(NF h -1) EF -nWMVR·NFO.O fJx - Maxcomm · __ 13\.... ~._t~R~~~O-:+;:,\"" I L. J-r_ -f)l...

$: (NF h -1) EF -nWMVR·NFO.O fJx - Maxcomm · __ 13\.... ~._t~R~~~O-:+;:,\"" I L. J-r_ -f)l -liIldbf± itE (NF h J -1) I'Ll UI< u(' WIlU.\I'OL\ \IERI.\, U.ATED RO BOT EF . oJ ~'rJ2]I:I",ifiC~\$
__ 13\.... ~._t~R~~~O-:+;:,\"" I L. J-r_ -f)l -liIldbf± itE (NF h J -1) I'Ll UI< u(' WIlU.\ I'OL\ \ IERI.\ , U. ATED ROBOT EF ~ oJ ~'rJ2]I:I",ifiC~\ 11\'/ 1'-,1 ./ VICtiIIIl "I';;R -,7'1 '/ CA BLE: bcnd imr resista nt (Nl'-type) -nWMVR·NFO.O

lit fa ( :<\I: / rnrn) Stru cture ( W i r e ~ / m m \

,E;fIll i: 0.08 <f> !IIi fJxOJ 4 It:1:JIf I" I.: *! 1\1' t y pe cable uses a 0.08 rum fJ lldll JlJ O)7 - / }v "'-'T c J1J ;H: ~ : ! dia. Flexibl.. wire core: call he used in applica~ . ~ dlJ ~ ft M~~h~~~~~= tions where bending loads ~n' applied. ETFE 11: JlJ t: td t :n -. insulator. A Nissci bes t-seller proven wi til ro~~W : t ET FE ~ N!IH ,,(;f; I). ~ bots of man y differe nt kinds. t 2' :1: I;;: [J * 'J l- ( ~ ~k ~"I O) t~ "6-""7r -e7 - 7- / JV C- T o

EF-n WMVR-NF

Thic kness uf Insulariou (rom} Core Diameter omnj

0 -2 4 0 / 0 .0 8 0 .6 0 .2 1.0 9 7 .9 0 .3 6 0 / 0 .0 8 0 .7 /I 1. 1 6 5 .2 0 .5 10 0 /0.08 0 .9 /I 1.3 3 9 .5 075 3 / 50/0.08 1.3 0 .25 1.8 26.6 1 2 6 7 / 36/0.0 8 1,6 /I 2 1 15 .7

~-w;~it1 Electrical chnracterisncs

Z; ~ (;'E;)~7E\ l@~j'Wi.iii ff ~o rn r~' With>tand lnsulatlnnresistance Multiple core wires voltage IV / tniu) I~I Q -kml

1?&9HIf OIJ, .,i

twist tmm )

:J '\'7' 'Y 1 j acket li.IIl :---M' Braided shieldI :J 1'7''Y 1 j .ick c t

1m' '\ t1prm:. .

,.\'t' j~ l l t (~ .m )

!!ll~ ( ~W )

Aunrox. wd ght (braid ed) ( ~ . Ill )

PVC

-~/!J I[f!:J:9m ( I A I Coatinu Fini ,:,hed OJ).

thickness (rnm) (max.. 111111)

7-:7.;1. 'Y =lO tt1! ~ I PVC Ti n-plated soft -coppe r wire fliAt ;t I ;f; '

Itt! " ~J!J Jitij')/¥ (II~Smxture J Th ick nes s C o a l i n ~ Finished 0 .0. j wirf."). win-, mm (film) Ihk k'lt..-ss (mm) (ruax, nun ]

0 .2 sq EF-2WMVR-NFO.2 2 2 0 0 .4 3 .0 (3.4) 16 / 5 / 0 .1 0 .25 0 .4 3 .5 (3 .9 ) 11 19 150 0 1500 EF-3WMVR· FO,2 3 2 .2 /I 3 .2 (3 .6 ) /I /I /I 3 .7(4 . 1) 15 2 3 /I /I

