RF Glass Insulator

Descriptio:

vitrei insulatores vitreo sintering structurae utuntur cum bona obsignatione perficiendi. Adhiberi possunt cum connexionibus millimetris fluctuum sicut SMA et 2.92, et etiam directe adhiberi possunt inter tabulas, exempla, et templates et componentes. Utitur vitreo (constans dielectrico circiter 4.0) ut materia media insulating, et conductores interiores et exteriores ex materia mixturae Kovar fiunt. Postquam summus temperatus sintering, superficies est nickel-aurata. Insulatores vitrei utilitates habent mediocres, leves, pondus, aerumnas, magnae constantiae. Plerumque adhibentur in occasionibus ad signandi requisita, seu requisita ad productum volumen et pondus. Apta sunt ad intensivam institutionem. Internus conductor coniungi potest variis modis, ut obturaculum-in, superficies ascendens, glutino et auri compagem.

PRIOR: General Hermetically Signatum Connector / Adapter
SEQUENS: SMP Hermetically signati Connector

Basic structura:
Insulator vitreus plerumque tribus partibus constat: conductor exterior, medium vitreum et conductor interior, eiusque structura prima in hac figura ostenditur.

Specificationes technicae et fides probat:

Characteres electrici
Impedimentum proprium	50Ω vel alius	Frequentia Range	DC~65GHz
Dielectric contra intentionem	≥500V	Nulla Resistentia	≥5000M Ω
Contactus resistentia	Interiorem conductor≤3m Ω	Voltage VSWR (50Ω)	≤ 1.05 0.008f ( f: GHz)
Contactus resistentia	Exterior conductor ≤2m Ω	RF Insertion Loss (50Ω)	≤0.05 f (f; GHz)
Materia et mechanica, proprietatibus environmental
Exterior conductor	Delegatus Alloys	Air lacus rate	≤ 1.01*10 -9 Pa.m 3 /S
Interiorem conductor	Degradable Alloys	operating temperatus	-65 ℃ ~ 165 ℃
Insulatio medium	vitrum

Commendatur institutionem rationem vitream insulators
Commendatam institutionem aperiendi dimensiones pro uno nucleo insulatorum vitreorum infra monstrantur:

Commendatum inscensum aperiendi dimensiones pro insulatoribus vitreis multi-core infra monstrantur:

Speculum electrica insulator perficientur probatio:
Impedimentum proprium 50 olim insulatori vitrei cum norma SMA, 2.92, 2.4, etc. connexiones millimetre undae ad utrumque finem iunguntur pro electricae operationis experimento..

RF SERIES

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS1710-0.23(2.8-0.3)	1.73	1	0.23	2.8	0.3
HS1710-0.23(6.2-2.7)	1.73	1	0.23	6.2	2.7
HS1710A	1.73	1	0.23	3	1
HS1714-0.23(2-0.3)	1.73	1.4	0.23	2	0.3
V1714-0.23(2.69-0.5)	1.73	1.4	0.23	2.7	0.5
V1714-0.23(3.9-1.7)	1.73	1.4	0.23	3.9	1.7
V1714-0.23(4.5-1.7)	1.73	1.4	0.23	4.5	1.7
HS1714-0.23(3-1.1)	1.73	1.4	0.23	3	1.1
HSI714E	1.73	1.4	0.23	2.9	1
HS1714F	1.73	1.4	0.23	2.79	0.9
HS1715-0.23 (3.2-0.8)	1.73	1.5	0.23	3.2	0.8
HS1716A	1.73	1.65	0.23	3.4	1
V1719-0.23(5.0-1.7)	1.73	1.9	0.23	5	1.7
V1720-0.23(3.3-0.5)	1.73	2	0.23	3.3	0.5
HS1720-0.23 (3.7-1.2)	1.73	2	0.23	3.7	1.2
V1720-0.23(4.0-1.0)	1.73	2	0.23	4	1
HS1720-0.23(6-2)	1.73	2	0.23	6	2
V1724-0.23(3.7-0.5)	1.73	2.4	0.23	3.7	0.5
HS1724-0.23(4.5-1.7)	1.73	2.4	0.23	4.5	1.7

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
V1727-0.23(4.0-0.5)	1.73	2.7	0.23	4	0.5
HS1727A	1.73	2.7	0.23	4.7	1
HS1728-0.23(4-0.5)	1.73	2.8	0.23	4	0.5
HS1730-0.23(4.3-0.5)	1.73	3	0.23	4.3	0.5
V1730-0.23(5.0-1.0)	1.73	3	0.23	5	1
HS1734-0.23-01	1.73	3.4	0.23	5.2	1
HS1744-0.23-01	1.73	4.4	0.23	6.2	1
HS1749-0.23(8.9-2.0)	1.73	4.9	0.23	8.9	2
HS1751A	1.73	5.1	0.23	5.9	0.4
HS1756-0.23(6.6-0.5)	1.73	5.6	0.23	6.6	0.5
HS1914-0.3(2.55-0.35)	1.9	1.4	0.3	2.55	0.35
HS1914-0.3 (3.2-1.1)	1.9	1.4	0.3	3.2	1.1
HS1914C	1.9	1.4	0.3	3.6	0.7
HS1914-0.3(4.4-2)	1.9	1.4	0.3	4.4	2
HS1914-0.3 (3.2-1.1)	1.9	1.4	0.3	3.2	1.1
HS1914-0.3 (3.8-1.2)	1.9	1.4	0.3	3.8	1.2
HS1914-0.3(4.4-2)	1.9	1.4	0.3	4.4	2
HS1916-0.3(4.7-0.8)	1.9	1.6	0.3	4.7	0.8
HS1916B	1.9	1.6	0.3	4.9	0.8

