R75LW5100Z30K - KEMET Electronics Corporation

05/2007

185

Loose

Taped

Fig. 1 Fig. 2 Fig. 3

Ød±0.05 15p27.5 p = 37.5

0.8 1.0

All dimensions are in mm.

PRODUCT CODE SYSTEM



1 2 3 4 5 6 7 8 9 10 11 12 13 14

R 7 5 -

Digit 1 to 3 Series code.

  

2 = 230V L = 250V

  

   .

   

  

Capacitance value and the 6th digit indicates

the number of zeros that must be added to

obtain the Rated Capacitance in pF.

Digit 10 to 11 Mechanical version and/or packaging (table 1)

  

characteristics (0 to 9).

Digit 13 Internal use.

  

Tolerance 

Table 1

Standard

packaging style

Lead

length

Taping style Ordering

code

(mm)

Fig.

(No.)

Pitch

(mm)

(Digit 10

to 11)

 12.70 2 15.0 

 19.05 3 22.5 

REEL Ø 355mm 12.70 2 15.0 

REEL Ø 500mm 12.70 2 15.0 CK

REEL Ø 500mm 19.05 3 22.5/27.5 CK

Loose, short leads 04 AA

Loose, long leads

(p15mm)

30

25



R752-R75L

MKP Series

METALLIZED POLYPROPYLENE FILM

CAPACITOR

Typical applications



particular protection against severe ambiente conditions.

Please contact our Technical Service for more details

R752 (Digit 12: 0 to 9)

R75L Digit 12: 0 to 9)

Pitch Box thickness Maximum dimensions (mm)

(mm) (mm) B max H max L max

15.0 <7.5   

15.0    

22.5 All   

27.5 All   

37.5 All   

GENERAL TECHNICAL DATA

Dielectric: 

Plates: aluminium layer deposited by evaporation under

vacuum.

Winding: non-inductive type.

Leads: 

Protection:  

 

retardant according to UL94 V0.

Marking: manufacturer’s logo, series (R75), dielectric

code (MKP), capacitance, tolerance, A.C. rated

voltage, manufacturing date code.

Climatic category: 55/105/56 IEC 60068-1

Operating temperature range: 

Related documents: IEC 60384-16

single sided metallized



Winding scheme

05/2007 186

R752-R75L

MKP Series

METALLIZED POLYPROPYLENE FILM

CAPACITOR

R752 (Digit 12: 0 to 9)

R75L (Digit 12: 0 to 9)

Rated

Cap.

230Vac / 400Vdc*

Std dimensions

Max

dv/dt Max K0Part Number

B H L p (V/µs) (V2/µs)

