TPB19

Descriptio Brevis:

Condensator Tantali Conductivus

miniaturizatio (L 3.5 * L 2.8 * A 1.9), ESR humilis, undulatio electrica alta, etc.

Productum est altae tensionis tolerantiae (75V max.), congruens directivae RoHS (2011/65/EU).

Mitte nobis inscriptionem electronicam

Detalia Producti

Index productorum ordinariorum

Etiquettae Productarum

Parametri technici principales

Res	proprius
ambitus temperaturae operandi	-55〜+105℃
Tensio operativa aestimata	2-75V
capacitatis spatium	1.5-470µF 120Hz/20℃
Tolerantia capacitatis	±20% (120Hz/20℃)
tangens damni	120Hz/20℃ infra valorem in indice productorum ordinariorum
fluxus electricus	Imple per quinque minuta ad tensionem aestimatam infra valorem in indice productorum normalium ad 20℃.
Resistentia Seriei Aequivalentis (ESR)	100KHz/20℃ infra valorem in indice productorum ordinariorum
Tensio impulsiva (V)	1.15 vicibus tensio aestimata
Durabilitas	Temperatura 105°C, productum temperaturae nominalis 85°C sub tensione operativa nominali per 2000 horas ad 85°C applicatur, et postquam ad 20°C per 16 horas collocatum est, productum haec satisfacere debet:
	Ratio mutationis capacitatis	±20% valoris initialis
	tangens damni	<150% valoris specificationis initialis
	fluxus electricus
Alta temperatura et humiditas	Postquam ad temperaturam 60°C et humiditatem 90% ad 95% humiditatis relativae per 500 horas sine tensione applicata, et ad 20°C per 16 horas positum est, productum his requisitis satisfacere debet:
	Ratio mutationis capacitatis	+40% -20% valoris initialis
	tangens damni	<150% valoris specificationis initialis
	fluxus electricus	<300% valoris specificationis initialis

Condensator electrolyticus tantalium polymeri conductivus TPB1901

Characteristica

Condensator electrolyticus tantalium polymeri conductivus TPB1902

Magnitudo aspectus

Coefficiens temperaturae undulationis nominalis

Temperatura	-55℃	45℃ < T≤85℃	85℃ < T≤105℃
Coefficiens producti 85 ℃ aestimatus	1.0	0.7	/
Coefficiens producti aestimatus 105 ℃	1.0	0.7	0.25

Nota: Temperatura superficiei condensatoris non excedit maximam temperaturam operationis producti.

Factor correctionis frequentiae undulationis nominalis

Frequentia (Hz)	120Hz	1kHz	10kHz	100-300kHz
Factor correctionis	0.10	0.45	0.50	1.00

Index productorum ordinarius

Tensio aestimata	temperatura aestimata (℃)	Categoria Voltium (V)	Categoria Temperatura (℃)	Capacitas (µF)	Dimensiones (mm)			LC (uA, 5 min)	Tanδ 120Hz	ESR (mΩ 100KHz)	Fluxus undulationis aestimatus (mA/rms) 45°C 100KHz
Tensio aestimata	temperatura aestimata (℃)	Categoria Voltium (V)	Categoria Temperatura (℃)	Capacitas (µF)	L	W	H	LC (uA, 5 min)	Tanδ 120Hz	ESR (mΩ 100KHz)	Fluxus undulationis aestimatus (mA/rms) 45°C 100KHz
16	105℃	16	105℃	10	3.5	2.8	1.9	16	0.1	centum	900
	105℃	16	105℃	15	3.5	2.8	1.9	24	0.1	70	1100
	105℃	16	105℃	33	3.5	2.8	1.9	53	0.1	70	1100
20	105℃	20	105℃	10	3.5	2.8	1.9	20	0.1	centum	900
20	105℃	20	105℃	22	3.5	2.8	1.9	44	0.1	90	950
25	105℃	25	105℃	10	3.5	2.8	1.9	25	0.1	centum	900
25	105℃	25	105℃	15	3.5	2.8	1.9	37.5	0.1	centum	900
35	105℃	35	105℃	4.7	3.5	2.8	1.9	16.5	0.1	CL	DCCC
	105℃	35	105℃	6.8	3.5	2.8	1.9	23.8	0.1	CL	DCCC
	105℃	35	105℃	10	3.5	2.8	1.9	35	0.1	CL	DCCC
	105℃	35	105℃	12	3.5	2.8	1.9	42	0.1	CL	DCCC
50	105℃	50	105℃	2.2	3.5	2.8	1.9	11	0.1	ducenti	DCCCL
50	105℃	50	105℃	3.3	3.5	2.8	1.9	16.5	0.1	ducenti	DCCCL
63	105℃	63	105℃	1.5	3.5	2.8	1.9	9.5	0.1	ducenti	DCCCL
63	105℃	63	105℃	2.2	3.5	2.8	1.9	13.9	0.1	ducenti	DCCCL
75	105℃	75	105℃	1	3.5	2.8	1.9	7.5	0.1	trecenti	DC
75	105℃	75	105℃	1.5	3.5	2.8	1.9	11.3	0.1	trecenti	DC
centum	105℃	centum	105℃	1.2	3.5	2.8	1.9	12	0.1	trecenti	DC

Condensator electrolyticus tantali polymeri conductiviest pars electronica multis commodis praedita, ut puta magna capacitate, resistentia a perturbationibus, longa vita, et cetera. Quapropter late in industriis militaribus et semiconductorum adhibita est.

