VPL

Short description:

PROMPTURA POLYMER aluminium solidum electrolytic capacitors
SMD Type

Altus Reliability, Minimum ESR, princeps licita lacum current, guaranteed ad (V) horas in CV ℃,

Impletur cum Rohs Directive, Long-Vita Product Superficies monte type

Mitte inscriptio nobis

Product Detail

Index products numerus

Product Tags

Main Technical parametri

project	proprium
Range of working temperatus	-55 ~ + CV ℃
Rated Working Voltage	6.3-100V
facultatem range	2,2 ~ 10000uf 120Hz XX ℃
Capacitas tolerantia	± XX% (120Hz XX ℃)
damnum tangentem	120Hz XX ℃ sub valorem in album of vexillum products
Leakage current ※	Crimen ad II minutes at rated voltage sub valorem in album of Latin products ad XX ° C
Equivalent seriem resistentiam (ESR)	100khz XX ° C infra valorem in album of Latin Products
Diuturnitas	Quod productum debet occursum temperatus de CV ℃, applicare ad rated operationem voltage pro MM horas et post XVI horas ad XX ℃;
	Capacitance mutatio rate	± XX% of initial valorem
	Equivalent seriem resistentiam (ESR)	≤150% of initial specie pretii
	damnum tangentem	≤150% of initial specie pretii
	Leakage Current	≤initial specie valorem
Caliditas et humiditas	Quod productum debet occurrit conditionibus et LX ° C temperatus et XC% ~ XCV% RH humiditas sine applicando intentione, ponere illud pro M horas, et ponere ad XX ° C XVI horis
	Capacitance mutatio rate	± XX% of initial valorem
	Equivalent seriem resistentiam (ESR)	≤150% of initial specie pretii
	damnum tangentem	≤150% of initial specie pretii
	Leakage Current	≤initial specie valorem

Product Dimensional Drawing

Product Dimensiones (Unit: mm)

Φd	B	C	A	H	E	K	a
5	5.3	5.3	2.1	0.70 ± 0.20	1.3	0.5Max	± 0.5
6,3	6.6	6.6	2.6	0.70 ± 0.20	1.8	0.5Max
8	8,3	8,3	3	0.90 ± 0.20	3,1	0.5Max
10	10,3	10,3	3.5	0.90 ± 0.20	4.6	0.7 0.2
12,5	12,8	12,8	4.7	0.90 ± 0.30	4.4	0.7 ± 0.3

Ripple Current Frequency correptio coefficientem

Frequency correctionem factor

Frequency (HZ)	120Hz	1KHz	10khz	100khz	500khz
Correptio factor	0,05	0,3	0,7	1	1

PROMPTURA Polymer solidum Aluminium Electrolytic Capacitors: Advanced components ad modern electronics

PROMIX Polymer solidum aluminium electrolytic capacitors represent a significant incrementum in capacitorem technology, offering superior perficientur, reliability, et Vivacitas comparari ad traditional electrolytic capacitoribus. In hoc articulus, ut youll 'explorarent features, beneficia et applications de his innovative components.

Features

PROMPTURA Polymer solidum aluminium electrolytic capacitors miscere beneficia de traditional aluminium electrolytic capacitors cum auctus characteres de PROMMIXUS polymer materiae. Et electrolytici in his capacitoribus est PROLIXUS Polymer, quod reponit traditional liquidum aut gel electrolyte in conventional aluminium electrolytic capacitoribus.

Una key features de PROMMODIVUS Polymer solidum aluminium electrolytic capacitors est eorum humilis equivalent seriem resistentiam (ESR) et excelsum Ripple Current Tractable Partial. Hoc praecessi in melius efficientiam, reducitur potentia damna et auctus fideles, praecipue in altum frequency applications.

Praeterea, haec capacitors offerre optimum stabilitatem super late temperatus rhoncus et longior operational Lifespan comparari traditional electrolytic capacitoribus. Et solidum constructione excludit periculum de leakage vel siccatio ex electrolytici, cursus consistent perficientur etiam in dura operating conditionibus.

Beneficia

In adoptionem Ponderentive Polymer materiae in solidum aluminium electrolytic capacitorors pluribus beneficia ad electronic systems. Uno modo, eorum humilis ESR et excelsum lacum current ratings faciunt ea specimen ad usum in potestate copiam unitates, intentione regulators, et DC-DC Converters, ubi auxilio ad stabilire output et amplio efficientiam.

Secundo, PROLIXUS Polymer solidum aluminium electrolytic capacitors offer decorarat reliability et diuturnitatem, faciens ea idoneam ad missionem, discrimine applications in industrias ut automotive, Aerospace, Telecommunications et industriae automation. Quorum facultatem sustinere altum temperaturis, vibrationum, et electrica extensiones longa-term perficientur et reduces periculum premature defectum.

Ceterum hi capacitores exhibent humilis impedire characteres, quae ad melius sonitus filtering et signo integritas in electronic circuits. Hoc facit eos valuable components in audio amplifiers, audio apparatu et summus fidelitate audio systems.

Applications

PROLIXUS Polymer solidum aluminium electrolytic capacitors invenire applications in amplis electronic systems et cogitationes. Sunt communiter in potestate copiam unitates, voltage regulators, motor agitet, duxit lucendi, telecommunications apparatu et eget electronics.

In potestate copiam unitates, haec capacitors auxilium ad stabiliendum output voltages, redigendum laclentiam et amplio transiens responsio, cursus fideles et efficientem operationem. In automotive electronics, qui conferunt ad perficientur et Vivacitas de onboard systems, ut engine potestate unitates (ECUS), infotainment systems, et salus features.

Conclusio

PROLIXUS Polymer solidum aluminium electrolytic capacitors represent a significant incrementum in capacitorem technology, offering superior perficientur, reliability, et Vivacitas in modern electronic systems. Cum eorum humilis ESR, excelsum Rippele current pertractatio capabilities, et auctus diuturnitatem, sunt bene apta ad amplis et applications in variis industries.

Sicut electronic cogitationes et systems continue evolve, in demanda in summus perficientur capacitors sicut PROMMIX PROMPTUM Polymer Firmus Aluminium Electrolytic Capacitors expectat crescere. Moderni electronics in occursum eorum facultatem ad Moderni Moderni facit ea quae sunt in hodiernae electronic consilia, confert ad melius efficientiam, reliability et perficientur.

