Omega Vehicle Security OMP-MODL Bedienungsanleitung

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Richtige Gebrauchsanleitung

Die Vorschriften verpflichten den Verkäufer zur Übertragung der Gebrauchsanleitung Omega Vehicle Security OMP-MODL an den Erwerber, zusammen mit der Ware. Eine fehlende Anleitung oder falsche Informationen, die dem Verbraucher übertragen werden, bilden eine Grundlage für eine Reklamation aufgrund Unstimmigkeit des Geräts mit dem Vertrag. Rechtsmäßig lässt man das Anfügen einer Gebrauchsanleitung in anderer Form als Papierform zu, was letztens sehr oft genutzt wird, indem man eine grafische oder elektronische Anleitung von Omega Vehicle Security OMP-MODL, sowie Anleitungsvideos für Nutzer beifügt. Die Bedingung ist, dass ihre Form leserlich und verständlich ist.

Was ist eine Gebrauchsanleitung?

Das Wort kommt vom lateinischen „instructio”, d.h. ordnen. Demnach kann man in der Anleitung Omega Vehicle Security OMP-MODL die Beschreibung der Etappen der Vorgehensweisen finden. Das Ziel der Anleitung ist die Belehrung, Vereinfachung des Starts, der Nutzung des Geräts oder auch der Ausführung bestimmter Tätigkeiten. Die Anleitung ist eine Sammlung von Informationen über ein Gegenstand/eine Dienstleistung, ein Hinweis.

Leider widmen nicht viele Nutzer ihre Zeit der Gebrauchsanleitung Omega Vehicle Security OMP-MODL. Eine gute Gebrauchsanleitung erlaubt nicht nur eine Reihe zusätzlicher Funktionen des gekauften Geräts kennenzulernen, sondern hilft dabei viele Fehler zu vermeiden.

Was sollte also eine ideale Gebrauchsanleitung beinhalten?

Die Gebrauchsanleitung Omega Vehicle Security OMP-MODL sollte vor allem folgendes enthalten:
- Informationen über technische Daten des Geräts Omega Vehicle Security OMP-MODL
- Den Namen des Produzenten und das Produktionsjahr des Geräts Omega Vehicle Security OMP-MODL
- Grundsätze der Bedienung, Regulierung und Wartung des Geräts Omega Vehicle Security OMP-MODL
- Sicherheitszeichen und Zertifikate, die die Übereinstimmung mit entsprechenden Normen bestätigen

Warum lesen wir keine Gebrauchsanleitungen?

Der Grund dafür ist die fehlende Zeit und die Sicherheit, was die bestimmten Funktionen der gekauften Geräte angeht. Leider ist das Anschließen und Starten von Omega Vehicle Security OMP-MODL zu wenig. Eine Anleitung beinhaltet eine Reihe von Hinweisen bezüglich bestimmter Funktionen, Sicherheitsgrundsätze, Wartungsarten (sogar das, welche Mittel man benutzen sollte), eventueller Fehler von Omega Vehicle Security OMP-MODL und Lösungsarten für Probleme, die während der Nutzung auftreten könnten. Immerhin kann man in der Gebrauchsanleitung die Kontaktnummer zum Service Omega Vehicle Security finden, wenn die vorgeschlagenen Lösungen nicht wirksam sind. Aktuell erfreuen sich Anleitungen in Form von interessanten Animationen oder Videoanleitungen an Popularität, die den Nutzer besser ansprechen als eine Broschüre. Diese Art von Anleitung gibt garantiert, dass der Nutzer sich das ganze Video anschaut, ohne die spezifizierten und komplizierten technischen Beschreibungen von Omega Vehicle Security OMP-MODL zu überspringen, wie es bei der Papierform passiert.

Warum sollte man Gebrauchsanleitungen lesen?

In der Gebrauchsanleitung finden wir vor allem die Antwort über den Bau sowie die Möglichkeiten des Geräts Omega Vehicle Security OMP-MODL, über die Nutzung bestimmter Accessoires und eine Reihe von Informationen, die erlauben, jegliche Funktionen und Bequemlichkeiten zu nutzen.

Nach dem gelungenen Kauf des Geräts, sollte man einige Zeit für das Kennenlernen jedes Teils der Anleitung von Omega Vehicle Security OMP-MODL widmen. Aktuell sind sie genau vorbereitet oder übersetzt, damit sie nicht nur verständlich für die Nutzer sind, aber auch ihre grundliegende Hilfs-Informations-Funktion erfüllen.

Inhaltsverzeichnis der Gebrauchsanleitungen

  • Seite 1

    OM-MODL[...]

  • Seite 2

    OMEGAnet SM On-Line Service http://www.omega.com Internet e-mail info@omega.com Servicing North America: USA: One Omega Drive, Box 4047 Stamford, CT 06907-0047 Tel: (203) 359-1660 e-mail: info@omega.com FAX: (203) 359-7700 Canada: 976 Berger Laval (Quebec) H7L 5A1 Tel: (514) 856-6928 e-mail: canada@omega.com FAX: (514) 856-6886 For immediate techni[...]

  • Seite 3

    1... I NTRODUCTION U SING THE OMP-MODL 1-1 1... I NTRODUCTION M ANUAL O VERVIEW This User’s manual provides information relative to the use of the OMP-MODL Portable Data Logging Systems manufactured by Omega Engineering. The manual is organized into sections describing the main components of a OMP-MODL system, from the System Base through the var[...]

  • Seite 4

    1... I NTRODUCTION U SING THE OMP-MODL 1-2 OMP-MODL System Base The OMP-MODL System Base refers to the main data logger unit composed of a stack of two interconnected modules... the MLCPU-1 module and the MLAD-1 module. These two modules combined house the main microprocessor and support circuitry, memory, power supplies, A to D converter as well a[...]

  • Seite 5

    1... I NTRODUCTION U SING THE OMP-MODL 1-3 A family of Interface Modules is available for interface to various input signal types such as thermocouples, RTD’s, voltage, current, frequency, event, etc. Additionally, Interface Modules are available with outputs for digital alarm and basic ON/OFF control functions. Note that the OMP-MNL model does n[...]

  • Seite 6

    1... I NTRODUCTION U SING THE OMP-MODL 1-4 ♦ Powerful mathematical data manipulation of collected data during conversion to HyperPlot graphs, ASCII text files and Excel files ♦ HyperTrack™ real-time graphic and numeric data display of OMP-MODL inputs and HyperNet nodes Additional Components Special function modules are also available to provi[...]

  • Seite 7

    1... I NTRODUCTION U SING THE OMP-MODL 1-5 F EATURES Designed with the User in mind, the OMP-MODL portable data logging system has a multitude of integral features ranging from special hardware considerations to unlimited software programmability and data review. Capabilities include: ♦ Up to 24 channels of analog input or 40+ digital input/outpu[...]

  • Seite 8

    1... I NTRODUCTION U SING THE OMP-MODL 1-6 S UMMARY OF S TEPS IN U TILIZING THE OMP-MODL In a typical application of the OMP-MODL portable data logging system, the following sequence of steps would be involved. Details of each step are presented in later sections of this manual. 1. Install the required Interface Modules into the OMP-MODL System Bas[...]

  • Seite 9

    1... I NTRODUCTION U SING THE M ODU L OGGER 1-7 13.[...]

  • Seite 10

    2... OMP-MODL System Base Using the OMP-MODL 2-1 2... OMP-MODL S YSTEM B ASE S YSTEM B ASE O VERVIEW System Base refers to the main data logger unit composed of a stack of two interconnected modules... the MLCPU-1 module and the MLAD-1 module. These two modules combined house the main microprocessor and support circuitry, memory, power supplies, A [...]

  • Seite 11

    2... OMP-MODL System Base Using the OMP-MODL 2-2 unit. As modules are added to the stack, the connectors must be aligned and plugged together as the modules slide together. Four side retaining screws are then installed into the sides to securely hold the assembly together. Top Plate A flat metal plate is provided to cover the top end of the module [...]

  • Seite 12

    2... OMP-MODL System Base Using the OMP-MODL 2-3 TIP: For applications utilizing loggers equipped with a large number of Interface Modules, the stack can become rather tall. In these applications, side plate mounting may be desired. Contact LBI for details on the side mounting bracket.. MLCPU-1 M ODULE Overview The MLCPU-1 module contains the micro[...]

  • Seite 13

    2... OMP-MODL System Base Using the OMP-MODL 2-4 Feedback LED Indicator: The green Feedback LED is used to provide feedback to the User as buttons are pressed and the logger performs various commands. These responses include: Command Feedback LED Response Enable Unit 2 blinks Stop Unit 2 blinks Power-Up Reset 5 blinks Two Button Reset 5 blinks Syst[...]

  • Seite 14

    2... OMP-MODL System Base Using the OMP-MODL 2-5 FYI: The label ENABLE was chosen rather than START for a subtle but important reason. When the ENABLE button is pressed, execution of the Program Net commences... but that does not necessarily mean that data logging to memory has started. For example, a Program Net is developed and uploaded to the OM[...]

  • Seite 15

    2... OMP-MODL System Base Using the OMP-MODL 2-6 3-Button System Initialization: A complete initialization of the logger that will clear data memory and program memory can be performed using the ENABLE, STOP and RESET buttons. This sequence is normally only used when a unit is upgraded in the field with a new EPROM or in the event that the Program [...]

  • Seite 16

    2... OMP-MODL System Base Using the OMP-MODL 2-7 CAUTION The RS-232 jack is only for connection of RS-232 type signals (via the supplied cable and adapters) and is not for direct connection of a telephone line. For telephone modem communication with the OMP- MODL, utilize the OMP-MODL Modem Interface Module. Direct connection of a telephone line to[...]

  • Seite 17

    2... OMP-MODL System Base Using the OMP-MODL 2-8 Terminal Strip Connections The MLCPU-1 is provided with a terminal strip connector for connection of power, input and output wiring ( Figure 2... -4 ). The terminal strip connector can be unplugged from the module allowing for quick disconnect and reconnection of wiring. Connection details follow: Ex[...]

  • Seite 18

    2... OMP-MODL System Base Using the OMP-MODL 2-9 To change the setting, access must be gained to the jumper on the top of the MLCPU-1 module ( Figure 2... -5 ). Per the assembly / disassembly instructions in Chapter 3, open the logger to gain access to the top of the MLCPU-1. The Hi/Lo jumper is installed on two pins of a 3 pin header. To program a[...]

  • Seite 19

    2... OMP-MODL System Base Using the OMP-MODL 2-10 Relay R2 (Terminals 5 & 6) Wiring connections for Output Relay 2. The relay is a normally open device with contacts rated for 500 ma MAX at 32VDC MAX. Operation is dependent on logic associated with the Relay Alarm #2 icon within the Program Net executing in the logger. +5V (Terminal 7) This ter[...]

