9300 Series Power Meter User’s Guide
DANGER ElectricaI equipment contains hazardous voltages and high speed moving parts. Can cause death, serious injury or property damage. See safety instruction contained herein. Restrict use to qualified personnel. The use of unauthorized parts in the repair of the equipment or tampering by unqualified personnel will result in dangerous conditions that can cause death, serious injury or property damage.
Notices Danger This symbol indicates the presence of dangerous voltage within and outside the product enclosure that may constitute a risk of electric shock, serious injury or death to persons if proper precautions are not followed. Caution This symbol alerts the user to the presence of hazards that may cause minor or moderate injury to persons, damage to property or damage to the device itself, if proper precautions are not followed.
CAUTION Observe the following instructions, or permanent damage to the meter may occur. The 9300 Series meter offers a range of hardware options that affect input ratings. The 9300 Series meter’s serial number label lists all equipped options. Applying current levels incompatible with the current inputs will permanently damage the meter. This document provides installation instructions applicable to each hardware option.
Contents Chapter 1 Introduction 9300 Series Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 The ACCESS Meter in an Enterprise Energy Management System . . . . . . . . 14 Data Display and Analysis Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Communications Protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Digital and Analog I/O Options . . . . . . . . . . . . . . . . .
Meter Clock Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Display Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Demand Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Factory Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Telnet and Hyperterminal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 118 Digital and Analog I/O . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 Specifying a Port In an ION Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 Using the Onboard Digital Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 121 Using the Onboard Digital Inputs . . . . . . . . . . . . . . . . . . .
COM 2 Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . COM 3 Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Ethernet Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Profibus Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 Introduction The 9300 Series intelligent metering and control devices are typically used in enterprise energy management systems such as feeder monitoring and submetering, and offer unmatched value, functionality, and ease of use. These meters interface to WinPM.Net software or other automation systems for fast information sharing and analysis.
9300 Series Meters 9300 Series User’s Guide 9300 Series Meters The 9300 Series meters are intelligent metering and control devices suited to a wide range of applications. The meters can be used as stand-alone devices, but their extensive capabilities are fully realized when used as part of an enterprise energy management (EEM) system.
9300 Series User’s Guide 9300 Series Meters WinPM.Net™ is a powerful web-ready software suite that can process, analyze, store, and share information from across your entire organization. Its compatibility and flexibility means you can introduce individual components, at a pace you decide, while maintaining your original investments. You can access information and alarms from any workstation, pager, PDA, or cell phone locally or around the world, in the format you require.
The ACCESS Meter in an Enterprise Energy Management System 9300 Series User’s Guide The ACCESS Meter in an Enterprise Energy Management System Applications that include the meter typically require additional equipment. Display and analysis software tools are almost always used to manage, interpret and distribute the data measured or logged by a meter. There are usually a variety of tools used, and often these tools are connected using different communications standards and protocols.
9300 Series User’s Guide Data Display and Analysis Tools The Front Panel Local monitoring and standalone applications are facilitated by the meter’s front panel interface. The front panel combines real-time display features as well as device configuration functions. The Remote Modular Display The Remote Modular Display (RMD) can be added to an existing 9300 SeriesTRAN (Transducer) model to facilitate local monitoring and standalone applications.
Communications Protocols 9300 Series User’s Guide WinPM.Net also offers two ways to remotely view information through a web browser: WebReach and Microsoft Terminal Services. WebReach only requires an URL to display a meter’s real-time data and select views of historical and waveform data from a web browser; there is no client machine configuration. WebReach is a data display application; there is no control functionality available through it. Microsoft Terminal Services enable full WinPM.
9300 Series User’s Guide The Meter is Factory-Configured and Ready to Operate Digital Outputs All 9300 Series meters have four programmable digital output ports. These are suitable for pulsing or controlling relays. The Infrared Data Port and/or a rear panel LED can also be used for energy pulsing. Status Inputs Four optically isolated digital inputs on the 9330 and 9350 meters can monitor status, count transducer pulses, breaker trips and pulses from any external “volts free” dry contact.
Meter Firmware Revision History 9300 Series User’s Guide Meter Firmware Revision History 9300 Models Firmware Version Release Date Firmware Enhancements V250 June 2000 Rev B Hardware Initial Release Improved communications performance Four Calibration Pulsers added Harmonic update times improved V265 March 2001 Analog I/O supported New Calibration procedure V271 July 2002 Adds Web Server capabilities when combined with ETH73V272 firmware 9330 Models Firmware Version Release Date Firmware Enh
9300 Series User’s Guide Ethernet Card Firmware Revision History Ethernet Card Firmware Revision History Firmware Version Release Date Firmware Enhancements V102 June 2000 Maintenance release (support for Rev B hardware) V270 September 2001 MeterM@il support added (with 9330V270 firmware) Modbus TCP support added V272 July 2002 Adds Web Server capabilities when combined with 9300 Series V271 firmware, MeterM@il (data logs) for the 9330 and 9350, and alerts for the 9350 Chapter 1 - Introduction
Using this Guide 9300 Series User’s Guide Using this Guide This User’s Guide is directed at three types of user: the typical user or operator, the system administrator, and the advanced user. You might not fit into any of these groups directly, or perhaps you are both an operator and an administrator. These classifications are intended to make this guide easier to navigate with respect to which information is appropriate to your needs.
9300 Series User’s Guide Getting More Information WinPM.Net Getting Started Guide This guide explains the installation and configuration of the WinPM.Net software suite. Online WinPM.Net Help Each WinPM.Net software component has an in-depth online help system. Application Notes Online application notes offer detailed, high-level descriptions of real-world situations, where Siemens’s ACCESS devices and ACCESS software provide beneficial solutions.
Getting More Information Page 22 9300 Series User’s Guide Chapter 1 - Introduction
2 Using The Front Panel The meter’s front panel is used for both display and configuration purposes. The liquid crystal display (LCD) screen and the numerous selection, navigation, and configuration buttons allow quick access to basic meter configuration provided by special setup screens. The front panel also provides access to the settings of many other meter functions, such as customizing the type of data the meter displays. In This Chapter Displaying Data with the Front Panel . . . . . . . . . . . . .
Displaying Data with the Front Panel 9300 Series User’s Guide Displaying Data with the Front Panel The front panel provides a detailed graphics and text display for the meter. The front panel is configured at the factory with eight displays showing some of the more commonly used power system values measured by the device (refer to “Default Front Panel Display Screens”). A Remote Modular Display (RMD) can be added to an existing TRAN meter to provide a front panel display. Measurements are displayed here.
9300 Series User’s Guide Default Front Panel Display Screens Numeric values are displayed in base units; voltages are displayed in volts, while current is displayed in amps. The following values, however, are displayed in kilo units rather than base units since kilo is the most frequently used value range: kW kVA kVAR When viewing these parameters with the front panel, remember that the values are already multiplied by 1000. For example, the reading below indicates 120,000 kilowatts, not 120,000 watts.
Default Front Panel Display Screens 9300 Series User’s Guide Display 4 (Amps) Display 8 (I-THD) Per-phase and average current Per-phase Current Total Harmonic Distortion NOTE Your default data display screens will differ if the meter is in Fixed mode (refer to “Display Mode” on page 34), or if your meter has custom displays.
9300 Series User’s Guide Configuring the Meter with the Front Panel Configuring the Meter with the Front Panel The front panel provides meter setup capability at the meter’s installed location. All of the meter’s setup registers can be configured moving through menus on the front panel’s screen (ION module links cannot be modified using the front panel). The front panel also provides quick access to parameter reset for common cumulative parameters.