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Products codice	Temperature (℃)	Rating voltage (V.DC)	Capacitance (UF)	Diameter (mm)	Altitudo (mm)	Leakage Current (UA)	ESR / Impedance [ωmage]	Vita (HRS)
Vplb0771h10mvtm	-55 ~ CV	50	18	5	7.7	CCC	0,06	(V)
Vppl0581h10mvtm	-55 ~ CV	50	18	6,3	5,8	CCC	0,06	(V)
Vplb0771h220mvtm	-55 ~ CV	50	22	5	7.7	CCC	0,06	(V)
Vplic0581h220mvtm	-55 ~ CV	50	22	6,3	5,8	CCC	0,06	(V)
Vplb0951h330mvtm	-55 ~ CV	50	33	5	9,5	CCCXXX	0,05	(V)
Vplb0580j101mvtm	-55 ~ CV	6,3	C	5	5,8	CCLXXX	0,02	(V)
Vplic0771h330mvtm	-55 ~ CV	50	33	6,3	7.7	CCCXXX	0,06	(V)
Vprc4500j101mvtm	-55 ~ CV	6,3	C	6,3	4.5	CCLXXX	0,02	(V)
Vplb0951h390mvtm	-55 ~ CV	50	39	5	9,5	CCCXC	0.04	(V)
Vplb0580j151mvtm	-55 ~ CV	6,3	CL	5	5,8	CCLXXX	0,02	(V)
Vplic0771h390mvtm	-55 ~ CV	50	39	6,3	7.7	CCCXC	0,06	(V)
Vprc4500j151mvtm	-55 ~ CV	6,3	CL	6,3	4.5	CCLXXX	0,02	(V)
Vprc0851h470mvtm	-55 ~ CV	50	47	6,3	8,5	CDLXX	0,05	(V)
Vplb0580j181mvtm	-55 ~ CV	6,3	CLXXX	5	5,8	CCLXXX	0.018	(V)
Vplld0771h470mvtm	-55 ~ CV	50	47	8	7.7	CDLXX	0,06	(V)
Vprc4500j181mvtm	-55 ~ CV	6,3	CLXXX	6,3	4.5	CCLXXX	0,02	(V)
Vprc0951h560mvtm	-55 ~ CV	50	56	6,3	9,5	DLX	0,05	(V)
Vplb0580j221mvtm	-55 ~ CV	6,3	CCXX	5	5,8	CCLXXX	0.018	(V)
Vplld0771h560mvtm	-55 ~ CV	50	56	8	7.7	DLX	0,06	(V)
Vplic4500j221mvtm	-55 ~ CV	6,3	CCXX	6,3	4.5	CCLXXX	0,02	(V)
Vprc1101h680mvtm	-55 ~ CV	50	68	6,3	11	DCLXXX	0,05	(V)
Vplb0770j271mvtm	-55 ~ CV	6,3	CCLXX	5	7.7	CCCXL	0.012	(V)
Vplld0771h680mvtm	-55 ~ CV	50	68	8	7.7	DCLXXX	0,06	(V)
Vplic0580j271mvtm	-55 ~ CV	6,3	CCLXX	6,3	5,8	CCCXL	0.018	(V)
Vpr1201h820mvtm	-55 ~ CV	50	82	6,3	12	DCCCXX	0.04	(V)
Vplb0770j331mvtm	-55 ~ CV	6,3	CCCXXX	5	7.7	CDXVI	0.012	(V)
Vplld0901h820mvtm	-55 ~ CV	50	82	8	9	DCCCXX	0,06	(V)
Vplic0580j331mvtm	-55 ~ CV	6,3	CCCXXX	6,3	5,8	CDXVI	0.018	(V)
Vplld1001h1mvtm	-55 ~ CV	50	C	8	10	M	0,05	(V)
Vplb0850j391mvtm	-55 ~ CV	6,3	CCCXC	5	8,5	CDXCI	0.012	(V)
VLLE0851h1mvtm	-55 ~ CV	50	C	10	8,5	M	0,06	(V)
Vplic0580j391mvtm	-55 ~ CV	6,3	CCCXC	6,3	5,8	CDXCI	0.008	(V)
Vplld1251h121mvtm	-55 ~ CV	50	CXX	8	12,5	MCC	0,05	(V)
Vplb0850j471mvtm	-55 ~ CV	6,3	CDLXX	5	8,5	DXCII	0.012	(V)
VLe0851h121mvtm	-55 ~ CV	50	CXX	10	8,5	MCC	0,06	(V)
Vplic0770j471mvtm	-55 ~ CV	6,3	CDLXX	6,3	7.7	DXCII	0.008	(V)
Vplld1301h151mvtm	-55 ~ CV	50	CL	8	13,5	MD	0,05	(V)
Vprc0850j561mvtm	-55 ~ CV	6,3	DLX	6,3	8,5	DCCVI	0.012	(V)
VLLE0851h151mvtm	-55 ~ CV	50	CL	10	8,5	MD	0,05	(V)
Vplic0770j561mvtm	-55 ~ CV	6,3	DLX	6,3	7.7	DCCVI	0.008	(V)
Vplld1501h181mvtm	-55 ~ CV	50	CLXXX	8	15	MDCCC	0.04	(V)
Vppl850j681mvtm	-55 ~ CV	6,3	DCLXXX	6,3	8,5	DCCCLVII	0.008	(V)
VLe0951h181mvtm	-55 ~ CV	50	CLXXX	10	9,5	MDCCC	0,05	(V)
Vplld0770j681mvtm	-55 ~ CV	6,3	DCLXXX	8	7.7	DCCCLVII	0.012	(V)
Vplld1651h221mvtm	-55 ~ CV	50	CCXX	8	16,5	MMCC	0.03	(V)
Vplic0950j821mvtm	-55 ~ CV	6,3	DCCCXX	6,3	9,5	MXXXIII	0.008	(V)
VLe1351h221mvtm	-55 ~ CV	50	CCXX	10	13,5	MMCC	0.04	(V)
Vplic00770j821mvtm	-55 ~ CV	6,3	DCCCXX	6,3	7.7	MXXXIII	0.008	(V)
VLLE1451h271mvtm	-55 ~ CV	50	CCLXX	10	14.5	MMDCC	0.04	(V)
Vplld0770j821mvtm	-55 ~ CV	6,3	DCCCXX	8	7.7	MXXXIII	0.012	(V)
VLup1701h331mvtm	-55 ~ CV	50	CCCXXX	10	17	MMMCCC	0.03	(V)
Vprc1100j102mvtm	-55 ~ CV	6,3	M	6,3	11	MCCLX	0.008	(V)
VLe1951h391mvtm	-55 ~ CV	50	CCCXC	10	19.5	MMMCM	0.03	(V)
Vplld0900j102mvtm	-55 ~ CV	6,3	M	8	9	MCCLX	0.008	(V)
