Rosemount analysis transmitter 5081-p-ht-21-60
Author:Huang Heming Time:2021-06-09 15:47 Browse(932)
Rosemount analysis transmitter 5081-p-ht-21-60, touch screen and OLED Forum
Rosemount analysis transmitter 5081-p-ht-21-603 I    e/ c, P4 e2 wRosemount 5081 flameproof transmitter is a single channel loop power supply device, which can receive the input of pH / ORP sensor, conductivity sensor (contact and ring) sensor and ammeter (dissolved oxygen, chlorine and ozone sensor).

Rosemount analysis transmitter 5081-p-ht-21-60

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|#_    g6 R+ O6 C" j' T: z    k4 R    L 'E5 y6 x specification:+ Z: N% h( C0 j! J0 T4 m measurement range pH range: 0 to 14.
ORP range: - 1400 to + 1400mv "H" P #] / P5\    F4 D* J: c. oAmbient temperature - 20 to 65 ° C (- 4 to 149) ° F)0 {. f& A   @# B' [& n! p5 kCommunication protocol Hart (PH): PV is specified as pH value.
SV, TV and 4V can be specified as pH, temperature, MV, glass impedance, reference electrode impedance or RTD thermal resistance.
6 {6h; C; S# {Hart (ORP): PV is specified as ORP value.
SV, TV and 4V can be specified as ORP, temperature, reference electrode impedance or RTD thermal resistance.
- ^ 4 A & J9 U4 MCertification / Approvals fieldbus (PH): four AI function blocks can be specified as pH, temperature, reference electrode impedance and glass impedance( S! \; k( A& s6 q- U* l! I3 nField bus (ORP): three AI function blocks are designated as ORP, temperature and reference electrode impedanceEnclosure rating fieldbus (pH and ORP): execution time 75 msec.
a PID function block; Execution time 150 msec.
: e $d # Y8# y/ ^Device type 4085.
device version 1.
certified by ITK 4.5.
1.
W" M9 u* |   \ 3 M4 _( The minimum power supply voltage of F power supply is 12 VDC.
the maximum power supply voltage is 42.4 VDC (intrinsically safe operation voltage is 30 VDC).
the power supply voltage shall cover the cable and external load resistance (at least 250 VDC) required for HART communication Ω) The pressure drop on the surface of the valve.
0) J9 x; v* v6 _; C5 q6 _    z/ }1 G! C7 n( }$ n( r% |- yFunction:    b.
d0 X5 I& ^: [2 x% OIt is made of heavy-duty cast aluminum and has a strong and durable explosion-proof design.
$X & [8 D4 Q% B; I; q9 R    T8 YFast start programming is adopted.
for faster installation+Q # y $[. R *} - I with intrinsically safe, non flammable, explosion-proof dangerous place certification   g8 H( I, l; ?" y; {   { Process parameters can be viewed through Hart or foundation fieldbus digital communication0 D1 I7 A/ _,s. k0 r   @ 4 ^   _ Select Hart or foundation fieldbus communication option to easily establish connection with PLC and DCS.
% T6 g (G8 V8 Y "I2 Z - y' s) O; }; X5 ? 8 K2 sTwo wire analytical transmitter (suitable for pH, ORP, conductivity, oxygen, ozone and chlorine)1 t (N4 R8 B7 Z1 S0 H2 {two wire transmitter5 c$ g1 B# [    X4 Q% s.
a two communication protocols are available: HART communication or FF9 M1 F7 B /~ 1 W, @* r3 HField bus;4 N8 H0 S; v9 c    U3p2 ^ two line large screen display, clear and easy to understand, respectively display the measured process parameters and, respectively display the measured process parameters and "['g, F8 E1 B7 H4 s; d4 EProcess temperature;/ B7 n6 a4 ?; _) H menu structure is simple;2 {9 L (C7 C & I) rugged enclosure design meets NEMA 4x and NEMA 7b protection level; 9 D/ c& m! f6 w) HIntrinsically safe design makes the transmitter suitable for explosive environment (select appropriate safety barrier);% k( _" h6 b( b) ]: m) NIn case of power failure, nonvolatile memory saves the program setting content and label, nonvolatile memory saves the program setting content and label) @ 8 ^; R+ u' O- U