Clear Functions Menu 9300 Series User’s Guide Editing Registers To edit the value of a register, navigate the registers using the arrow keys until the register you want is highlighted, then press the round button. The register appears in one of two ways: as a number, or as an option selected from a menu. Once you have entered the password (if required), a YES or NO verification screen appears showing the new value of the register.
9300 Series User’s Guide Clear Functions Menu Sliding Window Demand Reset These Sliding Window Demand values are reset when SWDEMAND RSET is selected: Average Current (I avg) SWD kW SWD kVAR SWD kVA SWD Thermal Demand Reset The following Thermal Demand parameters are reset when TDEMAND RSET is selected: Average Current TD kW TD kVAR TD kVA TD Manual Waveform Trigger Select this menu item to capture your per-phase current and voltage waveforms.
Quick Setup Menu 9300 Series User’s Guide Quick Setup Menu Select QUICK SETUP from the Setup menu to access to the Power Meter module and the Communications module settings. These settings are all configured when the meter is initially put into service — typically you will not need to change these settings once the meter is operational.
9300 Series User’s Guide Quick Setup Menu Ethernet Menu The Ethernet module controls the meter’s optional 10Base-T port. Configuring the Ethernet module registers incorrectly can cause network disruptions.
Advanced Meter Setup Menu 9300 Series User’s Guide The remaining Power Meter module setup options and their default values are given in the online ION Programmer’s Reference. In most cases you can leave them at their default settings and the meter will function properly. Sag/Swell Module Settings (9350) You must set the Sag/Swell module’s Nom Volts setup register to a voltage that represents the nominal voltage for your power system (for example, 120).
9300 Series User’s Guide Display Setup Menu Display Setup Menu When you select DISPLAY SETUP from the Setup menu, you get these settings: Display Setup Option Default Description AutoScroll 0 s (Disabled) Time between automatic display screen advance. Contrast mid The display screen’s contrast level. Backlight Time 1800 seconds Time before display screen backlight automatically turns off. Update Rate 4s Period between data display refreshes.
Screen Setup Menu 9300 Series User’s Guide Display Mode There are two display modes: PROGRAMMABLE MODE and FIXED MODE. The default is programmable mode, which provides eight data display screens which can be configured to meet your requirements (see “Custom Front Panel Displays”). Fixed Mode displays four screens, each with large characters in the display, easily visible from a distance. The four fixed mode screens display Average Volts, Average Amps, kW total, and PF total.
9300 Series User’s Guide Nameplate Info Menu Nameplate Info Menu Select NAMEPLATE INFO to display information about the various options of the device, such as: manufacturer approvals meter type and class serial number service type accuracy rating voltage and current input ratings acceptable operating temperature auxiliary power battery life operating frequency configured demand settings transformer ratios three custom text lines written into the meter’s Factory module meter firmware revision
Diagnostic Menu 9300 Series User’s Guide Harmonics Diagnostics Select HARMONICS from the Diagnostics menu to view per-phase voltage and current harmonics to the 31st harmonic. The following is an example of a harmonics display: Press and hold the up and down buttons to move the cursor to the harmonic of interest. The percentage of the fundamental is also displayed.
9300 Series User’s Guide Diagnostic Menu The Ethernet Connection diagnostic screen displays text similar to what you see in the table below - each label appears with a value next to it. The table explains the meaning of each possible value.
Custom Front Panel Displays 9300 Series User’s Guide Custom Front Panel Displays Custom front panel displays can be created showing any data the meter measures or calculates. Each display screen can be configured to display any measurements you require. You can also adjust the size of the characters in each screen so you can easily read the device’s display from farther away. There are only eight display screens available for configuration.
9300 Series User’s Guide Before Customizing the Front Panel Links to a Display module can be made using Designer or the front panel. Each Display module has one setup register, Display Type, which sets the number of parameters that the display screen will show.
Before Customizing the Front Panel Page 40 9300 Series User’s Guide Chapter 2 - Using The Front Panel
3 Default Meter Functionality The information provided in this chapter corresponds to factory-configured ACCESS devices. If you have a custom framework, some of the default settings may differ for your configuration. In This Chapter Default Meter Functionality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Basic Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Communications Setup . . . . . . . . . . .
Default Meter Functionality 9300 Series User’s Guide Default Meter Functionality To learn more about the ION modules in your meter, refer to the ION Device Templates at www.pwrm.com. ION Device Templates list all of the ION modules available in the current version of your meter, and the total number of each module. ION Device Templates also show the ranges or options available for each module’s setup registers. Basic Setup Basic configuration of the meter is provided by the Power Meter module.
9300 Series User’s Guide Communications Setup Communications Setup Communication settings are typically configured when the ACCESS meter is initially put into service. Each communications port on a meter is controlled by a single Communications module. The modules’ setup registers define the parameters used for each port, so parameters do vary according to the type of communications channel selected (i.e. RS-232, RS-485, Modem, Infrared, Ethernet).
Power Quality Setup (9350) 9300 Series User’s Guide 3 MeterM@il settings for 9330 and 9350 meters. Modem Initialization String The setup register labeled ModemInit is available for 9330 and 9350 meters with internal modems, and defines the initialization string for the internal modem (by default, the modem is factory configured to answer on one ring). You should not require changes to the ModemInit string for normal operation.
9300 Series User’s Guide Data Logging Setup Sag/Swell Module Settings Setup Register Function Default Swell Lim The magnitude above which a voltage deviation is considered a swell 106 Sag Lim The magnitude below which a voltage deviation is considered a sag 88 Nom Volts The nominal power system voltage 01 EvPriority The priority assigned to Sag/Swell module events (0 to 255; 255 is highest) 200 1 The primary power system voltage is sometimes different than the PT Primary setup register val
Data Logging Setup 9300 Series User’s Guide Procedures for changing the logging depth and the frequency of logging are discussed in the following sections: “Changing the Frequency of Logging” on page 47 and “Changing the Log Depths” on page 47. Default Logging Configuration The standard configuration of the meter includes data recorders that log various power system data such as energy and demand, or the average power system quantity used over a period of time (Historic Mean Log).
9300 Series User’s Guide Data Logging Setup Sag/Swell Logging (9350 only) The meter logs the following output register values: Sag/Swell Log SS1 DistDur SS1 DistV1Min SS1 DistV1Max SS1 DistV2Min SS1 DistV2Max SS1 DistV3Min SS1 DistV3Max SS1 DistNominal Changing the Frequency of Logging The two Periodic Timer modules that control the frequency of different data recording are as follows: “EgyDmd Log” Trg controls the frequency of logging for the Energy and Demand Log (this log is used for generating
Setpoint Configuration (9330 and 9350) 9300 Series User’s Guide Setpoint Configuration (9330 and 9350) Setpoints provide extensive control, secondary protection and analysis capabilities by allowing you to initiate an action in response to a specific condition. Some possible applications for the Setpoint module include: demand control, power quality monitoring, fault detection, activating alarms, and gated logging functions.
9300 Series User’s Guide Meter Clock Configuration Fine Tuning Over Condition Monitoring If you want to fine-tune over condition monitoring, the only setup registers you should change are SusUntlON and SusUntlOFF. SusUntlON determines how long the modules wait after an over condition is detected before reporting it. This gives the monitored value a short period to correct itself before the event is registered with the module, so that very brief over conditions are ignored.