Vpll1501h391mvtm	-55 ~ CV	50	CCCXC	12,5	15	MMMCM	0.04	(V)
VLe0850j102mvtm	-55 ~ CV	6,3	M	10	8,5	MCCLX	0.012	(V)
VLe2201h471mvtm	-55 ~ CV	50	CDLXX	10	22	(IV) DCC	0.03	(V)
Vprc1200j122mvtm	-55 ~ CV	6,3	MCC	6,3	12	MDXII	0.008	(V)
Vpll1501h471mvtm	-55 ~ CV	50	CDLXX	12,5	15	(IV) DCC	0.04	(V)
Vplld1000j122mvtm	-55 ~ CV	6,3	MCC	8	10	MDXII	0.008	(V)
Vpll1701h561mvtm	-55 ~ CV	50	DLX	12,5	17	(V)	0.03	(V)
VLe0950j122mvtm	-55 ~ CV	6,3	MCC	10	9,5	MDXII	0.008	(V)
Vpll2101h681mvtm	-55 ~ CV	50	DCLXXX	12,5	21	(V)	0.03	(V)
Vplld1250j152mvtm	-55 ~ CV	6,3	MD	8	12,5	MDCCCXC	0.008	(V)
Vpll2101h821mvtm	-55 ~ CV	50	DCCCXX	12,5	21	(V)	0.03	(V)
VLLE1050J152mvtm	-55 ~ CV	6,3	MD	10	10,5	MDCCCXC	0.008	(V)
Vplb0581j6r8mvtm	-55 ~ CV	63	6,8	5	5,8	CCC	0,06	(V)
Vplld1500j202mvtm	-55 ~ CV	6,3	MM	8	15	MMDXX	0.007	(V)
Vprc4501j6r8mvtm	-55 ~ CV	63	6,8	6,3	4.5	CCC	0,06	(V)
VLLE1050j202mvtm	-55 ~ CV	6,3	MM	10	10,5	MMDXX	0.008	(V)
Vplb0581j8r2mvtm	-55 ~ CV	63	8,2	5	5,8	CCC	0,06	(V)
Vplld1500j22mvtm	-55 ~ CV	6,3	MMCC	8	15	MMDCCLXXII	0.007	(V)
Vprc4501j8r2mvtm	-55 ~ CV	63	8,2	6,3	4.5	CCC	0,06	(V)
VLLE1050J22mvtm	-55 ~ CV	6,3	MMCC	10	10,5	MMDCCLXXII	0.008	(V)
Vplb0771j100mvtm	-55 ~ CV	63	10	5	7.7	CCC	0,06	(V)
VLe1350j272mvtm	-55 ~ CV	6,3	MMDCC	10	13,5	MMMCDII	0.008	(V)
Vprc4501j100mvtm	-55 ~ CV	63	10	6,3	4.5	CCC	0,06	(V)
VLe1350j332mvtm	-55 ~ CV	6,3	MMMCCC	10	13,5	(IV) CLVIII	0.008	(V)
Vplb0771j150mvtm	-55 ~ CV	63	15	5	7.7	CCC	0,06	(V)
Vplic0951c271mvtm	-55 ~ CV	16	CCLXX	6,3	9,5	DCCCLXIV	0.012	(V)
VLLE1550j392mvtm	-55 ~ CV	6,3	MMMCM	10	15,5	(IV) CMXIV	0.007	(V)
Vplic0581j150mvtm	-55 ~ CV	63	15	6,3	5,8	CCC	0,06	(V)
Vprc0581h100mvtm	-55 ~ CV	50	10	6,3	5,8	D	0,06	(V)
VLLE1700j472mvtm	-55 ~ CV	6,3	(IV) DCC	10	17	(V) CMXXII	0.007	(V)
Vplb0951j220mvtm	-55 ~ CV	63	22	5	9,5	CCC	0,05	(V)
Vpll1350j472mvtm	-55 ~ CV	6,3	(IV) DCC	12,5	13,5	(V) CMXXII	0.008	(V)
Vprc0771j220mvtm	-55 ~ CV	63	22	6,3	7.7	CCC	0,05	(V)
VLe1950j562mvtm	-55 ~ CV	6,3	(V) DC	10	19.5	(VII) LVI	0.007	(V)
Vprc0851j330mvtm	-55 ~ CV	63	33	6,3	8,5	CDXVI	0,05	(V)
Vpll1500j562mvtm	-55 ~ CV	6,3	(V) DC	12,5	15	(VII) LVI	0.008	(V)
Vplld0771j330mvtm	-55 ~ CV	63	33	8	7.7	CDXVI	0,06	(V)
VLe2200j682mvtm	-55 ~ CV	6,3	(VI) DCCC	10	22	(VII) D	0.007	(V)
Vprc0951j390mvtm	-55 ~ CV	63	39	6,3	9,5	CDXCI	0,05	(V)
Vpll1700j682mvtm	-55 ~ CV	6,3	(VI) DCCC	12,5	17	(VII) D	0.007	(V)
VPLD0771J390MVTM	-55 ~ CV	63	39	8	7.7	CDXCI	0,06	(V)
Vpll1850j822mvtm	-55 ~ CV	6,3	(VIII) CC	12,5	18,5	(VII) D	0.007	(V)
Vprc1101j470mvtm	-55 ~ CV	63	47	6,3	11	DXCII	0.04	(V)
Vpll2100j103mvtm	-55 ~ CV	6,3	(X)	12,5	21	(VII) D	0.007	(V)
Vplld0901j470mvtm	-55 ~ CV	63	47	8	9	DXCII	0,06	(V)
Vplb0770l271mvtm	-55 ~ CV	7.5	CCLXX	5	7.7	CDV	0.012	(V)
Vplld0901j560mvtm	-55 ~ CV	63	56	8	9	DCCVI	0,05	(V)
Vplic0580l271mvtm	-55 ~ CV	7.5	CCLXX	6,3	5,8	CDV	0.018	(V)
VLLE0851j560mvtm	-55 ~ CV	63	56	10	8,5	DCCVI	0,06	(V)
Vplb0950l331mvtm	-55 ~ CV	7.5	CCCXXX	5	9,5	CDXCV	0.012	(V)
Vplld1001j680mvtm	-55 ~ CV	63	68	8	10	DCCCLVII	0,05	(V)
Vplic0580l331mvtm	-55 ~ CV	7.5	CCCXXX	6,3	5,8	CDXCV	0.012	(V)
VLLE0851j680mvtm	-55 ~ CV	63	68	10	8,5	DCCCLVII	0,06	(V)
Vplb0950l391mvtm	-55 ~ CV	7.5	CCCXC	5	9,5	DLXXXV	0.01 0.01	(V)
VPLD1251J820MVTM	-55 ~ CV	63	82	8	12,5	MXXXIII	0,05	(V)
Vplic00770l391mvtm	-55 ~ CV	7.5	CCCXC	6,3	7.7	DLXXXV	0.012	(V)
VLe0951j820mvtm	-55 ~ CV	63	82	10	9,5	MXXXIII	0,06	(V)