1. Usus in industria militari In industria militari,Condensatores electrolytici tantali polymeri conductiviSunt pars electronica magni momenti. Eorum efficacia contra interferentiam bona est, itaque ad usum in condicionibus extremis aptissima sunt. In apparatu militari, condensatores currentes variarum naturarum sustinere debent, et condensatores electrolytici tantali polymerici conductivi altae tensionis electio idealis fiunt.

Condensatores electrolytici tantali polymeri conductivi etiam late in campo communicationum militarium adhibentur, ut in systematibus radaricis, systematibus moderationis missilium, et systematibus communicationum militarium. Quia...Condensatores electrolytici tantali polymeri conductiviMagnae capacitatis, bonae stabilitatis et longae vitae proprietates habent, saepe in circuitibus ad energiam conservandam et convertendam adhibentur. Praeterea, capacitores electrolytici tantali polymeri conductivi etiam in circuitibus ut reactores electronici et stabilimenta tensionis adhiberi possunt.

2. Usus in industria semiconductorum In industria semiconductorum,Condensatores electrolytici tantali polymeri conductiviLate etiam adhibentur. Condensatores electrolytici tantali polymeri conductivi plerumque in circuitibus analogis adhibentur, ut puta ad filtrandum, ad strepitum reducendum, et ad varias alias occasiones. Condensatores electrolytici tantali polymeri conductivi proprietates excellentes habent, ut bonam stabilitatem et magnam capacitatem, quae facultatem circuitus contra strepitum augere et qualitatem signi meliorem reddere possunt.

In circuitibus integratis,Condensatores electrolytici tantali polymeri conductiviEtiam adhibentur ad firmitatem microcircuitorum et competitivitatem in involucris et connexionibus instrumentorum electronicorum augendam. Multae partes magni momenti, ut memoria massae, CPU et moderatores, applicationem condensatorum electrolyticorum tantali polymeri conductivi requirunt.

Condensatores electrolytici tantali polymeri conductivietiam varias applicationes habent in industriis semiconductorum, optoelectronicis, et quanticis, ut lumina LED, communicationes fibrarum opticarum, et cetera.

Breviter, polymerum conductivum tantalum electrolyticumcapacitores proprietates excellentes habent,Quo facto late in industriis militaribus et semiconductorum adhibentur. Continua progressio et progressus huius condensatoris partes magis magisque importantes in futuro progressu industriae electronicae modernae agent. Characteristica...

Praecedens: Condensator ceramicus multistratus (MLCC)