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS1917-0.3 (3.45-1)	1.9	1.75	0.3	3.45	1
HS1918-0.3 (5.8-2)	1.9	1.8	0.3	5.8	2
HS1918-0.3(7.8-4.2)	1.9	1.8	0.3	7.8	4.2
HS1918-0.3 (3.5-1)	1.95	1.8	0.3	3.5	1
HS1934-0.3(4.6-0.4)	1.9	3.4	0.3	4.6	0.4
HS2006-0.3 (3.2-2)	2	0.6	0.3	3.2	2
HS2008-0.3 (1.32-0.26)	2	0.8	0.3	1.32	0.26
HS2008F	2	0.8	0.3	1.7	0.45
HS2008-0.3 (1.8-0.3)	2	0.8	0.3	1.8	0.3
HS2008-0.3(2.8-1.0)	2	0.8	0.3	2.8	1
HS2008-0.3 (3.0-1.5)	2	0.8	0.3	3	1.5
HS2008-0.3 (3.4-0.8)	2	0.8	0.3	3.4	0.8
HS2008-0.3 (3.6-1.2)	2	0.8	0.3	3.6	1.2
HS2008-0.3(5.4-2.6)	2	0.8	0.3	5.4	2.6
HS2008-0.3(6-2.6)	2	0.8	0.3	6	2.6
HS2010-0.3(2.1-0.7)	2	1	0.3	2.1	0.7
HS2010-0.3(2.5-1)	2	1	0.3	2.5	1
HS2010-0.3 (3.2-1.2)	2	1	0.3	3.2	1.2
HS2011-0.3(2.1-0.5)	2	1.1	0.3	2.1	0.5

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS2012A	2	1.2	0.3	3.5	1.2
HS2012-0.3(6-1.8)	2	1.2	0.3	6	1.8
HS2012-0.3(6.7-1.5)	2	1.2	0.3	6.7	1.5
HS2013-0.3(2.3-0.5)	2	1.3	0.3	2.3	0.5
HS2014-0.3 (1.92-0.26)	2	1.4	0.3	1.92	0.26
HS2014-0.3(2.12-0.36)	2	1.4	0.3	2.12	0.36
HS2014-0.3(2.4-0.5)	2	1.4	0.3	2.4	0.5
HS2014D	2	1.4	0.3	3.1	0.45
HS2014-0.3(4.4-1.5)	2	1.4	0.3	4.4	1.5
HS2014-0.3(4.4-1)	2	1.4	0.3	4.4	1
HS2014-0.3(4.55-1.5)	2	1.4	0.3	4.55	1.5
HS2014-0.3(4.65-1.5)	2	1.4	0.3	4.65	1.5
HS2014-0.3 (5.5-1.9)	2	1.4	0.3	5.5	1.9
HS2014-0.3 (5.7-1.8)	2	1.4	0.3	5.7	1.8
HS2014-0.3(8.0-4.6)	2	1.4	0.3	8	4.6
HS2014-0.3(8-1.9)	2	1.4	0.3	8	1.9
HS2015-0.3 (3.25-0.75)	2	1.5	0.3	3.25	0.75
HS2016-0.3(2.7-0.7)	2	1.6	0.3	2.7	0.7
HS2016-0.3(2.8-0.5)	2	1.6	0.3	2.8	0.5

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS2016-0.3 (3.5-1.2)	2	1.6	0.3	3.5	1.2
HS2016-0.3 (3.6-1)	2	1.6	0.3	3.6	1
HS2016-0.3 (3.9-0.4)	2	1.6	0.3	3.9	0.4
HS2016E	2	1.6	0.3	3.9	0.6
HS2016-0.3(4.1-1)	2	1.6	0.3	4.1	1
HS2016-0.3(4.2-0.8)	2	1.6	0.3	4.2	0.8
HS2016-0.3(4.6-1.2)	2	1.6	0.3	4.6	1.2
HS2016-0.3 (4.6-1.8)	2	1.6	0.3	4.6	1.8
Ka2016-0.3(5-2.9)	2	1.6	0.3	5	2.9
HS2016-0.3 (5.2-1.8)	2	1.6	0.3	5.2	1.8
HS2016-0.3(8.0-4.6)	2	1.6	0.3	8	4.6
HS2016-0.3(8-1.8)	2	1.6	0.3	8	1.8
HS2016-0.3 (12-2.4)	2	1.6	0.3	12	2.4
HS2016-0.3(20.4-4.6)	2	1.6	0.3	20.4	4.6
HS2017-0.3 (3.3-0.8)	2	1.7	0.3	3.3	0.8
HS2017-0.3(8.5-2.0)	2	1.7	0.3	8.5	2
HS2018-0.3 (3.5-1)	2	1.8	0.3	3.5	1
HS2019-0.3-01	2	1.9	0.3
HS2020-0.3(3.4-0.4)	2	2	0.3	3.4	0.4

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS2020-0.3 (3.8-0.8)	2	2	0.3	3.8	0.8
HS2020-0.3 (5.6-2.8)	2	2	0.3	5.6	2.8
HS2020-0.3 (5.7-2.9)	2	2	0.3	5.7	2.9
HS2020-0.3(6-2)	2	2	0.3	6	2
HS2020-0.3(12-5)	2	2	0.3	12	5
HS2022F	2	2.2	0.3	3.1	0.45
HS2022-0.3 (3.2-0.7)	2	2.2	0.3	3.2	0.7
HS2023-0.3 (3.35-0.7)	2	2.3	0.3	3.35	0.7
HS2023-0.3 (3.7-0.7)	2	2.3	0.3	3.7	0.7
HS2025-0.3(4.8-0.9)	2	2.5	0.3	4.8	0.9
HS2025-0.3(6-1.5)	2	2.5	0.3	6	1.5
HS2025-0.38(7.4-1.4)	2	2.5	0.38	7.4	1.4
HS2026.5-0.3-01	2	2.6	5	0.3	0.1
HS2028-0.3(4.9-0.5)	2	2.8	0.3	4.9	0.5
HS2029-0.3 (4.1-0.8)	2	2.9	0.3	4.1	0.8
HS2029-0.3(4.9-0.5)	2	2.9	0.3	4.9	0.5
HS2030-0.3 (5.2-1.5)	2	3	0.3	5.2	1.5
HS2030-0.3 (5.8-1)	2	3	0.3	5.8	1
HS2030-0.3(8-2)	2	3	0.3	8	2

