CAVI COASSIALI - Communications Emergency Rescue · rg 19 a/u rg 220/u – m 17/81 - 00001 rg 220...

CAVI COASSIALI

COAXIAL CABLES

Pagina Sigla DescrizionePage Ref. Description

4 Parametri dei cavi coassialiCoaxial cables parameters

6 Corrispondenze Intercond-normative internazionaliCross reference Intercond-international standards

7 Corrispondenze fra tipi secondo MIL C-17 Cross reference list between MIL C-17 types

8 Potenza trasmissibile Power rating

10 Coassiali non alogeni Halogen free coaxial cables

12 Coassiali 50 Ω dielettrico polietilene solido Coax 50 Ω solid polyethylene dielectric

15 Coassiali 50 Ω dielettrico polietilene cellulare Coax 50 Ω foam polyethylene dielectric

17 Coassiali 50 Ω dielettrico Teflon®

Coax 50 Ω Teflon®

dielectric19 Coassiali 75 Ω dielettrico polietilene solido

Coax 75 Ω solid polyethylene dielectric22 Coassiali 75 Ω dielettrico polietilene cellulare

Coax 75 Ω foam polyethylene dielectric25 Coassiali 75 Ω dielettrico Teflon®

Coax 75 Ω Teflon®

dielectric26 Coassiali 93 ÷ 120 Ω dielettrico polietilene solido

Coax 93 ÷ 120 Ω solid polyethylene dielectric28 Coassiali 93 ÷ 120 Ω dielettrico polietilene cellulare

Coax 93 ÷ 120 Ω foam polyethylene dielectric29 Coassiali 93 ÷ 120 Ω dielettrico Teflon®

Coax 93 ÷ 120 Ω Teflon®

dielectric30 Biassiali 93 ÷ 120 Ω

Twinaxial 93 ÷ 120 Ω32 Triassiali 50 Ω

Triaxial 50 Ω33 Triassiali 75 Ω

Triaxial 75 Ω35 Multicoassiali 75 Ω

Multicoaxial 75 Ω37 Multicoassiali 93 Ω

Multicoaxial 93 Ω

IndiceIndex

4

Parametri dei cavi coassialiCoaxial cables parameters

I cavi coassiali sono caratterizzati da alcuni parametrifondamentali, interdipendenti fra loro, che nestabiliscono le caratteristiche. Essi sono:

Impedenza caratteristica “Z0”Espressa in Ohm.

Il valore di Impedenza indica l’opposizione complessivaal flusso degli elettroni offerta dauna linea di trasmissione. In unsistema di trasmissione a lungadistanza o in alta frequenza, éimportante che la “Z0” del cavocorrisponda con quella del sistemaricevente. Se c’è differenza di “Z0”alla giunzione, si avrà unariflessione elettrica che distorceràsia la forza che la qualità delsegnale. Altrettanto importante, in particolare nellelinee coassiali, é l’uniformità della “Z0”. Se la qualità delconduttore, la geometria del cavo e la uniformità deldielettrico non saranno costanti, si avranno delleriflessioni interne che causeranno distorsioni e perditedel segnale. (fig.1)

Capacità “C”Misurata in Farad/Unità di

lunghezza.Con questo termine si esprime lacapacità di un materiale dielettrico,posto fra due conduttori, diconservare le carica dielettricaquando esiste una differenza dipotenziale fra i due conduttoristessi. Nelle linee per latrasmissione dati é preferibileutilizzare cavi con bassa capacità,per permettere trasmissioni sudistanze più lunghe. Si userannoquindi materiali con bassa costantedielettrica come polipropilene omateriali cellulari.(fig.2)

Attenuazione “α”Misurata in dB/Unità di

lunghezza.L’attenuazione determina il livellodi trasmissione di una linea.Normalmente il rapporto fra ilvoltaggio di entrata e quello diuscita. L’attenuazione di un impulsodigitale si risolve in unadegradazione e distorsione del

All coaxial cables are characterized by some groundparameters which establish their characteristics.They are:

Characteristic Impedance “Zo”Expressed in Ohm.

The value of Impedance shows the overall bucking to theflow of electrons that a transmissionline offers. For long distance or highfrequency transmission system it isimportant that the cablecharacteristic impedance correspondsto the one of the receiving system.. Ifthere is a difference of characteristicimpedance at the junction, there willbe an electrical reflection that willdistort both the strength and the

quality of the signal. The uniformity of the characteristicimpedance is as well important particularly in the coaxiallines. If the conductor quality, the cable geometry and thedielectric uniformity will not be constant, there will beinternal reflections that will cause distortions and signallosses. (fig.1)

Capacitance “C”Measured in Farad/Length Unit.

This value shows the capacity of adielectric material, insertedbetween two conductors, to keep thedielectric charge when a differenceof potential exists between theconductors. For the data tran-smission lines is preferable to makeuse of cables with low capacitanceto allow for tran-smissions atlonger distances. Materials withlow dielectric constant, such aspolypropylene or cellular materials,will therefore be utilised. (fig.2)

Attenuation “α“Measured in dB/Length

Unit.The attenuation determines thetransmission level of a line. Theattenuation value is normallyexpressed as a ratio of the inputvoltage to the output voltage.Theattenuation of a digital pulse resultsin a degradation and distortion ofthe signal with a loss in the voltagepeak and a slowing down of the

Z =1

VrcCΩO

Fig. 1

ε

d D

Coassiale/Coaxial

C = ε18 log D

d

ε

d D

Biassiale/Twinaxial

a

C =ε

36 log 2 D

d

D – a2 2

D + a2 2

Fig. 2

5

pulse. The two main factors that cause the attenuationare the resistive loss of the conductors (mainly due to theskin effect in high frequency) and the loss in thedielectric. The sum of these two factors represents the totalattenuation.

Power ratingThe power of a signal trasmitted in a coaxial

cable is limited by the heating and softening of thedieletric The heat loss in the cable grows as frequency,dieletricconstant and dissipation factor increase.Asconsequence, the power rating depends on cabledimension and ambient temperature and voltagereflection.

Velocity of propagation “Vp”.Measured in percentage.

The velocity of propagation or the propagation lag is thetime required by a signal to travelthrough a transmission line.The velocity of propagation is theratio of the signal speed in itstransmission mean (insulation) tothe signal speed in the air, expressedin percentage. This value is essentially a functionof the dielectric constant of the

insulation material. (fig.3)

ReflectionDimensional or material irregularities along a coaxialline caused by manufacturing errors, badly assembled orwrong connectors, or terminations, affect thecharacteristic Impedance.At each impedance deviationfrom the nominal value, a portion of signal isreflected,increasing the signal loss and reducing thepower rating. Reflections increase as the frequency goesup and irregular reflection peaks can be found whencable is tested. Reflections are expressed by the reflectioncoefficient,the voltage standing wave ratio (SWR) andthe structural return loss.Table (page 6) is a cross reference for reflectionmeasures.

segnale stesso, con una perdita nel picco di voltaggio erallentamento dell’impulso. I due fattori principali checausano l’attenuazione sono la perdita resistiva deiconduttori (principalmente dovuta all’effetto pellicolarein alta frequenza) e la perdita nel dielettrico.La somma di questi due fattori dà l’attenuazione totale.

