POWERELECTRONICSCAPACITORS
LNK SERIESMetallized polypropyleneDC Link capacitors
UNI EN 29001 (ISO 9001)
CERT. N.9170 ICAR
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1
1. COMPANY PROFILE
OUR MISSION:“Develop and supply high-quality capacitors, providing all the customers with full assistance from the design throughthe delivery. We will take care to any particular needs that the customer may have.”
Established in 1946, ICAR has rapidly reached, and since then maintained, a leadership position in the research anddevelopment of new capacitors and components of which capacitors are key parts.In the early 60’s, first in the world, ICAR started the production of metallized polypropylene film capacitors, bydeveloping the film metallization by its own.ICAR group nowadays controls all the manufacturing phases of the capacitor: from the polypropylene film extrusionthrough its metallization, to the production of the finished capacitor. The know-how accrued in almost 50 years ofmetallized film production, has enabled ICAR to bring to the market innovative products like the LNK series.Today ICAR Group is a leader in the production of capacitors, both for power electronics applications and for lowand medium voltage power factor correction.
ICAR Group toady offers a wide range of products, all manufactured at its 6 plants located in Europe, that includes:
• power electronics and special capacitors• lighting capacitors• motor run capacitors• Power Factor Correction capacitors and Systems• L.V. and M.V. voltage stabilizers• transformers and chokes
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2. ICAR GROUP PRODUCT RANGE
POWER ELECTRONICS AND SPECIAL CAPACITORSPolypropylene film capacitors for:• DC link input filters for inverters (LNK and BIOENERGY D series)• AC filters for inverters and UPS (LNF, MSR, BIOENERGY A and CRT series)• Semiconductors snubber applications (THY series)• All purpose AC and DC applications (MSR and BIOENERGY series)• Medium frequency furnaces (BIOFURN Series) • Medical applications (SP25 series)• Energy storage applications
LIGHTING CAPACITORSICAR series of lighting capacitors are suitable for parallel and series power factor correctionapplications in both fluorescent and discharge light fittings.Moreover Plastic Case Type A and Metal Case Type B capacitors can be equipped with a widerange of fixing devices and terminals options.ENEC and UL approvals certify that ICAR lighting capacitors are in compliance with the lateststandards and assures customers of an ICAR product with high levels of quality and reliability.
M.V. PFC CAPACITORS AND BANKSWide range of M.V. power capacitors, with powers from 50 to 800 kvar, available in single andthree phase versions, up to 24 kV rated voltage.Capacitor banks up to 150 kV both for indoor and outdoor installation can be supplied oncustomer need.
POWER CAPACITORS AND PFC CONTROLLERS
Aluminium can three phase capacitors of the CRT range are available for voltages from 230V to800V and reactive powers ranging from 1 to 40 kvar.Power Factor Correction Controllers of 5 to 12 steps, enjoys features like incorporatedtemperature sensors and control, alarms and protection functions.
MOTOR RUN CAPACITORSICAR motor run capacitor product range is one of the largest on the market.The polypropylene film capacitors are available for different levels of voltage from 250V up to500V with long life ratings up to 30.000 hours.The variety of terminations and fixings shown in our catalogue gives the possibility to use thesecapacitors in any kind of application. The special design of ICAR capacitors distinguishes thesecomponents both for their quality and for their reliability.IMQ, VDE and UL approvals guarantee the ICAR motor capacitor range meets with internationalstandards.
PFC SISTEMS AND HARMONIC FILTERS
Range is complete of fix and automatic LV power factor correction systems, standard anddetuned, active and passive harmonic absorption filters.All of automatic systems have undergone type tests at International Laboratories
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3. QUALITY POLICY
VOLTAGE STABILISERSElectrodynamics and static voltage stabilisers, single-phase and three-phase, LV and MV from1 up to 4000kVA with microprocessor control system. Electrodynamics line conditioners, single-phase and three-phase, LV and MV from 1 up to 2000kVA with microprocessor control system.
TRANSFORMERS AND CHOKESSingle-phase and three-phase MV and LV Electric Transformers for galvanic isolation, UPS andrectifiers.Epoxy resin MV Transformers for distribution and rectifiers.Single-phase and Three-phase MV and LV reactors and chokes for power correction system andAC/DC filters.
ICAR, a synonym for capacitor since 1946, has alwaysconsidered the quality and the effectiveness of its internalprocesses as a key-factor in thecompany strategy.The compliance with InternationalStandards have always been kept as afundamental reference for offeringproducts and processes whichcompletely match customers’requirements and expectations.ICAR Quality System is certifiedaccording to EN ISO 9001:2000standard.
ICAR representatives are members of the most importantinternational standard committees, in charge for issuing
the reference standards for the capacitorindustry.In order to comply with the internationalregulations and with the most severecustomers acceptance criteria, productsare submitted to tests both in the internallaboratories and in the most importantinternationally recognized laboratories
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- A typical industrial converter basically consists of an AC/DCsection (to convert the AC voltage of the grid into a DC voltage) anda DC/AC section either at variable frequency (motor drive) or fixedfrequency (generators or UPS).These two parts are connected through a DC bus (link circuit)where capacitors are required in order to filter the high frequencycomponents (DC Link Capacitors).Most important requirements for these capacitors are:• Capability to withstand high currents at frequencies above 1000
Hz• High energy density (Joule/dm3)
- Electrolytic Capacitors banks are used up to a voltage of 2000V,but their limits are:• Maximum working voltage across each capacitor limited to about
450÷500V• Maximum current, especially at high frequency, limited by the
high ESR (Equivalent Series Resistance) typical of thistechnology
For these reasons, in general, Electrolytic Capacitors have to beconnected in series/parallel to form banks able to withstand thevoltages and the currents required by the application.
- Polypropylene film capacitors are able to overcome these limitsand in most cases they are able to replace favourably electrolyticcapacitors in applications where the voltage is above 500Vdc.
Main advantages of Metallized Film Capacitor are:• high current per capacitance (A/μF) • high voltage per element• high capability to withstand overvoltages up to 2 times the rated
voltage• more than 10 years estimated lifetime in the temperature range
-25/+70°C• Easy connections and low equivalent inductance• non polar dielectric• No leakage of dangerous or poisonous electrolytes
ADVANTAGES OF LNK CAPACITORS AGAINST ELECTROLITYC CAPACITORS
4. LNK SERIESTHE EFFECTIVE WAY TO REPLACE ELECTROLYTIC CAPACITORS
KEY POINTS• COMPACT DESIGN• LOW LOSSES• HIGH RIPPLE CURRENT• DRY TECHNOLOGY I.E. NO LEAKAGE PROBLEMS• SELF EXTINGUISHING RESINS AND PLASTICS ACCORDING
TO UL94• RESINS AND PLASTICS IN ACCORDANCE TO UNI CEI 11170-3
“Guidelines for fire protection of railway vehicles: acceptabilitylimits”
LNK SeriesDC LINKCAPACITORS
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5. SELECTION RULES AND DEFINITIONS
SELECTION RULES
1. VOLTAGESelect a capacitor with surge peak voltage (US), rated voltage(UN) and max ripple voltage (Urms) higher than the operatingones.
