminals
Male terminals
Max torque 15Nm
Max torque 25Nm
Available standard dimensions (other dimensions on request for specific design)
H (mm): 245, 315, 385, 455, 525 and 595
W (mm): 100, 125, 150 and 175
WEIGHT VS SIZE
mm
Height
245
315
385
455
525
595
100
12
15
18.5
21.5
25
28.5
Weight (kg)
Width
125
150
15
17.5
18.5
22.5
23
27.5
27
32.5
31.5
37.5
35
41.5
46 ■ JUNE 2015
175
20.5
26
32
37.5
42.5
48.5
Medium Power Film Capacitors
TABLE OF VALUES
Part Number
Capacitance
(μF)
Width
(mm)
FFLC11 * MA4777
FFLC12 * MA6087
FFLC21 * MA6557
FFLC13 * MA7817
FFLC31 * MA8317
FFLC22 * MA8337
FFLC14 * MA9117
FFLC41 * MA1008
FFLC32 * MA1068
FFLC23 * MA1078
FFLC15 * MA1098
FFLC16 * MA1228
FFLC24 * MA1258
FFLC42 * MA1278
FFLC33 * MA1368
FFLC25 * MA1498
FFLC34 * MA1598
FFLC43 * MA1648
FFLC26 * MA1678
FFLC35 * MA1898
FFLC44 * MA1918
FFLC36 * MA2118
FFLC45 * MA2288
FFLC46 * MA2558
4,770
6,080
6,550
7,810
8,310
8,330
9,110
10,000
10,600
10,700
10,900
12,200
12,500
12,700
13,600
14,900
15,900
16,400
16,700
18,900
19,100
21,100
22,800
25,500
100
100
125
100
150
125
100
175
150
125
100
100
125
175
150
125
150
175
125
150
175
150
175
175
FFLC11 * MB3847
FFLC12 * MB4897
FFLC21 * MB5277
FFLC13 * MB6287
FFLC31 * MB6707
FFLC22 * MB6717
FFLC14 * MB7337
FFLC41 * MB8077
FFLC32 * MB8537
FFLC23 * MB8627
FFLC15 * MB8737
FFLC16 * MB9777
FFLC24 * MB1018
FFLC42 * MB1038
FFLC33 * MB1108
FFLC25 * MB1258
FFLC34 * MB1288
FFLC43 * MB1328
FFLC26 * MB1348
FFLC35 * MB1528
FFLC44 * MB1548
FFLC36 * MB1718
FFLC45 * MB1848
FFLC46 * MB2068
3,840
4,890
5,270
6,280
6,700
6,710
7,330
8,070
8,530
8,620
8,730
9,770
10,100
10,300
11,000
12,500
12,800
13,200
13,400
15,200
15,400
17,100
18,400
20,600
100
100
125
100
150
125
100
175
150
125
100
100
125
175
150
125
150
175
125
150
175
150
175
175
Height
(mm)
Rs
(mΩ)
Irms Thermal 1
(A)
Irms Thermal 2
(A)
0.27
0.23
0.29
0.20
0.32
0.25
0.19
0.35
0.27
0.22
0.17
0.17
0.20
0.29
0.23
0.18
0.21
0.25
0.22
0.20
0.23
0.19
0.21
0.20
270
333
249
400
231
310
400
218
288
380
400
400
400
274
355
400
400
338
400
400
385
400
400
400
306
380
276
400
255
348
400
240
320
400
400
400
400
299
395
400
400
374
400
400
400
400
400
400
0.29
0.25
0.31
0.21
0.34
0.27
0.20
0.37
0.29
0.23
0.18
0.17
0.21
0.32
0.25
0.19
0.23
0.27
0.18
0.21
0.24
0.20
0.22
0.21
261
323
240
3100
222
300
400
209
278
369
400
400
400
264
344
400
393
327
400
400
373
400
400
400
296
368
267
400
245
337
400
231
309
400
400
400
400
289
383
400
400
362
400
400
400
400
400
400
Un = 800Vdc
245
315
245
385
245
