Rosemount 3144pd5f2k5f5u1
Author:Zhang Xiaoxia Time:2021-06-07 15:45 Browse(207)
Rosemount 3144pd5f2k5m5f5u1, touch screen and OLED Forum
Rosemount temperature transmitter 3144pd5a1e5b4m51 V + X, R6 E1 L5 G0 S8 T1 L/ G8 H$ K3 d( \& }( j2 |Rosemount x-well technology provides complete point solution? It can be used in monitoring application(M / G2 T4 L (y) Q "} - S8 w to measure the process temperature, without the need for heat casing or process pipe opening.
4 Q1 J / S & R3 [/ P" @ 7 V) K2 H8 n (PIt simplifies the specification parameters, installation and maintenance of temperature measuring points, and eliminates potential leakage points.

Rosemount 3144pd5f2k5f5u1

in this paper, the design of temperature measuring points is introduced( x! E "J * [4T: b4k] the repeatable and accurate process temperature measurement results can be calculated by the built-in heat conduction algorithm of the transmitter.
;% E' F$ s! k+ f! IMeasure the surface and ambient temperature of the pipeline, and provide accurate process measurement results by using the heat conduction properties of the device and process pipeline" ].
t1 U/ A' Z9 H) s$ ]. P5 ?$ v, i- b   ~' The industry leading temperature transmitter provides unparalleled field reliability and innovative process 0 t # O6 Z # i7 L5 K6 Q + Q1 | $GMeasurement scheme3 X2 J$ ]1 a( p) u     Ultra high precision and stability, l%_ 3 D) u1 d: v- E5 D$ Y# @, r# P9 |    Dual sensor and single sensor capabilities supporting universal sensor inputs (RTD, t / C, MV, ohms)8 q% i# j,p" p" @4 H8 q, w     A wide range of sensors and process diagnostic products* v8 {; K( q' \. B" ~+ ~7 X1 T     Support sil3 level: certified by the third party organization, conforming to IEC 61508, and applicable to the minimum requirements of SIL 2 single application (1oo1) and SIL 3 redundant application (1oo2) of safety instrumented system level SIL 3 and below" C9 I# z! j/ m. ?? Double chamber housing.
}; x) y) I: f8 @1 d& j? Large LCD display 9 r\* b2 ? 1 x0 t: V4 W" s3 Z? 4—20 mA /HART?、 Optional versions (5 and 7), ?& I) r) {    m) L( N? FOUNDATION? Fieldbus, in accordance with ITK 6.0 and ne107 standards/ W3 _% F' J! S" V5 ]% d. L3 Y( S$ s& _Dekomont process control (Wuhan) Co., Ltd! t9 L! ?) L9 `* lContact person: Li Gong/L (Z4 o # E8 x # s, w% O3 e "T1 D. T Mobile: 17786044354; B! n& j& `8 _ 9 A! { 9 @ # m Fax: 027-88068180   .: N8 L, a) C7 ^- j, B6 g1 l# WQ Q:    896678782% B    O' G2 M* S( ~4 P' HAddress: 901, unit 1, block D, Zhongnan international city, Wuluo Road, Wuchang District, Wuhan City, Hubei Province+ Q% Z3 {& b2 v7 r4 f# l9 I1 U# M* r3 Z$ _Our company mainly deals in Rosemount, Emerson, Bentley, Yokogawa, e + H, Shanwu, Samson, beijiafu, kantai, MTL products,If the model is not complete, you can call to inquire.
please contact us"D: I% I" I + P 0 N% Q locator         AVP100-H         . 7 z8 E.