EF-4WMVR· FO,2 4 2 .5 /I 3 .5 (3 .9 ) 16 / 6 / 0 . 1 /I 05 4 .2 (4 .6 ) 18 29 It /I

EF-5WMVR- F02 5 2 .7 /I 3 .7(4 _1) 16 17/ 0 . 1 /I /I 4 .4(4 .8 ) 22 33 /I II

EF·6WMVR"'JFO.2 6 3 .0 0 .5 42(4 .6 ) /I /I /I 4.7(5. 1) 27 38 It /I

EF·7WMVR-NFO,2 7 3 .3 /I 4 5 (49) 16 / 8 / 0, 1 /I I I 5 0 (5.4) 31 4 3 /I II

EF-8WMVR·NFO.2 8 3 .6 /I 4.8(5,2) 24/ 6 / 0 ,1 /I 0 .6 5,5(6 .0) 3 5 50 /I /I

EF-9WMVR-NFO.2 9 4 ,0 0.6 5 .4 (59) /I /I II 5 ,9 (6 .4) 4 2 57 /I I I

EF-1OWM VR·NFO,2 10 3,8 0.5 5.0 (5.4) /I II /I 5, 7 (6 ,2) 41 50 II II

EF·15WMVR-NFO, 2 15 4,6 0.6 6 .0 (6 ,5) 24171 0 .1 II 0,7 6 .7(7 ,2 ) 60 80 I I /I

EF-20WMVR-NFO.2 20 5,3 0 ,7 6 9(7.4) 24 /8 /0.1 /I 0 .8 7,6(8, 1) 8 1 10 3 1/ /I

0 .3 s q EF-2WMVR F0 3 2 2.2 0 .4 3.2(3 .6 ) 16 / 8 /0, 1 0 .25 0 .4 3 .7 (4 .1) 14 23 1500 15 0 0 EF-3WMVR-NFO.3 3 2 A /I 3 .4 (3 .8) 2 4 /6/0 ,1 /I 0. 5 4.1 (4, 5 ) 18 2 7 II /I

EF-4WMVR-NFO.3 4 2.7 /I 3 .7(4 .7) 2417 / 0 .1 /I /I 4 .4( 4 .8 ) 23 35 I I II

EF·5WMVR·NFO.3 5 3.0 0 .5 4 .2(4.6 ) /I /I /I 47(5 . 1) 29 40 II /I

EF-6WMVR-NFO.3 6 3. 3 /I 4 .5(4 .9 ) 2 4 / 8 / 0 .1 /I /I 5.0( 5.4) 3 5 4 6 II It

EF-7WMVR-NFO_3 7 3 .7 /I 4 9 (5 .3) 2 4 /8/0. 12 0 .3 0 .6 5. 7 (6.2 ) 4 1 56 /I /I

EF·8WMVR-NFO.3 8 4 .0 0.6 5.4(5 .9 ) /I II /I 5 .9 (6 .4) 48 61 I I /I

EF·9WMVR-NFO .3 9 4 .4 /I 5 8 (6 ,3) /I II 07 6 .5( 7 0 ) 5 3 7 1 I I I I

EF-- l DWM VR-NFO.3 10 4 ,2 /I 56(6,1) /I /I 0 ,6 6 .1(6.6) 55 70 II /I

EF-15WMVR-NFO .3 15 5 ,1 0 7 6.7(7,2) 2417/ 0 18 OA 5 0 .7 7 .2 (77) 8 1 9 8 /I /I

Ei'·2 0WMVR-NFO.3 20 5.9 0,8 9 .7 (8, 2 ) 2418 / 0. 18 /I 0 ,8 8 ,3(9 .0) 107 132 II /I

0 .5sq EF·2WMVR-NFO.5 2 2.6 OA 36(40) 16/6/0,1 025 0,5 4 ,3(4.7) 19 3 0 15 0 0 15 00 EF·3WMVR·NFO.5 3 2.8 I I 3 .8 (4 ,2 ) /I II /I 4 .5 (4 9 ) 2 6 3 8 /I /I