Potenza trasmissibileLa potenza massima trasmissibile in un cavo

coassiale é limitata dal riscaldamento dello stesso e dallatemperatura di rammollimento del dielettrico.La perditaper il calore sarà maggiore quanto più alte saranno lafrequenza, la costante dielettrica e il fattore didissipazione. La potenza trasmissibile dipende quindi daimateriali e dalle dimensioni del cavo oltre, naturalmente,alla temperatura ambiente e alle riflessioni.

Velocità di propagazione “Vp”Misurata in percentuale.

La velocità di propagazione, o ritardo di propagazione, éil tempo richiesto da un segnale perviaggiare attraverso una linea ditrasmissione.Con “Vp” si intende il rapporto frale velocità del segnale nel suo mezzodi trasporto (isolamento) e lavelocità dello stesso nell’aria,espresso in percentuale. Questo valore é essenzialmente infunzione della costante dielettrica del materialedell’isolamento. (fig.3)

RiflessioniLungo una linea coassiale, ogni irregolarità dimensionaleo dei materiali causata da una cattiva lavorazione oppureconnessioni eseguite male o con componenti non adatti,provocano delle irregolarità nell’impedenza caratteristica.Ad ogni variazione di impedenza rispetto al valorenominale una parte del segnale viene riflessoaumentando così le perdite e riducendo la potenzatrasmissibile. Le riflessioni aumentano quando lafrequenza sale e dei picchi irregolari di riflessionepotrebbero essere rilevati durante la prova del cavo. Leriflessioni sono espresse dal coefficiente di riflessione, dalSWR (Stading wave ratio) e dal return loss.La tabella (pag.6) è una tavola comparativa per le misuredi riflessione.

Fig. 3

=++εrVp = 1

1 = velocità della luce/speed of lightεr = costante dielettrico/dielectric constant

Vr = velocità di propagazione relativac = velocità della luce m/secC = capacità in pF/mε = costante dielettrica

Vr = speed of signal propagationc = speed of light m/secC = capacitance pF/mε = dielectric constant

Tavola di conversione per return loss,coefficiente di riflessione e SWRConversion table for return loss,reflection coefficient and SWR

Corrispondenze fra tipi Interconde normative internazionaliCross reference list between Intercondtypes and international standards

6

INTERCOND MIL NF C 93-550 BS 2316 IEC 96-2Ref/Type

DT 58/1 RG 58 C/U KX 15 URM 76 50-3-1

DT 58/2 RG 58 C/U – URM 43 50-3-3

DT 08/3 RG 213/U KX 4 URM 67 5-7-1

RG 174 RG 174 A/U KX 3A URM 116 50-2-1

RG 177 RG 177 A/U – – 50-17-3

RG 178 RG 178 B/U KX 21 A URM 110 50-1-1

RG 196 RG 196 A/U – – 50-1-2

RG 214 RG 214/U KX 13 URM 112 –

RG 218 RG 218/U KX 14 URM 74 50-17-1

RG 316 RG 316/U KX 22 A URM 109 50-2-2

RG 223 RG 223/U – – 50-3-5

DT 59/9 RG 59 B/U – URM 90 –

DT 11/12 RG 11 A/U – – 75-7-1

DT 179/18 RG 179 B/U – URM 111 75-2-1

RG 187 RG 187 A/U – – 75-2-2

RX 75/10 – KX 53 – –

RX 8/32 – KX 8 – –

RX 75/37 – KX 6 A URM 117 75-4-1

DT 62/2 RG 62 A/U KX 30 URM 96 –

RG 133 RG 133 A/U – URM 64 –

SWR Coefficiente di riflessione Return loss dBSWR Reflection coefficient Return loss dB

1.3767 .1585 16

1.3290 .1413 17

1.2880 .1259 18

1.2528 .1122 19

1.2222 .1000 20

1.1957 .0891 21

1.1726 .0794 22

1.1524 .0708 23

1.1347 .0631 24

1.1192 .0562 25

1.1055 .0501 26

1.0935 .0447 27

1.0829 .0398 28

1.0736 .0355 29

1.0653 .0316 30

1.0580 .0282 31

1.0515 .0251 32

1.0458 .0224 33

1.0407 .0200 34

1.0362 .0178 35

1.0322 .0158 36

1.0287 .0141 37

1.0255 .0126 38

1.0227 .0112 39

1.0202 .0100 40

1.0180 .0089 41

1.0160 .0079 42

1.0143 .0071 43

1.0127 .0063 44

1.0113 .0056 45

7

Corrispondenze fra tipi secondo MIL C-17Cross reference list between MIL C-17 typesSuperati Denominazione attuale Nuova denominazione IntercondObsolete Actual reference New reference Ref/Type