S. \9 I3 p! G # u transmitter         EJA438W-EATH2BB-AAZ-99DA/NF1         ; @ 6 w4 ~# H6 t1 c- e% t0 P0 nTransmitter         3051CD3A22A1AB4M5E5HR5         platform         ! V( \( f( \2 Z3 G9 v* C7 b9 RRosemount         parts         03031-0193-0103         individual         . 7 _: h+ s% \2 l7 J   \   O $~ Rosemount         Temperature sensor         0065QC05S0050D0500C06G2         ." h,B / g) U & A + R # Q9 r Rosemount         Radar level gauge         5401AH1NA3RPVRA         .$ Y* b) Z& i6 y! T # @ 0] / A6 g Rosemount         Radar level gauge         5402AH1NA3PNABA         6 {6 M; J4 v% Y& e- W2 aRosemount         Radar display         two thousand two hundred and ten         .! Y/ l/ W/ m; ? 1 x Rosemount         Radar level gauge         5402AH2134SPV                    .  |   B0 }2 {4 ~& p: e,N Rosemount         Radar level gauge         5401AH1NA4RPVBR         .# S& b0 H/ D+ M+ b    S Rosemount         Radar level gauge         5402AH2I3NANANA         ., [; } 0 H + I4 P. E, n # e * b * q Rosemount         Radar level gauge         5408A3SHA1NA1GBZZPAS8M5C1         : p4 _+ v7 Y+ w2 ?; W5 jRosemount         Radar level gauge         5402AH1E54PNACA         .# T5 {& N8 P% l Emerson         electromagnetic flowmeter         8705TSA140C1M0         platform         3 h* O    U* D1 h' F" o* }; O3 FEmerson         electromagnetic flowmeter         8711SHA040U1Q4         platform         & S- n( R* U1 A3 `+ {Emerson         electromagnetic flowmeter         8711SSA015R1NA         platform         5 P, D# w# G! b# x# L/ l- iEmerson         electromagnetic flowmeter         8705TSA005C1M0ND         . 0 Y4 O7 z8 R& w3 E# {    R6 Z # J Emerson         electromagnetic flowmeter         8705TSA025C1M0ND         : m6 s' v; O% ]Emerson         electromagnetic flowmeter         8705TSA040C1M0NFB3         .$ K% l,D9 {! X& |! Q9 h Emerson         electromagnetic flowmeter         8711SSA060M1         platform         . 9 H4 V! P9 T7 F:} Emerson         electromagnetic flowmeter         8711SSA030L1N7         platform         .- B    V/ u# [; ]! R; ~ 0 F - V Emerson         electromagnetic flowmeter         8721ASA005XBXN0         platform         ( b$ [0 j7 D' g6 X/ g; w) J! yEmerson         electromagnetic flowmeter         8732EST1A1N0M4+8705NSE020CHW0N0B3% T% u9 c3 ^6 ^/ b% [! Y! M5 @ 4 [1 A] Emerson         electromagnetic flowmeter         8732EMT1A1K5M4+8705ASE015SHM0K5B3         .! K3 {0 g (~. S: M 'C "E2 B7 g Emerson)         electromagnetic flowmeter         8707PSA080C1W0NA         .! i5 k& W7 v' Y; i) B Emerson         electromagnetic flowmeter         8750WDMT1A1FTHA010CDHZ5M4CM         .- R3 J% C' R& E6 B    B Emerson         Vortex Flowmeter         8800DF005SA1N1D1E3M5         * ^+ I6 Y# T/ q0 j4 \Emerson         Vortex Flowmeter         8800DF010SA1N1D1I3M5CM         ! C" N6 a$ T0 h8 Y) MEmerson         Vortex Flowmeter         8800CF005SA1N1D1Q4         1 P' V0 C1 V0 t: W: p$ yEmerson         Vortex Flowmeter         8800DF005SA3E1D1K3M5R20; _,C9 G & R - G% I. g (z) Emerson         Vortex Flowmeter         8800DF010SA1N1D1E3M5CM         2 ? 