Vplb0950l471mvtm	-55 ~ CV	7.5	CDLXX	5	9,5	DCCV	0.012	(V)
Vplld1301j101mvtm	-55 ~ CV	63	C	8	13,5	MCCLX	0.04	(V)
Vplic0850l471mvtm	-55 ~ CV	7.5	CDLXX	6,3	8,5	DCCV	0.012	(V)
VLLE1051j101mvtm	-55 ~ CV	63	C	10	10,5	MCCLX	0,05	(V)
Vprc0950l561mvtm	-55 ~ CV	7.5	DLX	6,3	9,5	DCCCXL	0.009	(V)
VLe1351j121mvtm	-55 ~ CV	63	CXX	10	13,5	MDXII	0,05	(V)
Vprc1100l681mvtm	-55 ~ CV	7.5	DCLXXX	6,3	11	MXX	0.008	(V)
VLLE1451j151mvtm	-55 ~ CV	63	CL	10	14.5	MDCCCXC	0.04	(V)
Vplld0770l681mvtm	-55 ~ CV	7.5	DCLXXX	8	7.7	MXX	0.012	(V)
VLLE1551j181mvtm	-55 ~ CV	63	CLXXX	10	15,5	MMCCLXVIII	0.03	(V)
Vprc1200l821mvtm	-55 ~ CV	7.5	DCCCXX	6,3	12	MCCXXX	0.008	(V)
VLe1701j221mvtm	-55 ~ CV	63	CCXX	10	17	MMDCCLXXII	0.03	(V)
VPLD0900L821MVTM	-55 ~ CV	7.5	DCCCXX	8	9	MCCXXX	0.008	(V)
Vpll1351j21mvtm	-55 ~ CV	63	CCXX	12,5	13,5	MMDCCLXXII	0.04	(V)
Vprc1200l102mvtm	-55 ~ CV	7.5	M	6,3	12	MD	0.008	(V)
VLe2201j271mvtm	-55 ~ CV	63	CCLXX	10	22	MMMCDII	0.03	(V)
Vplld1000l102mvtm	-55 ~ CV	7.5	M	8	10	MD	0.008	(V)
Vpll1501j271mvtm	-55 ~ CV	63	CCLXX	12,5	15	MMMCDII	0.04	(V)
Vplb0581a470mvtm	-55 ~ CV	10	47	5	5,8	CCLXXX	0.03	(V)
VLe2201j331mvtm	-55 ~ CV	63	CCCXXX	10	22	(IV) CLVIII	0.03	(V)
Vprc4501a470mvtm	-55 ~ CV	10	47	6,3	4.5	CCLXXX	0.03	(V)
Vpll1701j331mvtm	-55 ~ CV	63	CCCXXX	12,5	17	(IV) CLVIII	0.03	(V)
Vplb0581a680mvtm	-55 ~ CV	10	68	5	5,8	CCLXXX	0.03	(V)
Vpll1851j391mvtm	-55 ~ CV	63	CCCXC	12,5	18,5	(IV) CMXIV	0.03	(V)
Vprc4501a680mvtm	-55 ~ CV	10	68	6,3	4.5	CCLXXX	0.03	(V)
Vpll2101j471mvtm	-55 ~ CV	63	CDLXX	12,5	21	(V)	0.03	(V)
Vplb0581a820mvtm	-55 ~ CV	10	82	5	5,8	CCLXXX	0.03	(V)
Vplb0581k4r7mvtm	-55 ~ CV	80	4.7	5	5,8	CCC	0,06	(V)
Vprc4501a820mvtm	-55 ~ CV	10	82	6,3	4.5	CCLXXX	0.03	(V)
Vprc4501k4r7mvtm	-55 ~ CV	80	4.7	6,3	4.5	CCC	0,06	(V)
Vplb0581a101mvtm	-55 ~ CV	10	C	5	5,8	CCLXXX	0.03	(V)
Vplb0581k6r8mvtm	-55 ~ CV	80	6,8	5	5,8	CCC	0,06	(V)
Vprc4501a10n1mvtm	-55 ~ CV	10	C	6,3	4.5	CCLXXX	0.03	(V)
Vplicc4501k6r8mvtm	-55 ~ CV	80	6,8	6,3	4.5	CCC	0,06	(V)
Vplb0771a151mvtm	-55 ~ CV	10	CL	5	7.7	CCC	0.015	(V)
Vplb0771k8r2mvtm	-55 ~ CV	80	8,2	5	7.7	CCC	0,06	(V)
Vplld1001c681mvtm	-55 ~ CV	16	DCLXXX	8	10	MMCLXXVI	0.012	(V)
Vprc0581a151mvtm	-55 ~ CV	10	CL	6,3	5,8	CCC	0.03	(V)
Vprc4501k8r2mvtm	-55 ~ CV	80	8,2	6,3	4.5	CCC	0,06	(V)
Vplld0771v221mvtm	-55 ~ CV	35	CCXX	8	7.7	MDXL	0,06	(V)
Vplb071a181mvtm	-55 ~ CV	10	CLXXX	5	7.7	CCCLX	0.015	(V)
Vplb0771k100mvtm	-55 ~ CV	80	10	5	7.7	CCC	0,06	(V)
VPLD1251V820MVTM	-55 ~ CV	35	82	8	12,5	DLXXIV	0.03	(V)
Vprc0581a181mvtm	-55 ~ CV	10	CLXXX	6,3	5,8	CCCLX	0.03	(V)
Vplic0581k100mvtm	-55 ~ CV	80	10	6,3	5,8	CCC	0,06	(V)
Vplld0771j470mvtm	-55 ~ CV	63	47	8	7.7	592,2	0,06	(V)
Vplb0771a221mvtm	-55 ~ CV	10	CCXX	5	7.7	CDXL	0.015	(V)
Vplb0951k150mvtm	-55 ~ CV	80	15	5	9,5	CCC	0,05	(V)
Vplld1051j560mvtm	-55 ~ CV	63	56	8	10,5	705.6	0,05	(V)
Vplic0581a221mvtm	-55 ~ CV	10	CCXX	6,3	5,8	CDXL	0.03	(V)
Vprc0771k150mvtm	-55 ~ CV	80	15	6,3	7.7	CCC	0,05	(V)
Vplb0951a271mvtm	-55 ~ CV	10	CCLXX	5	9,5	DXL	0.012	(V)
Vplic0851k220mvtm	-55 ~ CV	80	22	6,3	8,5	CCCLII	0,05	(V)
Vplic0581a271mvtm	-55 ~ CV	10	CCLXX	6,3	5,8	DXL	0,016	(V)
Vplld0771k220mvtm	-55 ~ CV	80	22	8	7.7	CCCLII	0,06	(V)
Vplic0771a331mvtm	-55 ~ CV	10	CCCXXX	6,3	7.7	DCLX	0,016	(V)
Vprc1101k330mvtm	-55 ~ CV	80	33	6,3	11	DXXVIII	0.04	(V)
VLLE1051k101mvtm	-55 ~ CV	80	C	10	10,5	MDC	0,05	(V)