Deinde: V3MC

Numerus Productorum	Temperatura (℃)	Categoria Temperatura (℃)	Tensio Aestimata (Vdc)	Capacitas (μF)	Longitudo (mm)	Latitudo (mm)	Altitudo (mm)	ESR [mΩmax]	Vita (horae)	Fluxus Fluxus (μA)
TPB331M0DB19015RN	-55~105	105	2	330	3.5	2.8	1.9	15	MM	66
TPB331M0DB19035RN	-55~105	105	2	330	3.5	2.8	1.9	35	MM	66
TPB331M0DB19070RN	-55~105	105	2	330	3.5	2.8	1.9	70	MM	66
TPB101M0EB19021RN	-55~105	105	2.5	centum	3.5	2.8	1.9	21	MM	25
TPB101M0EB19035RN	-55~105	105	2.5	centum	3.5	2.8	1.9	35	MM	25
TPB101M0EB19070RN	-55~105	105	2.5	centum	3.5	2.8	1.9	70	MM	25
TPB221M0EB19021RN	-55~105	105	2.5	220	3.5	2.8	1.9	21	MM	55
TPB221M0EB19035RN	-55~105	105	2.5	220	3.5	2.8	1.9	35	MM	55
TPB221M0EB19070RN	-55~105	105	2.5	220	3.5	2.8	1.9	70	MM	55
TPB331M0EB19021RN	-55~105	105	2.5	330	3.5	2.8	1.9	21	MM	CLXV
TPB331M0EB19035RN	-55~105	105	2.5	330	3.5	2.8	1.9	35	MM	CLXV
TPB331M0EB19070RN	-55~105	105	2.5	330	3.5	2.8	1.9	70	MM	CLXV
TPB101M0GB19035RN	-55~105	105	4	centum	3.5	2.8	1.9	35	MM	40
TPB101M0GB19070RN	-55~105	105	4	centum	3.5	2.8	1.9	70	MM	40
TPB151M0GB19035RN	-55~105	105	4	CL	3.5	2.8	1.9	35	MM	60
TPB151M0GB19070RN	-55~105	105	4	CL	3.5	2.8	1.9	70	MM	60
TPB221M0GB19035RN	-55~105	105	4	220	3.5	2.8	1.9	35	MM	88
TPB221M0GB19070RN	-55~105	105	4	220	3.5	2.8	1.9	70	MM	88
TPB101M0JB19020RN	-55~105	105	6.3	centum	3.5	2.8	1.9	20	MM	63
TPB101M0JB19035RN	-55~105	105	6.3	centum	3.5	2.8	1.9	35	MM	63
TPB101M0JB19045RN	-55~105	105	6.3	centum	3.5	2.8	1.9	45	MM	63
TPB101M0JB19070RN	-55~105	105	6.3	centum	3.5	2.8	1.9	70	MM	63
TPB151M0JB19020RN	-55~105	105	6.3	CL	3.5	2.8	1.9	20	MM	95
TPB151M0JB19035RN	-55~105	105	6.3	CL	3.5	2.8	1.9	35	MM	95
TPB151M0JB19045RN	-55~105	105	6.3	CL	3.5	2.8	1.9	45	MM	95
TPB151M0JB19070RN	-55~105	105	6.3	CL	3.5	2.8	1.9	70	MM	95
TPB221M0JB19020RN	-55~105	105	6.3	220	3.5	2.8	1.9	20	MM	139
TPB221M0JB19035RN	-55~105	105	6.3	220	3.5	2.8	1.9	35	MM	139
TPB221M0JB19045RN	-55~105	105	6.3	220	3.5	2.8	1.9	45	MM	139
TPB221M0JB19070RN	-55~105	105	6.3	220	3.5	2.8	1.9	70	MM	139
TPB271M0JB19020RD	-55~85	105	6.3	270	3.5	2.8	1.9	20	MM	CLXX
TPB271M0JB19035RD	-55~85	105	6.3	270	3.5	2.8	1.9	35	MM	CLXX
TPB271M0JB19045RD	-55~85	105	6.3	270	3.5	2.8	1.9	45	MM	CLXX
TPB271M0JB19070RD	-55~85	105	6.3	270	3.5	2.8	1.9	70	MM	CLXX
TPB271M0JB19020RN	-55~105	105	6.3	270	3.5	2.8	1.9	20	MM	CLXX
TPB271M0JB19035RN	-55~105	105	6.3	270	3.5	2.8	1.9	35	MM	CLXX
TPB271M0JB19045RN	-55~105	105	6.3	270	3.5	2.8	1.9	45	MM	CLXX
TPB271M0JB19070RN	-55~105	105	6.3	270	3.5	2.8	1.9	70	MM	CLXX
TPB680M1AB19035RN	-55~105	105	10	68	3.5	2.8	1.9	35	MM	68
TPB100M1CB19070RN	-55~105	105	16	10	3.5	2.8	1.9	70	MM	16
TPB150M1CB19070RN	-55~105	105	16	15	3.5	2.8	1.9	70	MM	24
TPB330M1CB19070RN	-55~105	105	16	33	3.5	2.8	1.9	70	MM	53
TPB100M1DB19100RN	-55~105	105	20	10	3.5	2.8	1.9	centum	MM	20
TPB220M1DB19100RN	-55~105	105	20	22	3.5	2.8	1.9	centum	MM	44
TPB100M1EB19100RN	-55~105	105	25	10	3.5	2.8	1.9	centum	MM	25
TPB150M1EB19100RN	-55~105	105	25	15	3.5	2.8	1.9	centum	MM	37.5
TPB220M1EB19100RN	-55~105	105	25	22	3.5	2.8	1.9	centum	MM	55
TPB4R7M1VB19150RN	-55~105	105	35	4.7	3.5	2.8	1.9	CL	MM	16.5
TPB6R8M1VB19150RN	-55~105	105	35	6.8	3.5	2.8	1.9	CL	MM	23.8
TPB100M1VB19150RN	-55~105	105	35	10	3.5	2.8	1.9	CL	MM	35
TPB120M1VB19150RN	-55~105	105	35	12	3.5	2.8	1.9	CL	MM	42
TPB2R2M1HB19200RN	-55~105	105	50	2.2	3.5	2.8	1.9	ducenti	MM	11
TPB3R3M1HB19200RN	-55~105	105	50	3.3	3.5	2.8	1.9	ducenti	MM	16.5
TPB1R5M1JB19200RN	-55~105	105	63	1.5	3.5	2.8	1.9	ducenti	MM	9.5
TPB2R2M1JB19200RN	-55~105	105	63	2.2	3.5	2.8	1.9	ducenti	MM	13.9
TPB1R1M1KB19300RN	-55~105	105	75	1	3.5	2.8	1.9	trecenti	MM	7.5
TPB1R5M1KB19300RN	-55~105	105	75	1.5	3.5	2.8	1.9	trecenti	MM	11.3
TPB1R2M2AB19300RN	-55~105	105	centum	1.2	3.5	2.8	1.9	trecenti	MM	12