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS2030-0.3(9-1.5)	2	3	0.3	9	1.5
HS2034-0.3(4.4-0.7)	2	3.4	0.3	4.4	0.7
HS2035-0.3(6.6-1.8)	2	3.5	0.3	6.6	1.8
HS2035-0.3(6.65-1.3)	2	3.5	0.3	6.65	1.3
HS2035-0.3(7.1-1.3)	2	3.5	0.3	7.1	1.3
HS2035-0.3(9.5-3)	2	3.5	0.3	9.5	3
HS2036-0.3 (5.7-0.7)	2	3.6	0.3	5.7	0.7
HS2040A	2	4	0.3	5.1	0.8
HS2045-0.7 (11.5-2)	2	4.5	0.7	11.5	2
HS2050-0.3(6.4-0.7)	2	5	0.3	6.4	0.7
HS2507-0.38(2.2-0.3)	2.5	0.7	0.38	2.2	0.3
HS2508-0.38 (1.8-0.3)	2.5	0.8	0.38	1.8	0.3
HS2508-0.38(2-0.5)	2.5	0.8	0.38	2	0.5
HS2510-0.38 (3.6-1.3 )	2.5	1	0.38	3.6	1.3
HS2510-0.38(7-3)	2.5	1	0.38	7	3
HS2511-0.38(2..4-0.5)	2.5	1.1	0.38	2.4	0.5
HS2511-0.38 (3.7-0.6)	2.5	1.1	0.38	3.7	0.6
HS2512-0.38 (3.1-0.8)	2.5	1.1	0.38	3.7	0.6
HS4414-0.3(3.2-1.1)	4.4	1.4	0.3	3.2	1.1

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS2516-0.3(7.5-2.14)	2.5	1.6	0.3	7.5	2.14
HS2516-0.3(8-1.8)	2.5	1.6	0.3	8	1.8
HS2516-0.38 (3.5-0.7)	2.5	1.6	0.38	3.5	0.7
HS2516-0.38(4.1-1.25)	2.5	1.6	0.38	4.1	1.25
HS2516-0.38(4.3-1.2)	2.5	1.6	0.38	4.3	1.2
Ka2511-0.38(2.7-1.0)	2.5	1.1	0.38	2.7	1
Ka2516-0.38(2.9-0.3)	2.5	1.6	0.38	2.9	0.3
K2516-0.38(4-1.5)	2.5	1.6	0.38	4	1.5
HS2516-0.38(4.5-1.2)	2.5	1.6	0.38	4.5	1.2
HS2516-0.38(4.6-1)	2.5	1.6	0.38	4.6	1
HS2516E	2.5	1.6	0.38	4.6	1.5
HS2516G	2.5	1.6	0.38	4.6	1.5
HS2516-0.38(4.8-1.2)	2.5	1.6	0.38	4.8	1.2
HS2516-0.38(4.9-1.5)	2.5	1.6	0.38	4.9	1.5
HS2516-0.38 (5.1-1.6)	2.5	1.6	0.38	5.1	1.6
HS2516-0.38 (5.3-1.2)	2.5	1.6	0.38	5.3	1.2
Ka2516-0.38 (5.6-3.0)	2.5	1.6	0.38	5.6	3
HS2516-0.38(6.1-1.3)	2.5	1.6	0.38	6.1	1.3
HS2516-0.38(7.1-1.4)	2.5	1.6	0.38	7.1	1.4

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS2516-0.38(7.41-1.27)	2.5	1.6	0.38	7.41	1.27
HS2516F	2.5	1.6	0.38	7.45	4.55
HS2516-0.38-01	2.5	1.6	0.38	7.5	1.3
HS2516-0.38(8-1.8)	2.5	1.6	0.38	8	1.8
RF2516-0.38(8-4.6)	2.5	1.6	0.38	8	4.6
HS2516-0.38(8-5)	2.5	1.6	0.38	8	5
K2516-0.38(8-1.5)	2.5	1.6	0.38	8	1.5
K2516-0.38(8-5.9)	2.5	1.6	0.38	8	5.9
HS2516-0.38 (11.6-5)	2.5	1.6	0.38	11.6	5
HS2516-0.38(12-2.0)	2.5	1.6	0.38	12	2
HS2520-0.38(6-2)	2.5	2	0.38	6	2
HS2520-0.38(7.4-1.4)	2.5	2	0.38	7.4	1.4
HS2520-0.38(7.8-1.4)	2.5	2	0.38	7.8	1.4
HS2520-0.38(9.0-2.0)	2.5	2	0.38	9	2
HS2520-0.38(12-5)	2.5	2	0.38	12	5
HS2520-0.38(15-2)	2.5	2	0.38	15	2
HS2524-0.38 (5.7-1.1)	2.5	2.4	0.38	5.7	1.1
HS2526-0.38(6.6-2)	2.5	2.6	0.38	6.6	2
HS2530-0.38(3.6-0.3)	2.5	3	0.38	3.6	0.3

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
Ka2530-0.38 (4.6-1.0)	2.5	3	0.38	4.6	1
HS2530A	2.5	3	0.38	5	1
HS2530-0.38(7.5-1.5)	2.5	3	0.38	7.5	1.5
HS2530-0.38(8-0.4)	2.5	3	0.38	8	0.4
HS2530-0.38(8-2)	2.5	3	0.38	8	2
HS2530-0.38(9-3)	2.5	3	0.38	9	3
HS2530-0.38 (12-2.2)	2.5	3	0.38	12	2.2
HS2530-0.38 (13.9-8.2)	2.5	3	0.38	13.9	8.2
HS2530-0.38(20-4)	2.5	3	0.38	20	4
HS2533-0.38(6.5-1.2)	2.5	3.3	0.38	6.5	1.2
HS2535-0.38(7.5-2)	2.5	3.5	0.38	7.5	2
HS2537-0.38(7.7-2)	2.5	3.7	0.38	7.7	2
HS2540-0.38 (11-1.8)	2.5	4	0.38	11	1.8
HS2545-0.38(8-1.3)	2.5	4.5	0.38	8	1.3
HS2550-0.38(6.9-1.5)	2.5	5	0.38	6.9	1.5
HS2550-0.38(11-2)	2.5	5	0.38	11	2
HS2558-0.38(14.8-6)	2.5	5.8	0.38	14.8	6
HS2575-0.38(12-1.3)	2.5	7.5	0.38	12	1.3
HS2810-0.45(3.3-0.35)	2.8	1	0.45	3.3	0.35