3 Q1 R. u& M% TEmerson         Vortex Flowmeter         8800DF020SD3N1D1E3M5         : ~$ Y% I0 ^! i3 k, Q( P# F! cEmerson         Vortex Flowmeter         8800DF020SD1N1D1E3M5         ., O0 o2 V' i9 N; J Emerson         Vortex Flowmeter         8800DF010SA1N1D1I3M5         . 6 ~, [- v! E-T Emerson         Vortex Flowmeter         8800DF020SA3N1D1I5M5R105 }& h( i! { 9 G6 D8 V Emerson         Mass flowmeter         1700I11ABAHZZZ         6 D$ L+ X0 C* _ 4 S) }; zEmerson         Mass flowmeter         2700R12BBAMZZZ         .' v) R "]" X. Q * M & V "] Emerson         Mass flowmeter         2700R11DEKMZZX         . 1 C, l9 S7 X( e% O    X & W Emerson         Mass flowmeter         CMFS150M341N2BAMKZZ         . 3 ~# \4 [,v5 Q7 _) T7 [(c) Emerson         Mass flowmeter         2700C12AGPMZZZ         / E; [$ } 2 Y5 K9 }6 b; ^Emerson         Mass flowmeter         1700I11ABAEZZZ+F050S114SCAAEZZZZ         .+ x- k5 f7 D- ~: m    P & Q & I4 Q Emerson         Mass flowmeter         CMFS010M313N2BAMCZZ4 V + Z (V + W% Q. ` Emerson         Mass flowmeter         1700I11ABFMZZZ         . 6 F4 I / N2 n # g Emerson         Mass flowmeter         1700R11ABAEZZZ         .! Z) y% l! q9 ?* X; N Emerson         wireless adapter         775DX21I5WA3WK9-RF         - L, ~,j3 Y7 i4 z# Q4 Y2 cEmerson         Analyzer         8-0108-0002-EPA         ( x) \0 y; _' x/ I8 _ 8 YEmerson         Analyzer         8-0102-0003-ISO         . 3 u9 F7 l0 r4 S    W3 L & L * B Emerson         Analyzer         400VP-12         platform         + @( g. ]    H7 V# K& @5 t- GEmerson         Analyzer         396P-01-10-55         . 1 b7 {& n+ `& X2 X7 ? 8 K Emerson         Analyzer         396P-02-12-55         # T5 e0 J* m' s) ?) r% U5 dEmerson         Analyzer         499ATRDO-54         . 6 [! W3 T/ M( C* m" ? 9 M; S$ g; I6 I'w * f Emerson         Analyzer         499AD0-54         ) M. n" s) r# j) a7 {( v,@Emerson         Analyzer         3900-01-10         .   R7 g% e * [$H: y # Q Emerson         Analyzer         3900-02-10         2 N' x6 i$ y3 ]% }: j1 F! qEmerson         Analyzer         24281-00         platform         7 j/ s* A    Q( ~# k4 ^    K. f6 rYokogawa         Flowmeter         DY100-NALSS4-0N+DYA-D0N         ., e- |! P   }" U5 @ 1} Yokogawa         Flowmeter         DY050-NALSS4-0N+DYA-D0N         & T9 c2 o% D& y% h    b1 ]Yokogawa         Flowmeter         AE14-DA1O/ECG         .; I0 C8 n (o $B5 L4 K) n Yokogawa         Flowmeter         AXF050C-E2AP1N-BD21-01B/NF2/CH         .: ] 0 ? 1 H/ o3 g! H3 a Yokogawa         Flowmeter         AE14-DA1J/ECG         + r$ s" q    N2 `8 I3 P9 s9 z0 QSamson         positioner         3730-31000000400000000.01         .$ N / U4 a * p $^: P Samson         positioner         3730-31000000400000009.03         .