Consider that:• Rated DC voltage of the capacitor (UN) shall be higher than the
sum of operating dc voltage + operating ripple peak voltage• Rms ripple voltage shall be lower than 10% of the rated voltage
UN, and it shall not exceed 150Vrms
It is possible, within certain limits, to work above the rated voltagebut this reduces the expected life of the capacitor.
2. CURRENTSelect a capacitor with maximum current Imax, higher then theoperating IRMS
Consider that: • A thermal check shall be performed in order to verify that the
chosen capacitor does not exceed the max operatingtemperature at operating IRMS
• The Imax of the capacitors has been calculated consideringnegligible the dielectric losses (Q tanδ0) and corresponds to a(ϑh – ϑ0) of about 30°C.
3. THERMAL CHECKDouble check the expected working temperature of the capacitorin your application
Consider that:• The hot spot temperature can be estimated as follows:
ϑh = Rth * P + ϑ0.• The total dissipated power can be calculated as follows:
P = Q tan δ0 + RS I2RMS
At rated duty and hot spot temperature of 70°C (65°C forLNK-M3 series) the expected lifetime is 100.000 hours with astatistical failure rate of 300FIT.
WARNINGThe thermal check is based on the hypothesis that the heatgenerated into the capacitor is transmitted to the environmentthrough the case surface. Possible localised overheating (poorconnections, hot components in the nearby, operation with highharmonics frequency etc.) would bring the capacitor to adramatic failure or to a reduction of the expected life. In case ofdoubt, special tests by means of thermocouples should beperformed to be sure that the maximum hot spot temperature isnot exceeded even under the most critical ambientcircumstances.Capacitors with thermocouples can be supplied on request.
DEFINITIONS
CN Rated CapacitanceUN Rated (repetitive peak) voltageUrms Rated rms ripple voltage = 0.1 x UN max (max 150 Vrms)US Surge (not repetitive) peak voltageUI rms value of the AC voltage for which the terminal to
case insulation has been designed and tested IMAX Maximum rms current value for continuous operationClearance shortest distance in air between terminals
conducting parts or between terminal and caseCreepage shortest distance along an insulated surface between
terminals conducting parts or between terminal and caseQ Reactive power = 2 x π x f x C x U2
rms
F Fundamental frequencyRS Series resistance representing the sum of all ohmic
resistances in the capacitorESR Equivalent Series Resistance defined as
ESR = RS+ tan δ0 / (2 x π x f x C)tan δ0 Dielectric dissipation factor. It can be considered
constant in the normal working frequency range.Typical value for polypropylene is 2 x 10-4
tan δ Dissipation factor calculated as follows: tan δ0 + 2 x π x f x C x RS.
dv/dt Maximum slope of the voltage waveformIPK Peak current IPK = C dV/dt.P Active power (losses) = Q x δ0 + RS x I2
RMS
Rth Thermal resistance between the hot-spot in the winding and the environment (natural cooling), so that:
P = (ϑh - ϑ0) / Rth
In case of forced air cooling the thermal resistancewill be reduced of 20%.
ϑh Hottest point in the capacitor winding = Rth x P+ϑ0
ϑ0 Operating ambient temperature. It is the airtemperature measured under steady conditions at0,1m from the capacitor case.
Ln Expected life at rated voltage UN and hot-spottemperature of 70°C (65°C for LNK-M3 series)
L Expected life at the actual working conditionsLS Self inductance of the capacitor. It is due to the
internal connections, terminals, winding characteristicsand physical dimensions.
λ Failure rate (FIT) = 109 x failures/component x hour
GRAPHICAL MEANING OF RATED VOLTAGE UN AND PEAK TO PEAK RIPPLE VOLTAGE
The maximum allowed rms ripple voltage has to be lower than 10% of the rated voltage UN (max 150Vrms)
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6. TECHNICAL INFORMATION
RatingsCapacitance tolerance: ±10%, ±5% on requestUseful life: 100.000 hrs at 70°C hot-spot (65°C hot-spot for LNK-M3 series) Failure rate: 300FITApplicationExpressly designed for operation with direct voltageEnvironmental conditionsOperating temperatureϑmin =-25°C, ϑmax =+70°CStorage temperatureϑmin =-40°C, ϑmax =+85°CHumidity classClass F Max relative humidity: 75% annual on average, 95% 30 days per year, condensation not permittedDielectricMetallized polypropylene filmCase material and Polyurethane resinSelf extinguishing in accordance to UL 94 V0Low smoke and toxicity emission in accordance to UNI CEI 11170-3 GUIDELINES FOR FIRE PROTECTION OF RAILWAY VEHICLES:ACCEPTABILITY LIMITS Environmental CompatibilityLNK series do not contain PCB and is manufactured in accordance to RoHS restrictionsProtection against accidental contactAll the capacitors are NOT protected against accidental contactDischargeAll the capacitors are NOT provided with internal/external discharge deviceType of protectionUnprotected: no presence of overpressure disconnector/detectorAssembly/CoolingThe useful life of a capacitor can be dramatically reduced if exposed to excessive heat. In general, an increase in the ambient tem-perature of 7°C will halve the expected lifetime. Capacitors must be allowed to cool and should be shielded from external heat sour-ces.In case of doubt, special tests by means of thermocouples should be conducted to be sure that the maximum hot spot temperatureis not exceeded even under the most critical ambient circumstances.Capacitors shall not be placed near to heat source and a minimum clearance of 20mm between the capacitors shall be maintained.Mounting positionLNK capacitors shown in this catalogue can operate in any position without restrictions.LNK-P5X and LNK-P9X require an additional mechanical support if they are mounted with connections downward. RISK of EXPLOSION and FIRECapacitors consist mainly of polypropylene film. The film may ignite as a result of internal fault or external overload. Appropriate mea-sures should be ensured to avoid any risk of hazard in the event of failure. FIRE LOAD: 46MJ/kg, EXTINGUISH WITH: solid extinguish agent, CO2, foamReference standardIEC 61071
OVERVOLTAGES ACCORDING TO IEC 61071
Overvoltage Maximum duration
1,1 x Un 30% of on load duration
1,15 x Un 30 min / day
1,2 x Un 5 min / day
1,3 x Un 1 min /day
1,5 x Un 30 ms, no more than 1000 times in the lifetime
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7. OPERATING LIFEThe lifetime of a capacitor depends on the hot spot temperatureand on the field strength in its dielectric during operation. Thecapacitors have been designed for an average probable service lifeof 100.000hrs at rated duty (voltage, temperature and frequency).During the life of the product the probable failure rate is 300FIT.Failures are considered short circuits, interruptions, capacitancedrifts.Lifetime is a statistical value calculated on the basis of experienceand on theoretical evaluations. It does not have an absolute value
and it is not possible to transfer automatically data coming from alimited quantity of capacitors to a whole population or even to asingle batch of capacitors. The following diagrams show the correlation between useful life, hotspot temperature and operating voltage. The diagrams should beconsidered only as a theoretical reference. Please consult ourtechnical department in case of working condition different from therated ones.
