Novus capacitor filtrationis AC pro convertore moderno et applicatione UPS

Novus condensator filtrationis AC pro convertore moderno et applicatione UPS (Imago Praecipua)

Descriptio Brevis:

CRE amplam seriem condensatorum dielectricorum membranaceorum producit – a solutionibus condensatorum magnae potentiae pro industria industriali et autocinetica, ad condensatores membranaceos magnae potentiae aptos omnibus applicationibus electronicis potentiae per ambitum tensionis a 100V usque ad 100kV.

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Detalia Producti

Etiquettae Productarum

Data technica

Ambitus temperaturae operativae		Temperatura maxima operandi, summa, maxima: +85℃ Temperatura categoriae superioris: +70℃ Temperatura categoriae inferioris: -40℃
spatium capacitatis	Phasis singularis	20UF ~ 500μF
	triphasicus	3×40UF～3×200μF
Un/ Tensio nominalis Un		330V.AC/50Hz ~ 1140V.AC/50Hz
Cap.tol		±5%(J);
Tensionem sustinere		Vt-t	2.15 Un / 10 S
		Vt-c	1000+2×Un V.AC 60S (min 3000V.AC)
Supertensio		1.1Un (30% durationis in onere)
		1.15 Un (30 min/die)
		1.2 Un (5 min/die)
		1.3 Un (1 min/die)
		1.5Un (100ms singulis vicibus, 1000 vicibus per totam vitam)
Factor dissipationis		tgδ≤0.002 f=100Hz
		tgδ0 ≤ 0.0002
Resistentia insulationis		RS*C ≥ 10000S (ad 20℃ 100V.DC)
Retardatio flammae		UL94V-0
Maxima altitudo		2000 metra
		Cum altitudo supra 2000m ad infra 5000m sit, necesse est considerare usum quantitatis reductae (pro quolibet incremento 1000m, tensio et fluxus electricus 10% minuentur).
Expectatio vitae		100000h(Un; Θhotspot≤55 °C)
Norma referentialis		IEC61071; IEC60831;

Characteristica

Nostra technologia plerumque sicca est, dielectricis polypropylenis innixa.

Applicationes a filtratione DC, filtratione AC, suppressione, resonantia ad exonerationem et accumulationem magnae energiae variant.

Commoda technologiae

Condensatores pelliculares CRE in ampla varietate configurationum et specificationum functionis praesto sunt; condensatores pelliculares potentiae solutiones tutiores praebent quam electrolytici aluminii, qui limitem tensionis et magnum periculum effusionis habent, et aliae complures technologiae quae physice non possunt tuto et efficaciter tractare tensionem magnam et currentem magnum ad valores capacitatis utiles.

Turma nostra technica perita semper clientes cum solutionibus specificis pro eorum applicationibus adiuvat.

Circuitus typicus

MC2

Expectatio vitae

MC3

Delineatio adumbrationis unius phasis

ΦD (mm)	P(mm)	Altitudo (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

Delineatio adumbrata trium phasium

ΦD (mm)	Altitudo (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

Tensio electrica			Un=330V. AC Us=1200V
Cn (μF)	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)
80	76	80	40	80	6.4	19.2	30	4	4.2	32	0.5
CXX	86	80	40	70	8.4	25.2	40	2.8	3.3	32	0.7
CL	96	80	45	70	10.5	31.5	50	3.5	1.7	45	0.75
CLXX	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
trecenti	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

Tensio electrica			Un=450V. AC Us=1520V
Cn (μF)	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)
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
centum	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
CLX	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

Tensio electrica			Un=690V. AC Us=2100V
Cn (μF)	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)
40	76	130	50	centum	4.0	12.0	30	2.8	6.0	32	0.75
50	76	CL	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	CL	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	CL	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
CXX	116	CL	65	50	6.0	18.0	75	0.6	4.4	50	1.8

Tensio electrica			Un=850V. AC Us=2850V
Cn (μF)	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)
25	76	130	50	110	2.8	8.3	35	1.5	8.2	32	0.75
30	76	CL	60	centum	3.0	9.0	40	1.2	7.8	32	0.85
32	86	130	45	centum	3.2	9.6	50	1.15	5.2	32	1.1
45	86	CL	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	CL	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	CL	65	75	6.8	20.3	75	0.8	3.3	50	1.8

Cn (μF)		φD	H	ESL(nH)	dv/dt(V/μS)	Ip(KA)	Est (KA)	Irms(A)	ESR(mΩ)	Rth(K/W)	P(mm)	pondus (kg)

	Tensio electrica			Un=400V, AC Us=1200V
	Cn (μF)	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)
Ter ×	110	116	130	centum	60	6.6	19.8	3×50	3×0.78	4.5	43.5	1.6
Ter ×	145	116	CLXXX	110	50	7.3	21.8	3×60	3×0.72	3.8	43.5	2.4
Ter ×	CLXXV	116	210	CXX	50	8.8	26.3	3×75	3×0.67	3.5	43.5	2.7
Ter ×	ducenti	136	230	125	40	8.0	24.0	3×85	3×0.6	2.1	52	4.2

	Tensio electrica			Un=500V, AC Us=1520V
	Cn (μF)	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)
Ter ×	centum	116	CLXXX	centum	80	8.0	24.0	3×45	3×0.78	4.5	43.5	2.6
Ter ×	CXX	116	230	CXX	70	8.4	25.2	3×50	3×0.72	3.8	43.5	3
Ter ×	125	136	CLXXX	110	40	5.0	15.0	3×70	3×0.67	3.5	52	3.2
Ter ×	135	136	230	130	50	6.8	20.3	3×80	3×0.6	2.1	52	4.2

	Tensio electrica			Un=690V. AC Us=2100V
	Cn (μF)	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)
Ter ×	49	116	230	CXX	70	3.4	10.3	3×56	3×0.55	2.1	43.5	3
Ter ×	55.7	136	230	130	90	5.0	15.0	3×56	3×0.4	2.1	52	4.2

	Tensio electrica			Un=850V. AC Us=2580V
	Cn (μF)	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)
Ter ×	41.5	116	230	CXX	80	3.0	9.0	3×56	3×0.55	2.1	43.5	3
Ter ×	55.7	136	230	130	50	0.4	1.2	3×104	3×0.45	1.8	52	4.2