Beckhoff sensor neb6-12gm50-e0
Author:1964fyy Time:2021-06-06 17:55 Browse(612)
Beckhoff sensor neb6-12gm50-e0, touch screen and OLED Forum
Beckhoff sensor neb6-12gm50-e0~ 2 c2 v; h4 _ 2 p6 ]Inductive analog output sensor: u (e. L) s # P5 {`The inductive analog output sensor is used to detect the position of metal target in a specific sensing distance.
the detected target position outputs an analog signal which is proportional to the detection distance.
this makes this sensor an ideal choice for measurement and control.

Beckhoff sensor neb6-12gm50-e0

the detection range of Beckhoff products is 2... 5mm.
3... 8mm and 15... 40mm.
due to the inductive analog output sensor, the detection range of Beckhoff products is 2... 5mm The temperature drift of the sensor is low.
the deviation of temperature drift per centigrade is only 1 / 1000, which can still ensure its reliability and high accuracy under abnormal conditions.
$X4 P + p $@. U (o)9 G.
t& {' o# ~% ], Y" W& LThe new generation positioning system pxv is an absolute position positioning system based on the principle of visual imaging.
the position data is printed on the (self-adhesive) code band in the form of data matrix code.
the code band is 10000 m long.
on the code band.
each data matrix code is unique, It indicates the unique absolute position information.
the pxv reader has built-in advanced photography and image processing technology.
the data matrix code on the code band is read in a fixed period, and the current absolute position data is calculated based on it.
the pxv reader has built-in advanced photography and image processing technology4 u+ E6 U- P. `* @8 w% W+ A3 K1 ]' ?* y.
the new generation security positioning system safepxv,Based on multi redundancy technology, it is the first time to realize the safety absolute positioning in accordance with SIL 3 / ple standard in a single sensor.
safepxv provides an ideal solution for linear absolute positioning.
strictly abide by the highest safety standards, and always protect personnel and machines in the best way.
relying on this innovative sensor technology, the safety performance is maximized! 0 V" t% A0 A! C/ E( ?0 w.
u) ~    I' P' ?( S inductive sensor2 E / C # B4 V $h features:, D7 | 4 x # f) B # ~ the sensor head can rotate   D "R% Y8 P) m6u40 mm non flush mounting, K'k! Y2 }& @7 `6 e0 @Three wire DC%W'b% @ 5 [7 q) z'u fast locking buckle; L8 m2 x% e0 ^4 O/ k4-way LED indicator "a"    N+ d# w6 M) q; J - Q6 Q 'o $] (n (T) general property 4 y    p1 j    X5 E% `# Q) {Detection distance         0... 2500 mm adjustable & @! F) X. R3 ~. v6 YType of light source         IRED3 A- ~+ e* k8 }( Z% ^Type of light source         Modulated infrared light, 850 nm! A0 e/ \: w6 u& k" VPolarization filter         Normally open& n% |6 L7 b- p,K spot diameter         About 50 mm apart 2,5 M0 Y8 J & Q4 w    v0 t2 g    I0 W) uDivergence angle         two °' d, r1 @( d   |( l2 bFunctional safety parameters * b) e; u4 I2 Y4 U    n: B6 f' \Mean time to failure (days)         920 a, H! T+ k; U    Z/ oService life (... Months... Days)         20 a1 K2 T7 |+ K: `) n2 q0 c% y9 ZDiagnostic scope         0 %9 X! G( @1 f4 B. d$ t9 _ 3 ~Indicator light / operation key 2 Y9] 1 K / C. B3 uFunction display         Led yellow light, when the receiver is on, the yellow light is on "K: D / g * V -] (T9 Lcontroller         Detection distance adjustment knob4 B+ A6 A( r9 `) a! O electrical characteristics-V #] 3 D + D: {+ Q working voltage         10... 30 V DC, class 25 }& B* T   _" F & ~: Y output0 D. G2 K: S & Y # T "^ 6 K switch type         Turn on% U + when on_ 1 H0 k. z# |signal output         2-way push-pull (4 in 1) output, short circuit protection, reverse polarity protection (f; K. f" Q3 p3 I2 F-D) R% k # I1 u-j,m' a' nInstruction compliance         EMV specification system (2004 / 108 / EG){    h+ h% |0 E% \* O( E6 e' k+ fMeet the standard         . 5 k    V8 L + A * g% J (n) product standard         EN standard 60947-5-2:2007 5?% G% j3 T: g' k' KIEC 60947-5-2:2007! l9 u) C/ G( W* {. zLicensing and certification 3 J3 L6 C + W6 I, VEAC follows         TR CU 020/20118 h+ A! B6 ?* |' I% u3 OMechanical properties /} (~'b - x #] 9 d! PProtection level         IP67/ E3 K( k7 X0 f3 hconnect         4-pin M12 x 1 connector/ F+ \1 L1 r! B; Y material         . 5 O4 ^. ~ - t0 R / O) k "| * C0 s * E5 r shell         Polycarbonate (k, K5 D; o$ ~. w9 u# s    gOptical end face         PUMA3 Q* F8 _ 6 y! P3 l2 h" q# w4 cCombined with the 8-port IO link master, the I / O hub can not only transmit up to 128 digital I / O signals to a higher level control system; The newly developed I / O hub also has outputs connected to signal lights and other devicesDepending on the application.
