Toshiba LF546 manuel d'utilisation

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157

Aller à la page of

Un bon manuel d’utilisation

Les règles imposent au revendeur l'obligation de fournir à l'acheteur, avec des marchandises, le manuel d’utilisation Toshiba LF546. Le manque du manuel d’utilisation ou les informations incorrectes fournies au consommateur sont à la base d'une plainte pour non-conformité du dispositif avec le contrat. Conformément à la loi, l’inclusion du manuel d’utilisation sous une forme autre que le papier est autorisée, ce qui est souvent utilisé récemment, en incluant la forme graphique ou électronique du manuel Toshiba LF546 ou les vidéos d'instruction pour les utilisateurs. La condition est son caractère lisible et compréhensible.

Qu'est ce que le manuel d’utilisation?

Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Toshiba LF546 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.

Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.

Donc, ce qui devrait contenir le manuel parfait?

Tout d'abord, le manuel d’utilisation Toshiba LF546 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Toshiba LF546
- nom du fabricant et année de fabrication Toshiba LF546
- instructions d'utilisation, de réglage et d’entretien de l'équipement Toshiba LF546
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

Pourquoi nous ne lisons pas les manuels d’utilisation?

Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Toshiba LF546 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Toshiba LF546 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Toshiba en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Toshiba LF546, comme c’est le cas pour la version papier.

Pourquoi lire le manuel d’utilisation?

Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Toshiba LF546, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Toshiba LF546. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 1

    6 F 8 A 0 9 3 4 Electromagnetic Flowmeter CAPACITANCE TYPE MODEL LF516 / LF546 INSTRUCTION MANUAL NOTES Before using the equipment, please read this manual carefully and understand the contents, and then use the equipment correctly. • NEVER attempt to operate the equipment in any ways that are not described in this instruction manual. • After r[...]

  • Page 2

    − 1 − 6 F 8 A 0 9 3 4 NOTICE We thank you very much for your purchase of our LF516/LF546 CAPACITANCE TYPE series electromagnetic flowmeter. This instruction manual describes the notes on using an electromagnetic flowm eter , installation, configuration and maintenance. It is intended for the personnel in charge of installation, operation and ma[...]

  • Page 3

    − 2 − 6 F 8 A 0 9 3 4 SAFETY PRECAUTIONS Safety signs and labels affixed to the product and/or described in this manual give important information for using the product safely. They help prevent damage to property and obviate hazards for persons using the product. Make yourself familiar with signal words and sym bols used for safety signs and l[...]

  • Page 4

    − 3 − 6 F 8 A 0 9 3 4 SAFETY PRECAUTIONS (continued) Safety Precautions for Hazardous Locations WARNING  Do not disconnect while circuit is live unless location is known to be nonhazardous. DON ’ T Live part of electric circuit or a high temperature department can cause explosion .  Do not modify or disassemble the enclosure. DON ’ T [...]

  • Page 5

    − 4 − 6 F 8 A 0 9 3 4 Safety Precautions for Installation and Wiring CAUTION  Install a switch and fuse to isolate the LF516/LF546 from m ains power.  Use an appropriate device to carry and install the LF516/LF546. DO Power supply from m ains power can cause electric shock or circuit break-down . DO If this product falls to the ground , i[...]

  • Page 6

    − 5 − 6 F 8 A 0 9 3 4 SAFETY PRECAUTIONS (continued) Safety Precautions for Maintenance and Inspection CAUTION  Do not touch LF516/LF546 main body when high temperature fluid is being measured.  Do not conduct wiring work when power is applied . DON’T The fluid raises the main body temperature and can cause burns when touched. DON’T W[...]

  • Page 7

    − 6 − 6 F 8 A 0 9 3 4 Handling Precautions To obtain the optim um perform ance from LF516/LF546 flow meter for years of continuous operation, observe the following precautions. (1) Do not store or install the flowmeter in : ・ Where there is direct sunlight . ・ Where excessive vibration or mechanical shock occurs . ・ Where high temperature[...]

  • Page 8

    − 7 − 6 F 8 A 0 9 3 4 Handling Precautions (continued) (6) Observe the following precautions when you open the converter housing cover : • Do not open the cover in the open air unprotected against rain or wind . This can cause electric shock or cause damage to the flowmeter electronics . • Do not open the cover under high ambient temperatur[...]

  • Page 9

    − 8 − 6 F 8 A 0 9 3 4 Table of Contents 1. Product Inspection and Storage................................................................................................. ........................... 11 1.1 Product Ins pecti on ............................................................................................................. .........[...]

  • Page 10

    − 9 − 6 F 8 A 0 9 3 4 8.1 Parameter Se tting Ite ms ........................................................................................................ ........................ 53 8.2 Check/Change of Parame ters ..................................................................................................... .................. 54 8.2.1[...]

  • Page 11

    − 10 − 6 F 8 A 0 9 3 4 11. Communications Function ........................................................................................................ .......................... 131 11.1 Connections with HHT Term inal .................................................................................................. ................ 131 11.[...]

  • Page 12

    − 11 − 6 F 8 A 0 9 3 4 1. Product Inspection and Storage 1.1 Product Inspection LF516/LF546 electromagnetic flowm eter is shipped in a cardboard container filled with shock-absorbing materials. Open the package carefully and check as follows:  Make sure the following items are included in the package.  Inspect the flowmeter for indication[...]

  • Page 13

    − 12 − 6 F 8 A 0 9 3 4 2. Overview LF516/LF546 electromagnetic flowmeter can be use in the following hazardous (classified) locations. Class Ⅰ , Division 2, Groups A, B, C and D, Class Ⅱ , Division 2, Groups E, F and G Class Ⅲ This product is electromagnetic flowm eter that measure the volum etric flow rate of conductive fluid using Farad[...]

  • Page 14

    − 13 − 6 F 8 A 0 9 3 4 3. Names of Parts 3.1 Appearance of LF516/LF546 Figure 3.1.1 Appearance of LF516/LF546 IMPORTANT The cable connections are not provided in the conduit port of this apparatus. Please prepare yourself for the cable connections, wh ich could be used in Division2 hazardous locations. Terminal block cover Converter Ground term[...]

  • Page 15

    − 14 − 6 F 8 A 0 9 3 4 3.2 Construction of the terminal blocks Terminal Block Construction of LF546 Converter When you rem ove the terminal block cover shown in the figure "A ppearance of LF516/LF546", you can see the converter terminal block as shown below. CAUTION The label shown left is placed near the terminal board for power supp[...]

  • Page 16

    − 15 − 6 F 8 A 0 9 3 4 4. Installation Safety Precautions for Installation WARNING  Do not activate live circuits under environment of explosive atmospheres. DON’T Live part of electric circuit or a high temperature department can cause explosion .  Do not use parts of other products . DON’T Protective performance degradation for haza[...]

  • Page 17

    − 16 − 6 F 8 A 0 9 3 4 4.1 Notes on Selecting the Installation Location Do not store or install the flowmeter in : 1. Places within the imm ediate proximity of equipm ent producing electrical interference (such as motors, transformers, radio transmitters, electrolytic cells, or other equipment causing electromagnetic or el ectrostatic interfere[...]

  • Page 18

    − 17 − 6 F 8 A 0 9 3 4 4.2 Mounting Procedure 1. Avoid places within the immediate proxim ity of equipment producing electrical interference (such as motors, transformers, radio transmitters, electrolytic cells, or other equipment causing electromagnetic or electrostatic interference ). 2. Avoid places where excessive pipe vibration occurs . 3.[...]