EF-4WMVR·NFO.5 4 3 .2 0 .5 4 .4(4 .8 ) /I if /I 4 .9 (5 .3 ) 35 4 5 /I II

EF-5WMVR-NFO.5 5 3 .6 /I 4 8( 52) 24 / 6 /0, 1 II 0. 6 5.5 (6. 0 ) 42 5 7 /I II

EF·6WMVR·NF05 6 3 .9 0 .6 5 .3(5.8) /I II II 5 ,9 (6 .4) 52 67 /I I I

EF-7WMVR-NFO.5 7 4 ,3 /I 5 .7(6 2) 24 17/ 0 .1 1/ /I 6 2 (67) 59 74 /I /I

EF-8WMVR-NFO.5 8 4 .7 /I 6. 1(6 .6) /I /I 0 .7 6.8(7.3) 68 8 6 /I /I

EF·9WMVR·NFO,5 9 5 .2 0.7 6.8 (7 ,3 ) 24 / 8 / 0, 1 /I 1/ 7 .3(7.8) 79 95 /I /I

EF-- l 0WMVR-NFO .5 10 5 ,0 /I 6 .6 (7 .1) /I /I /I 7 .1(7.6) 83 10 0 /I II

0 .76sq E F-2WMVR~'JFO, 75 2 3 ,6 0.5 4 ,8(5.2) 16/8/0. 1 025 0.6 5 .5 (6 0) 3 2 45 1500 15 0 0 EF·3WMVR·NFO.75 3 3 ,9 0 6 5 3 (5 .8) 2 4/6/0,1 I I /I 5 9 (6 .4) 4 6 6 0 I I II

EF-4WMVR·NFO,75 4 4.4 /I 5,8 (6.3 ) 2417/0 ,1 /I 0 .7 6,5( 7.0) 5 7 74 /I II

EF·5WMVR-NFO.75 5 4. 9 0 7 6 5(7 0 ) 2 4 /8 /0 ,1 /I /I 7 .0 (7 5 ) 7 2 8 9 /I II

EF-6WMVR-NFO.75 6 54 /I 70(7.5 ) /I /I 08 7 8 (8,3 ) 8 4 107 II /I

EF-7WMVR-NF075 7 6 ,0 0 8 7.8 (8 3 ) 24/B / 0 . 12 03 II 8.4(9. 1) 101 126 /I I I

EF-8WMVR-NFO.75 8 6 .5 /I 8 3 (9 .0 ) /I II 0.9 9, 1(9 .8 ) 11 4 14 3 II /I

EF·9WMVR·NFO,75 9 7 . 1 0 9 9 .1(9.8 ) 2 4/9/0.12 II /I 9, 7 ( 10 .4 ) 13 2 15 9 1/ I I

EF-- l0WMVR·NFO.75 10 6 .9 /I 8 .9 (9 .6) /I /I /I 9 .5( 10 .2 ) 138 16 5 /I /I

1,2 6 sq EF--2WMVR·NF1,25 2 4 .2 0 .6 5 .6 (6 .1) 16/8/0. 1 0 .25 0 ,6 . 1(6 .6 ) 48 59 1500 1500 EF-3WMVR-NFI 25 3 4. 6 II 6 .0 (6 ,5 ) 2 4 17/0.1 II 0 .7 6 .7 (7 2 ) 65 8 3 /I /I