the new I / O hub is available in 16dio version, with 16 configurable inputs and outputs, or 10 inputs and 6 outputs.
the I / O hub is equipped with a rugged all metal enclosure and a wide temperature range.
it is suitable for severe industrial environment.
the I / O hub can be used in many industrial environments2 v+ L: K3 d+ O; L" ]" E! _! b# M; Z3e product highlights- `6 E; U; n. t7 Z. b) N! C * f 'H8 port Ethernet IO module.
integrated IO link master, with a slim width of only 30mm5 ~; l! p- R, M; U# Z: NThe I / O hub with IO link interface can easily connect up to 128 digital I / O signals to the control system: C; F% B # u'o / x9 f solid all metal case,Suitable for severe industrial environment 0 J / O. n * t * l ${; H6 d0 |7 b    E8 t& u6 r2 | 6 e% a + V2 V9 {. E) A1 I Beckhoff sensor vdm28-15-l-io / 73C / 110 / 122(R6 H0 ` 7 S / V9 E2 H4 P1 J BGF sensor mlv12-54-g / 76b / 124 / 128 #]: J) \! g; _- ]BGF sensor cbb4-12gh60-e2-v1/L2 J: N0 I 'H8 o) Z Beckhoff sensor nbb2-8gm30-e0$J & E4 K6 O8 d0 y * X5 o 'F1 e + ^ Beckhoff sensor dk20-9,5/110/1244 _ 2 ~ 0b: C # O + \ \ BJF sensor ub300-18gm40-e4-v1. '# w0 | + X * x Beckhoff sensor nbb5-18gm50-e2-v1; D + Q7 e $U / C. P7 H3 f BGF sensor nbn15-30gm50-e0+ ^: c0 u; e. E7 L / M5 P% t Beckhoff sensor nbn4-12gm50-e27 C $U5 +\ 1 \% IBeckhoff sensor nbb8-18gm60-us: K & K3 w # L7 @ $O4 R * C Beckhoff sensor ncn25-f35-a2-250-15m-v1! I' x    C (P-Q) Beckhoff sensor nbb0,8-5gm25-e3( v8 x! t( Z- K2 `! NGF sensor sc3,5-g-n06 Y "m3 Z3 {: a # eBGF sensor vdm28-8-l1-io / 73C / 110 / 122! A1 M" P6 V3 SBeckhoff sensor ofr-100 / 100: P 'V (Y # B! V   ~ 3 g8 VBj4-12gm40-e2-10m 'k) w $P / X% f * J) Q & @ + OBeckhoff sensor nrb2-12gm40-e2-c-v13 Y! H0 v    P- [! O1] Beckhoff sensor ncb4-12gm40-z5-v1: F    A$ K6 |$ X% o,m- M! tBGF sensor nbn4-12gm60-a00 m; O7 | 9 X3 H% e, v% W5 n-h-l sensor rl39-54 / 32 / 40A / 82a / 1165 K4 K2 y-f%_/ a- rBeckhoff sensor ml100-55 / 102 / 115 * J "Q1} & H (L, J)Beckhoff sensor ncb15-30gm50-z4-v1; O. v2 ^. m. x5 w8 VBeckhoff sensor ncb2-12gm40-z0-v1! S: a9 {' B5 b3 M3 M- [% p6 B: dBeckhoff sensor ncb8-18gm50-z4# x% E) d- k7 