Useful life versus voltage
Ln Expected life at rated voltage UN
L Expected life at voltage U
Expected life versus hot spot temperature at rated voltage (Not applicable for LNK-M3 series)
Ln expected life with hot spot temperature of 70°CL expected life with hot spot temperature T
U/UN
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8. CASE CROSS REFERENCE TABLE
Rated DC Voltage Un (V)500 ÷ 1000 1000 ÷ 1500 1500 ÷ 2000 2000 ÷ 2500 2500 ÷ 3000 3000 ÷ 4000 4000 ÷ 5000
LNK-P1X… LNK-P1X…LNK-P2X… LNK-P2X…
0 ÷ 50 LNK-P1X… LNK-P2Z… LNK-P2Z… LNK-P4X…LNK-P6X… LNK-P2L… LNK-P2L…
LNK-P3X… LNK-P3X…LNK-P6X… LNK-P6X…LNK-P2X…
LNK-P2X… LNK-P2Z…50 ÷ 100 LNK-P2Z… LNK-P2L… LNK-P3X… LNK-P4X… LNK-P4X…
LNK-P6X… LNK-P3X…LNK-P6X…
LNK-P2X…LNK-P2Z… LNK-P2L…
100 ÷ 150 LNK-P2L… LNK-P3X… LNK-P3X…LNK-P3X…LNK-P6X…LNK-P2X…LNK-P2Z… LNK-P7X…
150 ÷ 200 LNK-P2L… LNK-P3X… LNK-P8X…LNK-P3X…LNK-P6X…
200 ÷ 250 LNK-P2L… LNK-P3X… LNK-P7X… LNK-P4X…LNK-P3X… LNK-P8X…
250 ÷ 300 LNK-P3X… LNK-P3X… LNK-P5X…LNK-P7X…LNK-P3X…
300 ÷ 350 LNK-P7X… LNK-P4X… LNK-P5X…LNK-P8X…LNK-P3X…
350 ÷ 400 LNK-P3X… LNK-M3… LNK-P4X… LNK-P5X…LNK-P7X…
LNK-P3X… LNK-P3X…400 ÷ 450 LNK-M3… LNK-P7X… LNK-P5X…
LNK-P8X…
450 ÷ 500 LNK-P3X… LNK-M3…LNK-P7X… LNK-P5X…
LNK-P3X…LNK-M3…
500 ÷ 600 LNK-M3…LNK-P4X…
LNK-P5X…LNK-P7X…
LNK-P7X…LNK-P8X…
LNK-M3…LNK-M3…
600 ÷ 700 LNK-P7X…LNK-P4X…
LNK-P5X… LNK-P5X…LNK-P8X…
LNK-P7X…LNK-P8X…
LNK-P3X…700 ÷ 800 LNK-P7X… LNK-M3…
LNK-P8X… LNK-P8X…
800 ÷ 900LNK-M3…LNK-P8X…
LNK-P4X… LNK-P5X…
900 ÷ 1000LNK-M3…LNK-P4X…
LNK-P5X… LNK-P5X…
LNK-M3…
1000 ÷ 1500LNK-P4X… LNK-M3…LNK-P7X… LNK-P5X… LNK-P5X…LNK-P8X…LNK-M3...
1500 ÷ 2000 LNK-P4X…LNK-M3…
LNK-P5X…LNK-P8X…
LNK-P5X…
2000 ÷ 4000LNK-M3...LNK-P4X…
LNK-P5X…
4000 ÷ 8000 LNK-P5X… LNK-P5X…
Cap
acit
ance
C (
μF)
Mai 2009
9
•VE
RY
LO
W IN
DU
CTA
NC
E•S
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LL
SIZ
E
Rat
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itanc
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Volta
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Res
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Cle
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Freq
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C (µ
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N(V
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S(V
)Im
ax (A
)I P
K(A
)L
(nH
)R
s (m
Ω)
Rth
n (°
C/W
)(K
Hz)
(mm
)(m
m)
(kg)
(pcs
)
LN
K-P
1X-4
5-70
4570
014
0040
1500
101.
4012
.840
3636
0.15
100
LN
K-P
1X-3
0-90
3090
018
0035
1300
101.
7012
.840
3636
0.15
100
LN
K-P
1X-2
5-10
025
1000
2000
3513
0010
1.80
12.8
4036
360.
1510
0
LN
K-P
1X-2
2-11
022
1100
2200
3512
0010
1.90
12.8
4036
360.
1510
0
LN
K-P
1X-1
6-12
516
1250
2500
2510
0010
2.28
12.8
4036
360.
1510
0
LN
K-P
1X-1
0-14
510
1450
2900
2070
010
3.00
12.8
4036
360.
1510
0
LN
K-P
1X-7
.5-1
807.
518
0036
0015
700
103.
2512
.840
3636
0.15
100
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
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wor
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freq
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y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 3
500V
x 1
0 s
LNK
– P
1X -
…
Mai 2009
10
LNK
– P
2X -
…•H
IGH
CU
RR
EN
T
•OP
TIM
IZE
D F
OR
HE
AT
SIN
K M
OU
NT
ING
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
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esis
tanc
e w
ithM
ax W
orki
ngbe
twee
nC
lear
ance
Tigh
teni
ngTi
ghte
ning
Wei
ght
qty
natu
ral c
oolin
gFr
eque
ncy
term
inal
sTo
rque
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(Nm
)(k
g)(p
cs)
LN
K-P
2X-1
50-7
015
070
014
0085
5300
<30
0.4
1010
2828
102
0.45
16
LN
K-P
2X-1
00-9
010
090
018
0075
4500
<30
0.55
1010
2828
102
0.45
16
LN
K-P
2X-8
0-10
080
1000
2000
7040
00<
300.
610
1028
2810
20.
4516
LN
K-P
2X-7
0-11
070
1100
2200
7038
00<
300.
6510
1028
2810
20.
4516
LN
K-P
2X-5
0-12
550
1250
2500
6532
00<
300.
7510
1028
2810
20.