Display Configuration 9300 Series User’s Guide Display Configuration The meter’s front panel display is controlled by two types of ION modules: the Display Options module and Display modules. Display modules determine the form and content of each display screen, and the Display Options module controls options such as decimal format, daylight savings time display, and backlight timeout. There are eight display screens which are all factory-configured.
9300 Series User’s Guide Display Configuration Display Module Settings The Display module’s setup registers determine the format that the Source data will take on the front panel display. Depending on the display screen type, you can use up to four Source links to a single Display module.
Demand Setup 9300 Series User’s Guide Demand Setup The demand modules (both Thermal Demand modules and Sliding Window Demand modules) are configured to calculate the average current demand and kW, kVAR and kVA demand. The setup registers in the demand modules define time intervals for demand calculations, setting the sensitivity of the module’s operation. Sliding Window Demand Module Settings Sliding Window Demand is often referred to as Rolling Block Demand.
9300 Series User’s Guide Factory Information Factory Information The Factory module displays firmware version, serial number and other device information in read-only setup registers (read-only registers can be viewed but not changed).
Third Party Protocols 9300 Series User’s Guide Third Party Protocols Modbus and DNP modules are factory configured and do not require basic configuration changes. Changing the factory configuration is an advanced setup procedure that requires an understanding of the protocol, as well as an understanding of the meter’s internal operation. Refer to the technical notes DNP 3.0 and ION Technology and Modbus and ION Technology for the appropriate list of protocol parameters available.
9300 Series User’s Guide Using the Modbus RTU Protocol Factory Modbus Configuration for the 9300 Series Meter The 9300 Series meter makes data available to Modbus devices using four Modbus Slave modules. These modules are linked to other modules in the meter that provide energy, power and demand data. Once a communications channel is configured to use Modbus RTU protocol (refer to “Communications Setup” in Chapter 3), the data is available to Modbus Master devices.
Using the Modbus RTU Protocol 9300 Series User’s Guide Modbus Slave Module #1 Modbus Slave Module #2 Setup Register Setting Setup Register Setting Format unsigned 16-bit Format signed 32-bit Base Address 40011 Base Address 40027 Scaling YES Scaling YES In Zero 0 In Zero -214748364 In Full 6553 In Full 214748364 Out Zero 0 Out Zero -2147483640 Out Full 65530 Out Full 2147483640 Modbus Slave Module #3 Modbus Slave Module #4 Setup Register Setting Setup Register Setting
9300 Series User’s Guide Using the Modbus RTU Protocol Measurement Label Source ION Module Modbus Module and Input Number Modbus Register Average L-L Voltage Vll avg Power Meter Modbus Slave #1 – Source Input #8 40018 Phase A Current Ia Power Meter Modbus Slave #1 – Source Input #9 40019 Phase B Current Ib Power Meter Modbus Slave #1 – Source Input #10 40020 Phase C Current Ic Power Meter Modbus Slave #1 – Source Input #11 40021 Average Current I avg Power Meter Modbus Slave #1
Using the Modbus RTU Protocol 9300 Series User’s Guide Measurement Label Source ION Module Modbus Module and Input Number Modbus Register Max kVAR Th Dmd kVAR td mx Maximum Modbus Slave #3 – Source Input #5 40067-40068 Max kVA Th Dmd kVA td mx Maximum Modbus Slave #3 – Source Input #6 40069-40070 Max Avg L-N Voltage Vln avg mx Maximum Modbus Slave #3 – Source Input #7 40071-40072 Max Average Current I avg mx Maximum Modbus Slave #3 – Source Input #8 40073-40074 Maximum Total kW k
9300 Series User’s Guide Using the Modbus/TCP Protocol You can use the Modbus RTU protocol to write values into ION external numeric, pulse and Boolean modules, allowing you to enable, disable and reset meter functions. You can also use Modbus to change setup register values in various ION modules to configure the meter’s operation.
Using the DNP 3.0 Protocol 9300 Series User’s Guide Using the DNP 3.0 Protocol The Distributed Network Protocol Version 3.00 (DNP 3.0) is an open protocol used in the electric utility industry for communications and interoperability among substation computers, RTUs, IEDs, and Master Stations. The 9300 can be integrated into a DNP network using the DNP Slave Import, Export and Options modules. NOTE Complete DNP documentation is available through the DNP User’s Group (on the web at www.dnp.org).
9300 Series User’s Guide Using the DNP 3.0 Protocol If your DNP network requires data in a format different than that provided by the factory DNP configuration, you can edit the setup registers in the DNP Slave Export modules and the DNP Options module. Do not make any changes to the DNP Options module’s setup registers unless you understand the effects each change will cause. Refer to the ION Programmer’s Reference for complete details on DNP Slave Export and DNP Slave Options module function. As DNP 3.
Using the DNP 3.0 Protocol 9300 Series User’s Guide DNP Options Module Settings The DNP Options module provides global settings that affect all DNP Slave Export and DNP Slave Import modules. The default settings in this module are shown in the following table.
9300 Series User’s Guide Using the Profibus Protocol Using the Profibus Protocol Those 9300 meters ordered with the optional Profibus port are suitable to provide many real-time power system measurements to a Profibus network. Profibus Master devices connected to the 9300-Profibus can access this data. Refer to the 9300 & 9330 Profibus Protocol Document for complete details on the Profibus implementation in the 9300.
Using the Profibus Protocol 9300 Series User’s Guide Profibus Slave Export Module 1 (Scaling x10) Profibus Slave Export Module 2 (Scaling x10) Source ION Module Measurement ION Label Source ION Module Measurement ION Label Power Meter Volts line to neutral A Vln a Power Meter Volts line to line AB Vll ab Power Meter Volts line to neutral B Vln b Power Meter Volts line to line BC Vll bc Power Meter Volts line to neutral C Vln c Power Meter Volts line to line CA Vll ca Power Meter
9300 Series User’s Guide Using the Profibus Protocol Profibus Slave Export Module 9 (No Scaling) Profibus Slave Export Module 10 (No Scaling) Source ION Module Measurement ION Label Source ION Module Measurement ION Label Integrator #3 kW hour Total kWh tot Integrator #1 kW hour Import kWh imp Integrator #7 kVAR hour Total kVARh tot Integrator #2 kW hour Export kWh exp Integrator #9 kVA hour kVAh tot Integrator #4 kW hour Net kWh net --- Not used --- Integrator #5 kVAR hour I
Restoring the Factory Configuration 9300 Series User’s Guide Restoring the Factory Configuration If you have made changes to the default functionality and want to return to the factory configuration, you can e-initialize the factory configuration in the meter through Designer. The basic setup of the device can be retained, so the meter does not need to be taken out of service for a long period of time. NOTE If you restore the factory configuration, all custom features you created are lost.
9300 Series User’s Guide Restoring the Factory Configuration 10. Click the Power Meter shortcut in the Basic Configuration area to select it. Once selected, click Reset in the Designer toolbar, or select Reset from the Edit menu. This reverts the Power Meter to the settings it had before you deleted any modules (retaining the basic setup you previously had). 11. Choose Send & Save from the File menu. The factory configuration is now restored (any custom functionality you created is removed).
Restoring the Factory Configuration Page 68 9300 Series User’s Guide Chapter 3 - Default Meter Functionality
4 Using ACCESS Software ACCESS software encompasses a variety of programs that enhance the functionality and usability of your ACCESS devices. ACCESS software can collect data via serial, wireless, modem, or Ethernet links, so you can manage a single site or global network of devices. WinPM.Net is a software suit with applications for displaying data, configuring ACCESS meters, and much more. ION Setup is a stand-alone program that greatly simplifies meter configuration.