  • Page 19

    − 18 − 6 F 8 A 0 9 3 4 (2) Preventing an Empty Pipe Condition Fix the relevant pipes installed on both sides of the de tector by attach fittings, etc. to support the pipe. By supporting the pipes, not only the pipe vibration is reduced but also the damage to the pipes by the electromagnetic flowmeter's weight and the fluid m ass (see Figur[...]

  • Page 20

    − 19 − 6 F 8 A 0 9 3 4 4.2.2 Installation Procedure To mount the LF516/LF546, place it between the upstream and downstream pipe flanges and tighten it with flange bolts and nuts. See Figure 4.4 and follow the procedure below: 1. Insert two lower mounting bolts through the clearance holes in the upstream (or downstream ) pipe flange. 2. Install [...]

  • Page 21

    − 20 − 6 F 8 A 0 9 3 4 Table 4.1 Bolt length and Nut tightening torque ANSI class 150 ANSI class 300 Through Bolts Through Bolts Meter size P.C.S Dia- meter Length [mm] Tightening torque [N ・ m] P.C.S Dia- meter Length [mm] Tightening torque [N ・ m] 15mm 1/2” 4 1/2” 150 12 to 15 4 1/2” 155 25 to 31 25mm 1” 4 1/2” 170 21 to 26 4 5/[...]

  • Page 22

    − 21 − 6 F 8 A 0 9 3 4 4.3 Piping Connections (1) Required Pipe Length If various joints are used upstream of the detector outlet, the straight pipe length as shown in Table 4.2 is required. Table 4.2 Required straight pipe length on the upstream side L: Required straight pipe length—straight pipe length plus half length of the detector. D: N[...]

  • Page 23

    − 22 − 6 F 8 A 0 9 3 4 (2) Pipe Orientation The detector may be installed in horizontal, vertical or sloping pipe runs as shown in Figure 4.5. However, except for horizontal installation, fluid should flow from lower to upper directions. See Figure 4.5. Figure 4.5 Detector Piping Orientation The electrodes should be positioned horizontally agai[...]

  • Page 24

    − 23 − 6 F 8 A 0 9 3 4 (3) Flow Direction Install the detector in accordance with the flow direction arrow on the detector. See Figure 4.7. If the actual flow runs opposite to the specified flow direction, the following display and output appears. For single range measurement, ・ LCD display: Instantaneous flow rate ------------- indicates neg[...]

  • Page 25

    − 24 − 6 F 8 A 0 9 3 4 4.4 Grounding CAUTION  Do not wire cables and replace parts when power is supplied.  Do not work on piping and wiring with wet hands . DON’T Wiring work and replacing parts in the power-on state may cause electric shock. DON’T Wet hands may result in electric shock . Ground as shown in Figure 4.10. Make the grou[...]

  • Page 26

    − 25 − 6 F 8 A 0 9 3 4 5. Wiring Notes on wiring WARNING  DO NOT DISCONNECT WHILE CIRCUIT IS LIVE UNLESS LOCATION IS KNOWN TO BE NONHAZARDOUS. DON’T Live part of electric circuit or a high temperature departm ent can cause explosion .  Do not activate circuits while assembly of all com ponents is not over. DON’T Protective performance[...]

  • Page 27

    − 26 − 6 F 8 A 0 9 3 4 CAUTION  Install a switch and fuse to isolate the LF516/LF546 from m ains power.  Turn off mains power before conducting wiring work. DO Power supply from m ains power can cause electric shock or circuit break-down . DO Wiring while power is applied can cause electric shock .  Do not work on pipi ng and wiring wi[...]

  • Page 28

    − 27 − 6 F 8 A 0 9 3 4 CAUTION (1) Select the cable run location so they are away from electrical equipment (motors, transformers, or radio transmitters) which causes elect romagnetic or elect rostatic interference . (2) Deterioration of flowmeter circuit insulation occurs if the converter interior or cable ends get wet or humidified. This in t[...]

  • Page 29

    − 28 − 6 F 8 A 0 9 3 4 5.2 External Device Connections and Grounding The terminal board connections of LF516/LF546 Flowme ter are shown in Figure 5.1. Proceed with wiring as described in Section 5.4, “Wiring Procedure.” Figure 5.1 External Wiring Schematic Diagram * Use a heavy copper braid or wire (cross-sectional area 5.5 mm 2 minimum ) t[...]

  • Page 30

    − 29 − 6 F 8 A 0 9 3 4 5.3 Notes on Wiring Notes on Instrumentation-Converter Wiring • To avoid 2-point grounding, ground the shield of output cabl e basically at the receiving side. • Use a grounding wire of IV wire 5.5m m 2 or m ore. The size of the external grounding terminal screws is M4. Do not share a grounding wire with other instrum[...]

  • Page 31

    − 30 − 6 F 8 A 0 9 3 4 5.4 Wiring IMPORTANT The cable connections are not provided in the conduit port of this apparatus. Please prepare yourself for the cable connections wh ich could be used in Division2 hazardous locations. CAUTION  Do not wire cables and replace parts when power is supplied.  Do not work on piping and wiring with wet [...]

  • Page 32

    − 31 − 6 F 8 A 0 9 3 4 5.4.2 Cable Connection Connect and install the terminal-treated cables to the term inal block by the following procedure. * Connect the cables to the terminal block securely. A loose connection may cause incorrect measurem ent. After connecting a cable, try to pull it to check whether it has been connected securely. Refer[...]

  • Page 33

    − 32 − 6 F 8 A 0 9 3 4 5.5 Digital I/O Connections Digital I/O terminals consist of contact output term inals ( DO1 and DO2 ), voltage signal input terminal ( DI ), and signal com mon terminal ( COM ). Each terminal ( DO1 , DO2 and DI ) is isolated from internal circuits. Terminal ( COM ) is the signal com mon for the other three terminals ( DO[...]

  • Page 34

    − 33 − 6 F 8 A 0 9 3 4 6. Operation CAUTION  Do not touch the terminal board when pow er is supplied.  Do not touch the main body when high temperature fluid is being m easured. DON’T Touching the terminal board when power is supplied can cause electric shock. DON’T The fluid raises the main body temperature and can cause burns. 6.1 P[...]

  • Page 35

    − 34 − 6 F 8 A 0 9 3 4 6.2 Zero Adjustment To conduct zero adjustment of the flowm eter, the fluid in the detector pipe must be held still . There are three different ways to start the zero adjustment: (1) Pressing a combination of control keys for the model with LCD display See 8.2.14 “Still Water Zero Adjustment” (2) Sending a command sig[...]

  • Page 36

    − 35 − 6 F 8 A 0 9 3 4 7. LCD Display and Controls 7.1 Name and Function of Each Part of LCD Display The LDC display and infrared switches (hereafter, calle d "control key") in front of the converter allows you to view or set various constants such as measured values and param eters. Figure 7.1 Display section of LF546 Instructions Th[...]

  • Page 37

    − 36 − 6 F 8 A 0 9 3 4 ● LCD electronically rotatable display 8-line × 14-character liquid crystal display . The backlit display provides an easy-to-read indication even under poor lighting conditions . Instantaneous flow rates or totalized flow in the measurem ent mode or configuration param eters in the setting mode can be displayed. (Num [...]