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS2815-0.45(5.75-1.25)	2.8	1.5	0.45	5.75	1.25
HS2816-0.45(4.6-1.5)	2.8	1.6	0.45	4.6	1.5
HS2816-0.45(4.9-1.8)-R	2.8	1.6	0.45	4.9	1.8
HS2816-0.45(5.1-1.5)	2.8	1.6	0.45	5.1	1.5
HS2816-0.45(5.2-1.1)	2.8	1.6	0.45	5.2	1.1
HS2816-0.45(5.4-2)	2.8	1.6	0.45	5.4	2
HS2816-0.45(5.6-2)	2.8	1.6	0.45	5.6	2
HS2816-0.45(6.2-1.8)	2.8	1.6	0.45	6.2	1.8
HS2816-0.45(8.0-4.6)	2.8	1.6	0.45	8	4.6
HS2816-0.45(8-1.8)	2.8	1.6	0.45	8	1.8
HS2816-0.45 (11.6-5)	2.8	1.6	0.45	11.6	5
HS2816-0.45(12-3.0)	2.8	1.6	0.45	12	3
HS2831-0.45(5.2-1.8)	2.8	3.1	0.45	5.2	1.8
HS2843-0.45(8.3-2)	2.8	4.3	0.45	8.3	2
HS3015-0.5(4.3-0.8)	3	1.5	0.5	4.3	0.8
HS3016-0.5 (3.4-0.9)	3	1.6	0.5	3.4	0.9
HS3016-0.5(4.6-1)	3	1.6	0.5	4.6	1
HS3016-0.5(4.6-1.5)	3	1.6	0.5	4.6	1.5
HS3016B	3	1.6	0.38	4.9	1.8

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS3016-0.5 (5.6-2)	3	1.6	0.5	5.6	2
HS3016C	3	1.6	0.5	6.6	2
HS3016-0.5(6.6-2.5)	3	1.6	0.5	6.6	2.5
HS3016-0.5(7.5-2)	3	1.6	0.5	7.5	2
HS3016-0.5(7.5-3.9)	3	1.6	0.5	7.5	3.9
HS3016-0.5(7.8-2.0)	3	1.6	0.5	7.8	2
HS3016-0.5(9.65-3.05)	3	1.6	0.5	9.65	3.05
HS3016-0.5(12-5.0)	3	1.6	0.5	12	5
HS3016-0.5(14.3-1.5)	3	1.6	0.5	14.3	1.5
HS3020-0.5(5-1.8)	3	2	0.5	5	1.8
HS3020-0.5(6.0-1.5)	3	2	0.5	6	1.5
HS3020-0.5(6.5-2.2)	3	2	0.5	6.5	2.2
HS3020-0.5(6.5-2.3)	3	2	0.5	6.5	2.3
HS3020-0.5(6.8-1.8)	3	2	0.5	6.8	1.8
HS3020-0.5(7.5-2.2)	3	2	0.5	7.5	2.2
HS3020-0.5(8-2)	3	2	0.5	8	2
HS3020-0.5(8.5-2.2)	3	2	0.5	8.5	2.2
HS3020-0.5(8.5-4.3)	3	2	0.5	8.5	4.3
HS3020-0.5(10-4)	3	2	0.5	10	4

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS3020-0.5(10-1.5)	3	2	0.5	10	1.5
HS3020-0.5(12-4.0)	3	2	0.5	12	4
HS3020-0.5(12-5.0)	3	2	0.5	12	5
HS3020-0.5 (12-6)	3	2	0.5	12	6
HS3020-0.5(15-2)	3	2	0.5	15	2
HS3025-0.5 (5.4-1.2)	3	2.5	0.5	5.4	1.2
HS3030A	3	3	0.38	10	1.5
HS3030-0.5(6.5-2)	3	3	0.5	6.5	2
HS3030-0.5(6.6-1.8)	3	3	0.5	6.6	1.8
HS3030-0.5(7.5-2)-R	3	3	0.5	7.5	2
HS3030-0.5(8.8-1.8)	3	3	0.5	8.8	1.8
HS3030-0.5(10-2)	3	3	0.5	10	2
HS3030-0.5(12-3)	3	3	0.5	12	3
HS3030-0.5 (12-2)	3	3	0.5	12	2
HS3030-0.5(14-4.0)	3	3	0.5	14	4
HS3035-0.5(6-1)	3	3.5	0.5	6	1
HS3035-0.5 (11.5-4)	3	3.5	0.5	11.5	4
HS3040A	3	4	0.5	10.4	4
HS3042-0.5(9.0-2.2)	3	4.2	0.5	9	2.2

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS3045-0.5(8.5-2)	3	4.5	0.5	8.5	2
HS3047-0.5(9.4-2.2)	3	4.7	0.5	9.4	2.2
HS3047-0.5(12-5.1)	3	4.7	0.5	12	5.1
HS3050-0.5(9-2)	3	5	0.5	9	2
HS3052A	3	5.2	0.5	10.3	4
HS3057-0.5 (12.5-3)	3	5.7	0.5	12.5	3
HS3620-0.5(9-2.5)	3.6	2	0.5	9	2.5
HS3616-0.6 (12.2-1.6)	3.6	1.6	0.6	12.2	1.6
HS3625-0.6(6.5-2)	3.6	2.5	0.6	6.5	2
HS2540-0.8(27-5)	2.5	4	0.8	27	5
HS4030A	4	3	1	10.6	4.6
HS5010-0.8 (5.9-2.45)	5	1	0.8	5.9	2.45
HS5015-0.8(7.3-4.9)	5	1.5	0.8	7.3	4.9
HS5016B	5	1.6	0.8	5.6	2
HS5016-0.8(8.6-3.0)	5	1.6	0.8	8.6	3
HS5030-0.8 (17.2-2)	5	3	0.8	17.2	2
HS5040-0.8 (12-3)	5	4	0.8	12	3
HS5060-0.8 (11.5-2.5)	5	6	0.8	11.5	2.5
HS5065-0.8 (13.7-3)	5	6.5	0.8	13.7	3

