British MTL barrier mtl4541
Author:Yu Xiaomin Time:2021-06-06 14:38 Browse(540)
UK MTL barrier mtl4541, touch screen and OLED Forum
; L) Q; r' u8 R% z9 [British MTL barrier mtl4541% C2 l/ p2 c1 q) V" f- n2 R/ n; `" a0 RMobile / wechat 18372021864( E" |- l6 |   ~$ m   A* _" `" W "l temperature signal input into the safety barrier mtl5575 can convert the low level DC signal from the temperature sensor in the dangerous area into 4 / 20mA current, which is used to drive the load in the safety zone.

British MTL barrier mtl4541

7 m! O( d* k% o# L! u/ b" o   ` 0 E     The functions of temperature signal input to safety barrier mtl5575 selected by software include: all thermocouple types and 2, 3, 4-wire RTD types.
linearization, range setting, monitoring, temperature control, etc Test and tag mark.
for thermocouple applications requiring cold leg compensation, CJC compensation element is built into terminals 1-3.
the parameter configuration of temperature signal input safety barrier mtl5575 can be carried out by personal computer.
the test results show that the temperature signal input safety barrier mtl5575 has good performance: @* t( e4 q# a.
Q$ V% m( W7 Z" j! S5 Y; l7 Q# \) w# ^    The mtl5500 series is a versatile product with simple operation.
it is manufactured with Zui new technology and has been well verified.
the attributes of these comparisons come from the advanced MTL's expertise in the design and manufacture of photoelectric isolator intrinsic safety and the application of MTL's innovative technology in the separation and isolation circuit to meet the requirements.
% S3 m'w. B.
this paper reviews the development of MTL's technology in the field of photoelectric isolator intrinsic safetyP/ x; I% j) B- ~/ ?. M1 S# h, T     The mtl5500 (DIN rail mounting) and mtl4500 (bottom plate mounting) are recommended to share a common design, different only in mechanical mounting and connection methods.
0 e-p-k + U2 ~ 0 v0_8 F5 ]9 s6 j; d: Y1 }5 ?; r* R+ i- `) J& V% g; Q6 M6 NBritish barrier mtl5531 + Y7 L + R9 B9 T2 K (N2 V)British barrier MTL 5541 (n $d.
H4 L + [4]~British barrier (mtl5544) I + y # F - E5 N9 B; y+ ~. ^% qBritish barrier MTL 7760ac - N2 T; R+ V: g! m3 d& B( O8 u1 RBritish barrier mtl4541 &]'j9 J2 A0 @ * [; gBritish barrier mtl5544d/C8 w $\ + k% | British barrier MTL 5031) v% A. J) Y7 A6]British barrier mtl5042! x" h% t    O3 W3 F1 S9 e British barrier MTL 5531 "K! X0 d9 h6 s! [! `$ L. J. NConfiguration cable of British barrier MTL( E* _ 9 O2 P; MBritish barrier mtl5521% ?& h6 \. j/ \2 {,k    e! V-C: F British barrier mtl7728 + 3 G2 r'k; g, P" r( t% k7 C- |- eBritish barrier mtl5544 $m * I "C6 n% Z2 E3 VBritish barrier mtl5576-rtd" B' d. D3 y6 ~' a/ L& z, ? British barrier mtl5546y- `3 s' x+ W* v( {" _ British barrier mtl5544d% o) ^   _! D; ? 