  • Page 38

    − 37 − 6 F 8 A 0 9 3 4 ● Setting switch The control keys allow you to perform converter control and setting, without opening the converter housing. These three controls keys function differently depending on the current display screen. The functions of these control keys are displayed on the display screen. In this product, the display method[...]

  • Page 39

    − 38 − 6 F 8 A 0 9 3 4 7.2 Display Format In the m easurement m ode, the m easured data is displayed using the menu item s set by the Display 1 ( DSPL1 ) and Display 2 ( DSPL2 ). (For display settings, see 8.2.6 "Display Setting." ) 1. Flow rate / Flow velocity display - 1 0 . 0 0 m / s 2. Totalized flow count display 1 2 3 4 5 6 7 8 [...]

  • Page 40

    − 39 − 6 F 8 A 0 9 3 4 Note 1: T otalized flow volume and totalized difference flow volum e are displayed to the least significant digit of the set count rate. (Example1) When the count rate is 0.0001 m 3 : When the measurem ent object flows through 0.0001(m 3 ), inside counter counts 1. Because inside counter is 8 digits at the maxim um, the m[...]

  • Page 41

    − 40 − 6 F 8 A 0 9 3 4 5. Percent display - 1 2 5 . 0 % 6. Flow rate (When custom unit is selected) - 1 0 . 0 0 * X X X / Y Y Y 7. Range display 1 0 . 0 0 0 R 1 m / s In the range display , the range currently used is displayed (any one of the ranges 1 to 4). The screen example above shows that Range 1 is currently used. When multi-range is sel[...]

  • Page 42

    − 41 − 6 F 8 A 0 9 3 4 8. Bar graph display Bar graph can be set only for Display 2. 0 100 R 1 * About Range type, percent display and p ercent value when bar graph is displayed When percent display is used, the % value displayed depends on the flow direction. However, the % value when bar graph is displayed is as shown in the table below. Rang[...]

  • Page 43

    − 42 − 6 F 8 A 0 9 3 4 7.3 Basic operations 7.3.1 Mode Change The converter provides the setting m ode and calibration mode as well as the m easurement m ode. T o change the m ode to the setting m ode or to the calibration mode, push the switch. T o return to the measurem ent mode, push the switch from each menu. ● Measurement mode : Mode to [...]

  • Page 44

    − 43 − 6 F 8 A 0 9 3 4 ○ Flow of mode change Numeric value setting screen EXC CUR 0.2000 A Setting mode Counter control mode 1.000 m/s 12345678 FRD Hold down only the center switch for 3 seconds or longer. (Note) CNT CTRL 12345678 FRD ■ ESC CLR CNT ESC MENU SEL BASIC DETAILED PREVIEW ZERO ADJ PLS SET ▼ SET A : DETECTOR 1 EXC CUR 2 SIZE 3 [...]

  • Page 45

    − 44 − 6 F 8 A 0 9 3 4 ○ Pulse output setting mode This mode is used to perform continuous param eter settings (automatic operation) regarding pulse outputs. When these param eters are set, pulse output is ready to send out. (1) Digital Output 1 selection screen The function for Digital Output 1 can be selected. This screen shows functions re[...]

  • Page 46

    − 45 − 6 F 8 A 0 9 3 4 ○ Explanation about mode change The converter usually works continuously in the m easurement m ode. If you want to set parameters or perform calibration or adjustment, you have to go to the setting mode. T o enter the setting m ode, push the center switch for 3 seconds or more in the m easurement mode. When you push the[...]

  • Page 47

    − 46 − 6 F 8 A 0 9 3 4 ○ Operation timeout function If no operation is m ade for one minute or more while the converter is in the setting m ode, the mode autom atically returns to the measurem ent mode unless the parameters are displayed on the screen. Menu screen A:DETECTOR 1 EXC CUR 2 SIZE 3 EXC FREQ 4 FLOW DIR 5 EXIT When no operation is m[...]

  • Page 48

    − 47 − 6 F 8 A 0 9 3 4 Switch operation Display exam ple Description A:DETECTOR 1 EXC CUR 2 SIZE 3 EXC FREQ 4 FLOW DIR 5 EXIT Pushing from the menu configuration selection screen takes you to the menu screen. The cursor is positioned at the function display ( [A: DETECT OR] in this example). * This screen is an example when the DETAILED menu is[...]

  • Page 49

    − 48 − 6 F 8 A 0 9 3 4 Switch operation Display exam ple Description R1 10.0000 m/s Push to select the item you want to check or change. The screen changes and the currently set item appears for you to check. Pushing returns you to the menu screen. R1 1 0.0000 m/s When you push , the cursor appears on the setting value and the screen is ready t[...]

  • Page 50

    − 49 − 6 F 8 A 0 9 3 4 Switch operation Display exam ple Description R1 5.00000 m/s Pushing when data is temporarily set causes the data to be fixed and executed. After the data is set, the cursor disappears, enabling you to check the set value. C:RANGE 1 R TYPE 2 R1 3 R2 4 R3 5 R4 6 R HYS 7 EXIT Pushing returns you to the menu screen. C:RANGE [...]

  • Page 51

    − 50 − 6 F 8 A 0 9 3 4 7.4 Configuration Items Selection Table How to check or change each constant of th e converter is shown in the table below . Details of each item are described in the setting item s (A to R) of Chapter 8, "Parameter Settings." ○ Basic configuration (when menu configuration is BASIC ) When you select " BAS[...]

  • Page 52

    − 51 − 6 F 8 A 0 9 3 4 ○ Detailed configuration When you select " DETAILED " in the m enu configuration selection screen, the check/change menu for each constant setting is expanded as shown in the table below. Function 1 2 3 4 5 6 7 A DETECTOR Exciting Current *1 Meter size *3 Exciting frequency *3 Flow direction *1 Returns to meas[...]

  • Page 53

    − 52 − 6 F 8 A 0 9 3 4 7.5 Password input The converter provides the password function to prohibit som e functions that affect the flow m easurement from being set or adjusted. For the protected functi ons, see the m enu configuration table on the previous page. * Password is a 3-digit number . If '000' is set for the password, the pa[...]

  • Page 54

    − 53 − 6 F 8 A 0 9 3 4 8. Parameter Settings 8.1 Parameter Setting Items T o check or change each constant of the converter, first select the desired setting item described in 7.3.2 “Setting and Calibration.” Proceed as follows for settings in the setting mode. No. Function item Display example 8.2.2 Exciting current EXC CUR 8.2.3 Meter siz[...]

  • Page 55

    − 54 − 6 F 8 A 0 9 3 4 8.2 Check/Change of Parameters 8.2.1 Menu Configuration Selection Screen Display example MENU SEL BASIC DETAILED PREVIEW ZERO ADJ PLS SET Y ou can select the kind of menu configuration. For menu item s of configuration, see 7.4 "Setting and Calibration Items List." BASIC Only the basic parameters are displayed. [...]

  • Page 56

    − 55 − 6 F 8 A 0 9 3 4 8.2.2 Exciting Current Value The exciting current value can be checked/changed by the following procedures. Be sure to match the exciting current value with the value specified for the combined detector . Specifying any other value may cause an error. Shown below is an example of changing the exciting current value from 0[...]