4516
LN
K-P
2X-4
0-14
540
1450
2900
6029
00<
300.
810
1028
2810
20.
4516
LN
K-P
2X-2
5-18
025
1800
3600
5523
00<
301
1010
2828
102
0.45
16
- In
ord
er to
dec
reas
e th
e th
erm
al r
esis
tanc
e, th
e ca
pac
itor
shou
ld b
e in
stal
led
on
a he
atsi
nk th
roug
h an
hea
t con
duc
tive
pas
te. T
he th
erm
al r
esis
tanc
e is
est
imat
ed c
onsi
der
ing
the
cap
acito
r al
one,
not
fixe
d a
nd in
free
air
cond
ition
(nat
ural
con
vent
ion)
.-
In c
ase
of d
oub
t reg
ard
ing
the
full
curr
ent m
axim
um w
orki
ng fr
eque
ncy,
ple
ase
cont
act I
CA
R T
ech.
Dep
t. fo
r d
e-ra
ting
acc
ord
ing
to c
urre
nt s
pec
trum
-
Rou
tine
die
lect
ric te
st:
DC
vol
tag
e te
st b
etw
een
term
inal
s =
1.5
UN
x 10
s, A
C v
olta
ge
test
bet
wee
n te
rmin
als
and
cas
e =
350
0V x
10
s
Mai 2009
11
LNK
– P
2Z -
…
•HIG
H C
UR
RE
NT
•OP
TIM
IZE
D F
OR
HE
AT
SIN
K M
OU
NT
ING
•FE
MA
LE
CO
NN
EC
TOR
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngbe
twee
nC
lear
ance
Tigh
teni
ngtig
hten
ing
Wei
ght
qty
natu
ral c
oolin
gFr
eque
ncy
term
inal
sTo
rque
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(Nm
)(k
g)(p
cs)
LN
K-P
2Z-1
50-7
015
070
014
0085
5300
<30
0.4
1010
2828
102
0.45
16
LN
K-P
2Z-1
00-9
010
090
018
0075
4500
<30
0.55
1010
2828
102
0.45
16
LN
K-P
2Z-8
0-10
080
1000
2000
7040
00<
300.
610
1028
2810
20.
4516
LN
K-P
2Z-7
0-11
070
1100
2200
7038
00<
300.
6510
1028
2810
20.
4516
LN
K-P
2Z-5
0-12
550
1250
2500
6532
00<
300.
7510
1028
2810
20.
4516
LN
K-P
2Z-4
0-14
540
1450
2900
6029
00<
300.
810
1028
2810
20.
4516
LN
K-P
2Z-2
5-18
025
1800
3600
5523
00<
301
1010
2828
102
0.45
16
- In
ord
er to
dec
reas
e th
e th
erm
al r
esis
tanc
e, th
e ca
pac
itor
shou
ld b
e in
stal
led
on
a he
atsi
nk th
roug
h an
hea
t con
duc
tive
pas
te. T
he th
erm
al r
esis
tanc
e is
est
imat
ed c
onsi
der
ing
the
cap
acito
r al
one,
not
fixe
d a
nd in
free
air
cond
ition
(nat
ural
con
vent
ion)
.-
In c
ase
of d
oub
t reg
ard
ing
the
full
curr
ent m
axim
um w
orki
ng fr
eque
ncy,
ple
ase
cont
act I
CA
R T
ech.
Dep
t. fo
r d
e-ra
ting
acc
ord
ing
to c
urre
nt s
pec
trum
-
Rou
tine
die
lect
ric te
st:
DC
vol
tag
e te
st b
etw
een
term
inal
s =
1.5
UN
x 10
s, A
C v
olta
ge
test
bet
wee
n te
rmin
als
and
cas
e =
350
0V x
10
s
Mai 2009
12
LNK
– P
2L -
…
•HIG
H C
UR
RE
NT
•OP
TIM
IZE
D F
OR
HE
AT
SIN
K M
OU
NT
ING
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngbe
twee
nC
lear
ance
Tigh
teni
ngtig
hten
ing
Wei
ght
qty
natu
ral c
oolin
gFr
eque
ncy
term
inal
sTo
rque
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(Nm
)(k
g)(p
cs)
LN
K-P
2L-2
40-7
024
070
014
0060
5600
401
8,75
1028
2810
20,
5516
LN
K-P
2L-1
50-9
015
090
018
0055
4400
401,
18,
7510
2828
102
0,55
16
LN
K-P
2L-1
00-1
1010
011
0022
0050
3600
401,
38,
7510
2828
102
0,55
16
LN
K-P
2L-7
5-12
575
1250
2500
4531
0040
1,5
8,75
1028
2810
20,
5516
LN
K-P
2L-5
0-14
550
1450
2900
4524
0040
1,6
8,75
1028
2810
20,
5516
LN
K-P
2L-3
5-18
035
1800
3600
4021
0040
28,
7510
2828
102
0,55
16
- In
ord
er to
dec
reas
e th
e th
erm
al r
esis
tanc
e, th
e ca
pac
itor
shou
ld b
e in
stal
led
on
a he
atsi
nk th
roug
h an
hea
t con
duc
tive
pas
te. T
he th
erm
al r
esis
tanc
e is
est
imat
ed c
onsi
der
ing
the
cap
acito
r al
one,
not
fixe
d a
nd in
free
air
cond
ition
(nat
ural
con
vent
ion)
.-
In c
ase
of d
oub
t reg
ard
ing
the
full
curr
ent m
axim
um w
orki
ng fr
eque
ncy,
ple
ase
cont
act I
CA
R T
ech.
Dep
t. fo
r d
e-ra
ting
acc
ord
ing
to c
urre
nt s
pec
trum
-
Rou
tine
die
lect
ric te
st:
DC
vol
tag
e te
st b
etw
een
term
inal
s =
1.5
UN
x 10
s, A
C v
olta
ge
test
bet
wee
n te
rmin
als
and
cas
e =
350
0V x
10
s
Mai 2009
13
LNK
– P
2T -
…•H
IGH
CU
RR
EN
T•O
PT
IMIZ
ED
FO
R H
EA
TS
INK
MO
UN
TIN
G•F
EM
AL
E C
ON
NE
CTO
R
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngbe
twee
nC
lear
ance
Tigh
teni
ngtig
hten
ing
Wei
ght
qty
natu
ral c
oolin
gFr
eque
ncy
term
inal
sTo
rque
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(Nm
)(k
g)(p
cs)
LN
K-P
2T-2
40-7
024
070
014
0060
5600
401
8,75
1028
2810
20,
5516
LN
K-P
2T-1
50-9
015
090
018
0055
4400
401,
18,
7510
2828
102
0,55
16
LN
K-P
2T-1
00-1
1010
011
0022
0050
3600
401,
38,
7510
2828
102
0,55
16
LN
K-P
2T-7
5-12
575
1250
2500
4531
0040
1,5
8,75
1028
2810
20,
5516
LN
K-P
2T-5
0-14
550
1450
2900
4524
0040
1,6
8,75
1028
2810
20,
5516
LN
K-P
2T-3
5-18
035
1800
3600
4021
0040
28,
7510
2828
102
0,55
16
- In
ord
er to
dec
reas
e th
e th
erm
al r
esis
tanc
e, th
e ca
pac
itor
shou
ld b
e in
stal
led
on
a he
atsi
nk th
roug
h an
hea
t con
duc
tive
pas
te. T
he th
erm
al r
esis
tanc
e is
est
imat
ed c
onsi
der
ing
the
cap
acito
r al
one,
not
fixe
d a
nd in
free
air
cond
ition
(nat
ural
con
vent
ion)
.-
In c
ase
of d
oub
t reg
ard
ing
the
full
curr
ent m
axim
um w
orki
ng fr
eque
ncy,
ple
ase
cont
act I
CA
R T
ech.