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS5065-0.8 (15.5-3)	5	6.5	0.8	15.5	3
HS5516-0.9(8.3-2.8)	5.5	1.6	0.9	8.3	2.8
HS5516-0.9(8.5-2.8)	5.5	1.6	0.9	8.5	2.8
HS5516-0.9(8.7-2.8)	5.5	1.6	0.9	8.7	2.8
HS5516-0.9(8.9-2.8)	5.5	1.6	0.9	8.9	2.8
HS5516-0.9(9.1-2.8)	5.5	1.6	0.9	9.1	2.8
HS5516-0.9 (11.9-2.8)	5.5	1.6	0.9	11.9	2.8
HS5516-0.9 (12.6-2)	5.5	1.6	0.9	12.6	2
HS5516-0.9 (13.8-2.8)	5.5	1.6	0.9	13.8	2.8
HS5525-0.9(9.7-1.6)	5.5	2.5	0.9	9.7	1.6
HS5525-0.9(16-5)	5.5	2.5	0.9	16	5
HS5530-0.9(8.8-2.3)	5.5	3	0.9	8.8	2.3
HS5530-0.9(9.6-2.3)	5.5	3	0.9	9.6	2.3
HS5530-0.9 (13.8-2.8)	5.5	3	0.9	13.8	2.8
HS5530A	5.5	3	1.35	13.5	7.5
HS5530B	5.5	3	1.35	13.8	7.8
HS6016-1.0(8.5-1.5)	6	1.6	1	8.5	1.5
HS6840-0.9(7-1.5)	6.8	4	0.9	7	1.5
HS8330-1.3(13-5)	8.3	3	1.3	13	5

Impedimentum proprium 50Ω - nucleum unum plana caput

Impedimentum proprium 50Ω - nucleum unum plana caput

Model	Magnitudo (mm)
Model	A	B	C	D	E
Ka2008-0.3 (1.4-0.3)	2	0.8	0.3	1.4	0.3
HS2008-0.3 (1.65-0.35)	2	0.8	0.3	1.65	0.35
Ka2008-0.3 (1.8-0.3)	2	0.8	0.3	1.8	0.3
HS2010-0.3 (1.9-0.35)	2	1	0.3	1.9	0.35
HS2010-0.3(2-0.5)	2	1	0.3	2	0.5
HS2010-0.3(2.5-0.5)	2	1	0.3	2.5	0.5
HS2013-0.3(2.4-0.4)	2	1.3	0.3	2.4	0.4
HS2014-0.3(2.6-0.4)	2	1.4	0.3	2.6	0.4
HS2014E	2	1.4	0.3	2.3	0.45
HS2014F	2	1.4	0.3	2.35	0.5
HS2016-0.3-01	2	1.6	0.3	3.1	1
HS2016-0.3 (3.3-0.7)	2	1.6	0.3	3.3	0.7
HS2016-0.3-02	2	1.6	0.3	3.3	1
HS2016-0.3 (5.6-2)	2	1.6	0.3	5.6	2
HS2019-0.3(3-0.35)	2	1.9	0.3	3	0.35
HS2020-0.3-02	2	2	0.3	3.5	0.5
HS2020-0.3 (3.6-0.8)	2	2	0.3	3.6	0.8
HS2030-0.3(4.2-0.7)	2	3	0.3	4.2	0.7

Core rotundum, unum caput, proprium impedimentum 50Ω

Core rotundum, unum caput, proprium impedimentum 50Ω

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS8740-1.38(8.4-3.2)	8.7	4	1.38	8.4	3.2
HS9430-1.5(9-3)	9.4	3	1.5	9	3
HS9430-1.5 (11-4)	9.4	3	1.5	11	4
HS9640-1.5(9.2-3.2)	9.6	4	1.5	9.2	3.2
HS10050-1.7 (15-5)	10	5	1.7	15	5
HS130100-3(18-4)	13	10	3	18	4

Impedimentum Proprium 50Ω - Single Core Round Tip

Impedimentum Proprium 50Ω - Single Core Round Tip

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS2330-0.23(5.3-0.3)	2.3	3	0.23	5.3	0.3
HS2815-0.3 (5.2-1.2)	2.8	1.5	0.3	5.2	1.2
HS2815-0.3(7.2-1.2)	2.8	1.5	0.3	7.2	1.2
HS2635-0.3(7.1-1.3)	2.6	3.5	0.3	7.1	1.3
HS3822-0.5(14.4-3.7)	3.8	2.2	0.5	14.4	3.7
HS3525-0.5 (11.5-6)	3.5	2.5	0.5	11.5	6

Impedimentum proprium 50Ω - nucleum unum plana caput

Impedimentum proprium 50Ω - nucleum unum plana caput

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS2516-0.38(5.1-2)	2.5	1.6	0.38	5.1	2
HS2516-0.38(7.37-4.5)	2.5	1.6	0.38	7.37	4.5
HS2517-0.38-01	2.5	1.7	0.38	2.7	0.65
HS2520-0.38 (3.2-0.5)	2.5	2	0.38	3.2	0.5
HS2525-0.38-01	2.5	2.5	0.38	3.65	0.65
HS2530-0.38(7.5-2.5)	2.5	3	0.38	7.5	2.5
HS2816-0.45(4.9-1.8)	2.8	1.6	0.45	4.9	1.8
HS2816-0.45-01	2.8	1.6	0.45	5	3
HS2816-0.45(6-1.5)	2.8	1.6	0.45	6	1.5
HS3030-0.5(7.5-2)	3	3	0.5	7.5	2

Impedimentum proprium 50Ω - nucleum unum plana rotunda tip

Impedimentum proprium 50Ω - nucleum unum plana rotunda tip

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
HS2006-0.3 (3.1-1.8)	2	0.6	0.3	3.1	1.8
HS2010-0.3 (3.5-2)	2	1	0.3	3.5	2
HS2020-0.3-01	2	2	0.3	3.7	0.6
HS2035-0.3(6.4-1.8)	2	3.5	0.3	6.4	1.8
HS2816-0.45 (11.7-7.6)	2.8	1.6	0.45	11.7	7.6
HS3020-0.5(10-6.5)	3	2	0.5	10	6.5
HS3216-0.5(7.1-4)	3.2	1.6	0.5	7.1	4
HS6448-1.0(10.2-3.5)	6.4	4.8	1	10.2	3.5

Ka2032-0.3 (4.5-1.3)