RG 5 B/U RG 212/U M 17/73 - RG 212 M 17/162 - 00001 –

RG 6/U RG 6 A/U M 17/2 - RG 6 – DT 6/11

RG 8 B/U RG 213/U M 17/74 - RG 213 M 17/163 - 00001 DT 8/3

RG 9 B/U RG 214/U M 17/75 - RG 214 M 17/164 - 00001 RG 214

RG 10 A/U RG 215/U M 17/74 - RG 215 – –

RG 11/U RG 11 A/U M 17/6 - RG 11 – DT 11/12

RG 12/U RG 12 A/U M 17/6 - RG 12 – –

RG 13 A/U RG 216/U M 17/77 - RG 216 – RG 216

RG 14 A/U RG 217/U M 17/78 - RG 217 M 17/165 - 00001 RG 217

RG 17 B/U RG 218/U M 17/79 - RG 218 M 17/166 - 00001 –

RG 19 A/U RG 220/U – M 17/81 - 00001 RG 220

RG 21 A/U RG 212/U M 17/83 - RG 222 M 17/162 - 00001 RG 212

RG 22 A/U RG 22 B/U M 17/15 - RG 012 – RG 22

RG 34 A/U RG 34 B/U M 17/24 - RG 34 – RG 22

RG 55 B/U RG 223/U M 17/84 - RG 223 M 17/165 - 00001 RG 223

RG 58 A/U RG 58 C/U M 17/28 - RG 058 M 17/155 - 00001 DT 58/1

RG 59 A/U RG 59 B/U M 17/29 - RG 59 – DT 59/9

RG 62/U RG 62 A/U M 17/30 - RG 62 – DT 62/22

RG 63 A/U RG 63 B/U M 17/31 - RG 63 – RG 63

RG 71 A/U RG 71 B/U M 17/90 - RG 71 – DT 71/27

RG 74 A/U RG 224/U M 17/85 - RG 224 M 17/165 - 00002 –

RG 87 A/U RG 225/U M 17/86 - RG 225 M 17/86 - 00001 –

RG 108/U RG 108 A/U M 17/45 - RG 108 – RG 108

RG 116/U RG 227/U M 17/88 - RG 227 M 17/86 - 00002 –

– RG 122/U M 17/54 - RG 122 M 17/157 - 00001 RG 122

– RG 133 A/U M 17/100 - RG 133 – –

RG 141 A/U RG 303/U M 17/111 - RG 303 M 17/170 - 00001 RG 303

RG 142/U RG 142 B/U M 17/060 - RG 142 M 17/158 - 00001 RG 142

RG 174/U RG 174 A/U M 17/119 - RG 174 M 17/173 - 00001 RG 174

RG 178/U RG 178 B/U M 17/93 - RG 178 M 17/169 - 00001 RG 178

RG 179 A/U RG 179 B/U M 17/94 - RG 179 – DT 179/18

RG 180 A/U RG 180 B/U M 17/95 - RG 180 – RG 180

RG 188 A/U RG 316/U M 17/113 - RG 316 M 17/172 - 00001 RG 316

RG 195 A/U RG 180 B/U M 17/95 - RG 180 – RG 180

RG 196 A/U RG 180 B/U – M 17/169 - 00001 RG 178

RG 79/U RG 79 B/U M 17/31 - RG 79 – –

– RG 164/U M 17/64 - RG 164 – RG 164

8

Potenza trasmissibilePower rating

Diagrammi:Conoscendo la frequenza di lavoroè possibile stabilire la potenza tra-smissibile

La potenza trasmissibile nei cavicoassiali è definita dalla seguenteformula

Diagrams:Known the Frequency it is possibleto fix Power Rating

Power Rating in coaxial cables isdefined by this formula

W = heat dissipation watt/mαc = attenuation into conductor and in the screen in dB/100 mαd = attenuation into insulation in dB/100 m

z(ac+ad)P = W

10000

2 4 6 8 2 4 6 8 2 4 6 810010 1000 10000

1000

100

10

8

6

4

2

8

6

4

2

8

6

4

2

W

MHzFrequenza/Frequency

10000

2 4 6 8 2 4 6 8 2 4 6 810010 1000 10000

1000

100

10

8

6

4

2

8

6

4

2

8

6

4

2

W


10000

2 4 6 8 2 4 6 8 2 4 6 810010 1000 10000

1000

100

10

8

6

4

2

8

6

4

2

8

6

4

2

W


50ΩDielettrico in PESolid PE insulationTemp. ambiente 25°C max.Ambient temperature 25°C max.Max. temp. conduttore interno 70°CMax. temp. inner conductor 70°C

RG 230/URG 218/U

RG 8 A/U - RG 213/U - RG 214/URG 212/U - RG 222/URG 58/U - RG 223/URG 58 C/URG 174 A/U

RT 50/20DT 8/5DT 50/6 - DT 50/7DT 58/4

RG 142 B/U - RG 303/U

RG 316/U - RX 50/116

RG 178 B/U - RG 196 A/U

50ΩDielettrico in PESSolid PES insulationTemp. ambiente 25°C max.Ambient temperature 25°C max.Max. temp. conduttore interno 70°CMax. temp. inner conductor 70°C

50ΩDielettrico in PTFE, FEPPTFE, FEP insulationTemp. ambiente 25°C max.Ambient temperature 25°C max.Max. temp. conduttore interno200°C FEP - 250°C PTFEMax. temp. inner conductor200°C FEP - 250°C PTFE

9

RG 34 B/URG 11 A/U - RX 8/32 - RG 216/URG 6 A/URG 59 B/U - RX 75/74 - RG 75/80RX 75/10RX 75/67

DT 75/28DT 11/17DT 6/16 - DT 6/19DT 59/15RX 182

RG 302/U

RG 179 B/U - RG 187 B/U

10000

2 4 6 8 2 4 6 8 2 4 6 810010 1000 10000

1000

100

10

8

6

4

2

8

6

4

2

8

6

4

2

W


10000

2 4 6 8 2 4 6 8 2 4 6 810010 1000 10000

1000

100

10

8

6

4

2

8

6

4

2

8

6

4

2

W


10000

2 4 6 8 2 4 6 8 2 4 6 810010 1000 10000

1000

100

10

8

6

4

2

8

6

4

2

8

6

4

2

W


75ΩDielettrico in PESolid PE insulationTemp. ambiente 25°C max.Ambient temperature 25°C max.Max. temp. conduttore interno 70°CMax. temp. inner conductor 70°C

75ΩDielettrico in PES e PPSPES and PPS insulationTemp. ambiente 25°C max.Ambient temperature 25°C max.Max. temp. conduttore interno 70°CMax. temp. inner conductor 70°C

75ΩDielettrico in PTFEPTFE insulationTemp. ambiente 25°C max.Ambient temperature 25°C max.Max. temp. conduttore interno 250°CMax. temp. inner conductor 250°C

INFORMAZIONI TECNICHE: Consultare l’apposito catalogo

TECHNICAL INFORMATION: Look it up in the special catalogue

10

Tutti i cavi coassiali illustrati in questo catalogo,tranne quelli isolati in PTFE e FEP, possono essereallestiti in versione “Halogen Free” con guaina ns.ti-po “FLAMTEL” e con le seguenti caratteristiche:

All coaxial cables shown in this catalogue, excepet ca-bles PTFE and FEP insulated, can be produced “Ha-logen Free”with the following characteristics:

Cavi coassiali non alogeniHalogen free coaxial cables

Resistenza all’incendioQuando è richiesta una maggiore sicurezza,i cavi coassiali possono essere costruiti inrispondenza a normative di non propagazio-ne dell’incendio quali:• U.L. CL2• CEI 20-22/III• IEC 332-3C• IEEE 383utilizzando materiali convenzionali o LSOH.La soluzione deve essere studiata in base al-le esigenze del cliente e alla normativa ri-chiesta.

OmologazioniCavi coassiali di produzione Intercond han-no ottenuto le seguenti omologazioni:- U.L. classe CL2- CSA- I.B.M.- D.N.V.- CESI- I.R.D.I.

Fire resistanceWhen a larger safety is required, coaxial ca-bles can be produced in compliance with fireresistance standards like:• U.L. CL2• CEI 20-22/III• IEC 332-3C• IEEE 383Conventional or LSOH materials can beused.The suitable solution must be studiedas per Customer needs and required Stan-dards.

ApprovalsCoaxial cables manufactured by Intercondhave been approved by:- U.L. class CL2- CSA- I.B.M.- D.N.V.- CESI- I.R.D.I.