  • Seite 20

    2... OMP-MODL System Base Using the OMP-MODL 2-11 RTC / Memory Backup Battery The OMP-MODL utilizes static ram for internal data storage which requires a constant power supply to maintain its memory. Similarly, the Real Time Clock (RTC) that keeps track of the date and time within the OMP-MODL runs continually whether the main power switch is ON or[...]

  • Seite 21

    2... OMP-MODL System Base Using the OMP-MODL 2-12 A terminal strip is provided at one end of the module for the connection of sensor and signal wiring. The terminal strip can be unplugged for mass connect/disconnect of the field wiring. Connections are defined in Figure 2... -8 and details on each of the functions follow. Four Channel Analog Input [...]

  • Seite 22

    2... OMP-MODL System Base Using the OMP-MODL 2-13 I NTERNAL CJC S ENSING A PPLICATIONS : For OMP-MODL applications with thermocouple inputs connected directly to the MLAD-1 or any installed MLIM-1 Analog Input modules, a wire jumper must be installed across terminals 13 and 14 (marked INT for internal). The OMP-MODL is shipped from the factory with[...]

  • Seite 23

    2... OMP-MODL System Base Using the OMP-MODL 2-14 NOTES:[...]

  • Seite 24

    2... ModuLogger System Base Using the ModuLogger 2-1[...]

  • Seite 25

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-1 3... I NTERFACE M ODULES By adding Interface Modules ( Figure 3... -1 ) , the OMP-MODL System Base can be expanded for additional I/O channels, modem, display, PCMCIA memory, and battery operation. A full family of modules is available to meet most signal interface and/or feature requirements. This s[...]

  • Seite 26

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-2 plastic bags. Anti-Static bags are available for storage of static sensitive components. I NSTALLATION When shipped, Interface Modules are provided with side screws and any necessary accessories. If ordered with a logger, the Interface Modules are typically factory installed in the System Base befor[...]

  • Seite 27

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-3 alignment and connection with the mating module. If any pins are bent, straighten them with a small pliers. 3. Orient the Interface Module to be added so that the similar length connector bus’s align and the terminal strips or other User controls are all at the same end. 4. While peering into the g[...]

  • Seite 28

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-4 ML012 ML-DISP (Display and User Interface Module) Must be mounted as Top Layer Input / Output Module Layer Module Position # 6 Input / Output Module Layer Module Position # 5 Input / Output Module Layer Module Position # 4 Input / Output Module Layer Module Position # 3 Input / Output Module Layer M[...]

  • Seite 29

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-5 I NTERFACE M ODULE O PERATIONAL I NSTRUCTIONS : Each Interface Module has specific characteristics and instructions for set-up and use that are unique to that particular module. These instructions are included in following sections or provided with the Interface Module at the time of purchase. As Int[...]

  • Seite 30

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-6 NOTES:[...]

  • Seite 31

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-7 ML-BATT; B ATTERY P ACK M ODULE The OMP-MODL can be equipped with the ML-BATT module to provide battery power for portable or remote site applications. The ML-BATT module includes two holders, each of which contains 3 D-cells, resulting in a nominal 9Vdc supply to the OMP-MODL. The ML-BATT module fas[...]

  • Seite 32

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-8 Align and stack the ML-BATT and MLCPU-1 modules with the foam spacer against the MLCPU-1 printed circuit board and the connector on the ML- BATT side. Fasten the modules together with the four side retaining screws. Field Replacement of Batteries To access the batteries , remove the four retaining s[...]

  • Seite 33

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-9 ML-DISP; D ISPLAY AND U SER I NTERFACE M ODULE The OMP-MODL can be equipped with the ML-DISP module ( Figure 3... -7 ) to provide a 2 line liquid crystal display (LCD), front panel Status/Alarm indicating LEDs and a full complement of User buttons. With these features, system messages, status, and mo[...]

  • Seite 34

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-10 NEXT and SELECT The NEXT and SELECT buttons are for User control of the liquid crystal display (LCD) information displays. Pressing NEXT will advance the LCD to the next menu item at the current menu level. Pressing the SELECT button selects that menu item and a new level of menus or results are di[...]

  • Seite 35

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-11 conditions are defined by the User in the Program Net developed within HyperNet ( Chapter 7) and loaded into OMP-MODL memory. Display Operation Information that can be displayed on the LCD is arranged in a hierarchical format and is accessed by a User via the NEXT and the SELECT buttons on the front[...]

  • Seite 36

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-12 LOGGER X.XX <MODE> SYSTEM STATUS Display Date and Time Display Remaining Memory Unit Name and ID Net Program Name Net Program Description System Supply Voltage Return to Top Menu DISPLAY PROBE ICON VALUES DISPLAY MEMORY ICON VALUES DISPLAY STATUS MESSAGES ERASE MEMORY SELECT N E X T (Loops to[...]

  • Seite 37

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-13 Pressing the SELECT button selects that menu item and a new level of menus or results are displayed. A detailed description of the various menu items and levels follow. TIP - a good comprehension of this LCD menu structure can be achieved by close reading of this section... but better results may be[...]

  • Seite 38

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-14 Memory and Continue Processing during setup of the Program Net within HyperNet (Global Icon option). M EM F ULL W RAPPING Displays when the OMP-MODL Program Net is configured in the Rotary Memory mode. When memory fills, the OMP- MODL starts writing over the first collected data. Since the Program [...]

  • Seite 39

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-15 Status is displayed results in a new level of display. Menu selections available on this level include: D ATE AND T IME Press SELECT to display the current Date and Time in the OMP-MODL Real Time Clock. This is the date and time to which collected data is referenced. The OMP-MODL date and time are s[...]

  • Seite 40

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-16 LOW is displayed, download any desired data memory, then replace the lithium cell per the instructions in Appendix D. R ETURN TO T OP M ENU Press SELECT to return to the Top Menu display. Press NEXT to cycle through this level’s menu selections again. D ISPLAY P ROBE I CON V ALUES During the cons[...]

  • Seite 41

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-17 assigned to the icon during construction of the net and the second line is the last logged value and units. To return to the Top Menu, press SELECT when the Return to Top Menu message is displayed. D ISPLAY S TATUS M ESSAGES Messages can be sent to the LCD due to OMP-MODL operational conditions or U[...]

  • Seite 42

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-18 visual indicator provided for User specified application from within a Program Net. The ALARM LED’s provide visual indication of the state of the two output relays contained on the MLCPU-1 module. When the ALARM LED is ON, the relay contacts are closed.[...]

  • Seite 43

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-19 MLIM-1; F OUR C HANNEL A NALOG I NTERFACE M ODULE Overview : The MLIM-1 is a four channel add-on Interface Module for use in conjunction with the OMP-MODL System Base. NOTE: The MLAD-1 module of the System Base includes the functionality of the MLIM-1 in additon to its other functions. This section?[...]

  • Seite 44

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-20 DC Current: Full Scale (FS) ranges: Input resistance for all current ranges is a 100 ohm precision shunt. Module Installation: Refer to the Installation Section earlier in this chapter for detailed installation instructions of the Interface Module onto the System Base. I/O Module Layer Requirements[...]

  • Seite 45

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-21 CAUTION: The switch banks may have different numbering than the circuit board... insure that the marking on the circuit board is followed ... not the marking on the switch banks. NOTE: The MLAD-1 module does not have Module Address Switches as the MLAD-1 is always in Module Address Layer Position 1.[...]

  • Seite 46

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-22 Hardware Input Signal Configuration Switches : Four sets of Input Configuration Switches are provided for each of the four channels ( Figure 3... -11 ). Through the use of these switches, various types of signals can be directly fed into the OMP-MODL eliminating the need for User supplied external [...]

  • Seite 47

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-23 Table 3... - 4 : MLIM-1 configuration switch settings MLIM-1 Channel Configuration via Software: When a MLIM-1 channel is configured as a particular type of input via the module configuration switches, the configuration will be automatically detected during the development of a Program Net for the O[...]

  • Seite 48

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-24 Commonly, this fuse is blown during installation of 4- 20mA current channels where the power supply powering the 4-20mA transmitter is accidently shorted directly across the logger input channel. To avoid this inconvenience, always check wiring prior to powering up system power supplies. MLIM-1; T [...]

  • Seite 49

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-25 Thermocouple Application Notes: Cold Junction Compensation (CJC ) : For thermocouple measurements, the temperature of the terminal strip connections is required in the voltage to temperature conversion equation used by the OMP-MODL. This temperature is measured by the CJC sensor located in the MLAD-[...]

  • Seite 50

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-26 To minimize noise pickup on sensor wiring between the OMP-MODL and the end sensor or signal source, 18 to 22 AWG shielded, twisted pair wire is recommended. FYI: Shielded wire minimizes the amount of noise picked up by the internal conductors carrying the signals by providing an `electrical shell?[...]

  • Seite 51

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-27 APPLICATION NOTES; DC Voltage Channels Channel Isolation : The negative terminal of MLIM-1 channels configured as DC Voltage inputs are isolated from the OMP-MODL circuit ground by a 22Kohm resistor (see Figure 3... -12 ). Common Mode Input Range Considerations: To prevent saturation of the input am[...]

  • Seite 52

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-28 To minimize noise pickup on sensor wiring between the OMP-MODL and the end sensor or signal source, 18 to 22 AWG shielded, twisted pair wire is recommended. At the low current levels input to the MLIM-1, voltage drop in signal wiring is not a concern, however for extremely long runs, a voltage drop[...]

  • Seite 53

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-29 interconnected within the logger and routed to the MLAD-1 Chassis Ground terminal. NOTE: Do not ground the signal wiring shield conductor at the sensor end (the end away from the OMP-MODL) as this can induce additional noise into the sensor wiring.. APPLICATION NOTES; DC Current Channels Channel Iso[...]

  • Seite 54

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-30 In the event that a channel on a module quits responding with proper values, it may be an indication that this protective fuse has blown. The fuse can be removed from the circuit and checked for continuity with an ohm-meter and/or replaced with a Littelfuse P/N: 273.050 fuse available from Omega En[...]

  • Seite 55

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-31 MLIM-2; D IGITAL I NTERFACE M ODULE O VERVIEW Overview: The MLIM-2 Interface Module provides four input channels and four output channels on a single module. Each of the four input channels can be individually programmed for any combination of Event input, Count input, or Frequency input. The four o[...]

  • Seite 56

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-32 module layer determined above. The switch bank should have only ONE switch ON and the other four switches OFF. CAUTION: The switch bank may have different numbering than the circuit board... insure that the marking on the circuit board is followed ... not the marking on the switch banks. Hardware I[...]

  • Seite 57

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-33 implementation of a Counter channel within a Program Net and is covered in the Master Icon Listing, Appendix A. Channel input impedance is greater than 30K ohm. A 40mS debounce circuit can be enabled via software which can be used to filter out `contact bounce’ (see below). Event / Counter Input S[...]

  • Seite 58

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-34 CAUTION: Note that a direct connection exists between the common (-) terminal on all four channels of the MLIM- 2 ( Figure 3... -22 ). When connecting to multiple event or counter signal sources sharing a common ground or reference, insure that the source’s ground or reference is connected to the[...]