315
455
245
315
385
525
595
455
315
385
525
455
385
595
525
455
595
525
595
Un = 900Vdc
245
315
245
385
245
315
455
245
315
385
525
595
455
315
385
525
455
385
595
525
455
595
525
595
* Insert F for female terminals or M for male terminals
JUNE 2015
■ 47
DC FILTERING
FFLC
Medium Power Film Capacitors
FFLC
DC FILTERING
TABLE OF VALUES
Part Number
Capacitance
(μF)
Width
(mm)
FFLC11 * MC3167
FFLC12 * MC4027
FFLC21 * MC4337
FFLC13 * MC5177
FFLC31 * MC5517
FFLC22 * MC5527
FFLC14 * MC6037
FFLC41 * MC6647
FFLC32 * MC7017
FFLC23 * MC7097
FFLC15 * MC7187
FFLC16 * MC8047
FFLC24 * MC8277
FFLC42 * MC8467
FFLC33 * MC9027
FFLC25 * MC9857
FFLC34 * MC1058
FFLC43 * MC1098
FFLC26 * MC1108
FFLC35 * MC1258
FFLC44 * MC1278
FFLC36 * MC1408
FFLC45 * MC1518
FFLC46 * MC1698
3,160
4,020
4,330
5,170
5,510
5,520
6,030
6,640
7,010
7,090
7,180
8,040
8,270
8,460
9,020
9,850
10,500
10,900
11,000
12,500
12,700
14,000
15,100
16,900
100
100
125
100
150
125
100
175
150
125
100
100
125
175
150
125
150
175
125
150
175
150
175
175
FFLC11 * MD2537
FFLC12 * MD3227
FFLC21 * MD3487
FFLC13 * MD4147
FFLC31 * MD4427
FFLC22 * MD4437
FFLC14 * MD4837
FFLC41 * MD5347
FFLC32 * MD5637
FFLC23 * MD5697
FFLC15 * MD5757
FFLC16 * MD6447
FFLC24 * MD6647
FFLC42 * MD6797
FFLC33 * MD7247
FFLC25 * MD7907
FFLC34 * MD8447
FFLC43 * MD8737
FFLC26 * MD8857
FFLC35 * MD1018
FFLC44 * MD1028
FFLC36 * MD1138
FFLC45 * MD1218
FFLC46 * MD1368
2,530
3,220
3,480
4,140
4,420
4,430
4,830
5,340
5,630
5,690
5,750
6,440
6,640
6,790
7,240
7,900
8,440
8,730
8,850
10,100
10,200
11,300
12,100
13,600
100
100
125
100
150
125
100
175
150
125
100
100
125
175
150
125
150
175
125
150
175
150
175
175
Height
(mm)
Rs
(mΩ)
Irms Thermal 1
(A)
Irms Thermal 2
(A)
0.30
0.26
0.33
0.23
0.37
0.28
0.21
0.40
0.31
0.24
0.19
0.18
0.22
0.34
0.26
0.20
0.24
0.29
0.19
0.22
0.26
0.21
0.23
0.22
253
314
232
385
215
291
400
202
269
358
400
400
400
255
334
400
382
317
400
400
362
400
400
400
287
358
258
400
237
326
400
223
299
400
400
400
400
279
372
400
400
351
400
400
400
400
400
400
0.33
0.28
0.36
0.24
0.40
0.31
0.22
0.44
0.34
0.26
0.20
0.19
0.24
0.37
0.28
0.22
0.26
0.31
0.20
0.23
0.28
0.22
0.25
0.23
243
303
223
373
206
280
400
194
259
346
400
400
395
245
323
400
370
306
400
400
350
400
400
400
276
345
248
400
227
314
400
214
288
392
400
400
400
269
359
400
400
339
400
400
388
400
400
400
Un = 1000Vdc
245
315
245
385
245
315
455
245
315
385
525
595
455
315
385
525
455
385
595
525
455
595
525
595
Un = 1100Vdc
* Insert F for female terminals or M for male terminals