Tipo di prova Normative nazionali Valore limite Normative internazionaliType of test National standards Limit value International standardsBassa emissione di fumi CEI 20-37/III Dm = 1,5 VDE 0472 teil 816Low smoke density IEC/TC20/WG12

UTE .C .20-902HD 606.2 S1

Basso indice di tossicità dei gas CEI 20-37/II I.T. = 2 NF. C 20-454Low gas toxicity AFNOR X 70/100

Bassa emissione di gas CEI 20-37/I 0,3% VDE 0472 teil 813/815alogenidrici (corrosivi) CEI 20-37/2 IEC 754-1,754-2Low gas corrosivity NF. C 20-453

HD 602 S1

Resistenza alla fiamma CEI 20-35 – MIL-C 17Flame resistance VDE 0472 teil 804

IEC 332.1UL 758NF. C 32-070 C2HD 405.1

12

RG 174/U RG 174 A/U RG 122/U RG 58 C/U RG 58/U

Conduttore internoInner conductor

Materiale isolamentoMaterial insulation

SchermoShield

2° schermo2 nd shield

GuainaJacket

PesoWeight

Impedenza caratteristicaCharacteristic impedance

Capacità Capacitance

Velocità di propagazioneVelocity of propagation

Attenuazione db/100 mAttenuation db/100 m

5 MHz10 MHz50 MHz

100 MHz200 MHz400 MHz

1000 MHz3000 MHz

Radio Frequenza Radio Frequenza Radio Frequenza Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency Radio Frequency Radio Frequency Radio Frequency

Miniaturizzato Miniaturizzato Miniaturizzato Trasmissione dati Trasmissione datiMiniature Miniature Miniature Data Transmission Data Transmission

CW 7 x 0.16 CW 7 x 0.16 Cu Sn 27 x 0.13 Cu Sn 19 x 0.18 Cu 1 x 0.81ø = 0.48 mm ø = 0.48 mm ø = 0.78 mm ø = 0.90 mm ø = 0.81 mm

PE PE PE PE PEø = 1.52 mm ø = 1.52 mm ø = 2.50 mm ø = 2.95 mm ø = 2.95 mm

Cu Sn Cu Sn Cu Sn Cu Sn Cu Sn

– – – – –

PVC PVC PVC PVC PVCø = 2.54 mm ø = 2.80 mm ø = 4.10 mm ø = 4.95 mm ø = 4.95 mm

11 kg/km 12 kg/km 29 kg/km 45 kg/km 45 kg/km

50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω

99 nF/km 99 nF/km 96 nF/km 95 nF/km 97 nF/km

66% 66% 66% 66% 66%

– – – – –11.1 11.1 5.6 4.7 4.319.1 19.1 14.9 11.2 10.028.3 28.3 23.5 17.8 14.141.0 41.0 36.0 24.0 20.453.0 53.0 48.5 37.5 30.598.0 98.0 89.0 60.0 58.0

200.0 200.0 160.0 120.0 100.0

Dielettrico polietilene solidoSolid polyethylene dielectric

50 Ω

Cu = Rame rosso CW = Copperweld Cu Sn = Rame stagnato Cu Ag = Rame argentato CW Ag = Copperweld argentato T Cu = Nastro rameCu = Bare copper CW = Copperweld Cu Sn = Tinned copper Cu Ag = Silver copper CW Ag = Silver coated copperweld T Cu = Copper tape

ApplicazioniApplications


13

Al = Nastro alluminio PE = Polietilene PES = Polietilene cellulare M1 = Polimero LSZH PTFE = Politetrafluoretilene FEP = PerfluoroetilenpropileneAl = Aluminium tape PE = Polyethylene PES = Foam polyethylene M1 = LSZH compound PTFE = Polytetrafluorethylene FEP = Perfluoroethylene-propylene

RG 223/U RG 212/U RG 214/U RG 213/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz3000 MHz

Radio Frequenza Radio Frequenza Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency Radio Frequency Radio Frequency

Telecomunicazioni Telecomunicazioni TelecomunicazioniTelecommunication Telecommunication Telecommunication

Cu Ag 1 x 0.90 Cu Ag 1 x 1.41 Cu Ag 7 x 0.75 Cu 7 x 0.75ø = 0.90 mm ø = 1.41 mm ø = 2.25 mm ø = 2.25 mm

PE PE PE PEø = 2.95 mm ø = 4.70 mm ø = 7.25 mm ø = 7.25 mm

Cu Ag Cu Ag Cu Ag Cu

Cu Ag Cu Ag Cu Ag –

PVC PVC PVC PVCø = 5.50 mm ø = 8.43 mm ø = 10.80 mm ø = 10.30 mm

57 kg/km 130 kg/km 192 kg/km 160 kg/km

50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω

97 nF/km 97 nF/km 97 nF/km 97 nF/km

66% 66% 66% 66%

– – – –4.5 2.8 1.8 1.89.6 6.2 4.6 4.6

14.0 8.8 6.6 6.620.2 13.5 10.0 10.029.0 19.0 15.0 15.048.0 31.2 28.0 28.0

100.0 64.0 52.0 52.0


50 Ω


14

50 ΩDielettrico polietilene solidoSolid polyethylene dielectric

RG 217/U RG 218/U RX 14/73 RG 177/U RG 220/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz3000 MHz

Radio Frequenza Radio Frequenza Radio Frequenza Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency Radio Frequency Radio Frequency Radio Frequency

Trasmissione datiData Transmission

Cu 1 x 2.70 Cu 1 x 4.95 Cu 1 x 4.95 Cu 1 x 4.95 Cu 1 x 6.60ø = 2.70 mm ø = 4.95 mm ø = 4.95 mm ø = 4.95 mm ø = 6.60 mm

PE PE PE PE PEø = 9.40 mm ø = 17.30 mm ø = 17.30 mm ø = 17.30 mm ø = 23.10 mm

Cu Cu Cu Cu Ag Cu

Cu – – Cu Ag –

PVC PVC PE PVC PVCø =13.84 mm ø = 22.10 mm ø = 21.40 mm ø = 22.70 mm ø = 28.45 mm

340 kg/km 720 kg/km 690 kg/km 870 kg/km 1200 kg/km

50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω


66% 66% 66% 66% 66%

– – – – –1.40 0.81 0.81 0.81 0.583.20 2.00 2.00 2.00 1.505.10 3.00 3.00 3.00 2.356.80 4.70 4.70 4.70 3.80

10.10 7.30 7.30 7.30 6.1017.50 13.00 13.00 13.00 11.8037.00 26.00 26.00 26.00 22.00



Dielettrico polietilene cellulareFoam polyethylene dielectric

DX 50/20 DT 58/4 DT 8/5 DT 50/6



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz3000 MHz

Trasmissione dati Radio Frequenza Radio Frequenza Trasmissione datiData Transmission Radio Frequency Radio Frequency Data Transmission

Miniaturizzato Trasmissione dati Trasmissione datiMiniature Data Transmission Data Transmission

Cu Sn 19 x 0.20 Cu 1 x 1.05 Cu 7 x 0.85 Cu Sn 1 x 2.17ø = 0.90 mm ø = 1.05 mm ø = 2.55 mm ø = 2.17 mm

PES PES PES PESø = 2.50 mm ø = 2.95 mm ø = 7,25 mm ø = 6,27 mm

Al Cu Sn Cu Al+Cu Sn

Cu Sn – – Al+Cu Sn

PVC PE PE PVCø =4.50 mm ø = 4.95 mm ø = 10.20 mm ø = 10.20 mm


50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω


80% 80% 80% 80%

2.80 – – 1.003.90 3.50 1.80 1.308.40 7.90 3.80 4.75

12.60 11.80 5.90 5.80– 16.50 8.10 –– 24.00 13.00 –– 39.00 21.00 –– – – –

15

50 Ω



16

50 ΩDielettrico polietilene cellulareFoam polyethylene dielectric

DT 50/7 RT 50/20 RT 50/10



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz3000 MHz

Trasmissione dati Radio Frequenza Radio FrequenzaData Transmission Radio Frequency Radio Frequency