% d) E9 e * C3 ^ $m Samson         positioner         3730-31000000400000000.03         . 2 }4 l6 b! U4 F0 T "O Samson         positioner         3730-30001000400000000.01         .; K * s * e: P1 s Samson         positioner         3730-31001000400000009.03         .- @" w* _ 4 c    X Samson         positioner         3725-0000000000.00         . 7 l" [! i' s; w* c! Y-o Fisher         positioner         DVC6200         # z7 A4 I. r,n: Y6 Q. sFisher         positioner         DVC6030         ; ]/ @$ N: b8 c3 Y' P: ~/ IFisher         positioner         DVC6020         ." \ 0 q3 t7 B; q. {5} 'D3 u Rosemount         Liquid level meter         2120C1DR1NABD         7 B8 K3 Z$ m" P- h) c) zRosemount         Liquid level meter         2130DA9ES9NNNA00001NA         ( Y" t   {* \$ b$ B6 ]    URosemount         Liquid level meter         2120D1BG1NAAA0000         .# F0 P) @0 S+ j' @! 5. [5 P, ` Rosemount         Transmitter         2088G3S22A2M5B4E5T1Q8HR58 U * h $B $[$d3l9 Q # I Rosemount         Transmitter         2088G4S22A2M5B4E5T1Q8HR5) {; G0 `& C( H9 sRosemount         Transmitter         2088G2S22A2M5B4E5T1Q8HR5! |/ O4 i& N" v5 F: O1 _Rosemount         Transmitter         2088G4S22A1B4E5HR5         . r( i% Q% p+ {,TRosemount         Transmitter         2088G2S22A1B4E5HR5         0 Y6 H' q" T2 S9 ~4 dRosemount         Transmitter         2088G3S22A1B4E5HR5         .: ?( P; T4 B / A & h * Z Bonner         S18SN6DQ         ." z   [* Q! {) d) ` 4 E9 M4 g, ^ Bonner         S18SP6DQ         1 I7 k) C! D) U5 V, DBonner         QS30LLPQ         # T5 W8 R4 j/ N( e( Z' QBonner         S18SP6D         individual         ; e7 \1 N    o0 m& _+ {Bonner         S18SN6D         individual         9 i7 h    o2 o' v3 j3 iPIF         PIF/20-100KPA/4-20MA/12-28DC/-A-ISEWPP         2 Y8 z; i/ p& j" O/ ? 8 [2 _Parker         SCP01-250-24-07         ' P2 q9 {7 K, eifm         PN7001         " ~ 3 D$ T- |6 ]8 [festo         SPABT-B2-R18-2N-K2-B-SA         .# A / ^ 9 M5 o $O4 F-T Rosemount         Transmitter         3051TA1A2B21AB4K56 ]' Q- Z: @. }4 T/ s" a& A( qwika         IS-20-S-PBO-ND-AZGAXZUX1-ZZZ         ) [,\7 D, H8 ~wika         IS-20-S-PBQ-ND-AZGA4ZUX1-ZZZ         , ~) O* R; ?% J2 W- W) dwika         IS-10-A-PBE-ND-ZGA4ZUF-ZZZ         .& O5} 8 h * R6 q) O: I2 w) I Vicat         IS-20-S-PBG-ND-AZGAXZUXA-ZZZ         5 Z0 O- n4 h4 hwika         IS-20-S-PBQ-ND-AZGAXZUX1-ZZZ         3 ^. R& O2 I% Q2 Q/ G3 v# D: _+ _Danforth         MBT-3270-08427095         .+ G5 [* '. ~ 5 f * S6 n Danforth         MBS-3000-060G1125         2 q, L9 ~3 Z& [8 g& K& PDanforth         MBT-5250-084Z8036         2 [/ F2 V& l. P, y8 _ 7 ZDanforth         MBS-3050-060G6387         & O3 Z3 g' z4 s$ c1 qDanforth         MBS-1900-064G6521         .& e5 T3 |+ c    e) E + F5 m Danvers         MBC-5000-061B201266         . 4 e2 ?,v* }! g    W9 X6 s" i" ]( w2 o5 @# G4 Q.
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