  • Page 57

    − 56 − 6 F 8 A 0 9 3 4 Switch operation Display exam ple Description STEP6 EXC CUR 0.2150 A SET OK? Pushing shows a message to confirm the setting is OK or not. If OK , push . If you need to redo the setting, push . Pushing cancels the setting operation and exits the setting screen. STEP7(=END) EXC CUR 0.2150 A When you push to “ SET OK? ” [...]

  • Page 58

    − 57 − 6 F 8 A 0 9 3 4 Note 1:The meter size display loops as shown below: ① 25mm 40mm 5 0 m m 80mm 1 0 0 m m ② ② 1inch 1.5inch 2inch 3inch 4inch ① Note 2: When the meter size is changed, range unit and count rate will be forcefully changed as described below . If necessary , change these parameters again. Range unit m/s Count rate If t[...]

  • Page 59

    − 58 − 6 F 8 A 0 9 3 4 8.2.4 Exciting Frequency Proceed as follows to check the Exciting Frequency Switch operation Display exam ple Description A:DETECTOR 1 EXC CUR 2 SIZE 3 EXC FREQ 4 FLOW DIR 5 EXIT Select " EXC FREQ " from the setting item selection menu. STEP1 EXC FREQ 200 Hz The currently set excitation frequency ( 200Hz in this[...]

  • Page 60

    − 59 − 6 F 8 A 0 9 3 4 Switch operation Display exam ple Description STEP1 FLOW DIR NORMAL The currently set flow direction ( NORMAL in this example) appears. T h e n p u s h . * Pushing returns you to the setting menu. STEP2 FLOW DIR NORMAL The switches at the bottom change. ( a r e s h o w n . ) At the same tim e, the cursor appears. (The ite[...]

  • Page 61

    − 60 − 6 F 8 A 0 9 3 4 COUNT : displays the totalized flow counts (up to 8 digits). RANGE : displays the range number being used for m easurement (1 to 4). GP ARH : displays the measured value (% value) in bar graph. In addition, the range number being used for m easurement is also displayed. CUSTOM : displays the result obtained by multiplying[...]

  • Page 62

    − 61 − 6 F 8 A 0 9 3 4 / s / m i n / h / d For Display 2 unit setting, select DSPL2 from the setting m enu. ● How to select the display digit setting When you select flow velocity or flow rate (c ustom unit is included), the screen autom atically moves to the display digit setting screen. Using the display digit setting screen, you can change[...]

  • Page 63

    − 62 − 6 F 8 A 0 9 3 4 For example, if the setting range is 10m/s and display digit setting is 1/100 , the m easured value will be displayed to the first decimal place. Setting range =10.0000 m/s Likewise, when the setting range 1m/s and display digit setting is 1/100 , the m easured value will be displayed to the second d[...]

  • Page 64

    − 63 − 6 F 8 A 0 9 3 4 Note: The setting item for the third unit (flow volum e direction code) changes cyclically as shown below. B(bi-directional) F(forward direc tion fixed) R(reverse direction fixed) D ( d i f f e r e n c e f l o w r a t e ) For Display 2 setting, select DSPL2 from the setting m enu. 8.2.7 Custom Coefficient Setting You can [...]

  • Page 65

    − 64 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP4(=END) CS VAL 2.25000 SET OK? Pushing shows a message to confirm whether the setting is OK or not. If OK , push . If you need to redo the setting, push . Pushing cancels the setting operation and exits the setting screen. Note: The custom coef ficient setting precision is [...]

  • Page 66

    − 65 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP4(=END) CS UNIT XXX/ZZ Z SET OK? Pushing when the cursor is positioned on the 7th character shows a message to confirm whether the setting is OK or not. If OK , push . If you want to redo the setting, push . Pushing cancels the setting operation and exits the setting screen[...]

  • Page 67

    − 66 − 6 F 8 A 0 9 3 4 ● Span Y ou can set the span for actual flow rate or flow velocity . (1) Setting range The span can be set within 0.5 m/s to 10 m/s in terms of flow velocity . If you try to set the span outside of this range, either high limit or low lim it error message appears: HIGH OVER SPEC (if the set value exceeds 10 m/s ) LOW OV[...]

  • Page 68

    − 67 − 6 F 8 A 0 9 3 4 ● Range hysteresis The hysteresis is the dead band used when multiple ranges are switched. Y ou can set the hysteresis within the range of 0 to 25% in increments of 0.1% . The hysteresis is set only when automatic selection of m ultiple ranges is used. ● Setting sequence of span (range) The following is the setting se[...]

  • Page 69

    − 68 − 6 F 8 A 0 9 3 4 Switch operation Display example Description C:RANGE 1 R TYPE 2 R1 3 R2 4 R3 5 R4 6 R HYS 7 EXIT Pushing returns you to the setting menu. ● Changing the range type The range type should be set before changing the span. The following is an example to change the range type from Single range ( SINGLE ) to Bidirectional aut[...]

  • Page 70

    − 69 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP5(=END) R TYPE 2F-2R SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK , push . If you want to redo the setting, push . Pushing cancels the setting operation and exits the setting screen. ● Changing the span Y ou can set the span[...]

  • Page 71

    − 70 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP6 R2 1 36.000 L/min Push to change the number of the digit. P u s h t o m o v e t h e d i g i t . STEP7(=END) R2 100.000 L/min SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK , push . If you want to redo the setting, push . Pushi[...]

  • Page 72

    − 71 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP3 R HYS 0 5 .0 % P u s h t o m o v e t h e c u r s o r t o t h e desired digit and push to change the number of the digit. STEP4(=END) R HYS 05.0 % SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK, push . If you want to redo the s[...]

  • Page 73

    − 72 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP2 DAMPING 0 5.0 S The switches at the bottom change. ( a r e s h o w n . ) At the same tim e, the cursor appears. STEP3 DAMPING 1 0 .0 S P u s h t o m o v e t h e c u r s o r t o t h e desired digit and push to change the number of the digit. STEP4(=END) DAMPING 10.0 S SET [...]

  • Page 74

    − 73 − 6 F 8 A 0 9 3 4 ● Changing the rate-of-change limit The following is an example to change the rate-of-change lim it value from 10.0% to 15.0% . Switch operation Display example Description D:FILTER 1 DAMPING 2 LIM RATE 3 LIM TIME 4 EXIT Select " LIM RATE " from the setting item selection menu. STEP1 LIM RATE 10.0 % The curren[...]

  • Page 75

    − 74 − 6 F 8 A 0 9 3 4 8.2.12 Low Cutoff The low cutoff is the function to set the current output to zero forcefully if the fl ow rate is equal to or less than the low cutoff value set near 0%. The low cutoff value can be set within the range 0 to 10% in increments of 0.1% . Y ou can check or change the low cutoff value as described below . The[...]

  • Page 76

    − 75 − 6 F 8 A 0 9 3 4 8.2.13 Display Low Cutoff When low cutoff is set in 8.2.12 “Low Cutoff,” this function determines whether to use the low cutof f processing for displayed values. Y ou can select the display low cutoff setting from the item s in the table below . ● Display low cutoff setting function Selection items Displayed values [...]

  • Page 77

    − 76 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP4(=END) DSPL SET LOW CUT SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK, push . If you want to redo the setting, push . Pushing cancels the setting operation and exits the setting screen. Note: The measured value sent from the c[...]

