Bona Fama Usoris pro Condensatoribus Inductantiae Humilis - Condensator pelliculae polypropyleni Metallizati Provectus in Applicationibus Potentiae Altae Tensionis – CRE

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Detalia Producti

Etiquettae Productarum

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Ad satisfaciendum clientium exspectata satisfactione, nunc validam nostram manum habemus ad optimum auxilium generale praebendum, quod includit venditionem, venditiones, consilium, productionem, qualitatis moderationem, sarcinationem, repono et logisticam.Condensatores Filtrationis AC Altae Efficaciae , Capacitor Typi Sicci ad Applicationem Conservationis Energiae , Capacitor AC ad Qualitatem et Fidelitatem Potestatis MeliorandamOmnes merces apparatu provecto et processibus diligenter examinandis (QC) in emptione fabricantur, ut qualitas optima confirmetur. Clientes novos veteresque invitamus ut nobiscum ad cooperationem commercialem contactent.

Bona Fama Usoris pro Capacitoribus Inductantiae Humilis - Capacitor pelliculae polypropyleni metallizati provectus in applicationibus potentiae altae tensionis – Detalia CRE:

Series DMJ-MC

CRE princeps est in innovationibus condensatorum ad applicationes electronicas potentiae evolvendis. Technologias processus optimales cum innovationibus nostris singularibus adhibemus ad seriem condensatorum distinctorum creandam.

Condensatores pelliculares CRE, capaces solutiones designandi certas pro campis industrialibus specificis praebere, pluribus parametris specificis de materiis pellicularum metallatarum, processu, et designando satisfaciunt.

Linea productionis automatica celerrimam traditionem efficit.

quattuor

Applicatio

Hi condensatores ad usum in convertoribus et inversoribus potentiae AC/DC destinantur. Plerumque inveniri possunt in automatione industriali, systemate potentiae, electronica potentiae, transportatione ferriviaria, vehiculis novae energiae, convertoribus energiae eolicae et inversoribus solaris ut nexus DC (buffers) et/vel filtri.

Tabula specificationum

Tensio electrica	450V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (kg)
380	76	75	50	10	3.8	11.4	45	2.2	4.5	32	0.5
quingenti	76	centum	40	8	4.0	12.0	65	1.5	3.2	32	0.6
DCCCL	76	130	50	5	3.8	11.3	65	1.6	3.0	32	0.75
quingenti	86	75	50	8	4.0	12.0	55	1.8	3.7	32	0.8
mille	86	130	50	5	5.0	15.0	70	1.5	2.7	32	1.1
DCCL	86	centum	40	5	3.3	9.8	75	1.2	3.0	32	0.9
DCCL	86	95	40	5	3.3	9.8	75	1.2	3.0	32	0.85
DCCL	96	75	50	5	3.3	9.8	60	1.5	3.7	45	0.75
1250	96	130	50	quattuor	5.0	15.0	80	1	3.1	45	1.2
MDCCC	116	130	50	quattuor	7.2	21.6	85	0.8	3.5	50	1.6
1450	86	190	60	quattuor	5.8	17.4	90	0.9	2.7	32	1.55
2700	116	190	60	3	8.1	24.3	centum	0.8	2.5	50	2.45
Tensio electrica	600V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (kg)
250	76	75	40	15	3.8	11.3	40	3.1	4.0	32	0.5
320	76	centum	40	10	3.2	9.6	40	2.2	5.7	32	0.6
470	76	130	45	12	5.6	16.9	60	1.8	3.1	32	0.75
330	86	75	40	15	5.0	14.9	45	2.4	4.1	32	0.8
DC	86	CXX	45	12	7.2	21.6	60	1.3	4.3	32	1.05
DCCL	86	130	50	12	7.8	23.4	70	1.2	3.4	32	1.1
DCCL	86	95	50	15	9.8	29.3	65	1.2	3.9	32	0.85
mille	86	CLXXX	50	12	12.0	36.0	70	1.5	2.7	32	1.5
420	96	75	45	15	6.3	18.9	50	2	4.0	45	0.75
DCCC	96	130	60	12	9.6	28.8	75	1.5	2.4	45	1.2
950	116	centum	60	10	9.5	28.5	90	1.2	2.1	50	1.25
1200	116	130	70	8	9.6	28.8	80	1.2	2.6	50	1.6
MDCCC	116	CLXXX	50	8	14.4	43.2	80	1.2	2.6	50	2.4
2700	116	260	70	5	13.5	40.5	centum	0.9	2.2	50	3.2
2500	136	CLXXX	60	5	12.5	37.5	centum	0.8	2.5	50	3.7
3750	136	260	70	quattuor	15.0	45.0	115	0.7	2.2	50	4.7
Tensio electrica	700V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
ducenti	76	75	40	15	3.0	9.0	40	quattuor	3.1	32	0.5
quadringenti	76	130	45	15	6.0	18.0	60	2	2.8	32	0.75
420	76	130	50	15	6.3	18.9	60	2	2.8	32	0.75
DC	86	125	60	15	9.0	27.0	45	3.2	3.1	32	1.05
550	86	130	50	12	6.6	19.8	65	1.8	2.6	32	1.1
DCCLXXX	96	130	45	12	8.2	24.5	75	1.5	2.4	45	1.2
DCCXX	96	125	60	12	8.6	25.9	55	2.6	2.5	45	1.15
mille	116	130	50	10	10.0	30.0	80	1	3.1	50	1.6
mille	96	CLXXX	60	10	10.0	30.0	75	1.2	3.0	45	1.6
1500	116	CLXXX	60	7	10.5	31.5	85	0.9	3.1	50	2.4
MM	116	230	70	7	14.0	42.0	85	0.8	3.5	50	3
MM	136	CLXXX	60	7	14.0	42.0	90	0.75	3.3	50	3.7
tria milia	136	230	70	5	15.0	45.0	centum	0.7	2.9	50	4.2
3300	136	260	70	5	16.5	49.5	CXX	0.6	2.3	50	4.7

