Nova AC colum capacitor ad recentioris convertentis et UPS applicationis

Nova AC filter capacitor pro modernis convertentis et UPS applicationis Featured imago

Description:

CRE amplis cinematographici dielectrici capacitor - ex alta potentia solutiones capacitor industriae et automotivae industriae, ad altas potentias cinematographicas capacitores omni potentiae electronicarum applicationes super intentione extensionis 100V voltarum usque ad 100 kV aptas.

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Product Detail

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Technical data

Operans temperatus range		Max.Operating temperatura
facultatem range	Unum tempus	20UF～500μF
	three-phase	3×40UF～3×200μF
Un/Rated voltage Un		330V.AC/50Hz～1140V.AC/50Hz
Cap.tol		±5%(J);
sustinere voltage		Vt-t	2.15Un /10S
		Vt-c	1000+2×Un V.AC 60S(min3000V.AC)
Plus intentione		1.1Un(30% of on-load-dur.)
		1.15Un(30min/day)
		1.2Un(5min/day)
		1.3Un(1min/day)
		1.5Un(100ms omni tempore, 1000times in vita sua)
Dissipatio factor		tgδ≤0.002 f=100Hz
		tgδ≤0.0002
Nulla resistentia		RS*C≥10000S(at20℃ 100V.DC)
Flamma retardatio		UL94V-0
Maximum aititude		2000m
		Cum altitudo supra 2000m ad infra 5000m sit, oportet considerare usum quantitatis imminutae. (pro unoquoque incremento 1000m, voltatio et vena per 10%) reducetur.
Vitae probabilitas		100000h(Un; Θhotspot≤55 °C)
Reference vexillum		IEC61071;IEC 60831;

Feature

Nostra ars technologiae consilium plerumque siccum est, in polypropylene dielectrics fundatur.

Applicationes ab DC eliquare, AC eliquare, scubbing, resonare ad dimissionem et altam navitatem repositam.

Technology beneficia

CRE capacitor cinematographicus promptus in amplis configurationibus ac specificationibus perficiendis, potentiae cinematographicae capacitores tutiores solutiones praebent quam aluminium electrolyticum, quod habent strictam intentionem et magnum periculum lacus, et nonnullae aliae technologiae quae physice tuto et efficaciter valentes sunt. alta intentione tractandum et vena alta ad bona capacitatis utilis.

Nostra experientia technicam turmam semper clientes adiuvat cum solutionibus certis pro eorum applicationibus.

Typical circuitus

mc2

Vitae probabilitas

mc3

Forma extractionem unius Phase

ΦD(mm)	P(mm)	H1(mm)	S	F	M
76	32	20	M12×16	M6×10	M8×20
86	32	20	M12×16	M6×10	M8×20
96	45	20	M12×16	M6×10	M8×20
116	50	22	M12×16	M6×10	M8×20
136	50	30	M16×25	M6×10	M8×20

mc4

mc5

Adumbratim extractio tria Phase

ΦD(mm)	H1(mm)	S	F	M	D1	P
116	40	M12×16	M6×10	M8×20	50	43.5
136	30	M16×25	M6×10	M8×20	60	52

mc6

Voltage			Un=330V.AC Us=1200V
Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
80	76	80	40	80	6.4	19.2	30	4	4.2	32	0.5
120	86	80	40	70	8.4	25.2	40	2.8	3.3	32	0.7
150	96	80	45	70	10.5	31.5	50	3.5	1.7	45	0.75
170	76	130	50	60	10.2	30.6	60	3.2	1.3	32	0.75
230	86	130	50	60	13.8	41.4	70	2.4	1.3	32	1.1
300	96	130	50	50	15.0	45.0	75	2.8	1.0	45	1.2
420	116	130	60	50	21.0	63.0	80	1.9	1.2	50	1.6