  • Page 78

    − 77 − 6 F 8 A 0 9 3 4 8.2.15 Manual Zero Adjustment This function is used to perform zero adjustment si m ply by comparing the output value of the converter with the process value of other instruments without stopping the process of m easurement. If zero adjustment described in 8.2.14, “Still Water Z ero Adjustment” can be performed, this [...]

  • Page 79

    − 78 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP3 MANUAL -002. 5 % P u s h t o m o v e t h e c u r s o r t o t h e desired digit and push to change the symbol or num ber of the digit. STEP4(=END) MANUAL -002.5 % SET OK? Pushing shows a message to confirm whether the setting is OK or not. If OK, push . If you need to redo[...]

  • Page 80

    − 79 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP1 ALM 4-20 UNDER 3mA The currently set value ( UNDER 3.0mA in this example) appears. T h e n p u s h . * Pushing returns you to the setting menu. STEP2 ALM 4-20 UNDER 3mA The switches at the bottom change. ( a r e s h o w n . ) At the same tim e, the cursor appears. (The it[...]

  • Page 81

    − 80 − 6 F 8 A 0 9 3 4 Y ou can check or change the output low limit as described below . The following is an example to change the output low lim it value from 4.0mA to 2.4mA . Switch operation Display example Description G:4-20mA 1 ALM 4-20 2 LOW LIM 3 EXIT Select " LOW LIM " from the setting item selection menu. STEP1 LOW LIM 4.0mA[...]

  • Page 82

    − 81 − 6 F 8 A 0 9 3 4 ● Digital output functions Selection items Digital output functions NO USE Not used H ALM High alarm output L ALM Low alarm output HH ALM High-High alarm output LL ALM Low-Low alarm output RNG SIG1 Range output No. 1 RNG SIG2 Range output No. 2 PRESET C Preset count output CONV ALM Converter failure alarm output PLS OUT[...]

  • Page 83

    − 82 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP2 DO1 FUNC H ALM The switches at the bottom change. ( a r e s h o w n . ) At the same tim e, the cursor appears. (The item indicated by the cursor is highlighted.) T h e n p u s h . STEP3 DO1 FUNC L ALM You can continue to change the setting item. P u s h t o c h a n g e t [...]

  • Page 84

    − 83 − 6 F 8 A 0 9 3 4 ● Digital input control signal Y ou can select the detective level of the digital input, as shown below , to control the totalizer and pulse output. (Only when the digital input function is set for totalizer control input) Selection items Digital input function setting Totalizer control signal CNT ST/SP ( Totalizer ST[...]

  • Page 85

    − 84 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP4(=END) DI FUNC CNT ST/SP SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK, push . If you want to redo the setting, push . Pushing cancels the setting operation and exits the setting screen. 8.2.20 Count Rate (Pulse Rate), Pulse W[...]

  • Page 86

    − 85 − 6 F 8 A 0 9 3 4 ● For pulse width setting mode, you can select either AUTO or MANUAL . Depending on this setting, the pulse width setting varies as shown in the table below: Selection item Pulse width value to be set AUTO After the count rate is set, the pulse width is automatically set to 40% of the period of pulse frequency at 100% o[...]

  • Page 87

    − 86 − 6 F 8 A 0 9 3 4 Y ou can check or change the count rate and pulse width as described below . The following is an example to change the count rate from 0.01m 3 to 0.9 L . Switch operation Display example Description STEP1 CNT RATE 0.01000 m 3 The currently set count rate ( 0.01m 3 in this example) appears. T h e n p u s h . STEP2 CNT RATE[...]

  • Page 88

    − 87 − 6 F 8 A 0 9 3 4 Note 1: The units of count rate change cy clically as shown below: m ³ L m L b b l g a l p t q t Note 2: After the count rate is set, related parameters are automatically set under the following conditions: (1) Pulse width When the pulse width setting mode is AUT O : Pulse width will be automatically set according to the[...]

  • Page 89

    − 88 − 6 F 8 A 0 9 3 4 Y ou can check or change the preset count as described below . The following is an example to change the preset count value from 500 (count) to 1000 (count). Switch operation Display example Description K:PRESET C 1 PRST VAL 2 OUT MODE 3 EXIT Select " PRST VAL " from the setting item selection menu. STEP1 PRST V[...]

  • Page 90

    − 89 − 6 F 8 A 0 9 3 4 8.2.22 Preset Mode The preset mode determ ines the function wh en the totalizer reaches the preset count. The present mode can be set from the items shown below . ● Preset mode Selection items Preset mode HOLD Holds the output value. 50ms PLS Outputs a one shot pulse of 50ms width. 500ms PLS Outputs a one shot pulse of [...]

  • Page 91

    − 90 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP2 OUT MODE HOLD The switches at the bottom change. ( a r e s h o w n . ) At the same tim e, the cursor appears. (The item indicated by the cursor is highlighted.) T h e n p u s h . STEP3 OUT MODE 50ms PLS You can continue to change the setting item. P u s h t o c h a n g e [...]

  • Page 92

    − 91 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP2 H SET OFF The switches at the bottom change. ( a r e s h o w n . ) At the same tim e, the cursor appears. (The item indicated by the cursor is highlighted.) T h e n p u s h . STEP3 H SET ON You can continue to change the setting item. P u s h t o c h a n g e t h e s e l e[...]

  • Page 93

    − 92 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP3 H VAL +10 3 .0 % P u s h t o m o v e t h e c u r s o r t o t h e digit you want to change and push to change the number of the digit. STEP4(=END) H VAL +103.0 SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK, push . If you want [...]

  • Page 94

    − 93 − 6 F 8 A 0 9 3 4 ● Changing the Mag-Prover’s self-diagnosis function setting The following is an example to change the Mag-Prover’s self-diagnosis setting from OFF to ON . Switch operation Display example Description N:SELF CHK 1 EMPTY 2 SELF CHK 3 CONV ALM 4 EXIT Select " SELF CHK " from the setting item selection menu. S[...]

  • Page 95

    − 94 − 6 F 8 A 0 9 3 4 Operation when fixed output is set to ON Current output Output is the fixed current output value. Pulse output Output is the fixed pulse rate pulse signal. Digital output other than pulse output Status in hold Display Display 2 screen: Used to indicate the fixed output (Note) Display example: * 3 0 0 0PPS* * 2 0 . 0mA * F[...]

  • Page 96

    − 95 − 6 F 8 A 0 9 3 4 Switch operation Display example Description STEP4 FIX SET ON SET OK? When you push , a message appears to confirm whether the setting is OK or not. If OK, push . If you want to redo the setting, push . Pushing cancels the setting operation and exits the setting screen. STEP5 CUR VAL 0 4.0 mA The screen automatically chan[...]

  • Page 97

    − 96 − 6 F 8 A 0 9 3 4 Note 1: If you try to set a value outside of the range, 2.4mA or 24mA (in the case of fixed current output) or 3000pps (in the case of fixed pulse output) will be forcibly set. Note 2: The pulse width set in Section 8.2.20 is used for fixed pulse output. The pulse width must not be greater than 40% of the period of the fi[...]

  • Page 98

    − 97 − 6 F 8 A 0 9 3 4 * However , if a wrong password is entered when the mode is changed from the measuring mode to the setting mode, *** appears and the password cannot be checked. Switch operation Display example Description PASSWORD *** The currently set password is displayed as *** and the password cannot be checked. ● Changing the pass[...]