48 ■ JUNE 2015
245
315
245
385
245
315
455
245
315
385
525
595
455
315
385
525
455
385
595
525
455
595
525
595
Medium Power Film Capacitors
TABLE OF VALUES
Part Number
Capacitance
(μF)
Width
(mm)
FFLC11 * ME1757
FFLC12 * ME2237
FFLC21 * ME2407
FFLC13 * ME2867
FFLC31 * ME3057
FFLC22 * ME3067
FFLC14 * ME3347
FFLC41 * ME3677
FFLC32 * ME3887
FFLC23 * ME3927
FFLC15 * ME3987
FFLC16 * ME4457
FFLC24 * ME4587
FFLC42 * ME4687
FFLC33 * ME4997
FFLC25 * ME5457
FFLC34 * ME5827
FFLC43 * ME6017
FFLC26 * ME6107
FFLC35 * ME6937
FFLC44 * ME7017
FFLC36 * ME7767
FFLC45 * ME8357
FFLC46 * ME9357
1,750
2,230
2,400
2,860
3,050
3,060
3,340
3,670
3,880
3,920
3,980
4,450
4,580
4,680
4,990
5,450
5,820
6,010
6,100
6,930
7,010
7,760
8,350
9,350
100
100
125
100
150
125
100
175
150
125
100
100
125
175
150
125
150
175
125
150
175
150
175
175
Height
(mm)
Rs
(mΩ)
Irms Thermal 1
(A)
Irms Thermal 2
(A)
0.37
0.32
0.41
0.27
0.46
0.35
0.24
0.51
0.38
0.28
0.22
0.21
0.26
0.42
0.32
0.24
0.29
0.35
0.22
0.26
0.31
0.24
0.28
0.26
228
285
208
353
192
263
400
180
242
334
400
400
374
229
303
400
349
287
400
400
329
400
383
400
259
325
232
400
212
2100
400
199
270
378
400
400
400
251
337
400
393
318
400
400
365
400
400
400
Un = 1350Vdc
245
315
245
385
245
315
455
245
315
385
525
595
455
315
385
525
455
385
595
525
455
595
525
595
* Insert F for female terminals or M for male terminals
JUNE 2015
■ 49
DC FILTERING
FFLC
Medium Power Film Capacitors
FFLC
SPECIFICATION
Your choice
Capacitance
C (μF)
PN
Working voltage
Uw (V)
Capacitance
C (μF)
Rms current
Irms (Arms)
Rated voltage
Frequency
f (Hz)
Un (V)
Ripple voltage
Ur (V)
Serial resistance
Rs (mΩ)
Ambient temperature
θamb (°C)
Rth1 (°C/W)
Lifetime @ Uw,Irms and θamb
hours
Thermal resistance between
hot spot and case
Parasitic inductance
L (nH)
Thermal resistance between
case and ambient air
Rth2 (°C/W)
Cooling conditions
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 Vw/Vn
ρ = Uw/Un
Joule losses
Pj = RsxIrms2
Dielectric losses
Pd = Qxtgδ0=Qx 2.10
Hot spot temperature
θHS = θamb+(Pj+Pd)x(Rth1+Rth2)
ρ=
-4
Pj =
W
Pd =
W
θHS =
°C
The hot spot temperature must be in any case lower than 85°C
LIFETIME EXPECTANCY VS HOT SPOT TEMPERATURE AND VOLTAGE
1.4
1.3
θHS = 55ºC
1.2
Uw/Un
DC FILTERING
CALCULATION FORM
1.1
θHS = 70ºC
1.0
θHS = 85ºC
0.9
0.8
100
1,000
10,000
Lifetime Expectancy (hours)
Expected lifetime at hot spot calculated and U = Uw
50 ■ JUNE 2015
100,000
1,000,000
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