WinPM.Net Software 9300 Series User’s Guide WinPM.Net Software WinPM.Net software offers control capabilities and comprehensive power quality and reliability analysis. It is a powerful software suite that can process, analyze, store, and share data across your entire enterprise. The fully networked clientserver information system allows you to access data from any workstation, locally or around the world, in the format you need. With WinPM.
9300 Series User’s Guide WinPM.Net: Management Console WinPM.Net: Management Console The Management Console is responsible for building your network. You build your power-monitoring network to reflect the way your physical communications network is wired so that WinPM.Net software can communicate with your devices. The network is created using servers, sites, devices, and modems. These network components must be configured in the Management Console before you can use the other WinPM.Net applications.
WinPM.Net: Management Console 9300 Series User’s Guide Sites A site in an WinPM.Net system contains one or more intelligent devices that share a common communications link. There are three different types of sites, based on the type of communications medium each uses.
9300 Series User’s Guide Configuring Communications Configuring Communications Before you can talk to the devices on your network, you need to configure communications within the Management Console. Essentially, this means adding one or more sites and then adding the devices associated with each site. If you create a modem site, then you also need to add and configure a dialout modem.
Configuring Communications 9300 Series User’s Guide For an Ethernet Gateway Site, you specify the Ethernet device acting as the gateway and the TCP/IP port to which the serial device, or network of serial devices, is connected. Before you can add an Ethernet Gateway Site, an Ethernet Device must be added and configured first. For a Serial Device you provide the device type, the unit ID, and the site to which the meter is connected.
9300 Series User’s Guide WinPM.Net: Vista WinPM.Net: Vista Vista is a display, analysis, and control application. It is the main user interface to the WinPM.Net system. Vista presents a graphical view of your power system, allowing you to view real-time data from power meters or historical data from the WinPM.Net database.
Displaying Data with Vista 9300 Series User’s Guide This opens a new window showing all of the installed meters. Each meter appears with an icon that represents its type and a label reflecting the name you configured in the Management Console. Meter icons (representing configured devices in the Management Console) 3. Click a meter icon to open its main default diagram.
9300 Series User’s Guide Displaying Data with Vista Vista Diagram Elements Each Vista diagram shows the name of the meter, the time on the meter’s clock, and the type of meter. The main diagrams also provide buttons that let you jump to other diagrams. Jump to another diagram by clicking any of the buttons near the top right-hand corner (as illustrated in the Volts/Amps diagram below). Click any of these buttons (grouping objects) to jump to other diagrams.
Displaying Data with Vista 9300 Series User’s Guide Summary of Data Provided in Vista The standard set of Vista diagrams included with WinPM.Net display a variety of data measured by the factory-configured meter. Some of the diagrams include grouping windows that display additional data. The following section summarizes the data, and interactive control functions provided. Real-Time Measurements The Real-Time diagram includes a simple power system illustration that shows various real-time parameters.
9300 Series User’s Guide Displaying Data with Vista The harmonics measurement display shows total harmonic distortion for each phase of voltage and current. Links to harmonics min/max and harmonics trending displays are provided, and a control object is included for enabling/ disabling harmonics logging Voltage Disturbance Counter Reset Level 3 WinPM.Net authority is required to reset the power quality event counter, the manual waveform trigger, and the control objects.
Displaying Data with Vista 9300 Series User’s Guide Energy & Demand Calculations The Energy & Demand diagram shows the real-time sliding window demand for kW, kVA and kVAR, and the real-time energy values kWh net, kVARh net and kVAh. Peak demand is displayed for kW, kVAR and kVA, and a link to a demand profile trend is provided. Control objects for enabling/disabling demand logging and resetting energy and demand values are also included.
9300 Series User’s Guide Customizing the Vista Interface Customizing the Vista Interface Standard Vista diagrams show much of the data that the factory-configured meter measures and calculates. However, the factory-configured meter can provide additional data that is not presented by default with these display tools. This data can be added to the standard Vista diagrams by placing addition diagram objects on them; or, you can create new user diagrams to display any additional data you want.
Customizing the Vista Interface 9300 Series User’s Guide Custom Appearance of a User Diagram You can customize the appearance and configuration of any window within a user diagram. You can alter a window's font or background color, or configure window properties such as background image, real-time and logged data links, doubleclick action, and stale data settings. To make one or more of these changes, right-click anywhere in the background of a user diagram.
9300 Series User’s Guide WinPM.Net: Designer WinPM.Net: Designer Designer is an application for advanced users who know the nature of ION architecture, specifically the nature of frameworks. A framework is a number of ION modules arranged (linked) to perform a specific function or number of functions. Designer allows you to customize current frameworks by adding, deleting, or re-linking ION modules, and it allows you to create entirely new frameworks.
Basics of ION Architecture 9300 Series User’s Guide ION Modules The ION module is the basic building block of the ACCESS device’s operating software. A module can be considered as a “function box”: it receives data from its inputs, makes decisions based on the settings in its setup registers, and then makes data available at its output registers. All functionality provided by an ACCESS device can be considered in terms of its modules and the linkages between them.
9300 Series User’s Guide Basics of ION Architecture Sequence of ION Module Execution ION modules always execute in the order of the data flow (in the example below, from 1 to 4). This logical execution order is maintained even if you created the framework from back to front. 1 1 3 4 2 ION modules may execute simultaneously if they do not depend on each other for data (such as both ION modules labelled 1).
Basics of ION Architecture 9300 Series User’s Guide ION Configuration Changes and Module Security When you make configuration changes to an ACCESS device you are either changing a value in a module’s setup register (basic configuration) or you are changing the linkage between two or more modules (advanced customization).
9300 Series User’s Guide Designer’s Main Configuration Screen Designer’s Main Configuration Screen If the software has been properly configured, the main screen of the meter’s node diagram appears each time that you open a meter in Designer. If the ACCESS software has not yet been configured, refer to the Getting Started Guide, or contact your network administrator.
Viewing Real-time Data in Designer 9300 Series User’s Guide Viewing Real-time Data in Designer You can view the real-time values of output registers in Designer. This is useful when you are linking these outputs to other modules. However, it is recommended that you use Vista as your main data display application. To view real-time data of output registers: 1. Click Options > Show Toolbox on the Designer menu. 2. Find the ION module you want, press the Shift key and click the output register.
9300 Series User’s Guide Changing Setup Registers with Designer To configure ION module setup registers with Designer: 1. Right-click near the module’s center. The ION Module Setup dialog box appears, showing a list of setup registers available for configuration: The list of available Setup registers appears here. Select a Setup register, then click Modify... (or double click on the Setup register name). 2. Highlight the Setup register you want to configure, and click Modify....
Customizing Frameworks in Designer 9300 Series User’s Guide Use the Interval Format area if the setting you are changing requires intervals. Use the Date/Time Format area if the setting you are changing requires specific dates (such as those needed used in the Clock module). Click OK when you have the desired setting for the time interval or date. 3. Click OK when you are satisfied with your configuration changes.
9300 Series User’s Guide Customizing Frameworks in Designer Creating New Modules To add a module, locate its icon in the Designer toolbox, press and hold the left mouse button over the icon, and drag it onto the node diagram. Once you release the mouse button, the module becomes part of the diagram and is ready to be configured and linked. Choosing the Module The Designer toolbox displays icons for all the meter’s available module types.