Vprc0771a391mvtm	-55 ~ CV	10	CCCXC	6,3	7.7	DCCLXXX	0.012	(V)
Vplld0771k330mvtm	-55 ~ CV	80	33	8	7.7	DXXVIII	0,06	(V)
Vplic0851a471mvtm	-55 ~ CV	10	CDLXX	6,3	8,5	CMXL	0.012	(V)
Vprc1201k390mvtm	-55 ~ CV	80	39	6,3	12	DCXXIV	0.04	(V)
Vplld0771a471mvtm	-55 ~ CV	10	CDLXX	8	7.7	CMXL	0.03	(V)
Vplld0901k390mvtm	-55 ~ CV	80	39	8	9	DCXXIV	0,05	(V)
Vpplic1101a561mvtm	-55 ~ CV	10	DLX	6,3	11	MCXX	0.01 0.01	(V)
Vplld1001k470mvtm	-55 ~ CV	80	47	8	10	DCCLII	0,05	(V)
Vplld0771a561mvtm	-55 ~ CV	10	DLX	8	7.7	MCXX	0.014	(V)
VLe0851k470mvtm	-55 ~ CV	80	47	10	8,5	DCCLII	0,06	(V)
Vprc1201a681mvtm	-55 ~ CV	10	DCLXXX	6,3	12	MCCCLX	0.009	(V)
Vplld1251k560mvtm	-55 ~ CV	80	56	8	12,5	DCCCXCVI	0,05	(V)
Vplld0901a681mvtm	-55 ~ CV	10	DCLXXX	8	9	MCCCLX	0.01 0.01	(V)
VLe0951k560mvtm	-55 ~ CV	80	56	10	9,5	DCCCXCVI	0,05	(V)
Vplld1001a821mvtm	-55 ~ CV	10	DCCCXX	8	10	MDCXL	0.009	(V)
Vplld1251k680mvtm	-55 ~ CV	80	68	8	12,5	MLXXXVIII	0.04	(V)
VLe0851a821mvtm	-55 ~ CV	10	DCCCXX	10	8,5	MDCXL	0.014	(V)
VLe0951k680mvtm	-55 ~ CV	80	68	10	9,5	MLXXXVIII	0,05	(V)
Vplld1251a102mvtm	-55 ~ CV	10	M	8	12,5	MM	0.009	(V)
Vplld1501k820mvtm	-55 ~ CV	80	82	8	15	MCCCXII	0.04	(V)
VLLE0851a102mvtm	-55 ~ CV	10	M	10	8,5	MM	0.009	(V)
VLLE1051k820mvtm	-55 ~ CV	80	82	10	10,5	MCCCXII	0,05	(V)
Vplld1501a152mvtm	-55 ~ CV	10	MD	8	15	MMM MMM	0.008	(V)
Vplld1651k101mvtm	-55 ~ CV	80	C	8	16,5	MDC	0.03	(V)
VLLE1051a152mvtm	-55 ~ CV	10	MD	10	10,5	MMM MMM	0.009	(V)
VLe1351k101mvtm	-55 ~ CV	80	C	10	13,5	MDC	0.04	(V)
VLLE1251a22mvtm	-55 ~ CV	10	MMCC	10	12,5	(IV) CD	0.008	(V)
VLLE1551k121mvtm	-55 ~ CV	80	CXX	10	15,5	MCMXX	0.04	(V)
VLe1351a252mvtm	-55 ~ CV	10	MMD	10	13,5	(V)	0.008	(V)
VLLE1701k151mvtm	-55 ~ CV	80	CL	10	17	MMCD	0.03	(V)
VLLE1701a272mvtm	-55 ~ CV	10	MMDCC	10	17	(V) CD	0.008	(V)
Vpll1351k151mvtm	-55 ~ CV	80	CL	12,5	13,5	MMCD	0.04	(V)
VLe1951a332mvtm	-55 ~ CV	10	MMMCCC	10	19.5	(VI) DC	0.008	(V)
VLLE1951k181mvtm	-55 ~ CV	80	CLXXX	10	19.5	MMDCCCLXXX	0.03	(V)
Vpll1501a332mvtm	-55 ~ CV	10	MMMCCC	12,5	15	(VI) DC	0.009	(V)
Vpll1501k181mvtm	-55 ~ CV	80	CLXXX	12,5	15	MMDCCCLXXX	0.04	(V)
VLe2201a392mvtm	-55 ~ CV	10	MMMCM	10	22	(VII) D	0.008	(V)
VLe2201k221mvtm	-55 ~ CV	80	CCXX	10	22	MMMDCCXX	0.03	(V)
Vpll1701a392mvtm	-55 ~ CV	10	MMMCM	12,5	17	(VII) D	0.008	(V)
Vpll1701k221mvtm	-55 ~ CV	80	CCXX	12,5	17	MMMDCCXX	0.03	(V)
Vpll1851a472mvtm	-55 ~ CV	10	(IV) DCC	12,5	18,5	(VII) D	0.008	(V)
Vpll1851k271mvtm	-55 ~ CV	80	CCLXX	12,5	18,5	(IV) CCCXX	0.03	(V)
Vpll1851a562mvtm	-55 ~ CV	10	(V) DC	12,5	18,5	(VII) D	0.008	(V)
Vpll2101k331mvtm	-55 ~ CV	80	CCCXXX	12,5	21	(V)	0.03	(V)
Vpll2101a682mvtm	-55 ~ CV	10	(VI) DCCC	12,5	21	(VII) D	0.008	(V)
Vplb0582a2r2mvtm	-55 ~ CV	C	2.2	5	5,8	CCC	0,08	(V)
Vplb0771b181mvtm	-55 ~ CV	12	CLXXX	5	7.7	CDXXXII	0.015	(V)
Vprc4502a2r2mvtm	-55 ~ CV	C	2.2	6,3	4.5	CCC	0,08	(V)
Vplic0581b181mvtm	-55 ~ CV	12	CLXXX	6,3	5,8	CDXXXII	0.03	(V)
Vplb0582a3r3mvtm	-55 ~ CV	C	3.3	5	5,8	CCC	0,06	(V)
Vplb0951b221mvtm	-55 ~ CV	12	CCXX	5	9,5	DXXVIII	0.015	(V)
Vprc4502a3r3mvtm	-55 ~ CV	C	3.3	6,3	4.5	CCC	0,08	(V)
Vplic0581b221mvtm	-55 ~ CV	12	CCXX	6,3	5,8	DXXVIII	0,016	(V)
Vplb0772a4r7mvtm	-55 ~ CV	C	4.7	5	7.7	CCC	0,06	(V)
Vplb0951b271mvtm	-55 ~ CV	12	CCLXX	5	9,5	DCXLVIII	0.012	(V)
Vplic0582a4r7mvtm	-55 ~ CV	C	4.7	6,3	5,8	CCC	0,08	(V)