EF-4WMVR·NF1.25 4 5. 1 0 .7 6 .7 (7 .2) 24/8/ 0 . 1 II II 7.2(7.7 ) 86 105 /I /I

EF-5WMVR-NF 1.25 5 5 ,7 /I 7 3(78 ) 2 418 / 0 . 12 0 .3 0.8 8 .1(88) 10 5 133 /I /I

EF-6WMVR-NF1 25 6 6 ,3 0 .8 8 .1 (88) /I II 0 .9 8 .9 (9 .6 ) 128 15 6 /I II

EF-7WMVR·NF1.25 7 7 ,0 0.9 9 .0 (9 ,7) 241 9 / 0 . 12 /I 1/ 9 ,6( 10 .3) 15 2 17 B I I /I

EF·8WMVA-NF1,25 8 7, 6 /I 9 .6(10 3 ) 24 17/ 0 ,18 0.45 1,0 10 ,7 ( 1 1.4) 172 2 26 II /I

EF·9WMVR-NF 1.25 9 8 3 1.0 10 .5 (1 1 2 1 II 1/ 1 1 1 1 6 ( 12 6 1 19 7 2 5 1 I I /I

EF-10 WMVR·NF1 25 10 8 .0 /I 10 ,2 ( 10 9 ) /I /I II 1 13(123) 207 2 60 /I II

13

$: (NF h -1) EF -nWMVR·NFO.O fJx - Maxcomm · __ 13\.... ~._t~R~~~O-:+;:,\"" I L. J-r_ -f)l -liIldbf± itE (NF h J -1) I'Ll UI< u(' WIlU.\I'OL\ \IERI.\, U.ATED RO BOT EF . oJ ~'rJ2]I:I",ifiC~\$
~~ .mm) :--: 0. pair

l7!.~ l¥ O.D.of

Oi"f' T y r- Ja cket IBUll y - j " r: Br"ided shield Oir T Y l Jock"1

lIaali • .I A prox.

w(·ighl ( ~ 1IJ 1 1

lia. • (liND Apprux. weillhr (braided) (g m)

~t1 Electr icil cbararteristics

PVC I :::0: .:>< Y,¥lXiOl SJil T in-plated so ft-coppe r wire PVC i'lllEE

\ \ 'ilhstand voltage ( \-" ,1 0111 1.1

~ Wl lfi t ~

tm.uiltitln resistJ.fi(,(" ( ~ I Il-kml Multiple pair wires t wist (m ill' ~ "" r,t?!·~ . ( ~) I!/IU'Z ~ / ~)I .~i!('~ ~t i n ~ Finlshed O'D. Smeture T k-km-ss

thickness (m ill) (m...1X.: mrr» Iwires ~iI t!I min) (mm)

Pll' Ift,.t?1~ (1I!l!)Coaling Finished 0 .0 .

thick ness (mm) unax; 10m )

0 .2 SQ EF·2PVIMVR·NFO. 2 2 3 .4 0.5 4 6( 5.0 ) 16 /8 /0.1 0. 25 0.6 5.3(5.8) 22 36 150 0 150 0 EF-3PWMVR-NFO.2 3 3 7 1/ 4 .9 (53) 2 4 /6/0 1 /I II 5 .6 (6 1) 23 3 7 1/ II