Voltage			Un=450V.AC Us=1520V
Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
50	76	80	40	90	4.5	13.5	30	4	4.2	32	0.5
65	86	80	50	80	5.2	15.6	40	2.8	3.3	32	0.7
80	96	80	45	80	6.4	19.2	50	3.5	1.7	45	0.75
100	76	130	50	70	7.0	21.0	60	3.2	1.3	32	0.75
130	86	130	45	60	7.8	23.4	70	2.4	1.3	32	1.1
160	96	130	50	50	8.0	24.0	75	2.8	1.0	45	1.2
250	116	130	60	50	12.5	37.5	80	1.9	1.2	50	1.6

Voltage			Un=690V.AC Us=2100V
Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
40	76	130	50	100	4.0	12.0	30	2.8	6.0	32	0.75
50	76	150	45	90	4.5	13.5	35	2.4	5.1	32	0.85
60	86	130	45	80	4.8	14.4	40	2.2	4.3	32	1.1
65	86	150	50	80	5.2	15.6	45	1.8	4.1	32	1.2
75	96	130	50	80	6.0	18.0	50	1.5	4.0	45	1.2
80	96	150	55	75	6.0	18.0	60	1.2	3.5	45	1.3
110	116	130	60	70	7.7	23.1	65	0.8	4.4	50	1.6
120	116	150	65	50	6.0	18.0	75	0.6	4.4	50	1.8

Voltage			Un=850V.AC Us=2850V
Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
25	76	130	50	110	2.8	8.3	35	1.5	8.2	32	0.75
30	76	150	60	100	3.0	9.0	40	1.2	7.8	32	0.85
32	86	130	45	100	3.2	9.6	50	1.15	5.2	32	1.1
45	86	150	50	90	4.1	12.2	50	1.05	5.7	32	1.2
40	96	130	50	90	3.6	10.8	50	1	6.0	45	1.2
60	96	150	60	85	5.1	15.3	60	0.9	4.6	45	1.3
60	116	130	60	80	4.8	14.4	65	0.85	4.2	50	1.6
90	116	150	65	75	6.8	20.3	75	0.8	3.3	50	1.8

Cn.		φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms (A)	ESR(mΩ)	Rth(K/W)	P(mm)	pondus (Kg)

	Voltage			Un=400V.AC Us=1200V
	Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
3×	110	116	130	100	60	6.6	19.8	3×50	3×0.78	4.5	43.5	1.6
3×	145	116	180	110	50	7.3	21.8	3×60	3×0.72	3.8	43.5	2.4
3×	175	116	210	120	50	8.8	26.3	3×75	3×0.67	3.5	43.5	2.7
3×	200	136	230	125	40	8.0	24.0	3×85	3×0.6	2.1	52	4.2

	Voltage			Un=500V.AC Us=1520V
	Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
3×	100	116	180	100	80	8.0	24.0	3×45	3×0.78	4.5	43.5	2.6
3×	120	116	230	120	70	8.4	25.2	3×50	3×0.72	3.8	43.5	3
3×	125	136	180	110	40	5.0	15.0	3×70	3×0.67	3.5	52	3.2
3×	135	136	230	130	50	6.8	20.3	3×80	3×0.6	2.1	52	4.2

	Voltage			Un=690V.AC Us=2100V
	Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
3×	49	116	230	120	70	3.4	10.3	3×56	3×0.55	2.1	43.5	3
3×	55.7	136	230	130	90	5.0	15.0	3×56	3×0.4	2.1	52	4.2

	Voltage			Un=850V.AC Us=2580V
	Cn.	φD	H	esl (nH)	dv/dt(V/μS)	Ip(KA)	Estne (KA)	Irms(A)50℃	ESR (mΩ) @1KHz	Rth(K/W)	P(mm)	pondus (Kg)
3×	41.5	116	230	120	80	3.0	9.0	3×56	3×0.55	2.1	43.5	3
3×	55.7	136	230	130	50	0.4	1.2	3×104	3×0.45	1.8	52	4.2