Customizing Frameworks in Designer 9300 Series User’s Guide You can link modules that reside on different nodes, provided that you are linking between software nodes, or from a meter to a software node. You cannot link modules between meters. The following section describes how to link modules that reside on the same node. Refer to the ION Programmer’s Reference or the online WinPM.Net Help for instructions if you want to link modules that reside on different nodes.
00 Series User’s Guide Customizing Frameworks in Designer The linking procedure described in the preceding steps can also be performed in reverse order. You can select a module’s input first and then link it to another module’s output register. Editing Existing Frameworks If you are comfortable with the ACCESS software and the meter’s configuration, you can make changes to the existing frameworks to customize operation.
WinPM.Net: Reporter 9300 Series User’s Guide WinPM.Net: Reporter Reporter is a database reporting application. It lets you define, generate, and manage comprehensive reports based on the data in your database. Reporter retrieves data from the Relational Database Management System (RDBMS), and processes it into a finished report in Microsoft Excel format. There are a number of pre-configured reports available, including Power Quality, Load Profile, Energy and Demand, and EN50160 reports.
9300 Series User’s Guide Pre-configured Reports Energy and Demand This report is designed to generate and display details about energy consumption and peak demand levels over a given time period. It uses a Time of Use Schedule (TOU) to reference the metered data against an energy provider’s tariff schedule. The first step in creating an Energy and Demand report is to preconfigure the TOU schedule that will be applied to the metered data.
Report Creation and Generation 9300 Series User’s Guide Report Creation and Generation These steps are used for creating all report types. Be sure to know which log(s) you use for the report you are creating. NOTE If you are creating an Energy and Demand report, complete the steps under “Creating a Time of Use Schedule” (following “Creating a Report”) before you procede with creating your report. Creating a Report 1. Start Reporter. 2. Select the report type you want and click Copy.
9300 Series User’s Guide Report Creation and Generation Creating a Time of Use Schedule 1. Start Reporter and select the TOU tab. 2. Select the Sample file, then click copy to duplicate it. All of the pre-configured samples include some basic programing to simplify customization. It is generally best to create a copy of the samples before making changes, and leave the sample in its default state.
ION Setup Software 9300 Series User’s Guide ION Setup Software ION Setup is a software solution that allows basic configuration and control capabilities for your power monitoring devices. ION Setup can also display realtime and diagnostic data for your networked devices. When starting ION Setup, you have the option to enter network mode or single device mode at the logon screen.
9300 Series User’s Guide Configuring Communications Sites, Groups, and Meters You can create a network of items within ION Setup so that the next time you want to upgrade a meter’s firmware or make any configuration changes, the meter is easy to find and your communication setup is ready. Sites refers to a communication method. For example, you need separate sites for Ethernet, Serial or Modem types of communication. A site can have many connected devices.
Configuring Communications 9300 Series User’s Guide 3. Click OK. A dialog box for the appropriate item appears. Depending on the item, there may be multiple tabs each with numerous options for configuration: When you add a new site, the dialog displays three tabs: General, Timings, and Polling. If you are adding a modem or gateway site, there is a fourth tab labelled Remote Info. When you add a new group, the dialog box has only one tab labelled General.
9300 Series User’s Guide Basic Meter Configuration Basic Meter Configuration The Setup Assistant is a user interface that contains relevant instructions to help guide you through common setup requirements for your ACCESS meter. After you have added a device to ION Setup in network mode, or connected using single device mode, the Setup Assistant appears in the right pane. Double-click the Setup Assistant to access the setup dialog box.
Displaying Data with ION Setup 9300 Series User’s Guide 2. Highlight the setup register you want to edit in the register window. 3. Click the Edit button. (A window may appear, asking for the meter’s password. This only occurs for meter’s with advanced meter security. Type the meter’s password and click OK.) A window appears where you can edit the register value. Depending on the register class, you either select a value from a drop-down list or enter the new value manually in the field provided. 4.
9300 Series User’s Guide Displaying Data with ION Setup Displaying diagnostics data 1. Select a site or device icon from the left pane. 2. Select Diagnostics from the Tools menu (or click on the toolbar). The Communication tab displays information about the meter’s communication status, message information, message timing, and packet frames. Clicking the Reset button sets all values to zero.
Displaying Data with ION Setup Page 104 9300 Series User’s Guide Chapter 4 - Using ACCESS Software
5 Features and Applications The 9300 Series meters offer a range of capabilities for enterprise energy management applications such as feeder monitoring and submetering. Comprehensive analog and digital I/O, multiple communication ports, industrystandard protocols, and precision time synchronization compliment the meters’ ability to integrate with your energy management and SCADA systems. In This Chapter Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Communications 9300 Series User’s Guide Communications This section describes the meter communications media types and communications applications. The diagram below shows the 9300 Series meter communication ports with a brief description of how each port is used. COM 3: Optical serial connection NOTE All 9300 Series meters provide COM 3, an optical (infrared) port.
9300 Series User’s Guide RS-485 Connections RS-485 Connections Refer to the “Hardware Reference” chapter for the 9300 Series RS-485 specifications. The communication card is designed with optical coupling that provides full isolation between the RS-485 communication lines and the meter internal circuitry. This circuitry provides protection from common mode voltages and incorrect connections. All inputs pass the ANSI/IEEE C37.90-1989 surge withstand and fast transient tests.
Optical Port Connections 9300 Series User’s Guide Install a ¼ Watt termination resistor (RT) between the (+) and (-) terminals of the device at each end point of a straight-line bus. The resistor should match the nominal impedance of the RS-485 cable (typically 120 ohms – consult the manufacturer’s documentation for the cable’s impedance value). CAUTION Do not connect ground to the shield at both ends of a segment.
9300 Series User’s Guide Optical Port Connections Meter Setup for Optical Port Communications To communicate real-time measurements through the infrared port, you must configure the Infrared Comm communications module. The Baud Rate, Unit ID, and Protocol setup registers must properly match your system and can be set using the meter’s front panel or ACCESS software. Once you have completed the device’s configuration, connect the Type II compatible optical magnetic coupler to the front panel.
Ethernet Connections 9300 Series User’s Guide Optical Port Setup for Energy Pulsing To configure the optical (infrared) port for energy pulsing, you must set the Infrared Comm communications module Protocol register to INFRARED I/O. Use the meter’s front panel or ACCESS software to set the IR pulsing. Setting the IR Pulsing using the Front Panel 1. From the SELECT SETUP menu, choose QUICK SETUP > INFRARED COMM > IR1 PROTOCOL > INFRARED I/O. 2.
9300 Series User’s Guide Ethernet Connections Meter Setup for Ethernet Communications To enable communications through the meter’s Ethernet port, you must configure the Ethernet communications module. The IP Address, Subnet Mask, Gateway, SMTP Server and SMTP Connection Timeout setup registers must properly match your system and can be set through the meter’s front panel, or with Designer software. Configuring the Ethernet Module through the Front Panel 1.
Ethernet Connections 9300 Series User’s Guide The EtherGate Protocol EtherGate is a powerful communications tool that lets you communicate to a meter and through a meter simultaneously. When a meter installed on the Ethernet network has EtherGate enabled, a master device (such as a workstation running ION Enterprise software) can communicate to the meter, as well as through the meter to a serial network of devices wired to the meter’s COM 2 port.