Tensio electrica	800V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (kg)
110	86	80	45	20	2.2	6.6	75	2	1.8	32	0.8
CL	86	95	45	20	3.0	9.0	80	1.5	2.1	32	0.85
250	86	75	45	15	3.8	11.3	45	3.1	3.2	32	0.8
360	86	130	55	12	4.3	13.0	65	2.2	2.2	32	1.1
470	86	130	45	12	5.6	16.9	70	2.8	1.5	32	1.1
DC	96	130	55	10	6.0	18.0	75	2.2	1.6	45	1.2
DCCXXX	86	CLXXX	55	10	7.3	21.9	70	1.8	2.3	32	1.5
DCCCL	86	CLXXX	55	12	9.0	27.0	75	1.8	2.0	32	1.5
mille	96	CLXXX	60	10	10.0	30.0	75	1.3	2.7	45	1.6
900	116	130	65	7	6.3	18.9	80	1.4	2.2	50	1.6
1400	116	CLXXX	65	7	9.8	29.4	80	0.9	3.5	50	2.4
mille	116	125	60	7	7.0	21.0	70	1.4	2.9	50	1.55
MM	116	230	65	5	10.0	30.0	85	0.9	3.1	50	3
2800	136	230	70	5	14.0	42.0	centum	0.8	2.5	50	4.2