Exemplar

Ka2032-0.3 (4.5-1.3)
K2010-0.3(1.05-0.05)

Model

K2010-0.3(1.05-0.05)
HS2510-0.3-02

Exemplar

HS2510-0.3-02
HS3520-0.5 (3.4-0.3)

Exemplar

HS3520-0.5(3.4-0.3)
Ka3216-0.5 (5.85-1.5)

Exemplar

Ka3216-0.5 (5.85-1.5)
K2515-0.38(2.9-0.3)

Model

K2515-0.38(2.9-0.3)
2-K482515-0.38(2.9-0.3)

Model

2-K482515-0.38(2.9-0.3)
KW2016-0.3(0.7-1.6)

Exemplar

KW2016-0.3(0.7-1.6)
KW2016-0.3(1-2.2)

Model

KW2016-0.3(1-2.2)
KW2025-0.3(1-2.2)

Exemplar

KW2025-0.3(1-2.2)
JPW2040-0.3-01

Model

JPW2040-0.3-01
KW2018-0.3(0.95-2.1)

Exemplar

KW2018-0.3(0.95-2.1)

Non-50Ω Proprium Impedimentum-Single Core Round consilium

Non-50Ω Proprium Impedimentum-Single Core Round consilium

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
JD1515-0.4(5-1.5)	1.5	1.5	0.4	5	5
JD1615-0.4(8-1.9)	1.6	1.5	0.4	8	8
JD1616-0.4(30-14.2)	1.6	1.6	0.4	30	30
JD1614-0.45 (11.4-5)	1.6	1.4	0.45	11.4	11.4
JD1616-0.45(4.65-1.05)	1.6	1.6	0.45	4.65	4.65
JD1616-0.45(16-4)	1.6	1.6	0.45	16	16
JD1616-0.45(30-14.2)	1.6	1.6	0.45	30	30
JD2020-0.45(6.3-3)	2	2	0.45	6.3	6.3
JD2020-0.45(10-4)	2	2	0.45	10	10
JD1614-0.5(9-4)	1.6	1.4	0.5	9	9
JD1616-0.5(30-14.2)	1.6	1.6	0.5	30	30
JD1619-0.5 (5.1-2)	1.6	1.9	0.5	5.1	5.1
HS2015-0.5(7.5-3)	2	1.5	0.5	7.5	7.5
JD2016-0.5(12-5.8)-R	2	1.6	0.5	12	12
HS2018-0.5(9.5-1.5)	2	1.8	0.5	9.5	9.5
HS2018-0.5 (11.5-7.2)	2	1.8	0.5	11.5	11.5
HS2030-0.5(10-2)	2	3	0.5	10	10
JD1919-0.6(7.9-1.9)-R	1.9	1.9	0.6	7.9	7.9

Non-50Ω Proprium Impedimentum-Single Core Round consilium

Non-50Ω Proprium Impedimentum-Single Core Round consilium

Model	Magnitudo (mm)
Model	A	B	C	D	E
HS2040-0.6(6-1)	2	4	0.6	6	1
JD1818-0.7(10-6)	1.8	1.8	0.7	10	6
JD1818-0.7(22.2-0.4)	1.8	1.8	0.7	22.2	0.4
HS2016-0.7 (4.6-1.5)	2	1.6	0.7	4.6	1.5
HS2016-0.7(6.3-1.5)	2	1.6	0.7	6.3	1.5
HS2016-0.7(7.1-1.5)-R	2	1.6	0.7	7.1	1.5
HS2016-0.7(7.6-1.5)	2	1.6	0.7	7.6	1.5
HS2016-0.7(9.6-4)	2	1.6	0.7	9.6	4
K2016-0.7 (11-4.6)	2	1.6	0.7	11	4.6
HS2016-0.7 (11.6-5)	2	1.6	0.7	11.6	5
HS2016-0.7 (17-15.1)	2	1.6	0.7	17	15.1
HS2016-0.7(20-0.3)	2	1.6	0.7	20	0.3
HS2017-0.7(9.7-3)	2	1.7	0.7	9.7	3
HS2035-0.7 (13-3)	2	3.5	0.7	13	3
HS2020-0.75 (12-4)	2	2	0.75	12	4
HS2015-0.8(6.5-3)	2	1.5	0.8	6.5	3
JD2015-0.8 (10.5-3)	2	1.5	0.8	10.5	3
JD2063-0.5(10.3-2)	2	6.3	0.5	10.3	2

Non-50Ω Proprium Impedimentum-Single Core Round consilium

Non-50Ω Proprium Impedimentum-Single Core Round consilium

Model	Magnitudo (mm)
Model	A	B	C	D	E
JD2518-0.8 (12.8-5)	2.5	1.8	0.8	12.8	5
JD2520-0.8 (14-4)	2.5	2	0.8	14	4
JD2540-0.8(10-4)	2.5	4	0.8	10	4
JD3218-0.8(51.8-20)	3.2	1.8	0.8	51.8	20
JD2530-0.9(6.6-1.8)	2.5	3	0.9	6.6	1.8
JD2540A	2.5	4	0.8	10	4
JD2816-1(6.6-2)	2.8	1.6	1	6.6	2
K2816-1.0(16-10)	2.8	1.6	1	16	10
JD3218-1(27-15)	3.2	1.8	1	27	15
JD3015-1.3(10.2-6.1)	3	1.5	1.3	10.2	6.1
JD3015-1.3(10.5-3)	3	1.5	1.3	10.5	3
JD3430-1.4(10.5-4.5)	3.4	3	1.4	10.5	4.5
JD12940-1.7(10-3)	12.9	4	1.7	10	3
JD3916-2(6.6-2)	3.9	1.6	2	6.6	2