4 L5 F: ~: w'o2 e British barrier MTL slp32d2 O    v2 M. \& @& x7 C! ^: X British barrier mtl5546y1 g - @: N8 t # A: \) r British barrier mtl5582b 4 R, Z + e) P)_ 8 UBritish barrier mtl5082$ c# J$ e( u' K3 I,Safety barrier mtl50424 u- ?: Q # ^ (C4 B8 @ British barrier mtl5575; S) W- a; J1 t0 w0 @British barrier mtl4546y- T# T1 H4 ?% N    Z * P British barrier mtl55101 A. W. Y4 B7 n 'B: B6 @; M4 r3 zBritish barrier mtl5516c3 | (F + M: O3 '$z) British barrier mtl5575     8 D: _ 8 }6 C0 C! Y/ |+ `British barrier mtl5546y   ./ S    A5 @1 y! A" S* {! M8 Q British barrier mtl5544d   . 7 K0 M% Y - @ - M: H3 Z. J: a British barrier mtl5514d3 O: c4 l8 x5 l- f. l" P% s( ^8 c* r8 x2 T,Y - X5 B% G1, digital input barrier 8% l    D, E' z7 v)K5 J: k% L 'V, hmtl5501-sr 1 fault tolerant solid state output + LFD alarm6 {   ?; T( B% t! Q4 G: M#U / Q% C "| 0 h $R9 I: umtl5510 4 switch / prox input, solid state output / L +} & B $C2 Z|/ K3 _ 4 d7 z$ Z! ` 6 ? 9 cmtl5510b 4 multifunction switch / prox input, solid state output - H6 U: S - C1 I0 oMtl5511 1 switch / prox input, C / O transfer output & n "Z3 L1 h. L / R    sMtl5513 2 switch / prox input, solid state output' m) l% ?) ?& \! Gmtl5514 1 switch / prox input, relay + lfd4 a) W "a (g $B" H     - 2 switch / prox input and output relay + LFD; '; p6 _ 4 w( a; L; U5 |5 mMtl5516c2 switch, C / O prox I / O relay + LFD *]    y4 C( S8 ?$ e& vMtl5517 2 switch / prox input / output relay + LFD 'B & \) l0 R    x7 M#H4 Q, f) T8 R3 W6 D5 Z2, digital output barrier) y6_ 4 I& {9 h% d+ C6 J& M- |" L; Electromagnetic drive of C # E3 {5 mmtl5521 1 loop power supply7 R: T' A6 T* c$ X2 I9 I" t: _! @- U0 U6 Q6 |4 o& [    Y8 L      - 1 loop powered electromagnetic drive,IIC/ @" f& p8 ]1 W( r1 d! p2 G1 w' m# _; | 2 SMtl5522 1 loop powered electromagnetic drive, IIB"Q6 d * {9 D / c-e. o-e5 A0 omtl5523 1 electromagnetic drive and lfd-o'g: J! n# v4 x3 [0 {, s# t- electromagnetic drive and lfd3 powered by 1 circuit]_    v! Q) ?; Q! ^ 7 j- 1 electromagnetic drive and inverse LFD / u * V2 J3 f! e4 q% qMtl5524 1 switch operated electromagnetic drive5 w! @& | 7 t'a - 1 switch operated by electromagnetic drive, 24 V power supply+ @, x$ X+ ^# j7 \, R" o" n0 _ 1 mmtl5525 1 switch operated electromagnetic drive, low power & h * Z $s, x, S3 A5 F & U; r/ }6 }9 CMtl5526 2 switch operated relay) C; h; Q# B/ \* J' k! t! \! y5 U" r% f6 g& l0 Q   C4 U; |% V3 U6 T3, pulse and vibration barriers)Interface of S / N # T - Z +] / [. S2} mtl5531 1 vibration probe%Y /} 4 P5 T4 K: B9 e "U5 Y / @ mtl5532 1 pulser, digital and analog outputs& R    W. F& T) E6 B; Interface of V * m% H & ymtl5533 2 vibration probe   G. y- y" p,M/ Q+ v; n% T    q1 y7 z. e( N3 k% x, ]: F5 [" {: J& f: R! R    Z4. Analog input barrier$ X    M9 J6 L9 C # S3 L * A5 p * mmtl5541 1 2 / 3 line repeater transmitter "? 