  • Page 99

    − 98 − 6 F 8 A 0 9 3 4 8.2.27 LCD Adjustment This section describes how to set the LCD density adjustm ent value for the converter display . The LCD density can be set in 5 levels. LCD density adjustment level 1 2 3 4 5 L C D d e n s i t y Light Dark The LCD density adjustment value is set to " 3 " when shipped from the factory . The [...]

  • Page 100

    − 99 − 6 F 8 A 0 9 3 4 8.2.28 Switch Position Setting The switch position of the converter display can be set. The position setting of the switch enables the display remains the sam e in orientation, regardless of which direction relative to the piping the converter is installed. Y ou can set the switch position by selecting one from four posit[...]

  • Page 101

    − 100 − 6 F 8 A 0 9 3 4 The following is an example to change the switch position setting from BOTTOM to TOP . Switch operation Display example Description P:OTHERS 1 PASSWORD 2 LCD ADJ 3 SW POSN 4 EXIT Select " SW POSN " from the setting item selection menu. STEP1 SW POSN BOTTOM The current setting ( BOTTOM in this example) appears. [...]

  • Page 102

    − 101 − 6 F 8 A 0 9 3 4 8.3 Parameter initial settings list Unless otherwise specified, the default values for each parameter shown below are set when shipped from the factory: Parameter names Default value Excitation frequency (*1) Flow direction NORMAL Display 1 gal/min Display 2 COUNT B Display digit setting (for Display 1 and Display 2) 1/1[...]

  • Page 103

    − 102 − 6 F 8 A 0 9 3 4 Setting values for each meter size Range 1 (S I u n i t ) Range 1 (E n g l i s h u n i t ) Meter Size (mm/inch) Ex. Freq (Hz) (m3/h) (m/s) (gal/min) (ft/s) Count rate (gal) 25 / 1 400 6 3.395 75 31.625 1 40 / 1.5 200 15 3.316 175 28.826 1 50 / 2 200 25 3.537 300 31.625 10 80 / 3 200 60 3.316 650 26.766 10 100 / 4 100 100[...]

  • Page 104

    − 103 − 6 F 8 A 0 9 3 4 9. Mag-Prover-Calibration 9.1 Calibration Items When you check or calibrate the converter or check the excitation current, you have to change the m ode to the calibration mode. Y ou can check or change the zero and span of the converter and the excitation current value as described below . However, calibration is already[...]

  • Page 105

    − 104 − 6 F 8 A 0 9 3 4 9.2 Calibration Using Mag-Prover ’ s Built-In Signal Source 9.2.1 0 % Flow Rate Calibration (Zero Calibration) Using Mag-Prover ’ s internal calibration circuit, 0% flow rate calibration (hereafter called zero calibration) can be performed. ● Zero point check / calibration Switch operation Display example Descripti[...]

  • Page 106

    − 105 − 6 F 8 A 0 9 3 4 9.2.2 50 % Flow Rate Calibration Using Mag-Prover ’ s internal calibration circuit, 50% flow rate calibration can be performed. For calibration procedure, see the calibration procedure fo r 0% flow rate. (For 50% flow rate calibration, select "CAL 50" from the setting menu.) 9.2.3 100 % Flow Rate Calibration [...]

  • Page 107

    − 106 − 6 F 8 A 0 9 3 4 10. Functional Description The LF516/LF546 Electromagnetic Flowm eter is equipped with two contact output term inals (digital output terminals ( DO1 , DO2 )) and one external input terminal (digital input ( DI ), optional), enabling you to use various functions, such as pulse output and alarm output. The following functi[...]

  • Page 108

    − 107 − 6 F 8 A 0 9 3 4 10.1 Digital I/O Specifications The specifications of the digital I/O terminals for the converter for electrom agnetic flowmeter: LF546 are as follows:  Digital Output 1(DO1 ) Output type: Transistor open collector Number of outputs: 1 Capacity: 30 V dc, 200 mA m aximum  Digital Output 2(DO2 ) Output type: Solidsta[...]

  • Page 109

    − 108 − 6 F 8 A 0 9 3 4 10.2 Totalizer and Pulse Output To use the totalizer and pulse output fo r external use, proceed as follows. Count rate and Pulse Width Setting Set the flow volume per count (pulse) (count rate) and the pulse width. See 8.2.20, “C ount rate, Pulse Width Setting Mode and Pulse Width.” * The count rate can be set withi[...]

  • Page 110

    − 109 − 6 F 8 A 0 9 3 4 Note 1: Example of count rate setting range: The count rate can be set within the range from the m inimum value (36000000 pulse/h) to the maxim um value (3.6 pulse/h). (Example) In the case of range 108m 3 /h (0.03m 3 /s), Minimum value (for 10800000 pulse/h): 108 (m 3 /h) / 10800000 (pulses/h) = 0.00001m 3 = 0.01 L (lit[...]

  • Page 111

    − 110 − 6 F 8 A 0 9 3 4 Totalizer Operation ● Operation using the operation switches You can start, stop or clear the totalizer as described below. Switch operation Display example Description PUSH SW CNT: CNT CTRL SET: SET MODE Mode change screen CNT CTRL 12345678 FRD ■ When you push in the measurem ent mode, the screen m oves to the total[...]

  • Page 112

    − 111 − 6 F 8 A 0 9 3 4 Note 1:Since the flow volume direction code is B (Bidirectional forward/reverse automatic selection), • When you select forward/reverse multi-range, forward direction totalized value (count value) is displayed for operation in the forward direction range, and reverse direction totalized value (count value) is displayed[...]

  • Page 113

    − 112 − 6 F 8 A 0 9 3 4 10.3 Multi-range Function Four types of multiple ranges shown below can be selected by setting the range ty pe: (1) Unidirectional flow , automatic selection of m ultiple ranges (2) Bidirectional flows, automatic selection of m ultiple ranges (3) Unidirectional flow , multiple ranges selected by external signal (4) Bidir[...]

  • Page 114

    − 113 − 6 F 8 A 0 9 3 4  Output performance of multi-range functions 14. Automatic selection of unidirectional flow multi-range with an internal signal Range output No.1 ON OFF ON OFF Range output No.2 ON OFF ・ Current output when fluid flows in the reverse direction is the value set for the output low limit (any one of 2.4/3.2/4.0mA). 0 4[...]

  • Page 115

    − 114 − 6 F 8 A 0 9 3 4 (2) Automatic selection of bidirectional flow s multi-range with an internal signal Range output No.1 OFF ON ON OFF Range output No.2 ON OFF  Reverse to Forward direction change ■ Forward to Reverse direction change 0 20mA output (%) Reverse direction 0 Forward direction Flow rate Range 2 Range 1 Hysteresis Range 4 [...]

  • Page 116

    − 115 − 6 F 8 A 0 9 3 4 (3) Remote selection of unidirectional flows multi-range with an external signal External signal H level input L level input Range output No.1 ON OFF • Current output when fluid flows in reverse direc tion is the output low limit setting (any one of 2.4 / 3.2 / 4.0mA). R e v e r s e d i r e c t i o n 0 F o r w a r d d [...]

  • Page 117

    − 116 − 6 F 8 A 0 9 3 4 (4) Remote selection of bidirectional flows multi-range with an external signal External signal L level H level H level L level Range output No.1 OFF ON ON OFF Range output No.2 ON OFF  Reverse to Forward direction change ■ Forward to Reverse direction change R e v e r s e d i r e c t i o n 0 F o r w a r d d i r e c[...]