9300 Series User’s Guide Internal Modem Connections Internal Modem Connections This option is only available on the 9330 and 9350 meters. Refer to the “Hardware Reference” chapter for internal modem specifications. Teleph o ne Ne twor k Connection to the internal modem is made via the RJ-11 jack, or two captured wire connectors, located on the right side of the meter. Connect the meter to the telephone network with an FCC Part 68 compliant telephone cord (that has two male RJ-11 plugs).
Internal Modem Connections 9300 Series User’s Guide Modem Initialization String Examples The modem supports various commands in the initialization string. The examples below are for use when the modem is used to receive incoming calls. 1. Enter the following string to force the modem to use the 1200 bps Bell 212A quick-connect (this ensures the modem will answer incoming calls and connect within nine seconds): AT&F0 +MS=69,0,1200,1200 \N0 S0=1 2.
9300 Series User’s Guide Internal Modem Connections Remote modem telephone number Server computer that communicates with the remote modem. Ensure that the server computer dialout modem is configured. Configuring the Comm 1 Communications Module in Designer Launch Designer, and configure the Comm 1 communications module Baud Rate, Unit ID, and Protocol setup registers to match your communications system. Configure the initialization string for the internal modem using the ModemInit register.
Profibus Connections (9300) 9300 Series User’s Guide Wire an RS-485 connection between one or more meters and COM 1 of the 9330 or 9350 meter according to the wiring guidelines presented in the Installation and Basic Setup Guide. The 9350 with internal modem The RS-485 device network connected to the meter with the internal modem. The same RS-485 serial protocol must be selected for connections to multiple devices along the same bus.
9300 Series User’s Guide Internet Connectivity Internet Connectivity ACCESS meters provide Internet connectivity so you can receive meter emails, view realtime data, and configure your system through a web browser from anywhere in the world.
WebReach 9300 Series User’s Guide set up your network for the WebMeter feature enable/disable web browser configuration of the meter (for 9300 Series meters, web browser configuration of the meter is enabled by default) ACCESS MeterM@il Feature (9330 and 9350) The MeterM@il feature allows your meter to send data logs as email attachments to a workstation, pager, cell phone, or PDA. In addition to the log export function, your meter can send email alerts.
9300 Series User’s Guide Telnet and Hyperterminal Refer to the technical note Telnet and HyperTerminal Access for the appropriate application’s menu options and connection instructions.
Digital and Analog I/O 9300 Series User’s Guide Digital and Analog I/O Digital and analog I/O ports on ION meters let you bring a variety of data into a common system, thereby simplifying data gathering. The 9300 Series offers numerous digital and analog I/O combinations. All series meters provide four digital (relay) output ports, one infrared data port, and one configurable LED output. The digital outputs are used as status outputs or for relay control.
9300 Series User’s Guide Specifying a Port In an ION Module NOTE The IR LED capability is not available until you set the IR1 PROTOCOL register in the IR Comm module to INFRARED I/O. The following table describes the ports that can be configured (in the Digital Output, Pulser, Digital Input, Analog Input, Analog Output, and Calibration Pulser modules) to handle outgoing or incoming signals.
Using the Onboard Digital Outputs 9300 Series User’s Guide Using the Onboard Digital Outputs The four digital output ports are located on the rear of the meter. ION Digital Output, Calibration Pulser, or Pulser modules control the function of the digital output ports. These modules define the characteristics of outgoing signals and can act as intermediaries between the hardware port and the other modules in the meter. Digital Output ports can be used to control relays or send status signals.
9300 Series User’s Guide Using the Onboard Digital Outputs Energy Pulsing Five Calibration Pulser modules are preconfigured at the factory for energy pulsing applications. One of these modules is programmed to send kWh pulses to the LED on the back of the meter. The remaining four (configured for imported/ exported kWh and kVARh pulsing) can be configured to send energy pulses to any digital output port.
Using the Onboard Digital Inputs 9300 Series User’s Guide Using the Onboard Digital Inputs The 9330 and the 9350 meters’ four onboard digital (status) inputs can be used for monitoring external contacts or pulse counting applications. These inputs can be used for dry contact sensing, but they cannot be used for voltage sensing applications. The function of each digital input is controlled by the Digital Input modules S1 through S4.
9300 Series User’s Guide Using the Optional Analog Outputs The settings for Analog Input modules are as follows: 1 Setup Registers Available Settings Creation Default Description Port Not Used I/O Exp AI1 to I/O Exp AI4 Not Used The input hardware channel Full Scale -1 x 109 to 1 x 109 1 Defines what value appears in the ScaledValu output register when the highest possible value from the hardware is applied Zero Scale 1 -1 x 109 to 1 x 109 0 Defines what value appears in the ScaledValu ou
Data and Event Logging 9300 Series User’s Guide Data and Event Logging The meter includes powerful data logging (9330 and 9350 meters only) and event recording capabilities. Data and event logs recorded by the meter are prioritized and stored onboard. Data is retrieved periodically by the WinPM.Net software Log Server (or other third party application). If you use WinPM.Net software, all retrieved data from your system is stored in an ODBC-compliant database.
9300 Series User’s Guide Event Logging Event Logging Events produced by the various ION modules in the meter are prioritized and grouped to facilitate custom logging. Each event has a priority group number assigned to it, based on its type and severity. ION Event Priority Groups Some event groups are preset with a Priority Number as shown in the table below. You can also define your own priority number for some modules. Priority numbers from 128-191 appear in the global even log viewer in WinPM.
Logging and Recording Capacity 9300 Series User’s Guide Logging and Recording Capacity Data and Event Logging (9330 and 9350) The standard memory capacity for both meters is 304 kilobytes of non-volatile memory. This is enough memory to log 16 parameters every 15 minutes for 30 days. However, by default the meter is set for a log depth of 930, which is enough for 9 days.
9300 Series User’s Guide Time Synchronization Time Synchronization Time synchronization lets you synchronize the internal clocks of all networked meters and devices. Once synchronized, all data logs have timestamps that are relative to a uniform time base. This allows you to achieve precise sequence-ofevents and power quality analyses. To synchronize clocks, use ACCESS software to broadcast time signals across the network.
Meter Security 9300 Series User’s Guide Meter Security The meter’s security settings allow you to configure the meter through the front panel, with ACCESS software, or with the optional embedded web server. Standard meter security Anytime you make configuration changes to your meter, either through the front panel or with ION software, you must enter a password. Anti-tamper sealing Your revenue meter can be protected by anti-tamper sealing.
9300 Series User’s Guide Residual Current Calculation (I4) Changing the Meter Password 1. Select SECURITY from the Setup menu. 2. You will see that the screen displays 00000. Enter the current password. If you have not previously changed your password, the default is 00000. 3. Choose MODIFY PASSWORD to alter your password (the FACTORY USE ONLY option is for factory purposes and is not accessible). 4. Enter your new numeric password.
Alerting 9300 Series User’s Guide Alerting The purpose of an ION alert system is to send an email or to contact a modem, fax, pager, or software in the event of a user-specified condition. These conditions can be changes in relays or power quality problems including surges, sags, swells and outages. With ION alarm notification, you can automatically advise key people of problems allowing quick remedial action, or notify ACCESS software so logs can be uploaded from the site that initiated the alert.
9300 Series User’s Guide Alerting ION Software via the Alarm Server Remote Site Event Notification Server or LAN Dedicated Alarm Server Modem Alarm Server.exe Connection Manager 1. Remote Site informs the Alarm Server that a priority message exists Modem Site 2. Server computer receives the alarm Any Dialout Modem 3.