  • Seite 59

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-35 Frequency Signal Connection: To utilize an MLIM-2 channel as a Frequency input, connect the input signal positive lead to one of the four Input terminals (Chan A, B, C, or D) and the negative lead to one of the four Common terminals on the module terminal strip ( Figure 3... -23 ). Note that all of [...]

  • Seite 60

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-36 MLIM-2; D IGITAL O UTPUT A PPLICATION The MLIM-2 provides four channels dedicated as outputs. These channels can be configured for functions such as alarming. The output is a current limited voltage signal with the voltage/current characteristics shown in Figure 3... -24 . As shown, with a light lo[...]

  • Seite 61

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-37 Digital Output Signal Connections: To utilize an MLIM-2 Output channel, connect the load positive lead to an Output terminal (Chan E, F, G, or H) and the load negative lead to one of the four Common terminals on the module terminal strip ( Figure 3... -25 ). Note that all of the four Common terminal[...]

  • Seite 62

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-38 MLIM-4; RTD / R ESISTANCE I NTERFACE M ODULE O VERVIEW Overview The MLIM-4 is a four channel Interface Module for use in the OMP-MODL System Base. Each of the four channels can be individually programmed for any combination of RTD (100 ohm or 1000 ohm), Resistance or Thermistor input via the HyperW[...]

  • Seite 63

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-39 Each switch bank should have only ONE switch ON and the other four switches OFF. CAUTION: The switch banks may have different numbering than the circuit board... insure that the marking on the circuit board is followed ... not the marking on the switch banks. Hardware Input Configuration Switches: N[...]

  • Seite 64

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-40 MLIM-4; RTD I NPUT A PPLICATION The RTD function of the MLIM-4 allows for the input of Platinum RTD’s with any of the following characteristics: ♦ 100 or 1000 ohm @ 0’ C ♦ European (0.0385) or American (0.0392) alpha coefficien t curve ♦ 2, 3, or 4-wire configuration The actual temperatur[...]

  • Seite 65

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-41 additive lead wire resistance can be ignored (eg in thermistor or Kohm resistance measurements). However, in applications of RTDs or lower resistance ranges this lead wire resistance can add up to substantial measurement errors... especially if long runs or lighter gauge lead wire is used. For examp[...]

  • Seite 66

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-42 2-Wire Terminal Strip Connections: The MLIM-4 module is provided with a 12 position terminal strip. Each MLIM-4 input channel utilizes 3 of the 12 terminals (1-2-3, 4-5- 6, 7-8-9, 10-11-12). Connect the input signal to the first two of the three input terminals (1-2, 4-5, 7-8, 10-11) on the termina[...]

  • Seite 67

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-43 nearly the same level of error compensation as the 4-wire configuration with one less wire. Due to the fact that only one of the lead wires resistance is actually measured and the other lead wire is assumed to match, in using the 3-wire configuration, it is important that both lead wires used for th[...]

  • Seite 68

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-44 4-Wire Configuration The 4-wire configuration is used in applications where the lead wire effects calculated as above will have a significant error inducing effect on the resistance measurement. The 4-wire configuration provides the best compensation for lead wire resistance at the expense of runni[...]

  • Seite 69

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-45 For long lead wire runs and in applications in electrically noisy environments, it is recommended that twisted pair and/or shielded wire be used. If shielded wire is used, the shield at the OMP-MODL end should be connected to an external earth ground ( Figure 3... - 30 ) or if available, a grounded [...]

  • Seite 70

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-46 NOTES:[...]

  • Seite 71

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-47 MLIM-8; D IGITAL I/O I NTERFACE M ODULE O VERVIEW Overview: The MLIM-8 is an eight channel Interface Module for use in the OMP-MODL System Base. Each of the eight channels can be individually programmed for any combination of Event input or Digital output via the HyperWare software (HyperNet). Modul[...]

  • Seite 72

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-48 CAUTION: The switch bank may have different numbering than the circuit board... insure that the marking on the circuit board is followed ... not the marking on the switch banks. Hardware Input Configuration Switches: No hardware input configuration switches are provided on the MLIM-8. All configura[...]

  • Seite 73

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-49 Event Input Signal Connections: To utilize an MLIM-8 channel as an Event input, connect the input signal positive lead to an Input terminal (Chan A, B, C, D, E, F, G, or H) and the A B COM C D COM E COM COM F G H V+ R1 Debounce RC Current Limited Output Driver Event Signal Software Controlled Deboun[...]

  • Seite 74

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-50 negative lead to one of the four Common terminals on the module terminal strip ( Figure 3... -33 ). Note that all of the four Common terminals on the terminal strip (3, 6, 9, 12) are interconnected and connect directly to the OMP-MODL circuit ground. Refer to Chapter 7 for steps to generate a Termi[...]

  • Seite 75

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-51 Digital Output Signal Connections: To utilize an MLIM-8 channel as a Digital Output, connect the load positive lead to an Output terminal (Chan A, B, C, D. E, F, G, or H) and the load negative lead to one of the four Common terminals on the module terminal strip ( Figure 3... -35 ). Note that all of[...]

  • Seite 76

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-52 N OTES[...]

  • Seite 77

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-53 MLIM-5; PCMCIA M EMORY C ARD M ODULE Overview: The MLIM-5 is a special function Interface Module for use with the OMP- MODL System Base. The MLIM-5 provides capability to record data to a removable SRAM based memory card (Omega Engineering Part Numbers; MC-50 , MC-100, MC-200 ) rather than to intern[...]

  • Seite 78

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-54 NOTE Numerous types of PCMCIA cards are currently available on the market utilizing various technologies. To insure compatibility with the MLIM- 5, utilize only Omega Engineering supplied memory cards or verify alternate parts compatibility with Omega Engineering Technical Support prior to plugging[...]

  • Seite 79

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-55 MLIM-5-2400; PCMCIA AND 2400B M ODEM M ODULE Overview: The MLIM-5-2400 module provides PCMCIA memory card support as discussed in the MLIM-5 section and also provides 1200/2400 Baud telephone modem communications capability. Installation of this module will allow the full complement of serial commun[...]

  • Seite 80

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-56 Plug a telephone cord equipped with a 6/2 modular phone plug (RJ-12 type) into the modular phone socket accessible at the end of the module ( Figure 3... -36 ). Insure that the phone conductors are installed into the center two locations of the plug (polarity is not critical). Various length phone [...]

  • Seite 81

    3... I NTERFACE M ODULES U SING THE OMP-MODL 3-57 MLIM-5-144; PCMCIA AND 14.4K B AUD M ODEM M ODULE Overview: The MLIM-5-144 module provides PCMCIA memory card support as discussed in the MLIM-5 section and also provides 1200, 2400, 4800, 9600, and 14400 Baud telephone modem communications capability. Installation of this module will allow the full[...]

  • Seite 82

    3... I NTERFACE M ODULES U SING T HE OMP-MODL 3-58 NOTES:[...]

  • Seite 83

    3... I NTERFACE M ODULES U SING THE M ODU L OGGER 3-1[...]

  • Seite 84

    4... H YPER W ARE ™ S OFTWARE I NTRODUCTION U SING THE M ODU L OGGER 4-1 4... H YPER W ARE ™ S OFTWARE I NTRODUCTION S OFTWARE O VERVIEW HyperWare™, a multi-functioned Windows™ based software package. HyperWare is multi-function Windows based software application that works with the OMP- MODL to provide communications, programming and colle[...]

  • Seite 85

    4... H YPER W ARE ™ S OFTWARE I NTRODUCTION U SING T HE M ODU L OGGER 4-2 PC R EQUIREMENTS To install and use HyperWare, the following minimum equipment is required: ♦ 386 or higher IBM PC compatible ♦ 4 Meg (minimum) of RAM memory ♦ Mouse or other pointing device ♦ Serial port for OMP-MODL connection (via Modem or RS-232 link) ♦ Micros[...]

  • Seite 86

    4... H YPER W ARE ™ S OFTWARE I NTRODUCTION U SING THE M ODU L OGGER 4-3 H YPER W ARE P ROGRAM T OPOLOGY Upon launch of the HyperWare program, the HyperComm window will be displayed showing graphics of a PC, a HyperLogger, OMP-MODL, or OMP-MNL and a partial serial cable connecting between the two. Upon establishing a serial connection between the[...]

  • Seite 87

    4... H YPER W ARE ™ S OFTWARE I NTRODUCTION U SING T HE M ODU L OGGER 4-4 utilize a visual click and drag of icons (as in construction of Program Nets and for icon based serial communications). In the HyperComm window and throughout HyperWare, passing the cursor over icons and buttons results in a short descriptor display on the Status Message Ba[...]

  • Seite 88

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-1 5... H YPER C OMM ™ S ERIAL C OMMUNIC ATIONS O VERVIEW Upon launching HyperWare , the H YPER C OMM window ( Figure 5... -1 ) will appear with graphic images of a PC with a connected PCMCIA card drive (optional) and a logger. From within this window, communications between the PC and th[...]

  • Seite 89

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-2 E STABLISHING AN RS-232 L INK RS-232 Hardware Connection: A DB-9 to RJ-12 modular plug adapter (P/N: RJDB-9H) or DB-25 to RJ-12 adapter (P/N: RJDB-25H) and modular plug type cable is required to connect between the logger and the PC serial port. Plug the appropriate (9 pin or 25 pin) RJD[...]

  • Seite 90

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-3 TIP: If the port number is unkown, select one of the ports then attempt to connect (see following). If unsuccessful, change the selected Port and try again. After selecting the port, click on the C ONNECT button to initiate communication with the logger. At this time, HyperWare will atte[...]

  • Seite 91

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-4 HyperComm Connection via Modem: Launch HyperWare and after the opening screen, the H YPER C OMM window will be displayed. Move the cursor over the graphic DB-25 type connector (center of the screen on the cable) and double-click to bring up the S ERIAL C OMMUNICATIONS dialog box ( Figure[...]

  • Seite 92

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-5 Baud : Specify the baud rate rate that will be used to communicate between the PC and the local modem. Set this baud rate per the following table: FYI: The remote modem (at the logger) will automatically adapt to the baud rate of the calling modem. Redial : If this box is checked, HyperW[...]

  • Seite 93

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-6 Phone : A short dialing directory of frequently called logger numbers can be maintained using the List Box provided. ADDING A NEW D IRECTORY E NTRY : To add a directory entry, use conventional text editing commands to highlite then type over an existing entry. The entry will not be lost [...]

  • Seite 94

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-7 to the modem’s manual for the command set used by the modem installed at the PC. Note that most modems (although not necessarily manufactured by Hayes, US Robotics, or Zoom) can utilize one of these three configurations. Clicking on the Modem list box and selecting the desired modem wi[...]