h! k: S-B + F sensor vdm18-100 / 32 / 105 / 1221 J9 R2 W; R- `& i! W2 XBeckhoff sensor ncn15-30gm40-n02 D. Z + R9 Q / JBeckhoff sensor omd30m-r2000-b23-v1d-hd-1l, g9 k4 P7 D; n: `   [ Beckhoff sensor inx360d-f99-i2e2-v15) |) \% f5 k- _% i    A3 h Beckhoff sensor nbb4-12gm50-e14 G! Z    l6 U. M& P* jBeckhoff sensor uc6000-30gm-iur2-v15) G' k) [: S, a; ~ BGF sensor udc-18gm50-255-3e1 - E: Z - @,c    T( W0 Y3 ~Beckhoff sensor ncb10-30gm40-n0-10m( Z1 }3 |% {    H2 R * u Beckhoff sensor 3rg4022-0jb00-pf9 W. L. U & M. Z8 s) Q% W. I; eBGF sensor 3rg4023-0jb00-pf, J, I +} 3 Q6 Y4 P1 C2 X "A / J 'y) V Beckhoff sensor 3rg4012-0jb00-pf*Y6 U *} 0 Z. y. | $e Beckhoff sensor nbb5-18gm40-z0, J    k; S9 K & O # K2 V "V4 | BGF sensor nbn40-u1-a2-v1   B; S5 [   `- A0 H7 J bj15-8gm-n, Q9 T, J! P% k) P# BBeckhoff sensor nbb2-v3-e2( m( f! b- J3 @. {! ` Bj3-18gk-s1n" v- d; {) ]& M5} - X "C Beckhoff sensor nbb2-12gm60-a2& n. n$ Y    O4 X. d0 [Beckhoff sensor nbb20-l2-z0-v11 H' B6 k: w4 w: l: \! r0 k) g; P-plus sensor ncb15 + U4 + n0) S' X4 H) B' ? 6} BGF sensor nbn3-f25-e8-5m (P2 ` 2q,h/ @8 J) [9 ]) ~BGF sensor vdm28-8-l-io / 73C / 136    A/ `# \    K- J' ~3 qBeckhoff sensor ld28-f1 / 76a / 115# [; I" X; K + B, X8 Y-G sensor lv28-f1 / 49 / 82B / 115( s2 s( ]3 E) \8 Z! ] Bj5-18gm50-a2: Z4 | 5 V # Z6 A5] Beckhoff sensor neb4-8gm45-e29 x +|    a) _& M" V6 O    dBeckhoff sensor uc2000-l2-u-v154 I5 `0 R; M # U * N0 R Beckhoff sensor ncn15-30gm40-z02 f! F+ a6 ]% W8 u$ A* H+ mBeckhoff sensor nbn4-f25-e8-0,14m" S; s" h    S. X) x # V9 x x x + F sensor vdm28-8-l1 / 73C / 136#Z4 B: l (P 0 U: Z Beckhoff sensor vdm35-6-l / 20 / 105 / 122 $n, Z2 g) J / b # yBeckhoff sensor omh-vdm357 I" H! b1 K9 A: S! E $t Beckhoff sensor gl5-l / 28a / 115'h $R9 W & K8 n% pBj60-fp-a2-p1-y237070   \ 8 f7 b" l" u% NBeckhoff sensor v1-g-bk # K3 n - T1 Y4 / 4 T8 KBeckhoff sensor neb6-12gm50-e0; J0 O# ]2 @: `' m5 w+ q: t,|/A Beckhoff sensor nbn40-u4k-n0-v1 & Q4 u'm * {/ a}[The sensor 3rg6113-3bf00-pf $h * K7 H3 H + H /? 9 n+ v( N6 J0 X+ Q9 u$ E2 ~   @+ H. N8 a1 ]2 c% R* U; X7 W4 {% q! W8 w6 F.
.
.
.
.
.
Related topics