Alerting via an Alphanumeric Pager 9300 Series User’s Guide Alerting via an Alphanumeric Pager NOTE For detailed information about building a framework for alerting via an alphanumeric pager, refer to the Alert module description in the online ION Programmer’s Reference. If an alphanumeric pager is specified as the destination address in the Alert module, then an alphanumeric paging service, such as BC Tel Mobility, receives a message from the ION meter.
9300 Series User’s Guide Alerting via Email (9330 and 9350) NOTE In the following destination-setting example: 1-250-555-666,,,,,999#, the pager number is 1-250-555666 and the message string that displays on the pager is 999. You may need to insert 9,,, before the destination number if the line you are using is not a direct line.
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6 Revenue Metering This chapter provides an overview of the 9300 Series revenue meters. In This Chapter 9300 Series Revenue Meters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 136 Revenue Meter Models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 136 Revenue Meter Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 136 Differences between Standard and Revenue Models . . . . . . . . . . .
9300 Series Revenue Meters 9300 Series User’s Guide 9300 Series Revenue Meters The fundamental functions of a revenue meter are to provide measurements that are within industry-accepted limits for accuracy over a defined range of operating conditions and to provide adequate protection against unauthorized alteration of these measured quantities. International and national standards define industryaccepted accuracy limits.
9300 Series User’s Guide Security Mechanisms Power Provider / Utility Power Consumer LINE V1 LOAD I11 I12 Delivered Received Imported V1 I11 I12 Exported Revenue Model Regular Model The revenue meter’s energy output register labels follow the revenue metering terminology; the energy labels for kVAh, kVARh and kWh are different from the non-revenue devices as follows: imp is del tot is del+rec exp is rec net is del-rec For example, the meter’s output register kVARh tot will be kVARh del+rec
Security Mechanisms 9300 Series User’s Guide Anti-Tamper Seals The revenue meter incorporates one or two sealing cans through which traditional lead/wire seals can be inserted. When utilized, these lead/wire seals effectively prevent unauthorized personnel from gaining access to meter internals. These seals are provided with the meter, and are installed as follows: 1. Place the sealing can over one of the rear panel corner holes and insert the screw into the hole through the sealing can. 2.
9300 Series User’s Guide Configuring the Revenue Meter Configuring the Revenue Meter When enabled, the revenue meter security system prevents unauthorized alteration of revenue-related quantities. By default, all revenue meters are shipped from the factory with the security system enabled. You can temporarily disable the security to configure your revenue meter. This is done by removing the meter’s back plate, and placing a jumper into the meter.
Configuring the Revenue Meter 9300 Series User’s Guide 5. Place the jumper block on to the J1 two-pin header (this disables the hardware based security). Slide the rear plate back into the device and replace the four screws onto the real panel. Apply Control power to the revenue meter. 6. Configure the meter (e.g. Volts mode, PT and CT ratios, Pulse outputs). 7. Remove control power from the revenue meter. 8.
7 Hardware Reference This chapter is intended to provide quick, at-a-glance, technical specifications for the more common hardware features of the 9300 Series meter. Not all specifications are included. All specifications are subject to change without notice. For the most recent information see the 9300 Series Meter Datasheet. In This Chapter Standard Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142 General Specifications . . . . . . . . . . . . . . . . . . .
Standard Model 9300 Series User’s Guide Standard Model Rear View of Meter Current Inputs see page 156 SHORTING BLOCK or TEST BLOCK Dry Contacts / Switches 31 22 21 32 Ports 12 11 Communications see page 145 Digital Ports see page 153 S1 S2 S3 S4 C V+ (Max.
9300 Series User’s Guide General Specifications General Specifications Environmental Conditions To operate properly and effectively, environmental conditions should fall within the guidelines listed below.
Unit Dimensions 9300 Series User’s Guide Unit Dimensions Basic Model Dimensions 96mm (3.78") 96mm (3.78") 86 mm (3.39") 162.2 mm (6.39") Ethernet Port Location 72.8 mm (2.87“) 16.8 mm (0.66“) 14.2 mm (0.56“) 57.4 mm (2.26“) Internal Modem Port Location 14.3 mm (0.56“) 13.4 mm (0.53“) 30.8 mm (1.21“) 33.8 mm (1.
9300 Series User’s Guide Communications Specifications Communications Specifications Rear View of Meter Ethernet Modem RJ11 RJ45 M DM FCC part 68 compliant telephone cord COM1 COM2 Category 3 or 5 UTP Captured-wire connectors 22 AWG shielded, twisted pair RS-485 NOTE The Profibus meter option on the 9300 meter does not use a COM port. The following table indicates which COM ports are available for each model.
COM1 Port 9300 Series User’s Guide Co-existing Hardware Options on the Meter These are the hardware ordering options that can (and cannot) exist together on the same meter. Profibus Profibus Ethernet Modem Digital Inputs Digital Outputs Analog I/O No Yes No Yes No Yes Yes Yes No Yes Yes Yes Yes Yes Ethernet No Modem Yes Yes Digital Inputs No Yes Yes Analog I/O No No Yes Yes Yes COM1 Port COM1 is used for RS-485 communications.
9300 Series User’s Guide COM 2 Port Connections 1 Specification Description Cable Type Good quality shielded twisted pair cable, AWG 22 or larger. Max. Cable Length 4,000 ft. (1,219 m) 1 Max. number of devices per bus 32 The lengths of all (+ and –) cable segments must be counted including those that connect devices to terminal blocks.
COM 3 Port 9300 Series User’s Guide COM 3 Port COM 3 is reserved for the optical (infrared) port. Infrared Connection Specifications for the optical port are as follows: 1 Specification Value Baud Rate Up to 19,200 bps (default is 9,600 bps) Duplex Half Operating Distance less than 1 meter (3 feet) 1 Optical Range ±15° (minimum), ±30° (maximum) Supported Protocols ION, Modbus RTU, DNP 3.0, FACTORY (default is ION) Compatibility ANSI C12.
9300 Series User’s Guide Profibus Port IP Service Ports Connect to the following TCP/IP Service Ports for communications over Ethernet. 1 Protocol TCP/IP Port ION 7700 Modbus RTU 7701 Modbus/TCP 502 EtherGate 1 7802 EtherGate communications are available only through COM2. This feature is available only on 9330 and 9350 meters. Profibus Port This option is offered exclusively on the 9300 meter. LEDs (DE and PWR) Profibus female connector. PROFIBUS DE PWR NOTE The Profibus Master file (.
Internal Modem 9300 Series User’s Guide Profibus Female Connector (located on meter) 5 1 9 6 Pin Number Profibus Function 1 N/A 2 N/A 3 B-line 4 RTS 5 Isolated GND 6 Isolated Vcc 7 N/A 8 A-line 9 N/A Internal Modem Pin 3: Ring Pin 4: Tip 1 2 3 4 5 6 RJ11 Connection to the internal modem is made via the RJ-11 jack, or two captured wire connectors, located on the right side of the meter.
9300 Series User’s Guide LEDs LEDs All LEDs are found on the backplate of the meter, except the two Ethernet LEDs, which are found on the left side (if you are facing front of meter). LED Color Function L1 Red Pulses once for every 1.8 Wh of energy measured L2 Red Blinks slowly to indicate CPU operation.
I/O Connections 9300 Series User’s Guide I/O Connections Use a wire size that is appropriate for your application and complies with local electrical codes. Digital Outputs The meter provides four digital output ports that are suitable for controlling external relays. The digital outputs can deliver a continuous signal or pulse. Description Specification Output Type Form A Solid State Outputs D1, D2, D3, D4 Wire 28 to 16 AWG (0.1 to 1.