6 C # L   | 7 c" _+ P- M; O6 S3 d2 y2 E' ]+ S- @Performance and application:; t2 h.
c   _: Z (^ # p5081 series analytical transmitter can detect the following parameters: pH, ORP, conductivity (connecting contact conductivity sensor and ring conductivity sensor)The results show that the most important components of Rosemount analytical are: K6 F1 ~ 0 a & Q6 x, resistivity, dissolved oxygen (ppm and ppb), total chlorine, residual chlorine and dissolved ozone+ Y3 w/ F& ^2 ~0 L! q3 i# m; I sensors are used together.
for details, please refer to the technical specifications# d/ M( }8 [& S* _$ R+ _- The v5081 transmitter is a cast aluminum spray epoxy polyester shell.
it is strong, all-weather, anti-corrosion, and meets the protection level of NEMA 4x and IP65+ M# {7 [$ D' k( J+ e6 w: ? 7b explosion proof standard' B7 l. ~' `0 d9 L! The w5081 transmitter has two lines of LCD display.
the first line of display is 0.8 inch (20 mm) high.
the main measurement parameters, such as pH, conductivity, etc., are displayed.
the output of the transmitter is 0.8 inch (20 mm) high( m- |) ? 8 q    The second line of I & L2 R & J * I6 R-G displays characters 0.3 inch (7 mm) high.
displays secondary measurement parameters, such as temperature; If the residual chlorine is detected, the pH value will be displayed.
if the residual chlorine is detected, the pH value will be displayedThe $p "^ 4 L. @ & T3] 8 V4 b5081 transmitter has two optional digital communication modes: HART Communication (selection code HT) and FF Fieldbus (selection code FF)% {/ D) W) q" U. Y9 X2 PThese two communication methods can use AMS software (equipment management program).
through AMS software, with the help of personal computer or factory host, operate 6 Q2 Z + e "Z: B5 vThe operator can set and configure the transmitter, read process variables and diagnose faults! `/ ^ 6 P- i* S% Q0 ?. _% b: O* W2 P. z.
p7 c) f8 b9 V! k$ w! d5 y# y+ T( X1 o& U2 RRosemount analyzer transmitter 5081p-ht-20-73! X$ u/ ? 5 Q0 REmerson gas analyzer X-Stream c-v. {# {$i7 | 6 CEmerson analyzer 396p-02-10! [- y! W2 R-O Emerson analyzer 1066-p-ht-60' h" p9 E' L; W / R9 U6 l Rosemount analyzer cable 24281-00$F2 q'k9 L-K) C $U * B Emerson analyzer 1056-01-21-38-an; A# E" m0 s2 F: O% a,M Emerson analyzer 228-02-21-54-61 + o'b - w # J% L7 L + JEmerson analyzer 23242-02   O: [3 G: D9 X1 w)] Emerson analyzer 389-02-11-55   k' A* y% z7 e' B    F% F9 m Emerson analyzer 1066-t-an-60 - D # L "O: t   [ 1 |; k' C0 H' a6 c% mRosemount turbidimeter t1056-01-10-20-30-71 turbidimeter 8 g (J & A / L $J1 |'n. aEmerson pH analyzer 1056-01-22-38-an * U8: G; T0 K* }+ {- pEmerson pH analyzer 1056-01-20-38-an# A5 `2 N! _ 9 h Emerson pH analyzer 1056-02-25-32-an1 s / '(B: n / K})_Rosemount analyzer 1056-02-22-38-an7 