Dep
t. fo
r d
e-ra
ting
acc
ord
ing
to c
urre
nt s
pec
trum
-
Rou
tine
die
lect
ric te
st:
DC
vol
tag
e te
st b
etw
een
term
inal
s =
1.5
UN
x 10
s, A
C v
olta
ge
test
bet
wee
n te
rmin
als
and
cas
e =
350
0V x
10
s
Mai 2009
14
LNK
– P
3X -
…•M
EC
HA
NIC
AL
LA
YO
UT
OP
TIM
IZE
D T
O E
AS
Y R
EP
LA
CE
E
LE
CT
RO
LYT
IC C
APA
CIT
OR
S•A
LS
O A
VAIL
AB
LE
WIT
H T
HR
EA
DE
D H
OL
E T
ER
MIN
AL
S,O
N R
EQ
UE
ST
Mai 2009
15
Rat
ed
Tigh
teni
ng
Mod
elC
ap.
DC
Peak
Max
rm
sPe
akS
elf
Ser
ies
Ther
mal
Full
curr
ent
Cre
epag
eC
lear
ance
Tigh
teni
ngto
rque
for
Wei
ght
dD
LB
ox
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngbe
twee
nTo
rque
the
M12
qty
natu
ral c
oolin
gFr
eque
ncy
term
inal
sfix
ing
stud
C (µ
F)U
N(V
)U
S(V
)Im
ax (A
)I P
K(A
)L
(nH
)R
s (m
Ω)
Rth
n (°
C/W
)(K
Hz)
(mm
)(m
m)
(Nm
)(N
m)
(kg)
(mm
)(m
m)
(mm
)(p
cs)
LN
K-P
3X-2
00-7
020
070
014
0030
1900
803.
96.
15
3019
610
0.5
M6
6014
036
LN
K-P
3X-4
00-7
040
070
014
0040
3400
902.
75.
85
3019
610
0.9
M6
7515
516
LN
K-P
3X-7
50-7
075
070
014
0055
6400
901.
65.
55
3015
1010
1.5
M8
100
155
9
LN
K-P
3X-1
40-9
014
090
018
0030
1700
804.
06.
15
3019
610
0.5
M6
6014
036
LN
K-P
3X-2
50-9
025
090
018
0040
2700
902.
35.
85
3019
610
0.9
M6
7515
516
LN
K-P
3X-5
00-9
050
090
018
0055
5500
901.
95.
55
3015
1010
1.5
M8
100
155
9
LN
K-P
3X-1
20-1
0012
010
0020
0030
1700
804.
26.
15
3019
610
0.5
M6
6014
036
LN
K-P
3X-2
00-1
0020
010
0020
0040
2500
903.
35.
85
3019
610
0.9
M6
7515
516
LN
K-P
3X-4
00-1
0040
010
0020
0050
5000
902.
05.
55
3015
1010
1.5
M8
100
155
9
LN
K-P
3X-1
00-1
1010
011
0022
0030
1500
804.
76.
15
3019
610
0.5
M6
6014
036
LN
K-P
3X-1
90-1
1019
011
0022
0040
2500
903.
35.
85
3019
610
0.9
M6
7515
516
LN
K-P
3X-3
50-1
1035
011
0022
0050
4600
902.
25.
55
3015
1010
1.5
M8
100
155
9
LN
K-P
3X-7
5-12
575
1250
2500
3013
0080
5.4
6.1
530
196
100.
5M
660
140
39
LN
K-P
3X-1
40-1
2514
012
5025
0035
2100
903.
85.
85
3019
610
0.9
M6
7515
516
LN
K-P
3X-2
50-1
2525
012
5025
0045
3800
902.
55.
55
3015
1010
1.5
M8
100
155
9
LN
K-P
3X-5
0-14
550
1450
2900
2510
0080
7.0
6.1
530
196
100.
5M
660
140
36
LN
K-P
3X-1
00-1
4510
014
5029
0030
1700
904.
65.
85
3019
610
0.9
M6
7515
516
LN
K-P
3X-2
00-1
4520
014
5029
0045
3500
902.
75.
55
3015
1010
1.5
M8
100
155
9
LN
K-P
3X-3
3-18
033
1800
3600
2084
080
8.5
6.1
530
196
100.
5M
660
140
36
LN
K-P
3X-6
6-18
066
1800
3600
3014
0090
5.6
5.8
530
196
100.
9M
675
155
16
LN
K-P
3X-1
25-1
8012
518
0036
0040
2700
903.
35.
55
3015
1010
1.5
M8
100
155
9
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um
- Th
e th
erm
al r
esis
tanc
e is
est
imat
ed c
onsi
der
ing
the
cap
acito
r al
one,
not
fixe
d a
nd in
free
air
cond
ition
(na
tura
l con
vent
ion)
.-
Rou
tine
die
lect
ric te
st:
DC
vol
tag
e te
st b
etw
een
term
inal
s =
1.5
UN
x 10
s, A
C v
olta
ge
test
bet
wee
n te
rmin
als
and
cas
e =
350
0V x
10
s
Mai 2009
16
LNK
–M
3…-
…•M
EC
HA
NIC
AL
LA
YO
UT
OP
TIM
IZE
D T
O E
AS
Y R
EP
LA
CE
E
LE
CT
RO
LYT
IC C
APA
CIT
OR
S•A
VAIL
AB
LE
BO
TH
WIT
H S
CR
EW
AN
D T
HR
EA
DE
D H
OL
ES
TE
RM
INA
LS
Term
inal
s se
lect
ion
RM
6 th
read
ed h
oles
SM
8 th
read
ed h
oles
TM
6 sc
rew
ter
min
als
UM
8 sc
rew
ter
min
als
{L
NK
– M
3...–
550–
70
DD
1a
Cre
epag
eTi
ghte
ning
betw
een
Cle
aran
ceTo
rque
for
fixin
g st
udte
rmin
als
M12
(mm
)(m
m)
(mm
)(m
m)
(mm
)(N
m)
116
120
5045
3610
8589
3236
1810
Mai 2009
17
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tTi
ghte
ning
Term
inal
Box
Mod
elC
ap.