EF-4PWMVR·NFO.2 4 4 .2 0.6 5 6 (6.1) 24/7/0.1 1/ I I 6. 1(6.6) 31 45 II /I

EF·5PWMVR-NF0 2 5 4 .6 II 60(6 5 ) 1/ 1/ 0 .7 6 .7 (7 .2 ) 3 5 5 3 /I /I

EF·6PWMVR-NFO.2 6 5. 1 0 .7 67(7.2) 24/8/ 0 . 1 1/ II 7.2(7 .7 ) 45 6 1 /I /I

EF-7PWMVR-NFO.2 7 5 .7 1/ 7 .3 (7 .8 ) 2 4/8 / 0 .12 0 .3 0 .8 8 .1(8.8) 5 1 78 /I /I

EF-8PW .VR-NFO.2 8 6.2 0.8 8.0(8.5) 1/ /I /I 8 .6 (9 .3 ) 6 1 85 /I

EF·9PWMVR·NF02 9 6 .7 1/ 8 .5 (9 .2 ) 1/ /I 0. 9 93(10.0) 6 8 9 7 II /1

EF·1OPWMVR·NFO.2 10 6 .5 1/ 8.3(90) 1/ 1/ /I 9. 1(9. 8) 6 9 9 7 1/ /I

EF·15PWMVR·NFO.2 15 7 .8 0. 9 9.8 ( 10 5) 24/7/0 18 0 .45 1.0 10 .9 (1 1.6 ) 98 14 9 /I /I

EF·20PWMVR·NFO.2 20 9 1 1.1 11 .5(1 2 .5 ) 24/8/0. 18 II 1.1 12 .6 (1 3 .6 ) 133 193 II 1/

0 .3sQ EF-2PWMVR-NFO.3 2 3.8 0 .5 5.0 (5 .4) 24/6/0. 1 0 .25 0 .6 5 .7 (6 .2) 32 4 7 1500 1500

EF·3PWMVR 'FO3 3 4 . 1 06 5 .5(6 .0 ) 2 4 /7 /0 .1 /I /I 6 .0 (6 .5 ) 4 6 6 0 /I 1/

EF-4PWMVR·NFO.3 4 4 .6 1/ 6 .0 (6 .5) /I /I 0.7 6 .7( 7 .2 ) 5 7 7 5 I I II

EF·5PWMVR-NF03 5 5 .1 0.7 6 7 (72) 2 4 /8/0 1 /I II 7.2(7. 7 ) 7 3 8 9 1/ I I

EF·6PWMVR-NFO.3 6 5 .7 1/ 7 .3 (7 8 ) 24/8/0. 12 0 .3 0 .8 8. 1(88) 8 5 112 1/ 1/

EF·7PWMVR-NFO.3 7 62 0 .8 8 0 (8.5) 1/ 1/ II 8 .6( 9 .3) 102 12 6 1/ II

EF·8PWMVR·NFO.3 8 6 .8 1/ 86(9.3) /I /I 0.9 9 .4( 10 .1) 1 16 14 5 I I 1/

EF·9PWMVR-NFO. 3 9 7.4 0 .9 9 4(10. 1) 24/6 / 0 18 0 .45 1.0 10 .5 (1 1.2) 13 5 181 /I /I

EF· lOPWMVR·NFO.3 10 7. 2 1/ 9 .0(9.7) 2 4 / 8 / 0 .12 0 .3 0 .9 9 .6( 10 .3) 14 2 16 8 /I 1/

EF-1 5PWMVR·NFO.3 I 5 8.6 1 0 10 .8 ( 11 .5) 2 4 /7/0 18 0 .45 1.1 1 1.9 (1 2 9 ) 20 3 2 5 7 1/ 1/

EF·2QPWMVR·NFO.3 20 100 1.2 12.6( 13 .6) 2 4/8/018 /I 1.3 13 .7 (14 .7 ) 2 75 336 1/ 1/

0 .5 sQ EF·2PWMVR·NFO.5 2 4 .5 0 .6 5 9 (6 .4) 2 4/7/0. 1 0.25 0 .7 6.6(7. 1) 4 1 59 1500 150 0

EF·3PWMVR·NFO.5 3 4 8 1/ 6 .2(6 .7 ) 2 4 / 8 /0.1 /I II 6 9 (7 .4) G5 7 5 II /I

EF-4PWMVR·NFO.5 4 5. 3 0 .7 6 .9 (7.4) /I 1/ /I 7 .4 (7 .9 ) 72 9 0 /I /I

EF·5PWMVR·NFO.5 5 6.0 0 .8 7 .8 (8.3) 24/8/0.12 0 .3 0 .8 84(9 . 1) 9 1 116 1/ 1/

EF·6PWMVR·NFO.5 6 6.7 1/ 8.5(9 .2) /I /I 0 .9 9.3 ( 10. 0) 10 8 148 1/ 1/