  • Page 118

    − 117 − 6 F 8 A 0 9 3 4 10.4 Flow Rate High/Low , High-High/Low-Low Alarm Output T o use the flow rate high/low alarm or high-high /low-low alarm output, follow the procedure below . High / Low alarm setting Refer to 8.2.23, “Flow Rate High/Low Alarm and High-High/Low-Low Alarm” and set the high alarm and/or low alarm to ON and set the lim [...]

  • Page 119

    − 118 − 6 F 8 A 0 9 3 4  High and Low Limit Alarm Output Performance (Same as for High High/Low Low limit Alarm Output) • Single range performance • Multi-range performance In an example shown below, a low limit alarm is set for the Range 2 and a high limit alarm is set for the Range 1. * When an alarm output condition occurs, Digital ou[...]

  • Page 120

    − 119 − 6 F 8 A 0 9 3 4 10.5 Preset Count Function When the totalizer count reaches the preset count value, the converter outputs a contact signal. Proceed as follows to use the preset count function. Totalizer setting Refer to 10.2 “Totalizer and Pulse Output” to set necessary settings fo r totalizer. Preset count, Preset count function se[...]

  • Page 121

    − 120 − 6 F 8 A 0 9 3 4  Preset count output performance (1) The following is an exam ple for totalizer flow c ounts output in which the totalizer is reset with an external signal (when preset output status level hold mode is set (contact ON )). Input/Output signal time chart * When the Reset/Start signal is in H level (DI count er control s[...]

  • Page 122

    − 121 − 6 F 8 A 0 9 3 4 (2) The following is an exam ple for totalizer flow c ounts output in which the totalizer is reset with an external signal (when one-shot pulse output mode is set). Input/Output signal time chart * When the Reset/Start signal is in L level (DI count er control signal level: L) , the totaliz er is reset to zero and stops [...]

  • Page 123

    − 122 − 6 F 8 A 0 9 3 4 (3) The following is an example for one-shot pulse output. Setting preset count:100 Input/Output signal time chart * Preset output goes ON when the count value ex ceeds the preset value of 100 and the preset output goes OFF when its width reaches the set pulse width . When the preset value exceeds 100, the preset valu e [...]

  • Page 124

    − 123 − 6 F 8 A 0 9 3 4 Note: When the one-shot pulse output function is selected, if its pulse width is large compared with the update period of the p reset value. The output stays ON. To make sure to output as one-shot pulse, set the preset val ue reach interval to be 2 signals or more of the pulse width setting value. Preset Pulse Width The [...]

  • Page 125

    − 124 − 6 F 8 A 0 9 3 4 10.6 Remote Zero Adjustment On-stream zero adjustm ent in a zero flow rate cond ition can be started with an external signal. To do this, set DI as a zero adjustment start signal. See 8.2.19, “D igital I/O” [Signal Input Timing] * The start signal must be set to H level first, then it must go to L level after the pas[...]

  • Page 126

    − 125 − 6 F 8 A 0 9 3 4 10.8 Converter Failure Alarm If any one of the following errors occurs in a sel f-diagnosis sequence, the converter issues an alarm using a contact output. ● Self-diagnosis errors Self-diagnosis errors (LCD display) Error items ROM ERROR ROM error RAM ERROR RAM error PARAMETER FAILURE System parameter error EXC CUR OPE[...]

  • Page 127

    − 126 − 6 F 8 A 0 9 3 4 10.9 Multiple range high/low limit alarm function (option) The procedure to use multiple range high/low lim it alarm is shown below. Range setting ・ Set the range in accordance with 8.2.9 Span (range) in the following order. 1. Set the range type to “ unidirectional flow, multiple ranges selected by external signal ?[...]

  • Page 128

    − 127 − 6 F 8 A 0 9 3 4 Multiple range high/low limit alarm output Note 1: Range changes to Small range when range select signal is H level, and to Large range in L level. Note 2: High-high/low-low limit alarm is activat ed when Small range is selected. High/low limit alarm is not output to display. High/low limit alarm is activated when Large [...]

  • Page 129

    − 128 − 6 F 8 A 0 9 3 4 10.10 Custom unit function (1) Display of flow rate The procedure to display flow rate by the custom unit is shown below. Example : In the case of custom unit [dL(deciliter)/min] . Custom coefficient setting ・ Set the custom coefficient in accordance with 8.2.7 “Custom Coefficient Setting” . Set the conversion coef[...]

  • Page 130

    − 129 − 6 F 8 A 0 9 3 4 (2) Span setting Setting of 8.2.7 “Custom Coefficient Setting” and 8.2.8 “Custom Unit Setting” is applied to the custom coefficient and unit sam e as (1)Display of flow rate . Example : In the case of custom unit [dL(deciliter)/min] . Custom coefficient setting ・ Set the custom coefficient in accordance with 8.[...]

  • Page 131

    − 130 − 6 F 8 A 0 9 3 4 Note1 : Even if the custom unit is selected, the current output does not change unless the span value is changed. Display example Description R1 2.00000 m 3 /min In the case of span value = 2.00000 m 3 /min R1 20000.0 *dL/min When custom unit dL/min is selected, the span value is displayed 20000 automatically based on th[...]

  • Page 132

    − 131 − 6 F 8 A 0 9 3 4 11.Communications Function LF546 Electromagnetic Flowm eter converter uses the HAR T*1 protocol to transmit digital signals over the 4-20mA output line. The AF900 hand-held terminal is used to com municate with the LF546 using the HAR T protocol. Through rem o te operation, you can check or change the various parameters,[...]

  • Page 133

    − 132 − 6 F 8 A 0 9 3 4 Figure 11.2 Connections to the Converter Unit 1 1.2 Procedure for Communications with HHT This section describes the HHT basic operation procedure for comm unications between the flowmeter and HHT . For details, refer to the HHT instruction manual. * The following procedure m akes a comm ercially available PDA (OS: W ind[...]

  • Page 134

    − 133 − 6 F 8 A 0 9 3 4 1 1.3 Notes on Communications ● Current output load (1) Load resistance: 240 to 750 Ω (including the communications line resistance) (2) Load capacitance: 0.25 μ F maxim um (including the communications line capacitance) (3) Load inductance:4mH m aximum (including the comm unications line inductance) (The maxim u m c[...]

  • Page 135

    − 134 − 6 F 8 A 0 9 3 4 12. Self-Diagnosis and Alarms 12.1 Self-Diagnosis The converter has a self-diagnosis function to detect e rrors, such as setting error , I/O error or converter hardware failure, and shows the resulting error or al arm messages on Display 2 of the screen or on the hand-held terminal (HHT) through com munications. The diag[...]

  • Page 136

    − 135 − 6 F 8 A 0 9 3 4 ● High/low alarm, high-high/low -low alarm, em pty pipe alarm One of the following m essages appears if the flow rate reading goes out of the set range or an empty alarm is generated. If the high or low limit alarm ON/OFF status is set to OFF , its alarm function (high or low) is disabled. See 8.2, “Check/Change of P[...]

  • Page 137

    − 136 − 6 F 8 A 0 9 3 4 ● Converter diagnosis error The converter checks the internal system when pow er is turned on and generates an error if abnormality is found. If multiple errors are found, their m essages will be displayed cyclically . Diagnosis items concerning the excitation circuit are detected using the internal A DC circuit. Thus,[...]