9300 Series User’s Guide I/O Connections Digital Inputs The meter supports four digital inputs. These can be used for monitoring the condition of an external contact, or for pulse counting applications. Description Specification Input Type Self-excited (internal 30 VDC supply) Inputs S1, S2, S3, S4 Application Dry contact sensing, or with external excitation. Wire 28 to 16 AWG (0.1 to 1.3 mm2) Connector Type Captured wire Max.
I/O Connections 9300 Series User’s Guide ANALOG INPUT PORTS + AI1 - Analog Source (Voltage / Current) Out In + _ Analog Outputs This ordering option provides four analog outputs. Two varieties are available: 0-20 mA (scalable to 4-20 mA) Option Specification 0-1 mA Option Max. Load Drive Capability 500 Ω Accuracy ±0.3% of full-scale Outputs A1, A2, A3, A4 Connectors Phoenix captured-wire Channel to Channel Isolation None Max.
9300 Series User’s Guide Electrical Specifications Electrical Specifications Power Supply 1 Specification Description Supply Voltage Standard AC: 95 - 240 VAC (+/- 10%), 47-440 Hz Standard DC:120 - 310 VDC (+/- 10%) Option: 20 - 60 VDC (+/- 10%) Supply Current Standard: 0.2 Amp (12W) Option: 0.6 Amp (12W) 1 Connector Type Captured wire Wire Type AWG 16 to AWG 14 Protection 2A slow blow fuse 1 If a standard display unit is used.
Electrical Specifications 9300 Series User’s Guide Potential Transformers Specification Description Use of PTs Required for all systems with voltage levels greater than those above Secondary Rating 50 to 347 VAC +25% is required CAUTION In cases where PTs are required, the secondaries should be fused. Current Inputs Specification Value Overload 20 Amps continuous, 500 Amps for 1 second, non-recurring Burden 0.
9300 Series User’s Guide Options and Retrofits Options and Retrofits Terminal Cover This option ensures that the terminal strips on the meter’s base are not accessible after installation. DANGER During normal operation of the meter, hazardous voltages are present which can cause severe injury or death. Only qualified, properly trained personnel should perform installation and servicing. 1. Turn off all power to the meter. 2. Open all PT fuses (or direct voltage input fuses).
Remote Modular Display 9300 Series User’s Guide Remote Modular Display The remote modular display (RMD) connects to the TRAN meter as shown: 4x 6mm (0.25”) mounting slots. Mount flush to any flat surface. DISPLAY 1 Specification Description Connector Type DB25 Wire Type 1.8 m cable 1 Only use cable supplied by Siemens to connect the remote display unit. RMD Dimensions 96mm (3.78") 96mm (3.78") 86mm (3.39") 37.2mm (1.
9300 Series User’s Guide Switchboard Case Installation Instructions CAUTION Installation and maintenance of the switchboard meter should only be performed by qualified personnel who have appropriate training and experience with high voltage and high current devices. If the switchboard case is included with your meter, draw the meter chassis out of the case to facilitate its installation into the mounting hole. Installing and setting up the switchboard meter is summarized in the following steps. 1.
Switchboard Case 9300 Series User’s Guide For the standard option, the meter is powered up when the voltage inputs are applied in the next step. 9. Apply the current and voltage inputs: For S1 style switchboard meters, insert the connection plug into the slot at the bottom of the meter. For FT21 style switchboard meters, push the shorting switches up. 10. Place the case cover into position and tighten the thumbscrew(s). 11.
9300 Series User’s Guide Switchboard Case Unit Dimensions S1 Case 142mm (5.59") 42mm (1.65") 34mm (1.34") 29mm (1.13") 206mm (8.11") 239mm (9.39") 99mm (3.89") 75mm (2.96") 49mm (1.92") 176mm (6.91") 157mm (6.19") 56mm (2.19") 172mm (6.77") FT21 Case 145mm (5.69") 105mm (4.14") 47mm (1.84") 226mm (8.89") 265mm (10.42") 113mm (4.45") 163mm (6.43") Chapter 7 - Hardware Reference 43mm (1.69") 51mm (2.00") 152mm (6.00") 169mm (6.
Switchboard Case 9300 Series User’s Guide The arrows in the diagram below indicate where the grounding posts are located (on the back of the switchboard meter): P24 Power Supply Option Page 164 1. Connect the auxiliary power cable to the meter’s power supply terminals. 2. Connect the other end of the cable to an external dedicated 20 to 60VDC source that is powered down. 3. Energize the meter by powering up the dedicated 20 to 60VDC source.
9300 Series User’s Guide Relay Expansion Board (Grayhill Rack) Relay Expansion Board (Grayhill Rack) The optional relay extension board allows for custom digital output applications using specific Grayhill modules.
Analog I/O 9300 Series User’s Guide Wiring for Modules with Manual Override The following wiring scheme must be used when the relay extension board contains Grayhill modules with the manual override feature. 2 1 3 4 5 6 7 8 9 91 Ω 91 Ω 91 Ω + 5 VDC output AWG 20 to AWG 16 91 Ω (¼W 5%) Power Supply DIGITAL PORTS DANGER In this configuration, the outputs of the Grayhill modules with manual override will switch state on power up.
9300 Series User’s Guide TRAN Model TRAN Model The 9300 TRAN is a meter with no display. All specifications are the same as for standard 9330, except the following. Unit Dimensions TRAN Model Dimensions 86mm (3.39") 60mm (2.36") 6mm (0.24") Chapter 7 - Hardware Reference 100mm (3.94") 164.5 mm (6.
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I N DE X ...............
real-time 78, 88 data and event logging changing logged parameters 125 Data Recorder module 45, 125 date 37 default meter functionality 42 demand setup 52 Designer 109 changing setup registers 88 configuring setup registers 89 creating new modules 91 customizing frameworks 90 deleting modules 91 editing existing frameworks 93 linking modules 91 main configuration screen 87 replacing input links 93 viewing real-time data 88 devices ethernet 72 serial 72 Diagnostic menu 35 displaying the date/time 37 using th
min/max reset 29 Hyperterminal 118 I I/O 119 analog diagram 164 analog inputs 153 analog outputs 154 diagnostic mode 37 digital inputs 16, 153 digital outputs 152 onboard digital outputs 121 options 16 infrared 108 energy pulsing 110 Infrared Comm module 109 Input/Output (see I/O) interface customizing in Vista 81 internal modem 113, 150 internet connectivity 117 ION architecture core modules 86 modules 84 ION Enterprise 131 core modules 86 fixed module links 86 locked modules 86 modules 84 persistent modu
Slave parameter map 56 Modbus Slave module 55 modem dialout 72 initialization string 113 modem initialization string 44 ModemGate 113 module security 86 MV-90 46, 125 Slave parameter map 63 protocols 44 DNP 3.
models 136 security mechanisms 137 standard versus RM models 136 RS-485 connection methods to avoid 108 connections 107 diagnostic screen 36 specifications 146 S Sag/Swell module 32, 44 Screen Setup menu 34 style setting 34 values setting 34 security default settings 70 entering password 129 front panel 28 in modules 86 meter 70 software 70 standard meter 129 Security menu 35 changing the User password 35 Setpoint module 48 setpoints 79 configuring 48 over average current 80 over kW sliding demand 79 under
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