Vplic0771b271mvtm	-55 ~ CV	12	CCLXX	6,3	7.7	DCXLVIII	0,016	(V)
Vplb0772a5r6mvtm	-55 ~ CV	C	5,6	5	7.7	CCC	0,06	(V)
Vplb0951b331mvtm	-55 ~ CV	12	CCCXXX	5	9,5	DCCXCII	0.012	(V)
Vprc0582a5r6mvtm	-55 ~ CV	C	5,6	6,3	5,8	CCC	0,08	(V)
Vplic0771b331mvtm	-55 ~ CV	12	CCCXXX	6,3	7.7	DCCXCII	0.012	(V)
Vplb0852a6r8mvtm	-55 ~ CV	C	6,8	5	8,5	CCC	0,06	(V)
Vplic0951b391mvtm	-55 ~ CV	12	CCCXC	6,3	9,5	CMXXXVI	0.015	(V)
Vplic0582a6r8mvtm	-55 ~ CV	C	6,8	6,3	5,8	CCC	0,06	(V)
Vplic0851b391mvtm	-55 ~ CV	12	CCCXC	6,3	8,5	CMXXXVI	0.012	(V)
Vplb0952a8r2mvtm	-55 ~ CV	C	8,2	5	9,5	CCC	0,06	(V)
Vplic0951b471mvtm	-55 ~ CV	12	CDLXX	6,3	9,5	MCXXVIII	0.012	(V)
Vplic0772a8r2mvtm	-55 ~ CV	C	8,2	6,3	7.7	CCC	0,06	(V)
Vplld0771b471mvtm	-55 ~ CV	12	CDLXX	8	7.7	MCXXVIII	0.014	(V)
Vprc0772a100mvtm	-55 ~ CV	C	10	6,3	7.7	CCC	0,06	(V)
Vprc1101b561mvtm	-55 ~ CV	12	DLX	6,3	11	MCCCXLIV	0.01 0.01	(V)
Vprc0852a120mvtm	-55 ~ CV	C	12	6,3	8,5	CCC	0,05	(V)
Vplld0771b561mvtm	-55 ~ CV	12	DLX	8	7.7	MCCCXLIV	0.014	(V)
Vprc0952a150mvtm	-55 ~ CV	C	15	6,3	9,5	CCC	0,05	(V)
Vpr1201b681mvtm	-55 ~ CV	12	DCLXXX	6,3	12	MDCXXXII	0.009	(V)
Vplld0772a150mvtm	-55 ~ CV	C	15	8	7.7	CCC	0,06	(V)
Vplld0901b681mvtm	-55 ~ CV	12	DCLXXX	8	9	MDCXXXII	0.01 0.01	(V)
Vprc1102a180mvtm	-55 ~ CV	C	18	6,3	11	CCCLX	0,05	(V)
Vplld1251b102mvtm	-55 ~ CV	12	M	8	12,5	MMCD	0.01 0.01	(V)
Vplld0902a180mvtm	-55 ~ CV	C	18	8	9	CCCLX	0,06	(V)
Vplb0581c220mvtm	-55 ~ CV	16	22	5	5,8	CCLXXX	0.03	(V)
Vplld0902a220mvtm	-55 ~ CV	C	22	8	9	CDXL	0,05	(V)
Vprc4501c220mvtm	-55 ~ CV	16	22	6,3	4.5	CCLXXX	0.03	(V)
Vplld1252a270mvtm	-55 ~ CV	C	27	8	12,5	DXL	0,05	(V)
Vplb0581c330mvtm	-55 ~ CV	16	33	5	5,8	CCLXXX	0.03	(V)
VLLE0852a270mvtm	-55 ~ CV	C	27	10	8,5	DXL	0,06	(V)
Vplic1c330mvtm	-55 ~ CV	16	33	6,3	4.5	CCLXXX	0.03	(V)
Vplld1252a330mvtm	-55 ~ CV	C	33	8	12,5	DCLX	0,05	(V)
Vplb0581c470mvtm	-55 ~ CV	16	47	5	5,8	CCLXXX	0.03	(V)
VLe0952a330mvtm	-55 ~ CV	C	33	10	9,5	DCLX	0,05	(V)
Vprc4501c470mvtm	-55 ~ CV	16	47	6,3	4.5	CCLXXX	0.03	(V)
Vplld1502a390mvtm	-55 ~ CV	C	39	8	15	DCCLXXX	0,05	(V)
Vplb0581c680mvtm	-55 ~ CV	16	68	5	5,8	CCLXXX	0.03	(V)
VLe0952a390mvtm	-55 ~ CV	C	39	10	9,5	DCCLXXX	0,05	(V)
Vprc4501c680mvtm	-55 ~ CV	16	68	6,3	4.5	CCLXXX	0.03	(V)
VLLE1052a470mvtm	-55 ~ CV	C	47	10	10,5	CMXL	0,05	(V)
Vplb0581c820mvtm	-55 ~ CV	16	82	5	5,8	CCLXXX	0.03	(V)
VLLE1352a560mvtm	-55 ~ CV	C	56	10	13,5	MCXX	0,05	(V)
Vplic1c820mvtm	-55 ~ CV	16	82	6,3	4.5	CCLXXX	0.03	(V)
Vple1702a680mvtm	-55 ~ CV	C	68	10	17	MCCCLX	0,05	(V)
Vplb0771c10mvtm	-55 ~ CV	16	C	5	7.7	CCCXX	0.03	(V)
VLe1952a820mvtm	-55 ~ CV	C	82	10	19.5	MDCXL	0.04	(V)
Vplic0581c10mvtm	-55 ~ CV	16	C	6,3	5,8	CCCXX	0.03	(V)
Vpll1352a820mvtm	-55 ~ CV	C	82	12,5	13,5	MDCXL	0,05	(V)
Vplb0851c151mvtm	-55 ~ CV	16	CL	5	8,5	CDLXXX	0.03	(V)
VLe2202a101mvtm	-55 ~ CV	C	C	10	22	MM	0.04	(V)
Vplic0581c151mvtm	-55 ~ CV	16	CL	6,3	5,8	CDLXXX	0.03	(V)
Vpll1502a101mvtm	-55 ~ CV	C	C	12,5	15	MM	0,05	(V)
Vplb0951c221mvtm	-55 ~ CV	16	CCXX	5	9,5	DCCIV	0.012	(V)
VLe2202a121mvtm	-55 ~ CV	C	CXX	10	22	MMCD	0.04	(V)
Vplic0951c221mvtm	-55 ~ CV	16	CCXX	6,3	9,5	DCCIV	0.012	(V)
Vpll1702a121mvtm	-55 ~ CV	C	CXX	12,5	17	MMCD	0.04	(V)
Vplic0771c221mvtm	-55 ~ CV	16	CCXX	6,3	7.7	DCCIV	0,02	(V)
Vpll1852a151mvtm	-55 ~ CV	C	CL	12,5	18,5	MMM MMM	0.04	(V)
Vprc0851c271mvtm	-55 ~ CV	16	CCLXX	6,3	8,5	DCCCLXIV	0.015	(V)