Non-50Ω proprium impedimentum-uno core plana caput

Non-50Ω proprium impedimentum-uno core plana caput

Model	Magnitudo (mm)
Model	A	B	C	D	E
JD1510-0.3-01	1.5	1	0.3	5.5	1.5
JD1315-0.35-01	1.3	1.5	0.35	3.5	0.3
JD1515-0.4(4.5-0.5)	1.5	1.5	0.4	4.5	0.5
JD1516-0.4-01	1.5	1.6	0.4	14.6	1
JD1615-0.5(7-0.5)	1.6	1.5	0.5	7	0.5
JD1619-0.5(8.7-3)	1.6	1.9	0.5	8.7	3
JD1619-0.5(10.3-4.6)	1.6	1.9	0.5	10.3	4.6
JD2016-0.5(4.5-0.6)	2	1.6	0.5	4.5	0.6
JD2016-0.5(12-5.8)	2	1.6	0.5	12	5.8
JD2020-0.5-01	2	2	0.5	5.2	0.5
JD2044-0.5(6.3-0.4)	2	4.4	0.5	6.3	0.4
JD1919-0.6(7.9-1.9)	1.9	1.9	0.6	7.9	1.9
RF2010-0.7(6.0-3.0)	2	1	0.7	6	3
JD2015-0.8(6.5-3)	2	1.5	0.8	6.5	3
RF2016-0.8(6.6-4.5)	2	1.6	0.8	6.6	4.5
JD2816-1(10.3-4.9)	2.8	1.6	1	10.3	4.9

Non-50Ω Proprium Impedimentum-Single Core Flat Round consilium

Non-50Ω Proprium Impedimentum-Single Core Flat Round consilium

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E
RF1515-0.38(2.9-0.3)	1.5	1.5	0.38	2.9	0.3
JD1614-0.5 (17.9-0.5)	1.6	1.4	0.5	17.9	0.5
JD1615-0.5(9-2.5)	1.6	1.5	0.5	9	2.5
JD2016-0.7(8.1-4.5)	2	1.6	0.7	8.4	4.5
JD2040-0.6(10-4.5)	2	4	0.6	10	4.5
JD2016-0.7(9.1-2.5)	2	1.6	0.7	9.1	2.5
JD2035-0.7(22-3)	2	3.5	0.7	22	3

Impedimentum Non-50Ω Proprium - Type Nail Caput

Impedimentum Non-50Ω Proprium - Type Nail Caput

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E	F	G
JD1616-0.45(4.2-1.5)	1.4	1.5	4.2	0.45	1.6	0.8	0.3
JD1614-0.45(6.2-0.8)	1.4	0.8	6.2	0.45	1.6	0.8	0.3
JD1614-0.45(6.9-1.5)	1.4	1.5	6.9	0.45	1.6	0.8	0.2
JD1620-0.45(7-1)	2	1	7	0.45	1.6	1	0.3
JD1630-0.5(7.5-0.5)	3	0.5	7.5	0.5	1.6	0.6	0.2
JD1630-0.5(10.5-0.5)	3	0.5	10.5	0.5	1.6	0.6	0.2
JD1816-0.5(20-0.5)	1.6	0.5	20	0.5	1.8	0.7	0.3
JD2020B	2	2	0.6	5.7	1

JP2016-0.7(7.1-1.5)

JP2016-0.7(7.1-1.5)

Exemplar

JP2016-0.7(7.1-1.5)

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E	F	G
JD1614-0.45(6.9-1.5)-R	1.4	1.5	6.9	0.45	1.6	0.8	0.2
JD1630-0.5(7.5-0.5)-R	3	0.5	7.5	0.5	1.6	0.6	0.2

Impedimentum Non-50Ω Proprium - Type Nail Caput

Impedimentum Non-50Ω Proprium - Type Nail Caput

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E	F	G
JD1614-0.45(6.9-1.5)-R	1.4	1.5	6.9	0.45	1.6	0.8	0.2
JD1630-0.5(7.5-0.5)-R	3	0.5	7.5	0.5	1.6	0.6	0.2

JD1516-0.4-02

Exemplar

JD1516-0.4-02
RF1816-0.8(6.6-4.5)-2

Exemplar

RF1816-0.8(6.6-4.5)-2
2-RF281515-0.38(2.9-0.3)

Exemplar

2-RF281515-0.38(2.9-0.3)
2-RF301516-0.5(5.85-1.5)

Model

2-RF301516-0.5(5.85-1.5)
JD301520-0.5-01

Exemplar

JD301520-0.5-01
JD301515-0.5-01

Model

JD301515-0.5-01
JD201315-0.35-01

Exemplar

JD301515-0.5-01
JD271516-0.4-02

Model

JD271516-0.4-02
JD271516-0.4-01

Model

JD271516-0.4-01
JD2615-0.35-01

Model

JD2615-0.35-01
3-RF411515-0.38(2.9-0.3)

Model

3-RF411515-0.38(2.9-0.3)
3-RF421516-0.5(5.85-1.5)

Exemplar

3-RF421516-0.5(5.85-1.5)
JD261516-0.3-01

Exemplar

JD261516-0.3-01
JD391516-0.4-01

Exemplar

JD391516-0.4-01
JD2815-0.35-01

Exemplar

JD2815-0.35-01
RF3416-0.8(6.6-4.5)-4

Model

RF3416-0.8(6.6-4.5)-4
4-RF3416-0.5 (5.85-1.5)

Exemplar

4-RF3416-0.5(5.85-1.5)
JD341315-0.35-01

Model

JD341315-0.35-01
JD272716-0.4-01

Exemplar

JD272716-0.4-01
JD511516-0.4-01

Exemplar

JD511516-0.4-01
JD2016-0.3-01

Model

JD2016-0.3-01
JD3115-0.35-01

Model

JD3115-0.35-01
JD631516-0.4-01

Model

JD631516-0.4-01
RF1816-0.8(6.6-4.5)-6

Model

RF1816-0.8(6.6-4.5)-6
6-RF811515-0.5(0.5-8.2)

Exemplar

6-RF811515-0.5(0.5-8.2)
6-RF821515-0.5(5.5-2.5)

Exemplar

6-RF821515-0.5(5.5-2.5)
JD501516-0.4-01

Model

JD501516-0.4-01
JD811520-0.5-0.1

Model

JD811520-0.5-0.1
7-RF941515-0.5(5.5-2.5)