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngTo
rque
Wei
ght
scre
ws
orD
Lqt
yna
tura
l coo
ling
Freq
uenc
yth
read
ed h
ole
C (µ
F)U
N(V
)U
S(V
)Im
ax (A
)I P
K(A
)L
(nH
)R
s (m
Ω)
Rth
n (°
C/W
)(K
Hz)
(Nm
)(k
g)(m
m)
(mm
)(p
cs)
LN
K-M
3…-5
50-7
055
070
014
0035
2700
110
1.7
7.2
56
/ 80.
85M
6/M
885
140
8
LN
K-M
3...-
1050
-70
1050
700
1400
6051
0065
1.0
4.1
56
/ 81.
60M
6/M
885
256
4
LN
K-M
3…-1
150-
7011
5070
014
0080
1000
050
0.46
4.5
56
/ 81.
80M
6/M
811
616
26
LN
K-M
3…-1
950-
7019
5070
014
0010
010
000
600.
633.
25
6 / 8
2.60
M6/
M8
116
236
3
LN
K-M
3…-2
450-
7024
5070
014
0010
010
000
700.
742.
75
6 / 8
3.10
M6/
M8
116
286
3
LN
K-M
3…-4
10-9
041
090
016
5035
4700
110
1.87
7.2
56
/ 80.
80M
6/M
885
140
8
LN
K-M
3…-6
80-9
068
090
016
5060
4400
601.
034.
55
6 / 8
1.40
M6/
M8
8523
64
LN
K-M
3…-8
30-9
083
090
016
5080
8800
500.
494.
55
6 / 8
1.80
M6/
M8
116
162
6
LN
K-M
3…-1
400-
9014
0090
016
5010
090
0060
0.68
3.2
56
/ 82.
60M
6/M
811
623
63
LN
K-M
3…-1
750-
9017
5090
016
5010
090
0070
0.81
2.7
56
/ 83.
10M
6/M
811
628
63
LN
K-M
3…-3
60-1
1036
011
0018
0035
4400
110
1.98
7.2
56
/ 80.
80M
6/M
885
140
8
LN
K-M
3…-6
00-1
1060
011
0018
0060
4100
601.
084.
55
6 / 8
1.40
M6/
M8
8523
64
LN
K-M
3…-6
60-1
1066
011
0018
0060
4100
651.
174.
15
6 / 8
1.50
M6/
M8
8525
64
LN
K-M
3…-7
30-1
1073
011
0018
0080
8200
500.
514.
55
6 / 8
1.80
M6/
M8
116
162
6
LN
K-M
3…-1
200-
110
1200
1100
1800
100
8200
600.
713.
25
6 / 8
2.60
M6/
M8
116
236
3
LN
K-M
3…-1
850-
110
1850
1100
1800
100
8200
800.
982.
35
6 / 8
3.70
M6/
M8
116
336
3
LN
K-M
3…-5
00-1
3050
013
0022
0080
7000
500.
564.
55
6 / 8
1.80
M6/
M8
116
162
6
LN
K-M
3…-8
00-1
3080
013
0022
0010
065
0060
0.80
3.2
56
/ 82.
60M
6/M
811
623
63
LN
K-M
3…-1
000-
130
1000
1300
2200
100
6500
700.
972.
75
6 / 8
3.20
M6/
M8
116
286
3
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 3
500V
x 1
0 s
Mai 2009
18
LNK
– P
4X -
…
•HE
AV
Y D
UT
Y C
ON
ST
RU
CT
ION
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngB
etw
een
Cle
aran
ceTi
ghte
ning
tight
enin
gW
eigh
tqt
yna
tura
l coo
ling
Freq
uenc
yTe
rmin
als
Torq
ueto
rque
C (µ
F)U
N(V
)U
S(V
)Im
ax (A
)I P
K(A
)L
(nH
)R
s (m
Ω)
Rth
n (°
C/W
)(K
Hz)
(mm
)(m
m)
(Nm
)(N
m)
(kg)
(pcs
)
LN
K-P
4X-2
000-
7020
0070
014
0012
088
00<
300.
52.
7515
4634
208
5.2
4
LN
K-P
4X-1
300-
9013
0090
018
0012
072
00<
300.
62.
7515
4634
208
5.2
4
LN
K-P
4X-9
00-1
1090
011
0022
0012
060
00<
300.
72.
7515
4634
208
5.2
4
LN
K-P
4X-6
50-1
2565
012
5025
0011
552
00<
300.
82.
7515
4634
208
5.2
4
LN
K-P
4X-5
00-1
4550
014
5029
0010
088
00<
300.
92.
7515
4634
208
5.2
4
LN
K-P
4X-3
50-1
8035
018
0036
0010
076
00<
301.
12.
7515
4634
208
5.2
4
LN
K-P
4X-2
20-2
2022
022
0044
0012
084
00<
300.
72.
7515
4634
208
5.2
4
LN
K-P
4X-5
5-40
055
4000
8000
6042
00<
302.
852.
7515
4634
208
5.2
4
LN
K-P
4X-2
0-50
020
5000
1000
050
2300
<30
4.5
2.75
1546
3420
85.
24
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 8
000V
x 1
0s (
term
inal
s an
d fi
bol
ts)
Mai 2009
19
LNK
– P
5X -
…•H
IGH
CA
PAC
ITA
NC
E•L
OW
IND
UC
TAN
CE
CO
NN
EC
TIO
NS
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngbe
twee
nC
lear
ance
tight
enin
gW
eigh
tqt
yna
tura
l coo
ling
Freq
uenc
yte
rmin
als
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(kg)
(pcs
)L
NK
-P5X
-800
0-70
8000
700
1400
300
3400
0<
300.
141.
4520
4040
818
1L
NK
-P5X
-500
0-90
5000
900
1800
300
2700
0<
300.
181.
4520
4040
818
1L
NK
-P5X
-420
0-10
042
0010
0020
0025
026
000
<30
0.19
1.45
2040
408
181
LN
K-P
5X-3
500-
110
3500
1100
2200
250
2300
0<
300.
211.
4520
4040
818
1L
NK
-P5X
-260
0-12
526
0012
5025
0025
020
000
<30
0.24
1.45
2040
408
181
LN
K-P
5X-2
000-
145
2000
1450
2900
200
1700
0<
300.
281.