0.082 µF 5.0 11.0 18.0 15.0 400 240 E3 R752I 2820--0--

0.10 µF 5.0 11.0 18.0 15.0 400 240 E3 R752I 3100--0--

0.15 µF 6.0 12.0 18.0 15.0 400 240 E3 R752I 3150--0--

0.18 µF 6.0 12.0 18.0 15.0 400 240 E3 R752I 3180--0--

0.22 µF 7.5 13.5 18.0 15.0 400 240 E3 R752I 3220--0--

0.27 µF 8.5 14.5 18.0 15.0 400 240 E3 R752I 3270--0--

0.33 µF 8.5 14.5 18.0 15.0 400 240 E3 R752I 3330--0--

0.47 µF 10.0 16.0 18.0 15.0 400 240 E3 R752I 3470--0--

0.27 µF 6.0 15.0 26.5 22.5 200 144 E3 R752N 3270--0--

0.33 µF 6.0 15.0 26.5 22.5 200 144 E3 R752N 3330--0--

0.47 µF 7.0 16.0 26.5 22.5 200 144 E3 R752N 3470--0--

0.56 µF 8.5 17.0 26.5 22.5 200 144 E3 R752N 3560--0--

0.68 µF 10.0 18.5 26.5 22.5 200 144 E3 R752N 3680--0--

0.82 µF 10.0 18.5 26.5 22.5 200 144 E3 R752N 3820--0--

1.0 µF 11.0 20.0 26.5 22.5 200 144 E3 R752N 4100--0--

1.5 µF 13.0 22.0 26.5 22.5 200 144 E3 R752N 4150--0--

0.47 µF 9.0 17.0 32.0 27.5 130 104 E3 R752R 3470--0--

0.56 µF 9.0 17.0 32.0 27.5 130 104 E3 R752R 3560--0--

0.68 µF 9.0 17.0 32.0 27.5 130 104 E3 R752R 3680--0--

1.0 µF 11.0 20.0 32.0 27.5 130 104 E3 R752R 4100--0--

1.5 µF 13.0 22.0 32.0 27.5 130 104 E3 R752R 4150--0--

2.2 µF 14.0 28.0 32.0 27.5 130 104 E3 R752R 4220--0--

3.3 µF 18.0 33.0 32.0 27.5 130 104 E3 R752R 4330--0--

4.7 µF 22.0 37.0 32.0 37.5 130 104 E3 R752R 4470--0--

1.8 µF 11.0 22.0 41.5 37.5 70 56 E3 R752W 4180--0--

2.2 µF 13.0 24.0 41.5 37.5 70 56 E3 R752W 4220--0--

3.3 µF 16.0 28.5 41.5 37.5 70 56 E3 R752W 4330--0--

4.7 µF 19.0 32.0 41.5 37.5 70 56 E3 R752W4470--0--

5.6 µF 19.0 32.0 41.5 37.5 70 56 E3 R752W4560--0--

6.8 µF 20.0 40.0 41.5 37.5 70 56 E3 R752W4680--0--

Rated

Cap.

250Vac / 560Vdc*

Std dimensions

Max

dv/dt Max K0Part Number

B H L p (V/µs) (V2/µs)