Model

7-RF941515-0.5(5.5-2.5)
JD1201515-0.5-01

Model

JD1201515-0.5-01
JD1201515-0.5-02

Exemplar

JD1201515-0.5-02
RF1816-0.8(6.6-4.5)-9

Model

RF1816-0.8(6.6-4.5)-9
JYZ22-0.45-01

Model

JYZ22-0.45-01

Impedimentum Non-50Ω Characteristic - Multi-Core

Impedimentum Non-50Ω Characteristic - Multi-Core

Exemplar	Magnitudo (mm)
Exemplar	A	B	C	D	E	F	G	H	a viverra-per	row	Terminatio
JD156018-0.3(27.2-0.8)-8	27.2	0.8	1.4	6	1.8	0.6	0.3	0	8	1	Interiorem conductor superioris faciem compagem
JD151152-0.3(4.5-1.5)-9	4.5	1.5	1.5	11.5	2	1.27	0.3	0	9	1	solidamentum
2-JD162020-0.3(5-1.7)-4	A1=5 A2=3.6	B1 = 1.7 B2=1	1.6	2	2	0.57	0.3	0.57	4	2	Plana compages utrinque conductores interioris
2-JD162020-0.3(7.6-1.7)-4	A1=7.6 A2=3.6	B1 = 1.7 B2=1	1.6	2	2	0.57	0.3	0.56	4	2	Plana compages utrinque conductor interiores fines
JD158215-0.38(7-0.8)-6	7	0.8	1.5	8.2	1.5	1.27	0.38	0	6	1	Superior clavus capitis facies compages
JD153015-0.38(8-1.9)-2	8	1.9	1.5	3	1.5	1.27	0.38	0	2	1	iuncta
2-JD162525-0.38(10.6-3.5)-4	10.6	3.5	1.6	2.5	2.5	0.71	0.38	0.71	4	2	solidamentum
2-JD187425-0.38(3.8-1)-16	A1=3.8 A2=5.2	B1=1 B2=1.7	1.8	7.4	2.5 4	0.88	0.38	1.02	16	2	Interius conductor terminos complanata et religata transversa
JD1510516-0.45(7.5-2)-8	7.5	2	1.5	10.5	1.6	1.27	0.45	0	8	1	solidamentum
JD155515-0.5(5.7-1.7}-4	5.7	1.7	1.5	5.5	1.5	1.27	0.5	0	4	1	Interius conductor superius complanatis compage
JD1512015-0.5(5.8-2.5)-9	5.8	2.5	1.5	12	1.5	1.27	0.5	0	9	1	Inferiorem interiorem conductor complanatis parte compages
JD153015-0.5(7-0.5)-2	7	0.5	1.5	3	1.5	1.27	0.5	0	2	1	Vinculum interioris conductor finit

Impedimentum Non-50Ω Characteristic - Multi-Core

Impedimentum Non-50Ω Characteristic - Multi-Core

Model	Magnitudo (mm)
Model	A	B	C	D	E	F	G	H	a viverra-per	row	Terminatio
JD153815-0.5(7.7-1.2)-2	7.7	1.2	1.5	3.8	1.5	2.1	0.5	0	2	1	Interius conductor superius complanatis compage
JD153015-0.5 (13.5-4)-2	13.5	4	1.5	3	1.5	1.27	0.5	0	2	1	Welding
JD1613215-0.5(10.6-2)-10	10.6	2	1.6	13.2	1.5	1.27	0.5	0	10	1	solidamentum
JD302915-0.5(8-1)-2	8	1	3	2.9	1.5	1.27	0.5	0	2	1	Interiorem conductor superioris faciem compagem
2-JD165528-0.5(7.6-1)-8	7.6	1	1.6	5.5	2.8	1.07	0.5	0	8	2	Interiorem conductor superioris faciem compagem
2-JD154330-0.5(5.8-2)-5	Al=5.8 A2=5.1	B1=2 B2=1.3	1.5	4.3	3	1.27	0.5	1.5	5	2	Venditor superiorem partem adulatione
2-JD156830-0.5(5.8-2)-9	Al=5.8 A2=5.1	B1=2 B2=1.3	1.5	6.8	n	1.27	0.5	1.5	6	2	CONDORSUS adulatione interioris conductoris superioris partis
2-JD1512030-0.5(9.3-2.8)-18	A1=9.3 A2=8	B1=2.8 B2=1.5	1.5	12	3	1.27	0.5	1.5	18	2	Welding adulatione interioris conductor terminos
3-JD155545-0.5(9.5-4)-12	Al=9.5 A2=7.5 A3=5.5	B1=4 B2=3 B3=2	1.5	5.5	4.5	1.27	0.5	1.5	12	3	solidamentum
2-JD207015-0.6(7-3)-10	A1=7 A2=6	B1=3 B2=2	2	7	1.5	1.27	0.6	1.5	10	2	Interius conductor complanata et religata utrinque
2-JD3012230-0.6(10.8-5)18	10.8	5	3	12.2	3	1.27	0.6	1.5	18	2	Inferius interiorem conductor parte complanata compages

JYZ22-0.45-02

Exemplar

JYZ22-0.45-02

CONTACTUM SERVATE

De Us

Ningbo Hanson Communicatio Technology Co., Ltd.

Ningbo Hanson Communication Technology Co., Ltd.

Ningbo Hanson Communication Technology Co., Ltd. est Sinae RF Glass Insulator Fornitor et Ad Hoc RF Glass Insulator Societas. Sumus fabricator specializatus in productione, processu, et commercio componentium communicationis, cum plus quam 30 annis experientiae in connectris coaxialibus RF, adaptoribus, et catervis funium. Societas nunc suum officinam machinalem, officinam electroincrustationis, officinam congregationis, et catervam stabilium et fidelium fornitorum evolvit. Propositum societatis est clientibus praebere producta summae qualitatis. Producta principalia sunt connectri coaxiales RF, adaptores, catervae funium altae frequentiae, et catervae funium humilis intermodulationis. Praeterea, societas etiam servitia praebere potest clientibus cum necessitatibus ad hoc factis ut speciales clientium requisitiones pro productis satisfaciat. Producta societatis late adhibentur in astronautica, stationibus basium communicationis, apparatibus medicis, et aliis campis altae technologiae. Tempore reformationis, innovationis, evolutionis, et incrementi societatis, societas sponte se coniunxit systemati administrationis qualitatis internationali ISO9001 et gradum administrationis continenter melioravit ut producta et servitia magis satisfacientia clientibus veteribus et novis praebeat.

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