4520
4040
818
1L
NK
-P5X
-160
0-16
016
0016
0032
0020
016
000
<30
0.31
1.45
2040
408
181
LN
K-P
5X-1
300-
180
1300
1800
3600
200
1400
0<
300.
341.
4520
4040
818
1L
NK
-P5X
-100
0-20
010
0020
0040
0025
025
000
<30
0.19
1.45
2040
408
181
LN
K-P
5X-8
50-2
2085
022
0044
0025
023
000
<30
0.21
1.45
2040
408
181
LN
K-P
5X-6
50-2
5065
025
0050
0025
020
000
<30
0.23
1.45
2040
408
181
LN
K-P
5X-5
00-2
9050
029
0058
0020
025
000
<30
0.27
1.45
2040
408
181
LN
K-P
5X-4
00-3
2040
032
0064
0020
023
000
<30
0.3
1.45
2040
408
181
LN
K-P
5X-3
00-3
6030
036
0072
0020
019
000
<30
0.36
1.45
2040
408
181
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 6
000V
x 1
0s (
term
inal
s an
d fi
bol
ts)
Mai 2009
20
LNK
– P
6X -
…•V
ER
Y L
OW
IND
UC
TAN
CE
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngTi
ghte
ning
Wei
ght
dD
Lqt
yna
tura
l coo
ling
Freq
uenc
yTo
rque
C (µ
F)U
N(V
)U
S(V
)Im
ax (A
)I P
K(A
)L
(nH
)R
s (m
Ω)
Rth
n (°
C/W
)(K
Hz)
(Nm
)(k
g)(m
m)
(mm
)(m
m)
(pcs
)
LN
K-P
6X-9
0-70
9070
014
0080
3100
100.
77.
320
60.
27M
670
5925
LN
K-P
6X-1
25-7
012
570
014
0080
4400
100.
57.
020
100.
41M
880
6016
LN
K-P
6X-1
50-7
015
070
014
0080
5300
100.
46.
720
100.
47M
890
6016
LN
K-P
6X-5
0-90
5090
018
0050
2200
101
7.3
206
0.27
M6
7059
25L
NK
-P6X
-75-
9075
900
1800
7034
0010
0.7
7.0
2010
0.41
M8
8060
16L
NK
-P6X
-100
-90
100
900
1800
8044
0010
0.5
6.7
2010
0.47
M8
9060
16
LN
K-P
6X-3
3-11
033
1100
2200
4517
0010
1.3
7.3
206
0.27
M6
7059
25L
NK
-P6X
-50-
110
5011
0022
0055
2700
100.
97.
020
100.
41M
880
6016
LN
K-P
6X-6
6-11
066
1100
2200
7535
0010
0.6
6.7
2010
0.47
M8
9060
16
LN
K-P
6X-3
0-12
530
1250
2500
3019
0010
1.6
7.3
206
0.27
M6
7059
25L
NK
-P6X
-40-
125
4012
5025
0040
2500
101.
17.
020
100.
41M
880
6016
LN
K-P
6X-5
0-12
550
1250
2500
5031
0010
0.8
6.7
2010
0.47
M8
9060
16
LN
K-P
6X-2
0-14
520
1450
2900
4014
0010
1.6
7.3
206
0.27
M6
7059
25L
NK
-P6X
-30-
145
3014
5029
0050
2100
101.
17.
020
100.
41M
880
6016
LN
K-P
6X-4
0-14
540
1450
2900
6529
0010
0.8
6.7
2010
0.47
M8
9060
16
LN
K-P
6X-1
5-18
015
1800
3600
4013
0010
1.7
7.3
206
0.27
M6
7059
25L
NK
-P6X
-20-
180
2018
0036
0050
1800
101.
37.
020
100.
41M
880
6016
LN
K-P
6X-2
5-18
025
1800
3600
6023
0010
16.
720
100.
47M
890
6016
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 3
500V
x 1
0s
Mai 2009
21
LNK
– P
7X -
…•H
IGH
CU
RR
EN
T•D
ES
IGN
ED
FO
R B
US
BA
RS
CO
NN
EC
TIO
NS
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngB
etw
een
Cle
aran
ceTi
ghte
ning
tight
enin
gW
eigh
tqt
yN
atur
al c
oolin
gFr
eque
ncy
term
inal
sTo
rque
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(Nm
)(k
g)(p
cs)
LN
K-P
7X-1
200-
7012
0070
014
0016
510
800
300.
224.
115
4535
126
2.8
8
LN
K-P
7X-7
50-9
075
090
018
0015
588
0030
0.28
4.1
1545
3512
62.
88
LN
K-P
7X-6
00-1
0060
010
0020
0015
078
0030
0.32
4.1
1545
3512
62.
88
LN
K-P
7X-5
00-1
1050
011
0022
0014
513
500
300.
354.
115
4535
126
2.8
8
LN
K-P
7X-4
00-1
2540
012
5025
0014
013
000
300.
384.
115
4535
126
2.8
8
LN
K-P
7X-3
00-1
4530
014
5029
0013
011
000
300.
444.
115
4535
126
2.8
8
LN
K-P
7X-2
00-1
8020
018
0036
0012
093
0030
0.53
4.1
1545
3512
62.
88
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 3
500V
x 1
0s
Mai 2009
22
LNK
– P
8X -
…•H
EA
VY
DU
TY
CO
NS
TR
UC
TIO
N•D
ES
IGN
ED
FO
R B
US
BA
RS
CO
NN
EC
TIO
NS
•LO
WIN
DU
CTA
NC
E
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngB
etw
een
Cle
aran
ceTi
ghte
ning
tight
enin
gW
eigh
tqt
yN
atur
al c
oolin
gFr
eque
ncy
term
inal
sTo
rque
torq
ueC
(µF)
UN
(V)
US
(V)
Imax
(A)
I PK
(A)
L (n
H)
Rs
(mΩ
)R
thn
(°C
/W)
(KH
z)(m
m)
(mm
)(N
m)
(Nm
)(k
g)(p
cs)
LN
K-P
8X-1
500-
7015
0070
014
0016
513
500
300.
223.
415
3434
126
3.8
6
LN
K-P
8X-8
50-9
085
090
018
0015
597
0030
0.27
3.4
1534
3412
63.
86
LN
K-P
8X-7
00-1
0070
010
0020
0015
092
0030
0.30
3.4
1534
3412
63.
86
LN
K-P
8X-6
00-1
1060
011
0022
0014
583
0030
0.31
3.4
1534
3412
63.
86
LN
K-P
8X-4
30-1
2543
012
5025
0014
014
000
300.
363.
415
3434
126
3.8
6
LN
K-P
8X-3
30-1
4533
014
5029
0013
012
000
300.
403.