  • Seite 95

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-8 ♦ Is the modem power ON? (external modems only) ♦ Is the local modem port selected correctly? If in doubt, select another serial port from within the S ERIAL C OMMUNICATIONS dialog box and retry. ♦ Is the selected baud rate correct for the modem? ♦ Is a working telephone line con[...]

  • Seite 96

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-9 connects (eg HyperLogger, OMP-MODL, OMP-MNL). The logger graphic on the left side of the HyperComm Window portrays the model detected. Communication Techniques Visual communication has been designed into the HyperComm Window allowing for intuitive mouse driven communication. Two methods [...]

  • Seite 97

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-10 Clear Button Icon ( logger Clear not PCMCIA Clear ) When the logger is not Enabled, d ouble-clicking on this button results in a clearing of memory (after confirmation). After double- clicking, a dialog will appear to confirm the action. Memory Status can always be confirmed with the St[...]

  • Seite 98

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-11 Reported information includes: U NIT I NFORMATION : LOGGER V ERSION : Specifies the logger version number. U NIT N AME AND U NIT ID : User programmable information for tracking of equipment (see procedure for setting described above). U NIT T IME : The current date and time on the logge[...]

  • Seite 99

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-12 B ACKUP L ITHIUM C ELL : The state of charge display for the lithium cell (used for data memory and clock backup) will display GOOD or LOW . If LOW is displayed, download any desired data memory, then replace the lithium cell (See Appendix D). I NSTALLED H/W (H ARDWARE ) This box lists [...]

  • Seite 100

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-13 If a different Program Net is to be transferred, open the desired Program Net from within HyperNet, then return to the HyperComm window and drag the icon to the logger. Refer to Chapter 6 for details on the transfer of Program Net to and from the PCMCIA card. NOTE: If the target logger [...]

  • Seite 101

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-14 After entry of the filename, a dialog will display for the User to enter additional File Information to be stored with the file ( Figure 5... -10 ). This information includes a short single line Title as well as room for extensive comments. The File Information can be accessed at a late[...]

  • Seite 102

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-15 FYI: Probe Point is used for the icon name as connecting these icons to a node on a Net is somewhat analogous to putting a test meter probe on the Net nodes and reading a value. If a Program Net that contains Probe Point icons is currently loaded into PC memory, then a Probe Point icon [...]

  • Seite 103

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-16 P ASSWORD P ROTECTED F UNCTIONS Access to the following functions can be granted/denied via the User password configuration dialog. A checked box indicates that access is granted to the corresponding function. ♦ Download Net Program ♦ Download Data ♦ Upload Net Program ♦ Enable [...]

  • Seite 104

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-17 Downloads the Net from the logger prior to executing either function. Since this is required, any time that either the Download Data or Real Time Tracking boxes are checked, the Download Net box is automatically checked. D ISABLING P ASSWORD S To disable the logger Password feature, the[...]

  • Seite 105

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE OMP-MODL 5-18 NOTES:[...]

  • Seite 106

    5... H YPER C OMM ™ C OMMUNICATIONS U SING THE M ODU L OGGER ™ 5-1[...]

  • Seite 107

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-1 6... PCMCIA C ARD C ONFIGUR ATION AND U SE O VERVIEW : The OMP-MODL utilizes the optional PCMCIA Card System to provide expanded data storage capacity within the OMP-MODL and/or to provide storage to a removable memory card that can be removed and transported to another location wher[...]

  • Seite 108

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-2 provide the necessary software interface between the PD-1drive and HyperWare. Also included are a number of utilities for use in formatting, copying etc on the PCMCIA card. PCMCIA C ARD - E XPANDED M EMORY C APACITY A PPLICATION Hardware Configuration For applications using the PCMCI[...]

  • Seite 109

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-3 CAUTION: If the memory card does not easily insert fully into the socket, double-check the orientation. The socket is designed to prevent full insertion with reversed orientation. For data storage on the memory card, the Write Protect switch must be in the disabled position (ie slid [...]

  • Seite 110

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-4 Installing the CardTalk Drivers: Follow the detailed instructions in the User’s Guide supplied with the drive. The installation process creates a directory called CardTalk and copies a number of files into it. It then modifies the AUTOEXEC.BAT and CONFIG.SYS files. A few additional[...]

  • Seite 111

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-5 TIP: Upon boot of the PC with the standard drivers installed, the PD-1 will be assigned the next consecutive drive letter. For User’s requiring specific assignment of a drive letter to the PD-1 drive, the CONFIG.SYS file can be modified to force the PD-1 drive to be assigned to a p[...]

  • Seite 112

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-6 CAUTION Before inserting a PCMCIA card into the drive, touch the case of the PC or some other ground to discharge any static body charge. This step minimizes the chance of damaging the card by discharging your body static charge through the PCMCIA card connector. 1. Insert a formatte[...]

  • Seite 113

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-7 PCMCIA Card Usage with HyperWare The PCMCIA card, in a transportable memory application is typically used to transfer collected data from a remotely located OMP-MODL to the PC and/or to transfer a new Program Net from the PC to a remotely located OMP-MODL. Transferring Data from the [...]

  • Seite 114

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-8 MODL, and attempted to be run. Methods to insure this are discussed in Chapter 7. 2. Insert a PCMCIA card into the PD-1 drive 3. Drag the Program Net icon from the PC to the PD-1 graphic. A dialog will display stating that any data currently on the PCMCIA card will be erased. Select [...]

  • Seite 115

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-9 The MC-XX memory cards utilize an internal lithium cell (Panasonic BR-2325, 3V or equivalent) for power when not installed in the OMP-MODL or the PD-1 drive at the PC location. This lithium cell should be replaced yearly for maximum data integrity. Data in memory will be maintained f[...]

  • Seite 116

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE OMP-MODL 6-10 4. Carefully insert the battery door and swing it closed. 5. Slide the Lock pin to the LOCK position.[...]

  • Seite 117

    6... PCMCIA C ARD C ONFIGURATION AND U SE U SING THE M ODU L OGGER 6-1[...]

  • Seite 118

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-1 7... H YPER N ET ™ I CON B ASED P ROGRAMMING O VERVIEW The OMP-MODL operates in the field based on a program loaded into its memory called a Program Net ( Figure 7... -1 ). The Program Net provides instructions for the OMP-MODL including which channels to sample, when to samp[...]

  • Seite 119

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-2 technically curious, additional information on the theory of operation of Program Nets is available in Appendix G. A N E XAMPLE P ROGRAM N ET A simple Program Net is shown in Figure 7... -2 . In this Program Net, two thermocouple inputs (represented by the two matching icons nea[...]

  • Seite 120

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-3 H YPER N ET D EVELOPMENT W INDOW F EATURES AND T OOLS Accessing the HyperNet Window To enter the H YPER N ET W INDOW from within the H YPER C OMM W INDOW , click on the H YPER N ET button on the toolbar. The HyperNet Window will open ( Figure 7... -4 ) displaying the last edite[...]

  • Seite 121

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-4 HyperComm Access A single click returns the screen to the HyperComm Window. If the Program Net currently displayed in the workspace has been changed, a dialog will open prompting the User with an option to save the edited Program Net. Create New Net Clicking on New Net will auto[...]

  • Seite 122

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-5 Program Net Icon Selection Bar Included in the Program Net Icon Bar is a collection of various icons to be used in the development of Program Nets. Clicking on the arrows at the left and right edge of the bar will scroll the bar left or right displaying additional icons. P ROGR[...]

  • Seite 123

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-6 TIP: Users that have a number of OMP-MODLs in use may find it convenient to create a subdirectory in their HyperWare directory for each of the OMP-MODLs with which they work. The subdirectory names may correlate to the OMP-MODL ID or Unit Name which are User programmed (See Hype[...]

  • Seite 124

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-7 The Snap function is merely an aid to align icons neatly within the workspace. Changing Fonts Labeling text surrounds icons as they are placed. The font, size, color and effects used for this text can be changed through the drop- down menu `Options / Font’ and its correspondi[...]

  • Seite 125

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-8 T ERMINALS All icons (except the Global Icon) have terminals for the addition of signal connections. An explanation for the various types of terminals follows: L OGIC / D ATA I NPUT T ERMINALS On the left side of the icon are typically one or two inputs for Logic or Data signal [...]

  • Seite 126

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-9 A simple application of the Enable input might be in an engine temperature recording application. A Thermocouple icon may be enabled / disabled by a Logic signal that is True when the engine ignition is ON. With this configuration, temperature recording will only occur when the[...]

  • Seite 127

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-10 Various standard Windows techniques are used to select the different parameters within the dialog box from text entry and editing to selection via radio buttons. I CON NAME Each icon can have an 8 character name assigned that displays on the workspace under the icon. OUTPUT NAM[...]

  • Seite 128

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-11 Icon Assortment A complete reference listing of all of the icons available within HyperWare is included in the Master Icon Listing in Appendix A. Details on Configuration, applications, and proper usage are described. Global Icon One special icon that is included in every Prog[...]

  • Seite 129

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-12 U PDATE (B LUE ) Update commands are a special type of signal that is generated ONLY by Sample Rate Clock icons. This signal is connected to the Update input on icons and commands them to update their outputs. As with the other signal types, HyperNet only allows Update signals [...]

  • Seite 130

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-13 ♦ Multiple connections to a single Input terminal. During the construction of Program Nets, it is common for multiple connection lines to originate at an Output terminal, however most icons can only have one or two inputs. Some icons such as the Scroll Tracking and Destinati[...]

  • Seite 131

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-14 Program Net Execution Speed NOTE: The information presented in this section is provided for Users that are attempting to collect data at faster rates (such as Samples per Second). Users utilizing the OMP-MODL for data collection at slower rates (eg Samples per Minute) may opt t[...]

  • Seite 132

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-15 Following are three benchmark Program Net execution times that can be used to gain a relative feel for the sampling rates achievable with the OMP-MODL. The times were empirically determined with a single channel (as specified) storing directly to memory. In each case, the Prog[...]

  • Seite 133

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING THE OMP-MODL 7-16 speed,wthe LCD should not be displaying updating information (eg Probe Points, battery voltage, etc). P ROGRAM N ET D OCUMENTATION Two features are provided within the HyperNet Window to assist in documenting and the ensuing field wiring of the OMP-MODL. HyperNet Printout The a[...]

  • Seite 134

    7... H YPER N ET ™ I CON B ASED P ROGRAMMING U SING T HE OMP-MODL 7-17 NOTES:[...]

  • Seite 135

    8... P OST -P ROCESSING OF C OLLECTED D ATA U SING THE OMP-MODL 8-1 8... P OST -P ROCESSING OF C OLLECTED D ATA O VERVIEW Once data has been collected by the OMP-MODL and downloaded to a OMP-MODL Download file on the PC, a number of powerful data analysis and viewing options are available from within HyperWare. (See HyperComm, Chapter 5 for details[...]

  • Seite 136

    8... P OST -P ROCESSING OF C OLLECTED D ATA U SING T HE OMP-MODL 8-2 A Post-Processing Net is constructed much the same way as a Program Net is developed within HyperNet. The main difference is that a Program Net running in a OMP-MODL receives its data from various hardware channels such as thermocouples, then saves the collected data to OMP-MODL m[...]