0.056 µF 5.0 11.0 18.0 15.0 500 504 E3 R75LI 2560--0--

0.068 µF 5.0 11.0 18.0 15.0 500 504 E3 R75LI 2680--0--

0.082 µF 5.0 11.0 18.0 15.0 500 504 E3 R75LI 2820--0--

0.10 µF 6.0 12.0 18.0 15.0 500 504 E3 R75LI 3100--0--

0.15 µF 7.5 13.5 18.0 15.0 500 504 E3 R75LI 3150--0--

0.18 µF 7.5 13.5 18.0 15.0 500 504 E3 R75LI 3180--0--

0.22 µF 8.5 14.5 18.0 15.0 500 504 E3 R75LI 3220--0--

0.27 µF 10.0 16.0 18.0 15.0 500 504 E3 R75LI 3270--0--

0.33 µF 10.0 16.0 18.0 15.0 500 504 E3 R75LI 3330--0--

0.22 µF 6.0 15.0 26.5 22.5 250 315 E3 R75LN 3220--0--

0.27 µF 6.0 15.0 26.5 22.5 250 315 E3 R75LN 3270--0--

0.33 µF 7.0 16.0 26.5 22.5 250 315 E3 R75LN 3330--0--

0.47 µF 8.5 17.0 26.5 22.5 250 315 E3 R75LN 3470--0--

0.56 µF 10.0 18.5 26.5 22.5 250 315 E3 R75LN 3560--0--

0.68 µF 11.0 20.0 26.5 22.5 250 315 E3 R75LN 3680--0--

0.82 µF 11.0 20.0 26.5 22.5 250 315 E3 R75LN 3820--0--

1.0 µF 13.0 22.0 26.5 22.5 250 315 E3 R75LN 4100--0--

0.33 µF 9.0 17.0 32.0 27.5 150 188 E3 R75LR 3330--0--

0.47 µF 9.0 17.0 32.0 27.5 150 188 E3 R75LR 3470--0--

0.56 µF 9.0 17.0 32.0 27.5 150 188 E3 R75LR 3560--0--

0.68 µF 11.0 20.0 32.0 27.5 150 188 E3 R75LR 3680--0--

1.0 µF 13.0 22.0 32.0 27.5 150 188 E3 R75LR 4100--0--

1.5 µF 13.0 25.0 32.0 27.5 150 188 E3 R75LR 4150--0--

2.2 µF 18.0 33.0 32.0 27.5 150 188 E3 R75LR 4220--0--

3.3 µF 22.0 37.0 32.0 27.5 150 188 E3 R75LR 4330--0--

3.9 µF 22.0 37.0 32.0 27.5 150 188 E3 R75LR 4390--0--

1.2 µF 11.0 22.0 41.5 37.5 90 113 E3 R75LW 4120--0--

1.5 µF 13.0 24.0 41.5 37.5 90 113 E3 R75LW 4150--0--

2.2 µF 16.0 28.5 41.5 37.5 90 113 E3 R75LW 4220--0--

3.3 µF 19.0 32.0 41.5 37.5 90 113 E3 R75LW 4330--0--

4.7 µF 20.0 40.0 41.5 37.5 90 113 E3 R75LW 4470--0--

5.6 µF 20.0 40.0 41.5 37.5 90 113 E3 R75LW 4560--0--

6.8 µF 24.0 44.0 41.5 37.5 90 113 E3 R75LW 4680--0--

10.0 µF 30.0 45.0 41.5 37.5 90 113 E3 R75LW 5100--0--

Mechanical version and packaging (Table1)

Internal use



All dimensions are in mm



 R

R /V.

The pulse characteristic K0

the above table. The dv/dt test is carried out at 2 times the above values.



Mechanical version and packaging (Table1)

Internal use



05/2007

187

R752-R75L

MKP Series

METALLIZED POLYPROPYLENE FILM

CAPACITOR

R752 (Digit 12: 0 to 9)

R75L (Digit 12: 0 to 9)

ELECTRICAL CHARACTERISTICS

Rated voltage (VR): 230Vac (400Vdc) - 250Vac (560Vdc)

Rated temperature (TR):

Temperature derated voltage:





R (d.c.)

R (a.c.)

Capacitance range: 0.056 µF to 10 µF.

Capacitance values:

E12 series (IEC 60063 Norm).

Capacitance tolerances (measured at 1 kHz):

±±20% (M).

Total self-inductance (L): (Lead length ~2 mm)

Pitch (mm) 15 22.5 27.5 37.5

 10 18 18 20

Dissipation factor (DF):

tgδx10-4±5°C

kHz C0.1µF 0.1<C1.0µF 1<C3.3µF 3.3<C10µF

100

04

06

25

5

8

610

Insulation resistance:

Test conditions

 ±C°5°C

 

 

Performance

1x105 MΩ for C0.33µF (5x105 MΩ)*

30000 s for C >0.33µF (150000 s)*

* Typical value.

Test voltage between terminations:

1.6xVR ±5°C

TEST METHOD AND PERFORMANCE

Damp heat, steady state:

Test conditions 1st

 ±2°C

 ±2%

 

Performance

Capacitance change |∆ 2%

DF change (∆tgδ 10x10-4 at 1kHz

 50% of initial limit.

Test conditions 2nd

 ±2°C

 ±2%

 

 R

Performance

Capacitance change |∆ 5%

DF change (∆tgδ 10x10-4 at 1kHz

 50% of initial limit.

Test conditions 3rd

 ±2°C

 ±2%

 

 R

Performance

Capacitance change |∆ 5%

DF change (∆tgδ 10x10-4 at 1kHz

 50% of initial limit.

Endurance:

Test conditions

 ±2°C

 

 R

Performance

Capacitance change |∆ 5%

DF change (tgδ 10x10-4 at 10kHz for C1µF

10x10-4 at 01kHz for C>1µF

 50% of initial limit.

Resistance to soldering heat:

Test conditions

 ±5°C

±1 s

Performance

Capacitance change | 1%

DF change (tg 10x10-4 at 10kHz for C1µF

10x10-4 at 01kHz for C>1µF

 initial limit.

Long term stability :

Storage: standard environmental conditions (see page 12



Performance

Capacitance change | 0.5%