Cu Sn 1 x 2.17 Cu 1 x 2.60 Cu 1 x 4.60ø = 2.17 mm ø = 2.60 mm ø = 4.60 mm

PES PES PESø = 6.27 mm ø = 7.10 mm ø = 11.50 mm

Cu Sn T Cu T Cu

Al + Cu Sn Cu Cu

PVC PE PEø = 10.20 mm ø = 10.30 mm ø = 16.00 mm

178 kg/km 150 kg/km 355 kg/km

50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω

85 nF/km 85 nF/km 85 nF/km

80% 80% 80%

1.00 – –1.30 1.15 0.854.75 2.80 2.005.80 4.00 2.80

– 6.00 4.05– 9.00 7.00– 16.00 11.50– – –



Dielettrico Teflon®

Teflon® dielectric

RG 178 B/U RG 196 A/U RG 188 A/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz3000 MHz

Radio Frequenza Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency Radio Frequency

Trasmissione dati Miniaturizzato MiniaturizzatoData Transmission Miniature Miniature

MiniaturizzatoMiniature

CW Ag 7 x 0.10 CW Ag 7 x 0.10 CW Ag 7 x 0.17ø = 0.30 mm ø = 0.30 mm ø = 0.51 mm

PTFE PTFE PTFEø = 0.85 mm ø = 0.85 mm ø = 1.52 mm

Cu Ag Cu Ag Cu Ag

– – –

FEP PTFE PTFEø = 1.85 mm ø = 2.05 mm ø = 2.75 mm

8.5 kg/km 11 kg/km 16 kg/km

50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω


70% 70% 70%

– – –17.90 17.90 10.0031.80 31.80 22.0044.90 44.90 29.5062.00 62.00 40.0092.00 92.00 54.20

152.00 152.00 100.00280.00 280.00 195.00

17

50 Ω



Teflon® è un marchio registrato Du Pont

18

50 ΩDielettrico Teflon®

Teflon® dielectric

RG 316/U RX 50/116 RG 303/U RG 142 B/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz3000 MHz

Radio Frequenza Radio Frequenza Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency Radio Frequency Radio Frequency

Telecomunicazioni Telecomunicazioni Telecomunicazioni TelecomunicazioniTelecommunication Telecommunication Telecommunication Telecommunication

CW Ag 7 x 0.17 CW Ag 7 x 0.17 CW Ag 1 x 0.95 CW Ag 1 x 0.95ø = 0.51 mm ø = 0.51 mm ø = 0.95 mm ø = 0.95 mm

PTFE PTFE PTFE PTFEø = 1.52 mm ø = 1.52 mm ø = 2.95 mm ø = 2.95 mm

Cu Ag Cu Ag Cu Ag Cu Ag

– Cu Ag – Cu Ag

FEP FEP FEP FEPø = 2.50 mm ø = 3.00 mm ø = 4.30 mm ø = 4.95 mm


50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω


70% 70% 70% 70%

– – – –10.00 10.00 3.60 3.6022.00 22.00 9.00 9.0029.50 29.50 12.70 12.7040.00 40.00 18.30 18.3054.20 54.20 26.00 26.00

100.00 100.00 45.10 45.10195.00 195.00 89.00 89.00




19


75 Ω

DT 75/30 RX 75/10 RG 59 B/U DT 59/8



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati Trasmissione dati Trasmissione dati Trasmissione datiData Trasmission Data Trasmission Data Trasmission Data Trasmission

Video Video Video VideoVideo Video Video Video

CCTV CCTV CCTV CCTVCCTV CCTV CCTV CCTV

CW 1 x 0.40 Cu 7 x 0.20 CW 1 x 0.58 CW 1 x 0.58ø = 0.40 mm ø = 0.60 mm ø = 0.58 mm ø = 0.58 mm


Cu Cu Cu Cu

– – –

PVC PVC PVC PVCø =4.00 mm ø = 6.10 mm ø = 6.15 mm ø = 6.15 mm


75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


66% 66% 66% 66%

3.70 2.50 2,20 2.205.20 3.60 3.20 3.20

11.50 8.10 7.90 7.9016.50 12.20 11.20 11.2025.00 17.10 16.10 16.1036.00 24.30 23.30 23.3058.40 41.50 39.40 39.40



20


75 Ω

RX 59/123 RX 75/80 RG 6 A/U RG 216/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Video Trasmissione dati Trasmissione dati VideoVideo Data Transmission Data Transmission Video

CATV Video VideoCATV Video Video

CCTV CCTVCCTV CCTV

CW 1 x 0.58 Cu 1 x 0.58 CW 1 x 0.72 Cu Sn 7 x 0.40ø = 0.58 mm ø = 0.58 mm ø = 0.72 mm ø = 1.20 mm


Cu Cu Cu Ag Cu

– Cu Sn Cu Cu

M1-LS0H PVC PVC PVCø =6.20 mm ø = 6.20 mm ø = 8.43 mm ø = 10.80 mm


75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


66% 66% 66% 66%

2.20 2.20 1.90 1.223.20 3.20 2.70 1.767.90 7.90 6.20 4.60

11.20 11.20 9.00 6.6016.10 16.10 13.50 9.1023.30 23.30 19.20 14.4039.40 39.40 32.50 20.00



21


75 Ω

RG 11 A/U RX 8/32 RG 34 B/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati Radio Frequenza Radio FrequenzaData transmission Radio Frequency Radio Frequency

Video Video VideoVideo Video Video

CCTVCCTV

Cu Sn 7 x 0.40 Cu 7 x 0.40 Cu 7 x 0.63ø = 1.20 mm ø = 1.20 mm ø = 1.90 mm

PE PE PEø = 7.25 mm ø = 7.25 mm ø = 11.70 mm

Cu Cu Cu

– – –

PVC PVC PVCø = 10.30 mm ø = 10.30 mm ø = 16.00 mm


75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


66% 66% 66%

1.22 1.22 1.001.76 1.76 1.404.60 4.60 3.106.60 6.60 4.709.10 9.10 6.20

14.40 14.40 9.3020.00 20.00 14.80



22


CC 0.3/1.5 CC 0.4/1.8 CC 0.5/2.3 RX 174 RX 180



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati Trasmissione dati Trasmissione dati Trasmissione dati Trasmissione datiData Transmission Data Transmission Data Transmission Data Transmission Data Transmission

Video Video Video Video VideoVideo Video Video Video Video

Cu Sn 1 x 0.30 Cu Sn 1 x 0.40 Cu 1 x 0.50 Cu Sn 7 x 0.13 Cu Sn 7 x 0.15ø = 0.30 mm ø = 0.40 mm ø = 0.50 mm ø = 0.38 mm ø = 0.48 mm