  • Seite 137

    OST -P C OLLECTED ATA U OMP-MODL 8-3 Entering the Post-Processing window and HyperWare will change to the Post-Processing window, Figure 8... -3 . Constructing a Post-Processing Net connection techniques as used during construction of a OMP-MODL Program Net (Chapter 7) or a HyperTrack Net (Chapter 10). Opening a OMP-MODL Download File (*.HLD) The f[...]

  • Seite 138

    8... P OST -P ROCESSING OF C OLLECTED D ATA U SING T HE OMP-MODL 8-4 Adding Icons Two icons are available on the Icon Toolbar for use in construction of the Post-Processing Net; a Math icon and a File icon. M ATH I CON The Math icon provides algebraic processing of data as it passes from input to output. In Figure 8... -1 , the Math icon is providi[...]

  • Seite 139

    8... P OST -P ROCESSING OF C OLLECTED D ATA U SING THE OMP-MODL 8-5 Each day, when the data is downloaded from the OMP- MODL, a new filename is given to the OMP-MODL Download file (eg Monday.hld, Tuesday.hld, From within the Post-Processing window, the Post- Processing Net CONVERT.PST can then be opened, the Processing Net will automatically check [...]

  • Seite 140

    8... P OST -P ROCESSING OF C OLLECTED D ATA U SING T HE OMP-MODL 8-6 M ERGING OF D OWNLOAD F ILES Through a special function in the Post-Processing Window, two Download files can be merged into a single Destination file. This is a powerful feature that can be used for generating Before and After type performance plots with HyperPlot. For example, a[...]

  • Seite 141

    8... P -P C D U OMP-MODL[...]

  • Seite 142

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-1 9... H YPER P LOT ™ G RAPHIC D ATA D ISPL A Y O VERVIEW HyperPlot is an integral sub-program of HyperWare that provides graphic data display of 1 to 7 channels of OMP-MODL collected data versus time ( Figure 9... -1 ). Autoscaling, zoom/unzoom, data analysis, and bitmap file (*[...]

  • Seite 143

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-2 From HyperComm... After data has been downloaded from a OMP-MODL to a OMP-MODL Download file (*.HLD) on the PC, the data can be immediately viewed with HyperPlot. After the Download file has been saved to PC disk, a Memory icon will display overlaying the PC graphic in the HyperC[...]

  • Seite 144

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-3 Zooming Areas of a plot can be enlarged via the HyperPlot Zooming feature . To zoom into an area of interest, a rectangular outline can be drawn around a region using the mouse and the display will change to fill the window with the outlined plot... auto-scaling time and channel [...]

  • Seite 145

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-4 Zoom Last Returns the view to show the last level of zoom Cursor Brings a vertical cursor onto the view . The cursor shows on the left edge of the screen with a small triangle displaying just above the time axis. The cursor can be moved by locating the mouse cursor over the verti[...]

  • Seite 146

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-5 T IME I NTERVAL Using the provided Time Interval text box, the time base (essentially a manual time base zoom function) can be manually specified. The entered value in units (approximate) will be used for the time window displayed in a single view. For example, if the value is en[...]

  • Seite 147

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-6 C HANNEL N AME The individual data channel names from the OMP-MODL Download file are listed. The names are assigned when developing a HyperNet and/or Post-Processing Net. D ISPLAY C HANNEL Checking a data channel’s checkbox results in that channel being plotted. D ISPLAY G RID [...]

  • Seite 148

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-7 Manual Range text boxes automatically switches the Auto / Manual checkbox to Manual). To return to the Auto-scaling mode, merely click on the Auto checkbox and the range will automatically be rescaled to fit the screen. U NITS The individual data channel units from the OMP-MODL D[...]

  • Seite 149

    9... H YPER P LOT ™ G RAPHIC D ATA D ISPLAY U SING THE OMP-MODL 9-8[...]

  • Seite 150

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-1 10... H YPER T RACK ™ R EAL -T IME D ATA D ISPL A Y O VERVIEW The OMP-MODL in conjunction with a PC running HyperWare is capable of operating in a real-time mode called HyperTrack or tracking. HyperTrack provides a real-time graphic trending and/or scrolling numerical di[...]

  • Seite 151

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-2 2. From within HyperTrack, construct a real-time HyperTrack Net. (Note that this is a different Net than the Program Netuploaded into the OMP-MODL memory. The HyperTrack Net runs on the PC) 3. Establish the serial connection between the PC and the OMP- MODL 4. Enable real-[...]

  • Seite 152

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-3 C ONSTRUCTING A H YPER T RACK N ET During a real-time tracking session, the OMP-MODL transmits values of the Probe Point icons to the PC via the serial link. These values are then processed through a HyperTrack Net running on the PC (in the HyperTrack window) and displayed[...]

  • Seite 153

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-4 Program Net that contains the desired Probe Point icons. The OMP-MODL may be in either the Enabled or Stopped mode. 2. From the HyperComm Window, click and drag the Program Net icon on the OMP-MODL to the PC and release it. The Program Net and Probe Point icon information [...]

  • Seite 154

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-5 3. The OMP-MODL connection can then be disconnected (eg to save long distance charges if connected via modem) while the HyperTrack Net is developed. Reading Probe Point icons from a Program Net on disk: If a copy of the Program Net that will be running in the OMP-MODL duri[...]

  • Seite 155

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-6 M ATH I CON The Math icon provides algebraic processing of data as it passes from input to output. In Figure 10... -3 above, the Math icon is providing a differential temperature calculation and generating a third data channel, Tdelta which is then displayed as well as sto[...]

  • Seite 156

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-7 Saved HyperTrack Nets should only be used for real-time tracking with OMP-MODLs configured with Program Nets that contain matching Probe Point icons. If mismatched nets are used, channels may be incorrectly titled and displayed in incorrect sequence. For example: A HyperTr[...]

  • Seite 157

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-8 Data Buffer As new data is collected, older data will be scrolled down one line. Older data is still accessable after it has scrolled out of the window by clicking on the scroll bar buttons on the right side of the window. HyperTrack Trending Display Window During real-tim[...]

  • Seite 158

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-9 Trending Configuration Dialog By double-clicking anywhere on the Trending Display Window, a Configuration Dialog is displayed ( Figure 10... -12 ). This dialog allows for various User settings for the data display. NOTE: After changing any of the following settings, the Tr[...]

  • Seite 159

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-10 Channel Ranges The data channels are scaled and plotted per a single amplitude axis on the left edge of the plot. Upon start of a Trend Tracking session, the range for all channels defaults to +/-1000. A Min. and Max. value for each channel can be set by editing the appro[...]

  • Seite 160

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-11 S TOPPING A H YPER T RACK S ESSION To stop a real-time tracking session, click on the Stop button . Stopping a tracking session does not stop execution of the Program Net within the OMP-MODL, it merely commands the OMP-MODL to stop sending Probe Point values to the PC. Wh[...]

  • Seite 161

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-12 NOTES:[...]

  • Seite 162

    10... H YPER T RACK ™ R EAL -T IME D ATA D ISPLAY U SING THE OMP-MODL 10-1[...]

  • Seite 163

    11.. . A PPENDICES U SING THE OMP-MODL 11-1 11... A PPENDICES[...]

  • Seite 164

    11... A PPENDICES U SING T HE OMP-MODL 11-2 NOTES:[...]

  • Seite 165

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-3 A PPENDIX A: M ASTER I CON R EFERENCE THERMOCOUPLE I NPUT I CON : FUNCTION: Performs the thermocouple channel selection, amplification, cold junction compensation and A-D conversion for a thermocouple hardware input from an MLIM-1 Interface Module. The CJC reading is taken from t[...]

  • Seite 166

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-4 Output Name: Specify a name for the Output signal from this icon. This Output Name will be referenced by other icons downstream in the Program Net. Use This Channel for Voltage: Both the Thermocouple Icon and the VDC-2V Icon utilize the same Interface Module hardware Confi[...]

  • Seite 167

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-5 CJC (C OLD J UNCTION C OMPENSATION ) I NPUT I CON : FUNCTION: Performs the Cold Junction Compensation (CJC) channel selection, amplification, and A-D conversion for a thermistor hardware input from a sensor mounted by the terminal strip header on the inside of the MLAD-1.). Alter[...]

  • Seite 168

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-6 S UPPLY V OLTAGE (V BATT ) I NPUT I CON (S YSTEM B ASE ) FUNCTION: Used to take readings of the OMP-MODL internal Supply Voltage. If internal batteries are installed in the OMP-MODL and an external power supply is also connected, the output value will be the higher of the [...]

  • Seite 169

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-7 DC-LO; +/- 2VDC F ULL S CALE V OLTAGE I NPUT I CON FUNCTION: Performs the analog channel selection, amplification, and A-D conversion for a DC voltage input within the range of +/-2V from an MLIM-1 Interface Module. INPUTS: Hardware: No signal input shown on Net for Program Net c[...]

  • Seite 170

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-8 Range: Specify the input range to be used for this channel. Select the range so that anticipated input signal fluctuations will not exceed this Full Scale range. If the input exceeds the selected range, an over-range value will be logged. AC Noise Reject: Enables software [...]

  • Seite 171

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-9 DC-MED; +/- 10 VDC F ULL S CALE V OLTAGE I NPUT I CON FUNCTION: Performs the analog channel selection, amplification, and A-D conversion for a DC voltage input within the range of +/-10VDC from an MLIM-1 Interface Module. INPUTS: Hardware: No signal input shown on Net for Program[...]

  • Seite 172

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-10 DC-HI; +/- 30 VDC F ULL S CALE V OLTAGE I NPUT I CON FUNCTION: Performs the analog channel selection, amplification, and A-D conversion for a DC voltage input within the range of +/-30VDC from an MLIM-1 Interface Module. INPUTS: Hardware: No signal input shown on Net for [...]

  • Seite 173

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-11 M A-LO ; +/- 20 M ADC F ULL S CALE C URRENT I NPUT I CON FUNCTION: Performs the analog channel selection, amplification, and A-D conversion for a DC current input within the range of +/-20mADC from an MLIM-1 Interface Module. INPUTS: Hardware: No signal input shown on Net for Pr[...]

  • Seite 174

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-12 the cost that it slows down the rate at which a channel can be sampled. See Appendix for discussion on use of filtering.[...]

  • Seite 175

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-13 RTD I NPUT I CON (MLIM-4) FUNCTION: RTD, resistance, and thermistor signal inputs can all be handled with the MLIM-4. With the MLIM-4 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. As an RTD input, the icon samples the resistan[...]

  • Seite 176

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-14 Port (1 to 6) and Channel (A to H) where the actual Interface Module channel is installed will be used for the name. Output Name: Specify a name for the Output signal from this icon. This Output Name will be referenced by other icons downstream in the Program Net. Input T[...]