7 Z0 f& N6 H# r    v    lMtl5541as 1 repeater transmitter, passive input, current interruption fuse 9 C3 J? 4 A" t8 Y) W. }5 AMtl5541s 1 2 / 3 line repeater transmitter, current interruption fuse-T * C0 L $O2 zmtl5544 2 2 / 3 line repeater transmitter 9 F * A* b: ? 0 OMtl5544a 2 T repeater transmitter, passive input% ]2 I% Q" A; X8 \ # V) r * |. Kmtl5544as 2 repeater transmitter, passive input, current interruption fuse8 d$ n6 Z6 L+ g. v; ]; M8 C7 L, fmtl5544s 2 2 / 3 line repeater transmitter, current interruption fuse   z$ I& S' M! f) {mtl5544d 1 2 / 3 line repeater transmitter, dual output/ t, o, h! _$ z; S# ~6 f" j. R8 s+ b+ ^' k6 Y$ s1 H$^ "g'e #} 9 n + O5, analog output barrier7 A" i; V$ A3 u,S & G "K8 nmtl5546 1 4-20mA sensitive isolated drive + LFD / [%; L8 f& c$ P0 v9 Z- c- 1 4-20mA sensitive isolated drive + OC LFD9 l6 m" S, o( W0 L" a" z( R   ^ Mtl5546y 1 4-20mA sensitive isolated drive + OC LFD: \# I& }    a1 e% Q; B # mmtl5549 2 4-20mA sensitive isolated drive + LFD7 F( ? 2 A9 Y1 N9 Q # X - 24-20ma sensitive isolated drive + OC LFD/J / h * U & Z8 Q9} mtl5549y 2 4-20mA sensitive isolated drive + OC LFD) ~! F: D7 ?- c/ V. X7 m# `( A    O2 |! ]( ^! q9 }; W4 U/ U( q1 c; |+ u! L; l. I & '"E6, fire and smoke3 D4 T3 E3 n. e "@ + G (emtl5561 2 loop power supply, fire and smoke alarm, H - Z3 B + V! V/ R; t6 f. T3 V" Q$ D1 Y4 w! S( ^0 x4 u0 P; M2] 'H7, temperature signal input safety barrier$ M, T0 Z, H+ ^% Y8 I-O / I) M 'n' A7 R6 cmtl5575 1 temperature converter,THC or RTD0 E. C& p; Y8 J6 g "H 'wmtl5576-rtd 2 temperature converter, RTD+ Z2 j& D! I $H3 T "B5 P5 ^ mtl5576-thc 2 temperature converter, thc( M- V4 [8 ]    Cmtl5599 - virtual module "F_ 7 V8 L3 K6 s% }: N5 y- _. f9 ~1 s" F: s5 F. t, e! l: H1 C% M5 ~ product model:" n* x( z6 p* j% a0 I6 }! zMTL5501-SR/5510/5510B/5511/5513/5514/5516C/5517) b    X; u5 o: B) p0 gMTL5521/5522/5523/5524/5525/5526/5531/5532/5533* q6 x9 r- g6 ~/ oMTL5541/5541A/5541AS/5541S/5544/5544A/5544AS/5544S/5544D/5546/5546Y6 u$ D' k; x( W+ U3 bMtl5549 / 5549y / 5561 / 5575 / 5576-rtd / 5576-thc / 5599, etc, t/ X" x- Q1 t    y. Common models of TTP series surge protective devices:7 T- u& m$ s# p9 W) x, c% Y! I' n' F: m' y0 eTP24/7-G; TP24/7-G-NDI; TP24/7-I; TP24/7-I-NDI; TP24/7-N; TP24/7-N-NDI; x3 G) f; Z- r" t7 ]) H/ T,`* j3 e! r, A9 v% XTP48-3-G; TP48-3-G-NDI; TP48-3-I; TP48-3-I-NDI; TP48-3-N; TP48-3-N-NDI9 S+ b) S$ N   ~$ ].. 