PES PES PES PES PESø = 1.50 mm ø = 1.80 mm ø = 2.30 mm ø = 1.60 mm ø = 1.95 mm

Cu Sn Cu Sn Cu Cu Sn Cu Sn

– – – – –

PVC PVC PVC PVC PVCø =2.45 mm ø = 2.70 mm ø = 3.90 mm ø = 2.60 mm ø = 3.30 mm

11 kg/km 13 kg/km 18.5 kg/km 12.7 kg/km 17.5 kg/km

75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


80% 80% 80% 80% 80%

5.20 3.90 3.40 4.30 3.507.30 5.30 4.30 6.50 6.00

17.05 12.30 9.20 13.80 11.2024.30 17.60 13.80 18.60 16.0034.30 25.30 22.50 29.00 23.0050.10 35.75 25.00 43.00 32.00

– – – – 53.00



23

RX 182 RX 75/83 DT 59/14 DT 59/15



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati Trasmissione dati Trasmissione dati Trasmissione datiData Transmission Data Transmission Data Transmission Data Transmission


CATV CATVCATV CATV

Cu Sn 7 x 0.20 Cu Sn 1 x 0.50 Cu Sn 7 x 0.30 Cu 1 x 0.81ø = 0.60 mm ø = 0.50 mm ø = 0.90 mm ø = 0.81 mm

PES PES PES PESø = 2.60 mm ø = 2.40 mm ø = 3.70 mm ø = 3.70 mm

Cu Sn Al Cu Al

– Cu Sn – Cu Sn



75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


80% 80% 80% 80%

2.70 2.70 2.00 1.904.20 4.20 3.10 2.708.70 8.70 6.90 6.30

13.00 12.80 9.80 9.0018.10 18.00 14.80 13.2025.10 25.00 20.70 18.0041.00 40.00 35.80 30.00




24

DT 59/15X DT 06/16 DT 06/19 DT 11/17



SchermoShield


GuainaJacket

PesoWeight





5 MHz30 MHz

450 MHz862 MHz

1000 MHz



CATV CATV CATV CATVCATV CATV CATV CATV

Cu 1 x 0.80 Cu 1 x 1.02 Cu 1 x 1.02 Cu 1 x 1.63ø = 0.80 mm ø = 1.02 mm ø = 1.02 mm ø = 1.63 mm

PES PES PES PESø = 3.50 mm ø = 4.60 mm ø = 4.60 mm ø = 7.20 mm

Al Al Al + Cu Sn Al

Cu Sn Cu Sn Al + Cu Sn Cu Sn

M1 M1 PVC M1ø = 5.0 mm ø =6.15 mm ø = 7.40 mm ø = 10.20 mm


75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


80% 80% 80% 80%

2.60 2.20 2.20 1.305.30 4.20 4.20 2.80

18.50 14.90 14.90 9.9025.60 21.50 21.50 14.2028.10 23.10 23.10 15.60




25

75 ΩDielettrico Teflon®

Teflon® dielectric

RG 179 B/U RG 187 B/U RG 302/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati – –Data transmission


Telecomunicazioni Telecomunicazioni –Telecommunication Telecommunication

CW Ag 7 x 0.10 CW Ag 7 x 0.10 CW Ag 1 x 0.63ø = 0.30 mm ø = 0.30 mm ø = 0.63 mm

PTFE PTFE PTFEø = 1.60 mm ø = 1.60 mm ø = 3.70 mm

Cu Ag Cu Ag Cu Ag

– – –

FEP PTFE FEPø = 2.54 mm ø = 2.79 mm ø = 5.23 mm


75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


70% 70% 70%

– – –10.80 10.80 3.7023.00 23.00 8.0030.00 30.00 12.1042.00 42.00 18.1055.00 55.00 25.00

100.00 100.00 42.00




26

93 ÷ 120 ΩDielettrico polietilene solidoSolid polyethylene dielectric

DT 93/20 RG 62 B/U RG 62 A/U DT 62/25



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz



Miniaturizzato – – –Miniature

Cu Sn 1 x 0.40 CW 7 x 0.20 CW 1 x 0.64 CuW 1 x 0.64ø = 0.40 mm ø = 0.60 mm ø = 0.64 mm ø = 0.64 mm

Air-PE Air-PE Air-PE Air-PEø = 2.50 mm ø = 3.70 mm ø = 3.70 mm ø = 3.70 mm

Cu Sn Cu Cu Cu

– – – –



93 ± 5 Ω 93 ± 5 Ω 93 ± 5 Ω 93 ± 5 Ω


84% 84% 84% 84%

3.00 2.00 1.95 1.954.30 2.95 2.80 2.809.60 6.60 6.20 6.20

14.20 9.50 8.80 8.8020.00 13.80 12.50 12.5028.20 20.40 17.40 17.40

– 36.00 28.50 28.50



27

93 ÷ 120 ΩDielettrico polietilene solidoSolid polyethylene dielectric

DT 62/26 RG 71 B/U RG 133 A/U RG 63 B/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz



CW 1 x 0.64 CW 1 x 0.64 Cu 1 x 0.65 CW 1 x 0.64ø = 0.64 mm ø = 0.64 mm ø = 0.65 mm ø = 0.64 mm

Air-PE Air-PE PE Air-PEø = 3.70 mm ø = 3.70 mm ø = 7.25 mm ø = 7.25 mm

Cu Cu Cu Cu

– Cu Sn – –

PE PE PVC PVCø =6.15 mm ø = 6.10 mm ø = 10.30 mm ø = 10.30 mm


93 ± 5 Ω 93 ± 5 Ω 95 ± 5 Ω 125 ± 6 Ω


84% 84% 66% 84%

1.95 1.95 1.40 1.202.80 2.80 2.00 1.706.20 6.20 4.60 3.608.80 8.80 6.60 4.90

12.50 12.50 9.10 7.5017.40 17.40 13.00 11.2028.50 28.50 20.00 19.00



28

Dielettrico polietilene cellulareFoam polyethylene dielectric

RX 93/103 DT 93/21 RX 93 PES



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati Trasmissione dat Trasmissione datData transmission Data transmission Data transmission


Miniaturizzato Miniaturizzato –Miniature Miniature

Cu Sn 1 x 0.20 Cu Sn 1 x 0.25 Cu Sn 1 x 0.40ø = 0.20 mm ø = 0.25 mm ø = 0.40 mm


Cu Sn Al Cu Sn

– – –

PET PVC PVCø = 2.10 mm ø = 2.90 mm ø = 4.00 mm


93 ± 5 Ω 93 ± 5 Ω 93 ± 5 Ω


80% 80% 80%

5.20 6.70 3.507.30 9.60 5.05

17.10 21.50 11.0724.30 29.40 16.3034.30 41.10 23.0050.00 58.00 35.00

– – –

93 ÷ 120 Ω



29

Dielettrico Teflon®

Solid Teflon®

RG 180 B/U RG 195 A/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency

Trasmissione dati Trasmissione datData transmission Data transmission

Video VideoVideo Video

CW Ag 7 x 0.10 CW Ag 7 x 0.10ø = 0.30 mm ø = 0.30 mm

PTFE PTFEø = 2.59 mm ø = 2.59 mm

Cu Ag Cu Ag

– –

FEP PTFEø = 3.68 mm ø = 3.93 mm

29 kg/km 31 kg/km

95 ± 5 Ω 95 ± 5 Ω

50 nF/km 50 nF/km

70% 70%

– –8.00 8.00

18.10 18.1022.40 22.4032.20 32.2048.80 48.8075.00 75.00

93 ÷ 120 Ω




30

BiassialiTwinaxial

RG 108 A/U DR 120/7 DR 120/8 RG 130/U



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz

Trasmissione dati Trasmissione dati Trasmissione dati Trasmissione datiData transmission Data transmission Data transmission Data transmission