Tensio electrica	900V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (kg)
CLX	76	75	40	15	3.0	9.0	35	3	5.4	32	0.5
320	76	130	50	15	5.0	14.9	60	3.2	1.7	32	0.75
350	76	125	50	15	5.0	15.0	40	2.8	4.5	32	0.75
210	86	75	40	15	3.2	9.5	40	2.2	5.7	32	0.8
450	86	125	45	12	5.4	16.2	50	2.7	3.0	32	1.1
420	86	130	45	12	5.0	15.1	65	2.5	1.9	32	1.1
490	86	CXX	45	10	4.9	14.7	70	1.8	2.3	32	1.05
510	86	CXX	45	10	5.1	15.3	70	1.8	2.3	32	1.05
DCCLX	86	CLXXX	50	10	6.6	19.8	70	2	2.0	32	1.5
900	86	230	50	10	9.0	27.0	65	2.1	2.3	32	1.8
580	96	125	50	10	5.8	17.4	55	3.3	2.0	45	1.2
540	96	130	50	7	3.8	11.3	75	1.5	2.4	45	1.2
DCXXX	116	centum	55	7	4.4	13.2	60	2	2.8	50	1.3
DCCCLX	116	125	55	7	6.0	18.1	60	2.2	2.5	50	1.55
DCCCX	116	130	60	7	5.7	17.0	80	1.2	2.6	50	1.6
1250	116	CLXXX	60	7	8.8	26.3	80	1.2	2.6	50	2.4
MDCC	116	230	60	5	8.5	25.5	80	1.1	2.8	50	3
MDCC	136	CLXXX	65	6	10.2	30.6	centum	0.9	2.2	50	3.7
2400	136	230	70	5	12.0	36.0	centum	0.95	2.1	50	4.2
Tensio electrica	1100V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
130	76	75	40	15	1.9	5.6	35	4.5	3.6	32	0.5
260	76	130	45	15	3.8	11.3	60	2.8	2.0	32	0.75
280	76	125	50	12	3.3	9.9	35	quattuor	4.1	32	0.75
CLXX	86	75	50	15	2.6	7.7	45	5	2.0	32	0.8
360	86	125	55	12	4.3	13.0	35	2.5	6.5	32	1.1
330	86	130	45	15	5.0	15.0	65	2.8	1.7	32	1.1
420	86	136	45	12	5.0	15.0	60	2	2.8	32	1.15
420	86	CLV	45	12	5.0	15.0	65	1.5	3.2	32	1.25
470	86	CLXXX	60	10	4.7	14.1	70	1.8	2.3	32	1.5
quingenti	86	CLXXX	60	10	5.0	15.0	70	1.8	2.3	32	1.5
DC	86	225	60	10	6.0	18.0	80	1.2	2.6	32	1.8
DC	86	225	70	10	6.0	18.0	60	2.2	2.5	32	1.8
DC	116	130	50	10	6.0	18.0	75	1.8	2.0	50	1.6
DCCLXXX	86	225	70	12	8.2	24.5	65	2.5	1.9	32	1.8
DCCXX	86	230	70	12	8.6	25.9	65	2.5	1.9	32	1.8
460	96	125	65	10	4.6	13.8	55	3.2	2.1	45	1.2
520	96	CLXXX	65	12	6.2	18.7	75	1.5	2.4	45	1.6
quingenti	116	centum	70	10	5.0	15.0	55	2.5	2.6	50	1.3
DCCLXXX	116	125	70	10	6.8	20.4	60	2.8	2.0	50	1.6
DCCL	116	130	75	10	6.5	19.5	75	1.3	2.7	50	1.6
mille	116	CLXXX	75	12	12.0	36.0	75	1.5	2.4	50	2.4
1200	116	230	80	8	9.6	28.8	80	1.5	2.1	50	3
1200	116	230	75	12	14.4	43.2	105	0.9	2.0	50	3
1250	116	230	75	12	15.0	45.0	80	1.5	2.1	50	3
1300	116	230	75	12	15.6	46.8	80	1.5	2.1	50	3
1400	136	CLXXX	70	7	9.8	29.4	85	1.3	2.1	50	3.7
MDCC	136	230	70	5	8.5	25.5	centum	1.4	1.4	50	4.2
1900	136	230	75	5	9.5	28.5	centum	1.2	1.7	50	4.2
2800	136	335	80	5	14.0	42.0	CXX	0.8	1.7	50	6.1
3060	136	345	80	5	15.3	45.9	CXX	0.9	1.5	50	6.2
3200	136	335	80	5	16.0	48.0	CXX	0.85	1.6	50	6.1