O) N# e: F& L! V'h% n Emerson dual detection conductivity analyzer 1055-01-10-20-30    G. q* H( l4 S; g+ SEmerson analyzer pH transmitter 1066-t-ht-60    v! f9 Q1 t" s) e7 B2 k1 TEmerson analyzer 1056-02-20-an - Z2 e 'x9 Y - M4 F5 uEmerson analyzer 1056-01-21-31-an7 h *} (f $\: b)Rosemount analyzer 1066-p-an-603 Z8_( e+ U! G5 |% REmerson analyzer 1055-01-10-22- n' q! \& E0 B Rosemount analyzer 1056-03-21-38-ht8 s # I (} / y. l% L +} 5 SEmerson analyzer 1056-02-22-32-an / F # h # C7 g,U1 IEmerson analyzer 1056-03-24-34-an1 H3} & D W& {) ]Rosemount analyzer 1056-01-24-38-ht% s5 ]0 i3 ? 1 W3 P + F2 B Rosemount analyzer 1056-02-22-38-ht1 t # K2 B + h'w # U9 r Rosemount analyzer 1056-03-20-38-an7 ?% r6 ? 1 M $@ Emerson analyzer 1056-01-24-32-an7 E1 I # W7 Q8 '+ I Emerson analyzer 1056-01-22-30-an7 z%? 1 ]" y: ]$ LEmerson analyzer 499aoz-54(J: O% ^ $B * x * g (J # x) C8 ` 8 L9 u Rosemount analyzer 1066-do-ht-606 P (Q7 H & U% m* q* DEmerson analyzer 1056-02-20-31-an, P/ n0 j, I0 |; R (R * D. J6 s Emerson analyzer 5081-t-ht-21-67- M; c! V1 c3 e( d    C2 [Rosemount 1056-01-20-30-an; o/ U. P/ x; d* [+ rEmerson analyzer Oxford 4000: oxt4a-1-4-0-0-14-3-1-00-02-13 - U7 T. S2 D2] * lRosemount analyzer 3200hp-02( [: g2 t8 U$ ^0 P. H0 Q   \( N Rosemount analyzer 400vp-11 # R (I1, T3?)?,k' r8 FRosemount analyzer 1056-03-22-38-an*] 5 F: y # ^ 9 R7 f Emerson analyzer 3500p-ht-02-10-21-30; j6 Q6 _! C0 D# m! C "e Rosemount analyzer 1056-01-22-30-dp-A * s, P6 {$B: X3 V Rosemount analyzer 3900-02-12' _ 3 {0 T1 Q (U. {$\ \ Emerson Rosemount pr6426 sensor( M& z; G 'G6 x) h, Y: Q, e Rosemount conductivity sensor 403-11-20-50 & C $J - K% v / d. x # V: ^ "U    b! dRosemount turbidimeter sensor probe 8-0108-002-epa revi"Y # f $O3 @. '* {(t0 L4 X: ~ Rosemount sensor 150-03-540 m3 m; y' O9 j4 ^- S0 c; RRosemount turbidimeter sensor 8-0108-0003-iso+ G    L. Q; J7 J2 g $L6 r Rosemount turbidimeter sensor 8-0101-003-iso& T    V1 S8 f! @- @ Rosemount sensor 404-12-17-50   T; O! @/ U $p: | 6 u Emerson conductivity sensor 400-11& x/ g    W) W% u9 I 'S8 x Rosemount pH sensor 400-11-605 ~ + T * N1 F3Y) C5 E9 {+ DEmerson sensor 3400ht-10-25-30-62'd% C (I% m    r% k,^" |Rosemount pH sensor 396p-02-12-550 P: F; X "} 0 V5 x Rosemount pH sensor 396p-01-13-55-419 Q /? 3 g% _; \ 4 V7 Q4 ?Emerson sensor 402-11+ t1 H6 |   @" N! B - I "x, C Rosemount sensor 499ado-545 W1 X / D3 H & G3 S $[Rosemount turbidimeter sensor t1056-02-10-20-32-710 D6 Z8 O6 Z # h) t (W. g Emerson sensor 499atrdo-54-70' [    H& |) }3 ? 7 J Emerson sensor 3400ht-10-21-32-62. g+ I- C   @  |   N) R-C "P Rosemount pH meter sensor 3300ht-10-318 Y4 x # e * X3 x9 B + ['nRosemount sensor 396r-12-21-546 D (e7s3 @ / q3b7 f; g2 H/ A& M/ M) t' x$ Q3 s& p* b! S8 x.
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