2 x Cu Sn 7 x 0.32 2 x Cu Sn 7 x 0.18 2 x Cu Sn 7 x 0.20 2 x Cu 7 x 0.72ø = 0.96 mm ø = 0.54 mm ø = 0.60 mm ø = 2.16 mm

PE PE PES PEø = 2.0/4.0 mm ø = 2.0/4.0 mm ø = 2.2/4.4 mm ø = 4.8/12.0 mm

Cu Sn Al Al Cu Sn

– – – –



78 ± 7 Ω 124 ± 5 Ω 120 ± 5 Ω 95 ± 5 Ω


66% 66% 81% 66%

5.20 3.90 3.30 1.507.50 5.60 4.70 2.20

17.00 11.80 10.10 4.9024.60 16.40 13.90 7.0036.10 22.60 19.20 17.8052.50 31.50 26.70 25.5085.00 – – 41.00

93 ÷ 120 Ω



31

BiassialiTwinaxial

DR 105/5 DR 105/34 DR 95/3 DR 120/9



SchermoShield


GuainaJacket

PesoWeight





5 MHz10 MHz50 MHz


1000 MHz



1 x Cu Sn 7 x 0.32 1 x Cu Sn 7 x 0.32 2 x Cu 7 x 0.39 2 x Cu Sn 1 x 1.301 x Cu 7 x 0.32 1 x Cu 7 x 0.32 ø = 1.20 mm ø = 1.30 mmø = 0.96 mm ø = 0.96 mm

PE PE + Air-PE PE PESø = 2.25/6.0 mm ø = 2.25/6.0 mm ø = 2.25/7.25 mm ø = 4.0/8.0 mm

Cu Sn Cu Sn Cu Sn Al

– – Cu Sn Cu Sn

PVC PVC PVC PVCø =8.25 mm ø =8.25 mm ø = 10.80 mm ø = 11.20 mm


105 ± 5 Ω 105 ± 5 Ω 95 ± 5 Ω 124 ± 5 Ω


66% 66% 66% 81%

2.40 2.40 1.80 1.953.50 3.50 2.60 2.808.40 8.40 6.60 5.00

11.80 11.80 9.90 8.7017.00 17.00 14.80 12.3025.00 25.00 22.30 18.0040.00 40.00 39.40 –

93 ÷ 120 Ω



32

50 ΩTriassialiTriaxial

RX 58/39 RX 50/100 RX 08/101



SchermoShield

Guaina primariaPrimary jacket


GuainaJacket





5 MHz10 MHz50 MHz


1000 MHz

Radio Frequenza Radio Frequenza Radio FrequenzaRadio Frequency Radio Frequency Radio Frequency

Trasmissione dati Trasmissione dati Trasmissione datiData transmission Data transmission Data transmission

Cu Sn 19 x 0.18 Cu 1 x 1.40 Cu Sn 7 x 0.85ø = 0.90 mm ø = 1.40 mm ø = 2.55 mm

PE PE PESø = 2.90 mm ø = 4.80 mm ø = 7.25 mm

Cu Sn ≥ 96% Cu ≥ 90% Cu ≥ 96%


Cu Sn ≥ 91% Cu ≥ 90% Cu ≥ 95%

PVC grigio PVC nero PVC neroGrey PVC Black PVC Black PVCø = 6.50 mm ø = 9.80 mm ø = 12.20 mm

50 ± 2 Ω 50 ± 2 Ω 50 ± 2 Ω


66% 66% 80%

– – –4.70 2.80 1.80

11.20 6.20 3.8017.80 8.80 5.9024.00 13.50 8.1037.50 19.00 13.0060.00 31.20 21.00



33


RX 59/78 RX 59/5 RX 75/22 RX 75/23



SchermoShield



GuainaJacket





5 MHz10 MHz50 MHz


1000 MHz


Video Video – –Video Video

CW 1 x 0.58 Cu 1 x 0.81 Cu 19 x 0.35 Cu 1 x 1.63ø = 0.58 mm ø = 0.81 mm ø = 1.85 mm ø = 1.63 mm

PE PES PES PESø = 3.70 mm ø = 3.65 mm ø = 7.92 mm ø = 7.25 mm

Cu ≥ 95% Cu ≥ 96% Cu ≥ 90% Cu ≥ 93%

PVC PE PE PEø = 6.00 mm ø = 5.55 mm ø = 10.10 mm ø = 9.40 mm

Cu = 90% Cu = 95% Cu = 90% Cu = 93%

PVC nero PE nero PVC giallo PE neroBlack PVC Black PE Yellow PVC Black PEø = 9.10 mm ø = 8.00 mm ø = 13.20 mm ø = 12.10 mm

75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


66% 80% 80% 80%

2.20 1.90 0.90 0.903.20 2.70 1.25 1.257.90 6.30 2.90 2.90

11.20 9.00 4.10 4.1016.10 13.20 6.10 6.1023.30 18.00 9.30 9.3039.40 30.00 18.10 18.10



34


RX 75/55 RX 75/56 RX 75/57



SchermoShield



GuainaJacket





5 MHz10 MHz50 MHz


1000 MHz


Cu Ag 1 x 1.00 Cu Ag 1 x 1.40 Cu Ag 7 x 0.72ø = 1.00 mm ø = 1.40 mm ø = 2.16 mm


Cu Ag ≥ 90% Cu Ag ≥ 90% Cu Ag ≥ 90%


Cu ≥ 90% Cu ≥ 90% Cu ≥ 90%

PUR o PVC rosso PUR o PVC rosso PUR o PVC rossoRed PVC or PUR Red PVC or PUR Red PVC or PURø = 8.50 mm ø = 11.00 mm ø = 14.00 mm