Vpll2102a181mvtm	-55 ~ CV	C	CLXXX	12,5	21	MMMDC	0.04	(V)
Vplld0771c271mvtm	-55 ~ CV	16	CCLXX	8	7.7	DCCCLXIV	0.03	(V)
Vplic0951c331mvtm	-55 ~ CV	16	CCCXXX	6,3	9,5	MLVI	0.012	(V)
Vplld0771c331mvtm	-55 ~ CV	16	CCCXXX	8	7.7	MLVI	0.03	(V)
Vplic0951c391mvtm	-55 ~ CV	16	CCCXC	6,3	9,5	MCCXLVIII	0.012	(V)
Vpr1201c471mvtm	-55 ~ CV	16	CDLXX	6,3	12	MDIV	0.01 0.01	(V)
Vplld0901c471mvtm	-55 ~ CV	16	CDLXX	8	9	MDIV	0,02	(V)
Vplld1001c561mvtm	-55 ~ CV	16	DLX	8	10	MDCCXCII	0.012	(V)
VLe0851c561mvtm	-55 ~ CV	16	DLX	10	8,5	MDCCXCII	0.012	(V)
Vplld1251c681mvtm	-55 ~ CV	16	DCLXXX	8	12,5	MMCLXXVI	0.01 0.01	(V)
VLe0851c681mvtm	-55 ~ CV	16	DCLXXX	10	8,5	MMCLXXVI	0.012	(V)
Vplld1301c821mvtm	-55 ~ CV	16	DCCCXX	8	13,5	MMDCXXIV	0.01 0.01	(V)
VLLE0951c821mvtm	-55 ~ CV	16	DCCCXX	10	9,5	MMDCXXIV	0.012	(V)
Vplld1501c102mvtm	-55 ~ CV	16	M	8	15	MMMCC	0.008	(V)
Vplld1651c102mvtm	-55 ~ CV	16	M	8	16,5	MMMCC	0.01 0.01	(V)
VLe0951c102mvtm	-55 ~ CV	16	M	10	9,5	MMMCC	0.012	(V)
VLLE1551c152mvtm	-55 ~ CV	16	MD	10	15,5	(IV) DCCC	0.008	(V)
VLLE1701c182mvtm	-55 ~ CV	16	MDCCC	10	17	(V) DCCLX	0.008	(V)
VLe1951c22mvtm	-55 ~ CV	16	MMCC	10	19.5	(VII) XL	0.008	(V)
Vpll1501c22mvtm	-55 ~ CV	16	MMCC	12,5	15	(VII) XL	0.01 0.01	(V)
VLe2201c272mvtm	-55 ~ CV	16	MMDCC	10	22	(VII) D	0.008	(V)
Vpll1701c272mvtm	-55 ~ CV	16	MMDCC	12,5	17	(VII) D	0.01 0.01	(V)
Vpll1851c332mvtm	-55 ~ CV	16	MMMCCC	12,5	18,5	(VII) D	0.008	(V)
Vpll2101c392mvtm	-55 ~ CV	16	MMMCM	12,5	21	(VII) D	0.008	(V)
Vplb0581e100mvtm	-55 ~ CV	25	10	5	5,8	CCLXXX	0.04	(V)
Vprc4501e100mvtm	-55 ~ CV	25	10	6,3	4.5	CCLXXX	0.04	(V)
Vplb0581e150mvtm	-55 ~ CV	25	15	5	5,8	CCLXXX	0.04	(V)
Vprc4501e150mvtm	-55 ~ CV	25	15	6,3	4.5	CCLXXX	0.04	(V)
Vplb0581e220mvtm	-55 ~ CV	25	22	5	5,8	CCLXXX	0.04	(V)
Vprc4501e220mvtm	-55 ~ CV	25	22	6,3	4.5	CCLXXX	0.04	(V)
Vplb0581e330mvtm	-55 ~ CV	25	33	5	5,8	CCLXXX	0.04	(V)
Vprc4501e330mvtm	-55 ~ CV	25	33	6,3	4.5	CCLXXX	0.04	(V)
Vplb0581e390mvtm	-55 ~ CV	25	39	5	5,8	CCLXXX	0.04	(V)
Vprc4501e390mvtm	-55 ~ CV	25	39	6,3	4.5	CCLXXX	0.04	(V)
Vplb0581e470mvtm	-55 ~ CV	25	47	5	5,8	CCLXXX	0.03	(V)
Vprc4501e470mvtm	-55 ~ CV	25	47	6,3	4.5	CCLXXX	0.04	(V)
Vplb0771e680mvtm	-55 ~ CV	25	68	5	7.7	CCCXL	0.03	(V)
Vprc0581e680mvtm	-55 ~ CV	25	68	6,3	5,8	CCCXL	0.04	(V)
Vplb0951e101mvtm	-55 ~ CV	25	C	5	9,5	D	0.03	(V)
Vplic0581e101mvtm	-55 ~ CV	25	C	6,3	5,8	D	0.03	(V)
Vprc0851e151mvtm	-55 ~ CV	25	CL	6,3	8,5	DCCL	0,016	(V)
Vprc0851e181mvtm	-55 ~ CV	25	CLXXX	6,3	8,5	CM	0,016	(V)
Vplld0771e181mvtm	-55 ~ CV	25	CLXXX	8	7.7	CM	0.03	(V)
Vplic0951e221mvtm	-55 ~ CV	25	CCXX	6,3	9,5	MC	0,02	(V)
Vplld0771e221mvtm	-55 ~ CV	25	CCXX	8	7.7	MC	0.03	(V)
Vplld1001e331mvtm	-55 ~ CV	25	CCCXXX	8	10	MDCL	0,016	(V)
VLLE0851e331mvtm	-55 ~ CV	25	CCCXXX	10	8,5	MDCL	0,016	(V)
Vplld1501e471mvtm	-55 ~ CV	25	CDLXX	8	15	MMCCCL	0,016	(V)
Vplld1251e471mvtm	-55 ~ CV	25	CDLXX	8	12,5	MMCCCL	0,016	(V)
VLe0951e471mvtm	-55 ~ CV	25	CDLXX	10	9,5	MMCCCL	0,016	(V)
Vplld1501e561mvtm	-55 ~ CV	25	DLX	8	15	MMDCCC	0,016	(V)
Vplld1251e561mvtm	-55 ~ CV	25	DLX	8	12,5	MMDCCC	0,016	(V)
VLLE1051e561mvtm	-55 ~ CV	25	DLX	10	10,5	MMDCCC	0,016	(V)
Vplld1501e681mvtm	-55 ~ CV	25	DCLXXX	8	15	MMMCD	0,016	(V)
VLLE1251e681mvtm	-55 ~ CV	25	DCLXXX	10	12,5	MMMCD	0,016	(V)
Vplld1651e821mvtm	-55 ~ CV	25	DCCCXX	8	16,5	(IV) C	0,016	(V)
VLLE1551e821mvtm	-55 ~ CV	25	DCCCXX	10	15,5	(IV) C	0,016	(V)