  • Seite 177

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-15 T HERMISTOR I NPUT I CON (MLIM-4) FUNCTION: RTD, resistance, and thermistor signal inputs can all be handled with the MLIM-4. With the MLIM-4 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. As a thermistor input, the icon sample[...]

  • Seite 178

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-16 CONFIGURATION OPTIONS: Icon Name: Specify the name for the channel. This name will show directly under the icon within the Program Net. If no name is User provided, the Backplane Port (1 to 6) and Channel (A to H) where the actual Interface Module channel is installed wil[...]

  • Seite 179

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-17 R ESISTANCE I NPUT I CON (MLIM-4) FUNCTION: RTD, resistance, and thermistor signal inputs can all be handled with the MLIM-4. With the MLIM-4 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. As a Resistance input, the icon sample[...]

  • Seite 180

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-18 CONFIGURATION OPTIONS: Icon Name: Specify the name for the channel. This name will show directly under the icon within the Program Net. If no name is User provided, the Backplane Port (1 to 6) and Channel (A to H) where the actual Interface Module channel is installed wil[...]

  • Seite 181

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-19 EVENT I NPUT I CON (GPDI) FUNCTION: The GPDI (General Purpose Digital Input) is a hardware digital input for Event and Counter applications. It is incorporated into every OMP-MODL System Base. As an EVENT input, it samples the input signal state (High or Low) per the sampling ra[...]

  • Seite 182

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-20 constant of approximately 50mS. Note that the use of Debounce will delay the actual input to output time by 50 to 200 mS. FYI: Contact bounce is a phenomenon that occurs when a mechanical switch opens or closes. During switching, the physical electrical contacts inside th[...]

  • Seite 183

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-21 COUNTER I NPUT I CON (GPDI) FUNCTION: The GPDI (General Purpose Digital Input) is a hardware digital input for Event and Counter applications and is incorporated into every OMP-MODL System Base. As a COUNTER input, it accumulates counts from a User connected hardware signal inpu[...]

  • Seite 184

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-22 Debounce: Enables a hardware filter circuit that prevents short duration transitions from passing into the icon. Debounce can be used to filter out contact bounce from mechanical switches. The GPDI Debounce has a time constant of approximately 50mS. Debounce should not be[...]

  • Seite 185

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-23 EVENT I NPUT I CON (D IGITAL I/O WITH MLIM-2) FUNCTION: An Event / Counter / Frequency input and Digital output functions are all provided with the MLIM-2. Four channels can be configured on an individual basis as Frequency, Event, or Counter type Inputs and four separate channe[...]

  • Seite 186

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-24 Output Name: Specify a name for the Output signal from this icon. This Output Name will be referenced by other icons downstream in the Program Net. Units: Provides a text box for User entry of a units label that will be shown at the output from this icon. Conversion to ot[...]

  • Seite 187

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-25 COUNTER I NPUT I CON (D IGITAL I/O WITH MLIM-2) FUNCTION: Event / Counter / Frequency input and Digital output functions are all provided with the MLIM-2. With the MLIM-2 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. The same [...]

  • Seite 188

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-26 Port (1 to 6) and Channel (A to D) where the actual Interface Module channel is installed will be used for the name. Output Name: Specify a name for the Output signal from this icon. This Output Name will be referenced by other icons downstream in the Program Net. Units: [...]

  • Seite 189

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-27 FREQUENCY I NPUT I CON (D IGITAL I/O WITH MLIM-2) FUNCTION: Event / Counter / Frequency input and Digital output functions are all provided with the MLIM-2. With the MLIM-2 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. The sam[...]

  • Seite 190

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-28 Units: Provides a text box for User entry of a units label that will be shown at the output from this icon. Conversion to other units can be performed within a Program Net by adding a Math Icon onto this icon’s output. Event / Counter / Frequency Select FREQUENCY for th[...]

  • Seite 191

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-29 EVENT I NPUT I CON (D IGITAL I/O WITH MLIM-8) FUNCTION: Event input and Digital output functions are all provided with the MLIM-8. With the MLIM- 8 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. As an EVENT input, the icon samp[...]

  • Seite 192

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-30 Output Name: Specify a name for the Output signal from this icon. This Output Name will be referenced by other icons downstream in the Program Net. Units: Provides a text box for User entry of a units label that will be shown at the output from this icon. Conversion to ot[...]

  • Seite 193

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-31 DIGITAL O UTPUT I CON (MLIM-8) FUNCTION: Eight channels of Digital output or Event input are all provided with the MLIM-8. With the MLIM-8 installed in a OMP-MODL, these respective function icons become available for use in Program Nets. (Click on the CHANGE button within the Ev[...]

  • Seite 194

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-32 DIGITAL ALARM O UTPUT I CON (S YSTEM B ASE ) FUNCTION: A Digital Alarm (TTL) output is provided as an integral part of the OMP-MODL System Base. The Digital Alarm icon provides software access to this alarm output. INPUTS: Data/Logic Signal: Logic type. True input turns A[...]

  • Seite 195

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-33 RELAY ALARM O UTPUT I CON FUNCTION: Two Relay Alarm outputs are provided as an integral part of the OMP-MODL System Base. The Relay Alarm icons provide software access to these alarm outputs. INPUTS: Input Signal: Logic type. True input turns Alarm ON. False input turns Alarm OF[...]

  • Seite 196

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-34 +5 V OLT O UTPUT I CON (S YSTEM B ASE ) FUNCTION: A regulated 5Vdc, 125mA current limited output is provided as an integral part of the OMP-MODL System Base. The + 5 Volt icon provides software access to this alarm output. INPUTS: Data/Logic Signal: Logic type. True input[...]

  • Seite 197

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-35 GREEN LED S TATUS O UTPUT I CON FUNCTION: A Green LED (light emitting diode) is provided as an integral part of the OMP-MODL System Base and displays on the front panel of the OMP-MODL. The Green LED icon provides software access to this Status output. INPUTS: Data/Logic Signal:[...]

  • Seite 198

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-36 LCD MESSAGE O UTPUT I CON FUNCTION: User programmed messages can be displayed on the LCD (liquid crystal display) on the front panel of the OMP-MODL System Base. The LCD Message icon provides for User entry of a two-line message for display when the icon input is TRUE. IN[...]

  • Seite 199

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-37 DIGITAL O UTPUT I CON (MLIM-2) FUNCTION: Four channels of Digital output are provided (along with 4 channels of Event / Counter/ and Frequency input) with the MLIM-2. With the MLIM-2 installed in a OMP-MODL, these respective function icons become available for use in Program Net[...]

  • Seite 200

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-38 PAGER C ALL -O UT I CON FUNCTION: In OMP-MODLs equipped with a telephone modem option, the Pager Call-Out icon can be used to dial a pager phone number, wait a User defined period of time (for the Paging service tone), then transmit a User assigned code number. This code [...]

  • Seite 201

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-39 3. The code number 9999 will be sent to the pager 4. The OMP-MODL modem will disconnect. The commas are entered to insert a delay between the dialing of the pager and the sending of the code. The delay time should be determined by the User to meet the subscribed pager system tim[...]

  • Seite 202

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-40 PROBE POINT O UTPUT I CON FUNCTION: Probe Point Icons mark and provide access to nodes within a Program Net for: 1. The OMP-MODL front panel display while the Net is executing. Values at the nodes can be accessed through the Display Probe Icon Values LCD menu selection 2.[...]

  • Seite 203

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-41 Long Integer - The Input data will be converted to signed integer format, then output. Signed Integer format includes only the digits to the left of the decimal (XXXXX.) The advantage of using Long Integer format is that this format will generally consist of a fewer number of by[...]

  • Seite 204

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-42 MEMORY (OMP-MODL) I CON FUNCTION: The Memory icon represents data memory within the OMP-MODL System Base (either internal or a PCMCIA memory card if installed). The Units associated with the icon Output connected to the Memory icon Input will be stored with the recorded v[...]

  • Seite 205

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-43 The advantage of using Long Integer format is that this format will generally utilize a fewer number of memory bytes for data storage. The number of bytes will dynamically size, from 1 to 4 bytes, according to the magnitude of the Output. The disadvantage of Long Integer format [...]

  • Seite 206

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-44 DESTINATION FILE I CON FUNCTION: The Destination File icon represents a file on disk within the PC. This icon can be used as a destination file for data processed through a HyperTrack session and for file to file conversions from within the Post-Processing window. The Uni[...]

  • Seite 207

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-45 REAL-TIME SCROLLING DISPLAY I CON FUNCTION: The Real-Time Scrolling Display icon represents the HyperTrack Scrolling Display Window in which real-time data values from a OMP-MODL are displayed. The Real-Time Scrolling Display icon is used from within the HyperTrack Window during[...]

  • Seite 208

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-46 REAL-TIME TRENDING DISPLAY I CON FUNCTION: The Real-Time Trending Display icon represents the HyperTrack Graphic Trending Display Window in which real-time data values from a OMP-MODL are displayed. The Real-Time Trending Display icon is used from within the HyperTrack Wi[...]

  • Seite 209

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-47 NOTE: After changing any of the following settings, the Tracking session must be Stopped (click on the Stop Sign Button) and restarted (Green Flag). Changing any of the following settings during a Tracking session will result in a refresh of the display and clearing of buffered [...]

  • Seite 210

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-48 DELTA F UNCTION I CON FUNCTION: The Delta icon provides a special data processing function that can be used in a Program Net to drastically reduce the number of data samples required to profile an analog signal. The Delta icon only passes data from input to output when th[...]

  • Seite 211

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-49 INPUTS: Data/Logic Signal: Data type. Update Clock: None Enable: Processing of icon is allowed when Enable pin is unconnected or when connected and Enable signal is TRUE. OUTPUTS: Output Signal: Data type. The Delta icon updates its output data when the updated input has changed[...]

  • Seite 212

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-50 AVERAGE F UNCTION I CON FUNCTION: Averages data passing through the icon. The Average icon will accumulate a User specified number of input samples, then calculate and output the average. The Average icon can be used in either of two different modes: Conventional , or Sli[...]

  • Seite 213

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-51 INPUTS: Data/Logic Signal: Data type. Update Clock: None Enable: Processing of icon is allowed when Enable pin is unconnected or when connected and Enable signal is TRUE. OUTPUTS: Output Signal: Data type. The Average icon updates its output after receiving and averaging the Use[...]

  • Seite 214

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-52 Clear Sample Count and Average upon Enable: Check this box to force a reset of the Average calculation as well as the Sample count used used for the calculation upon receipt of an Enable signal. If this box is not checked, upon receipt of an Enable signal, the Average cal[...]

  • Seite 215

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-53 MINIMUM F UNCTION I CON FUNCTION: Detects the minimum data value passing through the icon. The Minimum icon will accumulate a User specified number of input samples, then calculate and output the minimum value received. For example, if a User wants to take temperature readings e[...]

  • Seite 216

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-54 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will sh ow directly under the icon within the Program Net. Input Name: In this box, HyperNet displays the Output Name of the icon connected to this icon’s Input. T[...]