75 ± 3 Ω 75 ± 3 Ω 75 ± 3 Ω


80% 80% 80%

1.80 1.13 0.802.10 1.60 1.105.95 3.58 2.609.00 5.20 3.90

– – –– – –– – –



35

DV 3/1 3 x RG 59 17.0 330

DV 4/2 4 x RG 59 19.0 380

DV 6/3 6 x RG 59 22.5 530

DV 8/4 8 x RG 59 25.0 680

DV 10/5 10 x RG 59 28.5 840

DV 12/6 12 x RG 59 29.5 960

DV 16/7 16 x RG 59 33.0 1250

DV 18/8 18 x RG 59 35.5 1380

DV 20/9 20 x RG 59 37.0 1550

DV 24/10 24 x RG 59 41.5 1750

DV 32/11 32 x RG 59 46.5 2300

DV 48/12 48 x RG 59 58.0 3250

CODICE FORMAZIONE DIAM. mm kg/kmCODE FORMATION DIAM. mm kg/km

DV 3/73 3 x RX 75 10.5 125

DV 4/74 4 x RX 75 11.5 155

DV 6/75 6 x RX 75 14.5 230

DV 8/76 8 x RX 75 15.5 280

DV 10/77 10 x RX 75 18.5 350

DV 12/78 12 x RX 75 20.0 400

DV 16/79 16 x RX 75 22.0 520

DV 18/80 18 x RX 75 23.3 630

DV 20/81 20 x RX 75 25.0 690

DV 24/82 24 x RX 75 27.5 810

DV 32/83 32 x RX 75 31.0 1120

DV 48/84 48 x RX 75 38.0 1610


Multicoassiali RG 59 B/UMulticoaxial RG 59 B/U

Multicoassiali DT 75/30Multicoaxial DT 75/30

75 ΩMulticoassialiMulticoaxial

Vedi RG 59 B/USee RG 59 B/U

Singolo coassiale nero, con numerazione progressivaSingle coaxial is black,numbered in white

Nastro poliesterePolyester tape

No

PVC nero o grigioBlack or grey PVC

75 ± 3 Ω

67 nF/km

66%

Vedi DT 75/30See DT 75/30



No


75 ± 3 Ω

67 nF/km

66%

RG 59 RX 75

Coassiale singoloSingle coaxial

DistinzioneColour code

SeparatoreSeparator

Schermo totaleOverallshield

GuainaJacket





36

DV 3/13 3 x RG 59 18.0 400

DV 4/14 4 x RG 59 20.0 460

DV 6/15 6 x RG 59 23.5 630

DV 8/16 8 x RG 59 26.0 800

DV 10/17 10 x RG 59 29.5 1020

DV 12/18 12 x RG 59 30.5 1150

DV 16/19 16 x RG 59 34.0 1500

DV 18/20 18 x RG 59 37.0 1650

DV 20/21 20 x RG 59 38.5 1830

DV 24/22 24 x RG 59 43.0 2050

DV 32/23 32 x RG 59 48.0 2660

DV 48/24 48 x RG 59 60.0 3700


DV 3/85 3 x RX 75 11.3 150

DV 4/86 4 x RX 75 12.3 183

DV 6/87 6 x RX 75 15.5 265

DV 8/88 8 x RX 75 16.5 320

DV 10/89 10 x RX 75 19.5 390

DV 12/90 12 x RX 75 21.0 450

DV 16/91 16 x RX 75 23.0 570

DV 18/92 18 x RX 75 24.3 700

DV 20/93 20 x RX 25.0 26.0 770

DV 24/94 24 x RX 27.5 28.5 900

DV 32/95 32 x RX 31.0 32.0 1200

DV 48/96 48 x RX 75 39.0 1750


Multicoassiali schermati RG 59 B/UShielded multicoaxial - RG 59 B/U

Multicoassiali schermati DT 75/30Shielded multicoaxial - DT 75/30


Vedi RG 59 B/USee RG 59 B/U



Treccia rame stagnatoTinned copper braid


75 ± 3 Ω

67 nF/km

66%






75 ± 3 Ω

67 nF/km

66%

RG 59 RX 75



SeparatoreSeparator


GuainaJacket




37

DV 3/25 3 x RG 62 17.0 320

DV 4/26 4 x RG 62 19.0 375

DV 6/27 6 x RG 62 22.5 510

DV 8/28 8 x RG 62 25.0 655

DV 10/29 10 x RG 62 28.5 810

DV 12/30 12 x RG 62 29.5 925

DV 16/31 16 x RG 62 33.0 1200

DV 18/32 18 x RG 62 35.5 1320

DV 20/33 20 x RG 62 37.0 1500

DV 24/34 24 x RG 62 41.5 1680

DV 32/35 32 x RG 62 46.5 2220

DV 48/36 48 x RG 62 58.0 3120


DV 3/49 3 x RX 93 10.5 125

DV 4/50 4 x RX 93 11.5 155

DV 6/51 6 x RX 93 14.5 230

DV 8/52 8 x RX 93 15.5 280

DV 10/53 10 x RX 93 18.5 350

DV 12/54 12 x RX 93 20.0 400

DV 16/55 16 x RX 93 22.0 520

DV 18/56 18 x RX 93 23.3 630

DV 20/57 20 x RX 93 25.0 690

DV 24/58 24 x RX 93 27.5 810

DV 32/59 32 x RX 93 31.0 1120

DV 48/60 48 x RX 93 38.0 1610


Multicoassiali RG 62 A/UMulticoaxial RG 62 A/U

Multicoassiali DT 93/20Multicoaxial DT 93/20


Vedi RG 62 A/USee RG 62 A/U



No


93 ± 5 Ω

44 nF/km

84%




No


93 ± 3 Ω

44 nF/km

84%

RG 62 RX 93



SeparatoreSeparator


GuainaJacket




38

DV 3/25 3 x RG 62 18.0 390

DV 4/26 4 x RG 62 20.0 450

DV 6/27 6 x RG 62 23.5 615

DV 8/28 8 x RG 62 26.0 725

DV 10/29 10 x RG 62 29.5 970

DV 12/30 12 x RG 62 30.5 1110

DV 16/31 16 x RG 62 34.0 1450

DV 18/32 18 x RG 62 37.0 1590

DV 20/33 20 x RG 62 38.5 1770

DV 24/34 24 x RG 62 43.0 1970

DV 32/35 32 x RG 62 48.0 2550

DV 48/36 48 x RG 62 60.0 3550


DV 3/49 3 x RX 93 11.3 150

DV 4/50 4 x RX 93 12.3 183

DV 6/51 6 x RX 93 15.5 265

DV 8/52 8 x RX 93 16.5 320

DV 10/53 10 x RX 93 19.5 390

DV 12/54 12 x RX 93 21.0 450

DV 16/55 16 x RX 93 23,0 570

DV 18/56 18 x RX 93 24.3 700

DV 20/57 20 x RX 93 26.0 770

DV 24/58 24 x RX 93 28.5 900

DV 32/59 32 x RX 93 32.0 1200

DV 48/60 48 x RX 93 39.0 1750


Multicoassiali schermati RG 62 A/UShielded multicoaxial - RG 62 A/U

Multicoassiali schermati DT 93/20Shielded multicoaxial - DT 93/20


Vedi RG 62 A/USee RG 62 A/U





93 ± 5 Ω

44 nF/km

84%






93 ± 3 Ω

44 nF/km

84%

RG 62 RX 93



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GuainaJacket




Date post:	22-Jun-2018
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CAVI COASSIALI - Communications Emergency Rescue · rg 19 a/u rg 220/u – m 17/81 - 00001 rg 220...

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