EF·7PWMVR·NFO.5 7 73 0 .9 9 .3( 10 .0) 2 4 / 9 / 0. 12 1/ 1.0 10.1( 10 .8) 12 9 16 1 I I I I

EF·8PWM VR-NFO. 5 8 80 1.0 10 2 (1 0 .9 ) 2 4/7/0 .18 0 45 11 11 .3 ( 12 .3 1 150 203 1/ 1/

EF·9PWMVR·NFO.5 9 8 7 1/ 10 9 ( 1 1.6) /I I I II 12 .0 (1 3 .0) 16 8 2 24 I I I I

EF· lOPWMVR·NFO.5 10 8 4 1/ 10 .6 (1 1.3 ) 1/ 1/ II 1 1.7 (1 2 .7) 174 2 29 II 1/

0 .7 5 sQ EF·2PWMVR-NFO.75 2 6 .2 0 .8 8 0 (8 .5) 24/ 8 /0.12 0 .3 0 .8 8 .6(9.3) 70 94 1500 150 0 EF·3PWMVR·NFO.75 3 6.6 /I 8 .4 (9 .1) /I I I 0 .9 9 2 (9 .9 ) 93 12 2 II 1/

EF-4PWMVR·NFO.75 4 7.4 0.9 9.4( 101 ) 2 4 / 9 / 012 /I 1.0 10 .2(1 0 .9 ) 121 15 5 1/ 1/

EF·5PWMVR·NFO .75 5 8 .3 1.0 10 .5 ( 1 1.2 ) 24/7/0.18 0 4 5 1 1 11 6 (12 .6 ) 15 2 20 6 I I 1/

EF·6PWMVR-NFO .75 6 9 .2 1.1 1 16( 12 6 ) 2 4 / 8 /0 .18 1/ 1.2 12 .7 ( 13 .7 ) 18 5 246 II 1/

EF·7PWMVR-NFO.75 7 10 1 1.2 12 .7( 13.7 ) 1/ 1/ 1.3 13 8 ( 14 .8 ) 223 2 8 3 1/ /I

EF-8PWMVR-NFO.75 8 I 1.1 1.3 13 .9( 14 .9 ) 24/9/0. 18 1/ 1.4 15 .0 (16 .0) 25 4 3 25 /I II

EF·9PWMVR-NFO 75 9 12 1 1.4 15.1( 16.3 ) 2 4 / 10 / 0 .18 /I 1.5 16 .2(1 7 .4) 290 37 1 1/ I'

EF·, OPWMVR-i FO.75 10 11. 7 1.3 14 .5 (1 5 .5 ) 1/ /I 1.4 15.6( 16 .8 ) 292 37 1 /I /I

1.25sQ EF·2PWMVR-NF 1 25 2 7 .2 0 .9 0 .3 0.9 9 .8 (1 0 .5 ) 10 3 130 1500 1500 EF·3PWMVR· F1 25 3 7. 7 I I II 1.0 10 .5 (11 .2 ) 138 17 2 II II

EF·4PWMVA-N F1.25 4 8 .7 1.0 0.45 1.1 12 .0 (1 3 .0 ) 181 2 37 /I /I

EF·5PWMVR-NF1 25 5 9 .7 1.1 /I 1.2 13 2 (14 .2 ) 2 27 28 8 /I 1/

EF·6PWMVR-NF1 25 6 10 .8 1.2 /I 1.3 14 .5 ( 15.5 ) 2 7 5 345 /I 1/

EF·7PWMVR-NF1.25 7 11 .8 1.3 /I 1.4 15 .7 ( 16 .9 ) 3 23 3 9 9 1/ 1/

EF·8PWMVR·NF1.25 8 12 .9 1.4 /I 1.5 17 .0 ( 18 .3 ) 38 1 455 1/ /I

EF·9PWMVR-NF1.25 9 14 .0 1.5 1/ 1.7 18 .0 (2 0 .0) 4 51 5 4 1 II I I

EF· IOPWMVR·NF1 25 10 13 6 II 1/ 1.6 17 .9 (1 9 .1) 444 532 II 1/

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(NF h -1) EF -nWMVR·NFO.O fJx - Maxcomm · __ 13\.... ~._t~R~~~O-:+;:,\"" I L. J-r_ -f)l...

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Transcript of (NF h -1) EF -nWMVR·NFO.O fJx - Maxcomm · __ 13\.... ~._t~R~~~O-:+;:,\"" I L. J-r_ -f)l...