  • Seite 217

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-55 MAXIMUM F UNCTION I CON FUNCTION: Detects the maximum data value passing through the icon. The Maximum icon will accumulate a User specified number of input samples, then calculate and output the maximum value of this set of received input values. For example, if a User wants to[...]

  • Seite 218

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-56 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify th e label for the icon. This name will show directly under the icon within the Program Net. Input Name: In this box, HyperNet displays the Output Name of the icon connected to this icon’s Input. T[...]

  • Seite 219

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-57 SUM F UNCTION I CON FUNCTION: Sums the input values received for a User specified number of input updates.The Sum icon will accumulate a User specified number of input samples, then calculate and output the arithmetic sum of this set of received input values. For example, if a U[...]

  • Seite 220

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-58 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Input Name: In this box, HyperNet displays the Output Name of the icon connected to this icon’s Input. Th[...]

  • Seite 221

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-59 DUTY-CYCLE F UNCTION I CON FUNCTION: Calculates the amount of time per a User defined time period, that the input signal is True (on) or False (off). Connected to the LOGIC output of an upstream icon (eg an Event icon) the Duty Cycle icon will determine the accumulated ON or OFF[...]

  • Seite 222

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-60 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Calculate Per Period: Specify whether True (ON) or False (OFF) time per Period is to be accumulated. Units:[...]

  • Seite 223

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-61 T IME I NTEGRATION F UNCTION I CON FUNCTION: Calculates the time integral of data type input over a User defined integration period. The Time Integral icon can only be used with DATA type inputs. NOTE: For LOGIC type input time integration, refer to the Duty-Cycle icon. For exam[...]

  • Seite 224

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-62 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Input Rate Timebase: Units per... Specify the timebase (ie units per second, per minute, etc) for which the[...]

  • Seite 225

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-63 MATH F UNCTION I CON FUNCTION: The Math icon accepts one or two input signals, performs a User defined mathematical calculation, then outputs the result. Equations are entered by the User and optionally saved to a User-Defined math library. A Pre-Defined library of special equat[...]

  • Seite 226

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-64 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label fo r the icon. This name will show directly under the icon within the Program Net. X and Y Input Name: In this box, HyperNet displays the Output Names of the icons connected to this icon’[...]

  • Seite 227

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-65 Absolute Value ABS(Y) Absolute value of Y Natural Log LOG(Y) Natural log of Y Zeroize ZERO(X) Zero if X is negative, X otherwise Log Base 10 LOG10(X) Base 10 log of X Sine SIN(Y) Sine of Y Cosine COS(X) Cosine of X Tangent TAN(Y) Tangent of Y ArcCosine ACOS(X) ArcCosine of X Arc[...]

  • Seite 228

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-66 Y input Updated - The Output is updated only when the Y input is Updated. If a calculation is performed that uses the X input, the last X input value will be used in the calculation and the Output will be updated. Output Format: The User can specify the data format for th[...]

  • Seite 229

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-67 COMPARATOR ( SETPOINT ) F UNCTION I CON FUNCTION: The Comparator icon performs a comparison between its X and Y inputs and Outputs a Logic (True/False) signal depending on the result of the comparison. If the X input is greater than the Y input, the Output is True. If the X inpu[...]

  • Seite 230

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-68 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. X and Y Input Name: In this box, HyperNet displays the Output Names of the icons connected to this icon’s[...]

  • Seite 231

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-69 X input Updated - The Output is updated only when the X input is Updated. If a calculation is performed that uses the Y input, the last Y input value will be used in the calculation and the Output will be updated. Y input Updated - The Output is updated only when the Y input is [...]

  • Seite 232

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-70 CONSTANT F UNCTION I CON FUNCTION: The Constant icon represents a fixed User defined value. A typical application for the Constant is as a threshold for use with the Comparator icon as shown below. In the above net, when the temperature of the engine oil exceeds 130C, the[...]

  • Seite 233

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-71 Units: Provides a text box for User entry of a units labe l that will be shown at the output from this icon.[...]

  • Seite 234

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-72 LATCH F UNCTION I CON FUNCTION: The Output turns ON and stays ON when the Input transitions from OFF to ON. The Latch icon is commonly used in front of an Alarm output icon to force the Alarm to stay ON once it is turned ON (see following Net). INPUTS: Data/Logic Signal: [...]

  • Seite 235

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-73 Output Name: Specify the label for the Output. This name will show directly under the Output terminal within the Program Net.[...]

  • Seite 236

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-74 AND L OGIC F UNCTION I CON FUNCTION: The Output turns TRUE ONLY when both of the Inputs are TRUE. If either or both of the Inputs are FALSE, the Output is FALSE. INPUTS: Data/Logic Signal: Two Logic (TRUE/FALSE) type. Update Clock: None Enable: None OUTPUTS: Output Signal[...]

  • Seite 237

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-75 OR L OGIC F UNCTION I CON FUNCTION: The Output turns TRUE when either of the Inputs are TRUE. If both of the Inputs are OFF, the Output is OFF. INPUTS: Data/Logic Signal: Two Logic (Tr ue/False) type. Update Clock: None Enable: None OUTPUTS: Output Signal: Logic type. ICON CONFI[...]

  • Seite 238

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-76 XOR (E XCLUSIVE OR) L OGIC F UNCTION I CON FUNCTION: The Output turns TRUE when the state of the two Inputs are different, ie ONLY ONE of the Inputs is TRUE. If neither or both of the Inputs are TRUE, the Output is FALSE. INPUTS: Data/Logic Signal: Two Logic (True/False) [...]

  • Seite 239

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-77 NOT (I NVERTER ) L OGIC F UNCTION I CON The NOT icon inverts the signal as it passes through. When the Input isTrue the Output is False. When the Input is False, the Output is True. INPUTS: Data/Logic Signal: Logic (True/False) type. Update Clock: None Enable: None OUTPUTS: Outp[...]

  • Seite 240

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-78 TIMED COUNTER F UNCTION I CON The Timed Counter is a software counter that can be used within a Net for accumulating transitions over a fixed period of time( for example: counting pulses received per hour). In concept, this icon performs a similar function as a hardware c[...]

  • Seite 241

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-79 Count Rising / Falling Edges: The Up Counter increments its accumulated count when its input changes state. The User can use this option to specify whether Rising (False to True) or Falling (True to False) transitions (edges)are to be counted. Output Count upon disable: Check th[...]

  • Seite 242

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-80 UP COUNTER F UNCTION I CON The Up Counter is a software counter that can be used within a Net to count up to a User defined count value, then output the count. After outputting the count, the Up Counter clears the counter and starts counting up again. An example applicati[...]

  • Seite 243

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-81 CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Input Name: In this box, HyperNet displays the Output Name of the icon connected to this icon’s Input. The Output Name can be changed in the ot[...]

  • Seite 244

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-82 SAMPLE RATE CLOCK F UNCTION I CON The Sample Rate Clock icon generates the Update signal/command used throughout Nets to set Sampling Rates of the different input type icons. (The icon derives its clock rate from a OMP-MODL internal clock.) When the Sample Rate Clock gene[...]

  • Seite 245

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-83 NOTE: The link (connection to the Alternate Rate Input on the Sample Rate Clock is unique in that it feeds back from an Output terminal to an Input terminal that is to the left on the screen. This is the only link that can be connected this way. To make the connection, drag the [...]

  • Seite 246

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-84 holds for both Rotary and Log to Full Memory modes. This 2 week limit is due to a maximum time count that the OMP-MODL can internally store at the faster clock rate. For sessions longer than 2 weeks, utilize the SECOND mode. Refer to Global icon listing for additional inf[...]

  • Seite 247

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-85 WARM-UP F UNCTION I CON The Warm-up icon is is a special two Output terminal icon. It immediately outputs a logic signal on one terminal upon receipt of an Update signal, then after a User programmed delay, passes the Update signal to its second Output. The typical application f[...]

  • Seite 248

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-86 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. WarmUp Time A text box is provided for User specification of the desired warmup time delay between the Logi[...]

  • Seite 249

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-87 START/STOP CLOCK F UNCTION I CON The Start/Stop Clock icon generates a Logic output that is a function of a User defined time. Two different modes of operation are available, Absolute Start/Stop and Delayed Start/Stop. Absolute Start/Stop Mode: In this mode, the icon output is T[...]

  • Seite 250

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-88 ICON CONFIGURATION DIALOG BOX (ABSOLUTE START/STOP MODE): CONFIGURATION OPTIONS (ABSOLUTE START/STOP MODE): Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Absolute Start / Stop or Delayed Start Mode: Specifie[...]

  • Seite 251

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-89 ICON CONFIGURATION DIALOG BOX (DELAYED START/STOP MODE): CONFIGURATION OPTIONS (ABSOLUTE START/STOP MODE): Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Absolute Start / Stop or Delayed Start Mode: Specifies the mo[...]

  • Seite 252

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-90 P ERIODIC O UTPUT F UNCTION I CON FUNCTION: The Periodic Output Icon generates a Square Wave/Pulse output based upon time values entered by the user in the configuration dialog box. When the icon’s Enable pin goes HI, the output remains LOW for a specified period. The o[...]

  • Seite 253

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-91 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Reset Upon Enable/Suspend While Enabled: Specifies the mode of operation.. Delay to Initial Turn-On: Amount of tim[...]

  • Seite 254

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-92 STOP LOGGING F UNCTION I CON When the Stop Logging icon receives a Logic True input, it stops the OMP-MODL execution of the Program Net. The function is the same as if the front panel STOP button were pressed. In the following example Net, if the flow ever drops to less t[...]

  • Seite 255

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-93 WARNING F UNCTION I CON The Warning icon outputs a True Logic signal while any of five User selected system conditions are true. Multiple Warning icons can be used in a Program Net to initiate alarming or other action upon different conditions. The following example illustrates [...]

  • Seite 256

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-94 CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Output is True when: Check boxes are provided for User selection of up to five conditions, any of which will cause the icon Output to go T[...]

  • Seite 257

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-95 GLOBAL F UNCTION I CON The Global icon provides for User specification of various OMP-MODL system settings that may be used during the execution of a Program Net. No Input or Output terminals are available on the icon. INPUTS: Data/Logic Signal: None. Enable: None. Icon is alway[...]

  • Seite 258

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-96 Memory: Three selections are available for utilization of the OMP-MODL memory: Log to Full Memory and STOP Processing - if selected, the OMP-MODL will log data until memory is filled, then stop execution of the Program Net and go into a low power sleep mode. NOTE: If MILL[...]

  • Seite 259

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-97 CJC - a Cold Junction Compensation sensor is mounted near the terminal strip header on the inside of the MLAD-1.. The temperature it measures at the terminal strip is used during thermocouple millivolt to temperature conversions (MLIM-1). This CJC Recalibration Period specifies [...]