  • Page 138

    − 137 − 6 F 8 A 0 9 3 4 12.2 Output Status for Errors and Alarms Error indication Measured value indication Current output (4-20mA) Totalization pulse output Remarks ROM ERROR (Note 1) − (Note 3) Stopped After power-up, no measurement starts. RAM ERROR − (Note 3) Stopped After power-up, no measurement starts. PARAMETER FAILURE (Note 2) Zero[...]

  • Page 139

    − 138 − 6 F 8 A 0 9 3 4 13. Maintenance and Troubleshooting WARNING  Do not disconnect while circuit is live unless location is known to be nonhazardous. DON’T Live part of electric circuit or a high temperature departm ent can cause explosion .  Do not modify or disassemble the enclosure. DON’T Strength degradation and defects of enc[...]

  • Page 140

    − 139 − 6 F 8 A 0 9 3 4 13.1 Maintenance  Calibration The converter for electromagnetic flowm eter: LF61*F has a built-in internal calibration circuit that can be used to check the zero and span of the converter for the purpose of instrumentation maintenance, periodic inspection or re-verification of instrument calib ration parameters. See C[...]

  • Page 141

    − 140 − 6 F 8 A 0 9 3 4 13.2 Troubleshooting If a problem occurs while using the flowm eter, y ou may find the cause of the problem by a sim ple check. Please follow the flowmeter before you contact a serviceperson. 13.2.1 Flow rate is not indicated. Are power supplies correct for each device? Use the correct power supply for each device. Are p[...]

  • Page 142

    − 141 − 6 F 8 A 0 9 3 4 13.2.2 Flow rate indication is not correct. Is the flow range correctly set? Set correctly. Refer to Chapter 8, “Configuration Parameter Setting.” NO YES Is zero point correctly set? Perform the zero adjustme nt. Refer to 6, “Operation” NO YES Is the excitation current value as stated on the flow direction tag? S[...]

  • Page 143

    − 142 − 6 F 8 A 0 9 3 4 13.2.3 Flow rate indication is not stable. Note 1: If the detector tube is not filled with operating fluid, the flow is indefinite and measurement is im possible. Be sure to fill the detector tube with operating fluid before starting measurement. Is power supply voltage within the specified range? Use a power supply with[...]

  • Page 144

    − 143 − 6 F 8 A 0 9 3 4 13.2.4 When switch operation is unable START Place a cover to block the light from surroundings, or cover the control panel by hand to block the light. NO Does intense light shine on the control panel such as direct sunlight or reflected sunlight by window glass or metal sheet? Does the brightness change always by ON/OFF[...]

  • Page 145

    − 144 − 6 F 8 A 0 9 3 4 14. Principle of Operation The operating principle of the electromagnetic flowm eter is based on Faraday's Law of electrom agnetic induction and it is designed to measure the volumetric flow rate of fluid. An insulated pipe of diam eter D is placed vertically to the direction of a magnetic fi eld with flux density B[...]

  • Page 146

    − 145 − 6 F 8 A 0 9 3 4 15. Specifications 15.1 Flowmeter Specifications  Overall Specifications Measurement range in terms of flow velocity: 0–0.5 m/s to 0–10 m/s System accuracy: when fluid conductivity is 0.1 μ S/cm or more Accuracy Flow rate as a percentage of range Span 0.5 to less than 1m/s Span 1.0 to 10 m/s 0 to less than 50% ±[...]

  • Page 147

    − 146 − 6 F 8 A 0 9 3 4 ■ LF516 Detector Specifications Meter size: 25, 40, 50, 80, 100mm Fluid pressure: -0.1 ~ 2MPa Connection flange standard: See Table 15.2 Type Specification Code Heat shock resistance – for ceramic tube detector Cooling: Δ T ≦ 100 ℃ /0.5s H e a t i n g : Δ T ≦ 150 ℃ /0.5s Note: Meaning that the ceramic tube [...]

  • Page 148

    − 147 − 6 F 8 A 0 9 3 4 LF546 Converter Specifications Input Input signal: ・ Flow rate proportional signal from the detector ・ Digital input signal Signal ty pe: 20 to 30Vdc voltage signal Input resistance: About 2.7k Ω Number of input points: 1 Digital input function: Select either of the following. ・ Range switching input: Large/Small [...]

  • Page 149

    − 148 − 6 F 8 A 0 9 3 4 Digital output function: Select one of the following: ・ Totalization pulse output: Pulse rate Max. 3kHz(3000pps) ・・・ DO1 Max. 100Hz( 100pps) ・・・ DO2 (option) Pulse width Can be set within a range of 0.3 to 500ms. However, must be 40% or less of the full-scale cycle. If the full scale 1000pps is exceeded, au[...]

  • Page 150

    − 149 − 6 F 8 A 0 9 3 4 15.2 Model Number Table Model LF516 Detector Type Specification Code Model number Specification code 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Contents L F 5 1 Capacitance Type electromagnetic flowm eter detector 6 Area of use cFMus, Division 2 approved E F G H J Meter size 25mm 40mm 50mm 80mm 100mm L Mounting structure Detector [...]

  • Page 151

    − 150 − 6 F 8 A 0 9 3 4 Model LF546 Detector Type Specification Code Model number Specification code Contents 1 2 3 4 5 6 7 8 9 10 11 12 13 14 L F 5 4 Capacitance Ty pe electromagnetic flowmeter converter 6 Area of use cFMus, Division 2 approved A Usage General purpose Mounting Structure A Detector / Converter Combined type B D i s p l a y LCD [...]

  • Page 152

    − 151 − 6 F 8 A 0 9 3 4 16. Outline Drawing Meter size (mm) L1( mm) L2 (mm) φ D1( mm) Mass (kg) 25 80 241 66 Approx. 4 kg 40 100 264 85 Approx. 6kg 50 110 280 102 Approx. 7 kg 80 110 306 127 Approx. 8 kg 100 180 338 159 Approx. 10kg[...]

  • Page 153

    − 152 − 6 F 8 A 0 9 3 4 Appendix 1 Factory default standard value table Parameter names Default value(SI unit) Default value(US unit) Changed v alue Excitation frequency Value(*1) Value(*1) Flow direction NORMAL NORMAL Display 1 m 3 /h gal/min Display 2 m 3 B COUNT B Display digit setting (for Display 1 and Display 2) 1/1000 1/1000 Custom coeff[...]

  • Page 154

    − 153 − 6 F 8 A 0 9 3 4 When parameter value was appointed in order, parameter value may be different from list. Setting value in each size Range 1 (S I u n i t ) Range 1 (E n g l i s h u n i t ) Meter Size (mm/inch) Ex. Freq (Hz) (m3/h) (m/s) (gal/min) (ft/s) Count rate (gal) 25 / 1 400 6 3.395 75 31.625 1 40 / 1.5 200 15 3.316 175 28.826 1 50[...]

  • Page 155

    − 154 − 6 F 8 A 0 9 3 4 Appendix 2 System block diagram for LF516/LF546[...]

  • Page 156

    − 155 − 6 F 8 A 0 9 3 4 Write down the address and phone num ber of the dist ributor from which you purchased this product, the product code, SER.NO. and so on. Distributor Address N a m e Phone number ( ) − Product code LF S E R . N O .[...]

  • Page 157

    FCF50017[...]