3 W$ {    J0 s. |TP48-4-G; TP48-4-G-NDI; TP48-4-I; TP48-4-I-NDI; TP48-4-N; TP48-4-N-NDI, R- v& ]! J4 ?+ }+ P! t3 e& C    W# @) {) C1 {TP48-G; TP48-G-NDI; TP48-I; TP48-I-NDI; TP48-N; TP48-N-NDI+ }4 g1 \$ l$ h8 o* ]7 U4 X6 Z9 u2 r8 q6 u$ g) L& C( F( ATP32-G; TP32-G-NDI; TP32-I# a% x" }$ g: @9 S3 q6 ?. r# {0 d& d1 c' pTP-ACFF-N; TP-AC420-N; TP-AC485-N; TP-ACSFF-N; TP-ACS420-N; TP-ACS485-N& D. N8 J2 a$ ]. c5 m' O7 f' }2 B; l& X) _/ ^9 e: ^. }7 m. o8 `- F: i# Q& I0 Q7 S5 r- k; Common models of E $HMA series surge protective devices: (T + Q,W7 l$ S6 M; ~    e& q    y+ L8 J# o6 n# w; y$ {0 ?MA05/D/1; MA05/D/2; MA10/D/1; MA10/D/2;$ s& c: W3 u+ S$ @# j8 q/ W; E6 n4 m9 ]! }* |* ] 3 wMA15/D/1/SI; MA15/D/1TT/SI; MA15/D/2/SI; MA15/D/2TT/L;* N4 h/ D/ p, ?9 X4 j0 g9 A4 n( f& xMA30/D/1/SI; MA30/D/2/SI; MA30/D/3/SI;+ v5 V; Y& O6 P: m5 t# k" F8 n! U4 ~MA3145-120-1-R; MA3145-120-4-R;/ q0 ~( b5 e9 i4 f1 ~- w7 W0 D, {+ `/ W6 g, X7 ? 8 Y# mMA3145-230-1-R; MA3145-230-4-R;    H9 A/ R" v* h( ~+ p8 ?: y$ ?' S4 E& \# ? 8 p$ S1 j3 V2 l! ]    K5 d" _. J' i4 ]% w% R' s$B - ~ 4 Q + | / i9 zslp series surge protective device common model: 4 V0 Z $W% X; t6 M( h6 `4 [    B- W: o) u3 iSLP07D; SLP16D; SLP32D;. n7 Q7 N. i# \1 q0 @6 p7 e! J6 Y5 B,K% H( u) B" c6 k0 [8 n+ o    a* a) I( {# g* @. c# YCommon models of IOP series:" [4 e) Y3 T3 ^) W6 F- S" b$ z7 E( b9 l' b$ C# k7 X" L* LIOP32; IOP32D; IOP-AC; IOP-HC32( c1 G/ s3 @5 d& x8 {/ L. t& z9 ? 3 a/ N! H # [, @ 7 Y1 UZB series surge protective device common models:   A+ s% r/ S+ O' @/ R% q0 Z% S3 ?ZB24510; ZB24511; ZB24518;0 O2 n, t9 U! ]. g0 }* G% `4 o1 v# s: x' nZB24521; 1 {$ P+ Q1 r7 O. @! D5 Q; m# r; U/ a1 B* T# L' i$ K0 }, qZB24540; ZB24542; ZB24547; ZB24548;" F7 m2 z+ F! z) J3 E2 q' G6 D( m4 O7 r' H# [. HZB24550; ZB24554;* Q/ a- b5 |( x! I/ j7 h7 R- L, _ 4 z   } 0 UZB24571; ZB24576; ZB24578; ZB24579;6 \; v4 J9 `- }! K) S" A3 B) w1 D9 `,O   \; ` 5 S/ j' J( eZB24580; ZB24582;& O8 T. `. x7 J. Y! H$ h7 B* w    TCommon model of ZD series surge protective device: 9 A6 t 'B3 g) Z (` 1}! l. R/ F- G9 i' e    e& s3 xZD14612; ZD14624; ZD14648;& r7 i% y, u" h9 s* ^+ l/ `/ w0 G" M" s5 g& ZZD16100; ZD16101; ZD16104; ZD16107; ZD16108;- m* e8 G" `7 S$ F9 f2 s: u7 q4 l" c+ n* c7 rZD16700; ZD16701; ZD16709; ZD16900; ZD16901;" o2 V" m    L0 G" n' \" Z0 ? 0 k3 {/ l* ~6 S) c% M" LCommon models of SD series surge protective devices: + Z - Y2 q) U0 P2 | - C "W: y" |$ e7 {+ h% Q' wSD32X,SD07X,SD16X,SD32,SD07,SD16% L5 L3 o6 Q) c7 S% {0 O" L1 c. W( s! Q$ l( v- Y1 a, V" O, hSD32R,SD07R,SD16R,SDRTD,SD32T31 G4 v# @: {8 u8 A" N8 X: M) a0 i% QSD275X,SD16R3" s; V( t. b: s$ ^( P5 i/ f8 Q$ h" h( {1 s1 _( K7 v. c7 i' @. ^! x0 ~" M.
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