VLLE1701e102mvtm	-55 ~ CV	25	M	10	17	(V)	0,016	(V)
Vpll1351e102mvtm	-55 ~ CV	25	M	12,5	13,5	(V)	0,016	(V)
VLe1951e152mvtm	-55 ~ CV	25	MD	10	19.5	(VII) D	0,016	(V)
Vpll1501e152mvtm	-55 ~ CV	25	MD	12,5	15	(VII) D	0,016	(V)
VLe2201e182mvtm	-55 ~ CV	25	MDCCC	10	22	(VII) D	0,016	(V)
Vpll1701e182mvtm	-55 ~ CV	25	MDCCC	12,5	17	(VII) D	0,016	(V)
Vpll1851e22mvtm	-55 ~ CV	25	MMCC	12,5	18,5	(VII) D	0,016	(V)
Vpll2101e272mvtm	-55 ~ CV	25	MMDCC	12,5	21	(VII) D	0,016	(V)
Vplb0581v100mvtm	-55 ~ CV	35	10	5	5,8	CCC	0,06	(V)
Vprc4501v100mvtm	-55 ~ CV	35	10	6,3	4.5	CCC	0,06	(V)
Vplb0581v150mvtm	-55 ~ CV	35	15	5	5,8	CCC	0,06	(V)
Vprc4501v150mvtm	-55 ~ CV	35	15	6,3	4.5	CCC	0,06	(V)
Vplb0581v220mvtm	-55 ~ CV	35	22	5	5,8	CCC	0,06	(V)
Vplic4501v220mvtm	-55 ~ CV	35	22	6,3	4.5	CCC	0,06	(V)
Vplb0581v330mvtm	-55 ~ CV	35	33	5	5,8	CCC	0,06	(V)
Vplicc4501v330mvtm	-55 ~ CV	35	33	6,3	4.5	CCC	0,06	(V)
Vplb0771v390mvtm	-55 ~ CV	35	39	5	7.7	CCC	0,05	(V)
Vplic0581v390mvtm	-55 ~ CV	35	39	6,3	5,8	CCC	0,06	(V)
Vplb0771v470mvtm	-55 ~ CV	35	47	5	7.7	CCCXXIX	0,05	(V)
Vplic0581v470mvtm	-55 ~ CV	35	47	6,3	5,8	CCCXXIX	0,06	(V)
Vplb0771v560mvtm	-55 ~ CV	35	56	5	7.7	CCCXCII	0,05	(V)
Vprc0581v560mvtm	-55 ~ CV	35	56	6,3	5,8	CCCXCII	0,06	(V)
Vplb0851v680mvtm	-55 ~ CV	35	68	5	8,5	CDLXXVI	0,05	(V)
Vplic0581v680mvtm	-55 ~ CV	35	68	6,3	5,8	CDLXXVI	0,06	(V)
Vplb0951v820mvtm	-55 ~ CV	35	82	5	9,5	DLXXIV	0,05	(V)
Vplic0771v820mvtm	-55 ~ CV	35	82	6,3	7.7	DLXXIV	0,05	(V)
Vprc0771v1mvtm	-55 ~ CV	35	C	6,3	7.7	DCC	0,05	(V)
Vprc0851v121mvtm	-55 ~ CV	35	CXX	6,3	8,5	DCCCXL	0,05	(V)
Vplld0771v121mvtm	-55 ~ CV	35	CXX	8	7.7	DCCCXL	0,06	(V)
Vplic0951v151mvtm	-55 ~ CV	35	CL	6,3	9,5	ML	0,05	(V)
VPLD0771V151MVTM	-55 ~ CV	35	CL	8	7.7	ML	0,06	(V)
Vprc1101v181mvtm	-55 ~ CV	35	CLXXX	6,3	11	MCCLX	0.04	(V)
VPLD0771V181MVTM	-55 ~ CV	35	CLXXX	8	7.7	MCCLX	0,06	(V)
Vpr1201v221mvtm	-55 ~ CV	35	CCXX	6,3	12	MDXL	0.04	(V)
Vplld0901v21mvtm	-55 ~ CV	35	CCXX	8	9	MDXL	0,05	(V)
VLLE0851v221mvtm	-55 ~ CV	35	CCXX	10	8,5	MDXL	0,06	(V)
Vplld1251v331mvtm	-55 ~ CV	35	CCCXXX	8	12,5	MMCCCX	0.03	(V)
VLe0851v331mvtm	-55 ~ CV	35	CCCXXX	10	8,5	MMCCCX	0,05	(V)
Vplld1301v391mvtm	-55 ~ CV	35	CCCXC	8	13,5	MMDCCXXX	0.03	(V)
VLLE1051v391mvtm	-55 ~ CV	35	CCCXC	10	10,5	MMDCCXXX	0,05	(V)
Vplld1501v471mvtm	-55 ~ CV	35	CDLXX	8	15	MMMCCXC	0,02	(V)
VLe1351v471mvtm	-55 ~ CV	35	CDLXX	10	13,5	MMMCCXC	0.03	(V)
Vplld1651v561mvtm	-55 ~ CV	35	DLX	8	16,5	MMMCMXX	0,02	(V)
VLe1351v561mvtm	-55 ~ CV	35	DLX	10	13,5	MMMCMXX	0.03	(V)
VLLE1551v681mvtm	-55 ~ CV	35	DCLXXX	10	15,5	(IV) DCCLX	0,02	(V)
VLup1701v821mvtm	-55 ~ CV	35	DCCCXX	10	17	(V)	0,02	(V)
Vpll1351v821mvtm	-55 ~ CV	35	DCCCXX	12,5	13,5	(V)	0.03	(V)
VLe1951v102mvtm	-55 ~ CV	35	M	10	19.5	(V)	0,02	(V)
Vpll1501v102mvtm	-55 ~ CV	35	M	12,5	15	(V)	0.03	(V)
VLe2201v122mvtm	-55 ~ CV	35	MCC	10	22	(V)	0,02	(V)
Vpll1701v122mvtm	-55 ~ CV	35	MCC	12,5	17	(V)	0,02	(V)
Vpll1851v152mvtm	-55 ~ CV	35	MD	12,5	18,5	(V)	0,02	(V)
Vpll2101v182mvtm	-55 ~ CV	35	MDCCC	12,5	21	(V)	0,02	(V)
Vplb0581h100mvtm	-55 ~ CV	50	10	5	5,8	CCC	0,06	(V)
Vprc4501h100mvtm	-55 ~ CV	50	10	6,3	4.5	CCC	0,06	(V)
Vplb0581h120mvtm	-55 ~ CV	50	12	5	5,8	CCC	0,06	(V)
Vprc4501h120mvtm	-55 ~ CV	50	12	6,3	4.5	CCC	0,06	(V)
Vplb0581h150mvtm	-55 ~ CV	50	15	5	5,8	CCC	0,06	(V)
Vprc4501h150mvtm	-55 ~ CV	50	15	6,3	4.5	CCC	0,06	(V)