Tensio electrica	1200V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (kg)
CLXX	86	75	50	15	2.6	7.7	45	4.5	2.2	32	0.8
420	76	145	50	15	6.3	18.9	30	12	1.9	32	0.85
330	86	130	45	15	5.0	15.0	65	2.8	1.7	32	1.1
420	86	136	45	12	5.0	15.0	65	2	2.4	32	1.15
420	86	CLV	45	12	5.0	15.0	70	1.5	2.7	32	1.25
420	116	95	55	10	4.2	12.6	80	1.4	2.2	50	1.2
450	86	CLX	55	12	5.4	16.2	70	2.9	1.4	32	1.3
470	86	CLXXX	60	12	5.6	16.9	70	2.8	1.5	32	1.5
470	86	225	60	12	5.6	16.9	70	2.8	1.5	32	1.8
550	86	145	55	12	6.6	19.8	40	11	1.1	32	1,2
DC	86	225	60	10	6.0	18.0	80	1.2	2.6	32	1.8
DC	86	225	70	10	6.0	18.0	60	2.2	2.5	32	1.8
DC	116	130	50	10	6.0	18.0	75	1.8	2.0	50	1.6
DCCLXXX	86	225	70	12	8.2	24.5	65	2.5	1.9	32	1.8
quingenti	116	centum	65	10	5.0	15.0	55	2.6	2.5	50	1.2
DCCLXXX	116	125	65	10	6.8	20.4	50	2.8	2.9	50	1.55
DCCL	116	130	65	10	6.5	19.5	80	1.8	1.7	50	1.6
mille	116	CLXXX	70	7	7.0	21.0	75	1.3	2.7	50	2.4
1200	116	230	70	7	8.4	25.2	75	1.3	2.7	50	3
1250	116	230	70	7	8.8	26.3	75	1.2	3.0	50	3
1400	136	CLXXX	75	7	9.8	29.4	85	1.1	2.5	50	3.7
MDCC	136	230	80	5	8.5	25.5	85	1	2.8	50	4.2
DCCCL	136	125	70	8	6.8	20.4	75	1.6	2.2	50	1.9
950	136	125	60	8	7.6	22.8	80	1.1	2.8	50	2.4
1200	116	CLXXX	80	8	9.6	28.8	80	1	3.1	50	2.4
1200	116	CLXXX	60	5	6.0	18.0	centum	0.8	2.5	50	2.4
1500	136	CLXXX	70	5	7.5	22.5	centum	0.9	2.2	50	3.7
2700	136	335	80	5	13.5	40.5	110	0.85	1.9	50	6.1

Tensio electrica	1300V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
230	86	125	50	15	5.7	17.1	35	5	3.3	32	1.1
210	86	130	50	15	3.2	9.5	70	2	2.0	32	1.1
330	86	CLXXX	60	15	5.0	14.9	65	3	1.6	32	1.5
470	86	230	65	12	5.6	16.9	65	3.2	1.5	32	1.8
410	116	130	65	12	4.9	14.8	80	1.8	1.7	50	1.6
DCCL	116	CLXXX	65	10	6.5	19.5	85	2	1.4	50	2.4
DCCCLXXX	116	230	80	10	8.8	26.4	85	2.2	1.3	50	3
900	136	CLXXX	70	7	6.3	18.9	centum	1.6	1.3	50	3.7
1200	136	230	80	7	8.4	25.2	105	1.5	1.2	50	4.2

Tensio electrica	1500V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
CLX	86	125	50	15	5.7	17.1	35	5	3.3	32	1.1
CLX	86	130	50	15	2.4	7.2	60	3.5	1.6	32	1.1
240	86	CLXXX	55	15	3.6	10.8	65	5	0.9	32	1.5
320	86	230	55	12	3.8	11.5	60	3.5	1.6	32	1.8
trecenti	116	130	55	12	3.6	10.8	75	2	1.8	50	1.6
470	116	CLXXX	60	10	4.7	14.1	75	2.8	1.3	50	2.4
DCCL	116	230	60	10	6.5	19.5	80	2.8	1.1	50	3
DCCLX	136	CLXXX	60	7	4.6	13.9	centum	1.8	1.1	50	3.7
900	136	230	60	6	5.4	16.2	105	1.2	1.5	50	4.2
mille	136	260	70	5	5.0	15.0	CXX	0.9	1.5	50	4.7