415
3434
126
3.8
6
LN
K-P
8X-2
00-1
8020
018
0036
0012
096
0030
0.51
3.4
1534
3412
63.
86
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 3
500V
x 1
0s
Mai 2009
23
LNK
– P
9X -
…•H
IGH
CU
RR
EN
T•L
OW
IND
UC
TAN
CE
•DE
SIG
NE
D F
OR
BU
SB
AR
S C
ON
NE
CT
ION
S
Rat
ed D
CPe
akM
ax r
ms
Peak
Sel
fS
erie
sTh
erm
alFu
ll cu
rren
tC
reep
age
Fixi
ng fe
etB
oxM
odel
Cap
acita
nce
Volta
geVo
ltage
Cur
rent
Cur
rent
indu
ctan
ceR
esis
tanc
eR
esis
tanc
e w
ithM
ax W
orki
ngB
etw
een
Cle
aran
cetig
hten
ing
Wei
ght
qty
natu
ral c
oolin
gFr
eque
ncy
term
inal
sto
rque
C (µ
F)U
N(V
)U
S(V
)Im
ax (A
)I P
K(A
)L
(nH
)R
s (m
Ω)
Rth
n (°
C/W
)(K
Hz)
(mm
)(m
m)
(Nm
)(k
g)(p
cs)
LN
K-P
9X-3
000-
8030
0080
014
0015
014
500
<30
0.32
2.75
1564
646
6.5
4L
NK
-P9X
-175
0-10
017
5010
0020
0015
011
000
<30
0.41
2.75
1564
646
6.5
4L
NK
-P9X
-135
0-11
013
5011
0022
0015
095
00<
300.
462.
7515
6464
66.
54
LN
K-P
9X-1
250-
120
1250
1200
2400
150
9500
<30
0.46
2.75
1564
646
6.5
4L
NK
-P9X
-850
-140
850
1400
2800
140
7500
<30
0.56
2.75
1564
646
6.5
4L
NK
-P9X
-650
-160
650
1600
3200
135
6500
<30
0.63
2.75
1564
646
6.5
4L
NK
-P9X
-500
-180
500
1800
3600
125
1100
0<
300.
712.
7515
6464
66.
54
LN
K-P
9X-4
00-2
0040
020
0040
0012
010
000
<30
0.79
2.75
1564
646
6.5
4L
NK
-P9X
-330
-220
330
2200
4400
150
1350
0<
300.
272.
7515
6464
66.
54
LN
K-P
9X-3
00-2
4030
024
0048
0015
013
000
<30
0.28
2.75
1564
646
6.5
4L
NK
-P9X
-220
-270
220
2700
5400
150
1100
0<
300.
302.
7515
6464
66.
54
LN
K-P
9X-2
00-2
8020
028
0056
0015
010
000
<30
0.38
2.75
1564
646
6.5
4L
NK
-P9X
-150
-320
150
3200
6400
150
8500
<30
0.38
2.75
1564
646
6.5
4L
NK
-P9X
-120
-350
120
3500
7000
150
8000
<30
0.41
2.75
1564
646
6.5
4
- In
cas
e of
dou
bt r
egar
din
g th
e fu
ll cu
rren
t max
imum
wor
king
freq
uenc
y, p
leas
e co
ntac
t IC
AR
Tec
h. D
ept.
for
de-
ratin
g a
ccor
din
g to
cur
rent
sp
ectr
um-
The
ther
mal
res
ista
nce
is e
stim
ated
con
sid
erin
g th
e ca
pac
itor
alon
e, n
ot fi
xed
and
in fr
ee a
ir co
nditi
on (
natu
ral c
onve
ntio
n).
- R
outin
e d
iele
ctric
test
: D
C v
olta
ge
test
bet
wee
n te
rmin
als
= 1
.5 U
Nx
10 s
, AC
vol
tag
e te
st b
etw
een
term
inal
s an
d c
ase
= 6
000V
x 1
0s
Mai 2009
24
9. CUSTOM DC LINK CAPACITORS
Beside the standard products shown in this catalogue, ICARproduces also a wide range of custom capacitors. ICAR technical department is ready to support customers indeveloping capacitors based on their requests and specifications.
Custom capacitors for DC link are grouped as follows:
- LNK-P series are the capacitors based on the same technologyas standard products: metallised polypropylene film, plastic case,dry type resin filled. Customization is mostly related to connections,capacitance value and other special characteristics; the cases arethe same used in the standard series.
- LNK-M series are metallised polypropylene film, metal cases(aluminium or steel) capacitors, dry type resin filled. Beside thepersonalization of the P series, the metal case allows our designersto follow mechanical requirements of the customer without anyinvestment related to the plastic case mould.
- BIOENERGY-D65 series are metallised polypropylene film, metalcase (aluminium or steel) capacitors, oil filled. This solution isgenerally suggested for higher voltage applications
The range of our customized products is extremely wide and coversmost of the possible requirements in the railway and tractionequipments, industrial drives, wind and solar inverters, specialindustrial plants.
For any further information please contact our sales department.
Mai 2009
25
10. DISCLAIMER
All the information and data shown in this catalogue are not binding and can be modified without notice, contact ICAR sales depar-tment to get updated specifications.Reliability data quoted by ICAR are based on statistical evaluations, and does not guarantee properties or performance of each sin-gle component.
All the products described in the catalogue shall be used within the limits stated in the technical specifications, nevertheless it isunderstood that a failure or an abnormal operation, even when capacitors are working within the specified limits, cannot be comple-tely excluded or foreseen at the current state of the art of technology.
Capacitors may become hazardous.Most common risks are related to combustible gas generation, explosion, fire, electrocution or abnormal operation of the capacitor.Not all the possible risks and safety measures are mentioned in this catalogue, further information are available on request.It is on customer responsibility to select and take all the necessary safety measures in his applications in order to avoid any possiblepersonal injury or property damage related to the use of capacitors. This is valid in particular for applications in which a failure or anabnormal operation of the capacitors could put at risk human life or health.ICAR SpA and all the persons acting on its behalf, disclaim any and all liabilities for possible damages resulting from the use of theproducts described in this catalogue or in any other publication.
ICAR reserves the right to discontinue the production of any item without notice.
All orders are subject to ICAR General Conditions of sales – latest revision.
Mai 2009
ICAR S.p.A.
Via Isonzo, 10
20052 Monza (Mi) - Italy
tel. +39 039 83.951
fax +39 039 83.32.27
www.icar.com
Cat
alog
ue L
NK
200
9 –
Rev
. 01
- I
ssue
d o
n M
ay 2
009
ww
w.g
ripa.
it
The technical characteristics and the case dimensions are not binding and can be modified without notice. Icar declines any responsability for damages to objects or people deriving from unsuitable use of its products. Mai 2009