  • Seite 260

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-98 H ISTOGRAM F UNCTION I CON FUNCTION: The Histogram icon compares its input value with a user specified range. If the input value falls within the range, its internal counter is incremented. When a user specified number of inputs have been compared, the icon outputs its co[...]

  • Seite 261

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-99 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Input Name: In this box, HyperNet displays the Output Name of the icon connected to this icon’s input. The Outpu[...]

  • Seite 262

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-100 R EMOTE C ONTROL F UNCTION I CON FUNCTION: The Remote Control icon has a logic output that can be controlled real-time by the user. This output can be connected to the logic input of any other icon. INPUTS: Update Clock: Output is updated to the last user selected state [...]

  • Seite 263

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-101 Remote Control icons can be accessed from the HyperTrack Real Time Display window. The button used to monitor/change the states of Remote Control icons is shown above. Clicking this button will cause HyperWare to query the logger for the names and corresponding states of its Re[...]

  • Seite 264

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-102 ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Icon Name: Specify the label for the icon. This name will show directly under the icon within the Program Net. Initial State: This is the state of the icon’s output uon enabling[...]

  • Seite 265

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-103 HAP F UNCTION I CON FUNCTION: The HAP icon is used in conjunction with the Omega Engineering HyperWare Automation Program (HAP) application. Hap is a stand-alone application separate from HyperWare, that automates most of HyperWare’s communication functions. .. When the HAP i[...]

  • Seite 266

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-104 Modem/RS-232: Specifies the type of communication Phone Number: This is the phone number that will be called if telephone modem communication is selected. Retries: If a call is unsuccessful, the dialing sequence will be repeated the specified number of times. Retry Delay[...]

  • Seite 267

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-105 T EXT N OTE I CON FUNCTION: The Text Note icon provides a means to add user comments to a specific portion of a net program. The Text Note icon is located at the right-hand end of the sipnnable toolbar as depicted below. The Text Note is not the same as other icons in that it d[...]

  • Seite 268

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-106 INPUTS: None OUTPUTS: None . ICON CONFIGURATION DIALOG BOX: CONFIGURATION OPTIONS: Lines 1,2 & 3: Simply enter the text that is to be displayed into the three boxes.[...]

  • Seite 269

    11.. . A PPENDIX A: M ASTER I CON R EFERENCE U SING THE OMP-MODL 11-107 R ATE OF C HANGE F UNCTION I CON FUNCTION: The Rate of Change icon calculates and outputs the rate of change of a signal for a user specified number of samples. A “sliding” calculation is performed each time the input is updated. For example, if the user-entered number of s[...]

  • Seite 270

    11.. . A PPENDIX A: M ASTER I CON F ILE R EFERENCE U SING T HE OMP-MODL 11-108[...]

  • Seite 271

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING THE OMP-MODL 11-109 A PPENDIX B: E XAMPLE P ROGRAM N ETS Following are some example Program Nets with descriptions of their operation. Engine Oil Cooler Performance Test: Two thermocouples are configured to sample inlet and outlet oil temperatures every 30 seconds on a heat exchanger. Logging o[...]

  • Seite 272

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING T HE OMP-MODL 11-110 Hydraulic Pump Performance Test The above Net is designed for collecting data from a hydraulic pump on a vehicle during periods of high fluid temperature operation only. Two thermocouple channels and a continually powered pressure transducer are sources of input signals. Af[...]

  • Seite 273

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING THE OMP-MODL 11-111 Tank Level / Inventory Profiling Data Collection with Alarming: A remote site liquid tank has a constantly varying inventory as liquid is added and removed over time. Profiling of the inventory over time, onsite display of the inventory amount, and overflow telephone pager a[...]

  • Seite 274

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING T HE OMP-MODL 11-112 High Speed Thermocouple Application: In some applications, maximum speed of thermocouple measurement is desired. The Thermocouple icon is one of the slowest to process in a Program Net due to the intensive math associated with each sample. A Cold Junction Compensation readi[...]

  • Seite 275

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING THE OMP-MODL 11-113 This Post-Processing Net combines the voltage data from the thermocouple input channels and the CJC readings (in ohms) to calculate the actual temperature of each of the three thermocouple channels and store the data in a new destination file called BRAKETST.HLD. This specia[...]

  • Seite 276

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING T HE OMP-MODL 11-114 NOTES:[...]

  • Seite 277

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING THE OMP-MODL 11-115 A PPENDIX C: H YPER W ARE F ILE L ISTING During the installation of the HyperWare package, the following files and directories are created on the PC hard disk. The file listing uses the default sub-directory names offered during the installation process. If different names w[...]

  • Seite 278

    11.. . A PPENDIX C: H YPER W ARE F ILE L ISTING U SING T HE OMP-MODL 11-116 NOTES:[...]

  • Seite 279

    [...]

  • Seite 280

    11.. . A PPENDIX E: C HANGING THE OMP-MODL E PROM U SING T HE OMP-MODL 11-118 A PPENDIX D: C HANGING THE C LOCK / M EMORY B ACKUP B ATTERY The OMP-MODL internal memory and real-time clock are powered from a Panasonic BR2325 (or equivalent) lithium cell when the OMP-MODL Main Power switch is OFF. The cell is mounted in a socket located on the bottom[...]

  • Seite 281

    11.. . A PPENDIX E: C HANGING THE OMP-MODL E PROM U SING THE OMP-MODL 11-119 CAUTION Use care in handling lithium cells. Currently manufactured cells such as the BR2325 are very stable and safe parts, however, DO NOT TEMPT FATE! Do not puncture, short, or dispose of in fire as explosions could occur. CAUTION The exposed MLCPU-1 circuit board is sen[...]

  • Seite 282

    11.. . A PPENDIX E: C HANGING THE OMP-MODL E PROM U SING T HE OMP-MODL 11-120 NOTES:[...]

  • Seite 283

    11.. . A PPENDIX E: C HANGING THE OMP-MODL E PROM U SING THE OMP-MODL 11-121 A PPENDIX E: C HANGING THE OMP-MODL EPROM The EPROM (Erasable /Programmable Read Only Memory) contains the software code which controls the function of the OMP-MODL. Updates to add features and/or improve performance are sometimes performed on the OMP-MODL by changing the [...]

  • Seite 284

    11.. . A PPENDIX E: C HANGING THE OMP-MODL E PROM U SING T HE OMP-MODL 11-122 5. Gently pry the EPROM to be replaced out of its socket with a small screwdriver or other instrument. Pry at one end then the other until the EPROM is free from its socket. Use care so that surrounding circuitry is not damaged. 6. The EPROM has a small notch on one end o[...]

  • Seite 285

    11.. . A PPENDIX F: F ILTERING O PTIONS U SING THE OMP-MODL 11-123 A PPENDIX F: F ILTERING O PTIONS Many of the Interface Modules can be configured with filtering options for reducing the noise picked up on sensor or input signal wiring. A short discussion of two of the filtering methods that are available to the User through icon configuration dia[...]

  • Seite 286

    11.. . A PPENDIX F: F ILTERING O PTIONS U SING T HE OMP-MODL 11-124 The above plot demonstrates the performance of the 50Hz software filtering. The plot is from actual data collected by a OMP-MODL (which utilizes the same digital signal processing) during the development and testing of the software filtering feature. A 5Vp-p AC swept frequency was [...]

  • Seite 287

    11.. . A PPENDIX G: H YPER N ET T HEORY OF O PERATION U SING THE OMP-MODL 11-125 A PPENDIX G: H YPER N ET T HEORY OF O PERATION A Program Net is a graphical representation of a sequence of commands. In the process of transferring the Program Net to the OMP-MODL, the Program Net is converted over to a sequence of commands. When Enabled, the OMP-MODL[...]

  • Seite 288

    11.. . A PPENDIX G: H YPER N ET T HEORY OF O PERATION U SING T HE OMP-MODL 11-126 NOTES:[...]

  • Seite 289

    11.. . A PPENDIX H: A CCESSORIES U SING THE OMP-MODL 11-127 A PPENDIX H: A CCESSORIES Accessory items for the OMP-MODL portable data logging system include: ♦ Interface Modules - the OMP-MODL family of products is continuing to expand with powerful plug-moodules and accessories ♦ Photovoltaic Power Generation Systems - for long term unattended [...]

  • Seite 290

    11.. . A PPENDIX I: RS-232 C ABLE , P ORT AND A DAPTER U SING T HE OMP-MODL 11-128 NOTES:[...]

  • Seite 291

    11.. . A PPENDIX I: RS-232 C ABLE , P ORT AND A DAPTER U SING THE OMP-MODL 11-129 A PPENDIX I: RS-232 C ABLE , P ORT , A DAPTER PIN Description 1 +5VDC (current limited source from OMP-MODL) 2 Ground 3 Transmit (OMP-MODL output) 4 Receive (OMP-MODL input) 5 Not Used 6 DTR ( OMP-MODL input; computer asserts HI to wake up the OMP-MODL serial port) 2 [...]

  • Seite 292

    11.. . A PPENDIX I: RS-232 C ABLE , P ORT AND A DAPTER U SING T HE OMP-MODL 11-130 RS-232 Port on Logger 6 Conductor Phone Cable RJ-12 (shown with contacts facing UP) ML119b 6 5 4 3 2 1 1 2 3 4 5 6 1 2 3 4 5 6[...]

  • Seite 293

    11.. . A PPENDIX J: T ROUBLESHOOTING T IPS U SING THE OMP-MODL 11-131 A PPENDIX J: T ROUBLESHOOTING T IPS Refer to any README.TXT files that may be provided in the HyperWare software directory after installation for additional comments and troubleshooting tips. TROUBLESHOOTING PROGRAM NETS: Probe Point Diagnostics : If operation of a Program Net is[...]

  • Seite 294

    11.. . A PPENDIX J: T ROUBLESHOOTING T IPS U SING T HE OMP-MODL 11-132 of the Relay switches in the TEST position while observing the voltage. New batteries will read approximately 9 VDC and batteries below apx 7 volts are essentially dead. OR... apply an external supply to the EXT power terminals on the MLCPU-1 module. The OMP-MODL may have a corr[...]

  • Seite 295

    11.. . A PPENDIX K: M ODEM C ONFIGURATION U SING THE OMP-MODL 11-133 A PPENDIX K: M ODEM C ONFIGURATION S UPPLEMENT As modem initialization is never as easy as it should be, this appendix was written to provide additional assistance in the configuration of modems for communication between the PC (equipped with the LOCAL modem) and the OMP-MODL (equ[...]

  • Seite 296

    11.. . A PPENDIX K: M ODEM C ONFIGURATION U SING T HE OMP-MODL 11-134 2400 Baud modems so no additional settings are required to configure those features in the Initialization String box). Local 14.4 to Remote 2400 Within the HyperWare Modem Communication Dialog Box, set: Baud Rate: 2400 Initialization String: Set to disable Error Correction, disab[...]

  • Seite 297

    11.. . A PPENDIX K: M ODEM C ONFIGURATION U SING THE OMP-MODL 11-135[...]