Tensio electrica	1800V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
130	86	125	55	15	5.7	17.1	35	5	3.3	32	1.1
CXX	86	130	55	15	1.8	5.4	60	2.5	2.2	32	1.1
CLXXX	86	CLXXX	60	15	2.7	8.1	65	2	2.4	32	1.5
260	86	230	60	12	3.1	9.4	60	3	1.9	32	1.8
230	116	130	60	12	2.8	8.3	80	2	1.6	50	1.6
360	116	CLXXX	65	10	3.6	10.8	80	3.2	1.0	50	2.4
quingenti	116	230	70	10	5.0	15.0	75	3	1.2	50	3
510	136	CLXXX	70	7	3.6	10.7	centum	2	1.0	50	3.7
DCCLXXX	136	230	70	7	4.8	14.3	95	2	1.1	50	4.2

Tensio electrica	2000V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
centum	86	125	55	15	1.5	4.5	35	3.8	4.3	32	1.1
90	86	130	55	15	1.4	4.1	65	2.5	1.9	32	1.1
CL	86	CLXXX	60	15	2.3	6.8	60	3.5	1.6	32	1.5
ducenti	86	230	60	12	2.4	7.2	65	2	2.4	32	1.8
CLXXX	116	130	65	10	1.8	5.4	75	2.5	1.4	50	1.6
280	116	CLXXX	70	10	2.8	8.4	70	2	2.0	50	2.4
380	116	230	80	10	3.8	11.4	80	2	1.6	50	3
quadringenti	136	CLXXX	60	7	2.8	8.4	centum	1.6	1.3	50	3.7
550	136	230	70	7	3.9	11.6	centum	1.5	1.3	50	4.2
DCCCL	136	335	80	5	4.3	12.8	CXX	1.1	1.3	50	6.1

Tensio electrica	2200V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
320	116	230	70	12	3.8	11.5	85	2	1.4	50	2.4
385	116	295	75	10	3.9	11.6	115	1.1	1.4	50	3.1
450	136	230	75	7	3.2	9.5	centum	1.3	1.5	50	4.2
DCCLXX	136	335	80	5	3.4	10.1	CXX	1	1.4	50	6.1

Tensio electrica	2800V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
CLX	116	CLXXX	70	30	4.8	14.4	75	2.2	1.6	50	2.4
210	116	230	75	25	5.3	15.8	70	2.8	1.5	50	3
225	136	CLXXX	75	20	4.5	13.5	85	2	1.4	50	3.7
trecenti	136	230	80	15	4.5	13.5	80	2.5	1.3	50	4.2

Tensio electrica	3200V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
115	116	CLXXX	70	40	4.6	13.8	70	3.5	1.2	50	2.4
CLX	116	230	75	35	5.6	16.8	70	3.2	1.3	50	3
CLX	136	CLXXX	75	30	4.8	14.4	85	3	0.9	50	3.7
225	136	230	80	25	5.6	16.9	80	3.5	0.9	50	4.2

Tensio electrica	4000V.DC
Cn(uF)	φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus
70	116	CLXXX	70	50	3.5	10.5	70	3.5	1.2	50	2.4
95	116	230	75	40	3.8	11.4	70	3.6	1.1	50	3
centum	136	CLXXX	75	35	3.5	10.5	85	3	0.9	50	3.7
135	136	230	80	30	4.1	12.2	80	3.5	0.9	50	4.2

Imagines singularum rerum:

Index Productuum Pertinens:

"Qualitatem per singula modera, robur per qualitatem demonstra." Societas nostra operam dedit ut manipulum operariorum efficacissimum et stabilem constitueret et processum qualitatis moderandae efficax exploravit ad bonam famam usoris pro capacitoribus inductantiae humilis - capacitore pelliculae polypropylenicae metallizatae provecto in applicationibus potentiae altae tensionis - CRE. Productum toto orbe terrarum suppeditabitur, ut: Indonesiae, Angolae, Melitae. Societas magnam vim tribuit qualitati producti et qualitati servitii, innixa philosophiae negotii "bonus cum hominibus, sincerus cum toto mundo, vestra satisfactio est nostra persecutio". Producta designamus, secundum exempla et requisita clientium, ut necessitatibus mercatus satisfaciamus et variis clientibus servitium personalizatum offeramus. Societas nostra amicos domi et in terris externis libenter invitat ut nos visitent, de cooperatione disserant et progressionem communem quaerant!

Capacitor AC in Electronica Potentiae