Switchboards Product Overview A switchboard distributes large electrical current used by electrical equipment and building requirements. Applications can range from a small office building to a major industrial complex. Switchboards are generally accessible from the rear as well as from the front and are not intended to be installed in cabinets but rather free standing on a poured cement slab. Commercial metering switchboards provide electrical system distribution and metering for commercial applications. Using standard Pow-R-Line C construction, these switchboards incorporate metering sections with tenant feeder circuits. Pow-R-Line C Distribution Switchboards combine a space-saving design with modular construction and increased systems rating to provide economical and dependable electrical system distribution and protection. Pow-R-Line I Switchboards are engineered in a new compartmentalized design for applications where greater safety is required. A variety of configurations are possible including utility metering, customer metering, and main devices. Integrated Facility Switchboards use the Pow-R- Line C group mounted switchboard design to integrate separate electrical distribution and control equipment into a single factory assembled and connected package. Eaton s innovative IFS incorporates advanced Eaton electrical distribution equipment, including Pow-R-Command, Smart Breakers, and building automation into one spacesaving structure; therefore reducing installation time and man-power needed. Wall Mounted IFS provides electrical control, monitoring, and power quality while providing valuable square footage savings. For more information and panelboard descriptions and specifications, refer to the Distribution Catalog. Or, http://www.eaton.com/eatoncom/productsservices/index.htm
Accessing the Take-off General Tab To configure Switchboards, you must use the Bid Manager Take-off. 1. Click the Take-offs menu, point to Switchboards, and then click on the desired type of Switchboard. 2. Complete the information on each tab as appropriate. For more information on general take-off features, see Working with Take-offs job aid. Click the drop-down menus and/or select check boxes to specify general requirements. Note: When you change the type of switchboard from within the take-off, the default settings change to reflect the selection. There cannot be any placed structures on the Layout tab when changing the switchboard type. When selecting the Use this Minimum Interrupting option, you must also specify the amp rating in the drop-down menu adjacent to the selection. Service Entrance Label must be selected to continue building the switchboard. The Switchboard ID Nameplate option will be available once there are structures in the layout tab.
Addition to Existing Switchboard Enter the original GO number and the original item number in the fields, and select which side the new switchboard will connect with the existing switchboard. Adding Power Xpert Communications Options Use the Power Xpert Communications button to quickly and accurately select the appropriate Power Xpert connectivity capabilities for the take-off. Power Xpert hardware components, such as gateways and meters, give the ability to gather data from each piece of equipment within the power system. With Power Xpert Architecture, each communicating device in the power system is connected to a computer network using an Ethernet communication protocol. Once connected, the facility manager can measure and monitor the equipment, regardless of its age or manufacturer. Power Xpert components can help synchronize the clocks on the equipment to provide accurate, usable data for the entire power system. When an event like a lightning strike happens, Power Xpert can track the effects in the power system within millisecond accuracy. To add Power Xpert Communications options: 3. Click the Power Xpert Communications button. 4. Click the check box next to each option to add. Note: For more information about these options, in the Power Xpert Communications dialog box, click the Power Xpert Help link.
Options Tab The Options tab is used to select various options for the switchboard, including seismic labels, solid bottom plate, nameplates, and heater package. Select the appropriate options for the switchboard. Note: To assign naming for devices when selecting Nameplate on all Devices, go to the Device Mods tab. Layout Tab The Layout tab is used to select the necessary structures and devices for the switchboard. There are three basic types of structures when simplified Incoming Main Feeder Sections can include more than one type. For example, one section can include an incoming section with a main breaker and feeder section all-in-one. Incoming structures include either a main device or main lugs for landing incoming cables and are sometimes referred to as a pull structure when using main lugs only.
Main structures usually include a main breaker or switch for disconnecting the service to the rest of the lineup. Feeder sections include a chassis or area for mounting distribution breakers. Note: If the parts bin is not viewable on the right-hand side of the screen, click in the open grey area in the center of the screen to make it appear. Clicking on a structure will show the available options in for that structure in the parts bin. Selecting a Structure While moving the cursor over the structures, the corresponding power flow diagram appears in the top right corner. Select a structure by clicking on the yellow picture icon within the parts list. Changing the Zoom The Zoom setting adjusts the layout view of the structures, to allow viewing of many structures on the screen at one time. Click, hold and drag the zoom arrow left to shrink the view or right to increase the view.
Click Reset to set the Zoom back to 100%. Selecting the Utility Structure Two types of utility structures are available: incoming utility structure or a basic utility structure. Click a gray bar in the parts bin area for the type of utility structure Select the utility structure icon from the parts bin. Choose the correct utility information based on the area's utility requirements in the Structure Properties window. Choose the Utility Name Location from the drop down menus. Note: Combinations of location and Utility of East Coast and NEMA or West Coast and EUSERC, show the Nema Utility Name activated. Select the appropriate Utility Drawing, then select the Side of the Pull Structure. Note: Terminals and Door Arrangements can be changed here or in the properties for the section later. Enter the Customer Address if available. Click OK. Selecting the Main Device The main device structure is used to switch the power flow for the rest of the structure. NEC and UL require either a Single Main Service Disconnect or a Maximum of 6 Service Disconnects if there is NO Single Main Device in the equipment (Main Lugs Only).
To add a main device structure, 1. Click the Main Structure bar in the parts bin. 2. Select the appropriate structure from the list. 3. Click on the main breaker location in the structure. 4. To add a Main Breaker, double-click Main Brkr.(Ind.Mtd) in the parts bin. Note: The status bar (at the bottom of the screen) displays the name of the item that is selected in the layout. 5. Complete the breaker properties. 6. Click the Mods button to add modifications to the main breaker. 7. Click OK to save the breaker options. Selecting the Feeder Structure The feeder structure is a distribution structure that can contain breakers, switches, customer metering, SPD, or Web Enabled Communications compartment. 1. Click the Feeder Structure bar in the parts bin. 2. Click a Feeder Structure icon. Note: The 38X Chassis feeder structure is used only when breaker interface module will be needed with OPTIM breakers. 3. Click on the center of the feeder structure to add devices. 4. Double-click on the device from the parts bin to add.
Deleting a Structure To delete a structure, click on the structure and: 1. Press DELETE on the keyboard or, 2. Press the delete button in the toolbar or, 3. Right-click on the structure and then select Cut Structure. Adding Modifications to the Structure To add modifications to a structure, double-click the structure. To change the structure properties, right-click on the structure and select Structure Properties. IFS Distribution Structures Integrated Facility Switchboards (IFS) use the Pow-R-Line C switchboard design to integrate traditionally separate electrical distribution and control equipment into a single space-saving factory assembled and connected package. The service entrance equipment can be integrated with multiple lighting and appliance branch panelboards into a compact front accessible group mounted switchboard. Where multiple panelboards are used in the same electrical room as a conventional distribution switchboard or power panelboards, the integrated design will significantly reduce equipment space requirements as well as reduce installation time and costs. Other associated equipment can also be integrated into the assembly, including dry-type transformers, time clock space, lighting control, electronic controls, surge protection, customer metering and energy monitoring devices. Depending upon the application, other user defined equipment such as a subsystem control package may also be incorporated. Adding an IFS Structure 1. Select an IFS compartment from the IFS Distribution Structure bar in the parts bin. 2. Click on the compartment structure in the layout to display the optional equipment in the parts bin. 3. Double-click the option from the parts bin and complete the characteristics for that item in the window that is displayed.
Importing IFS Panelboards IFS panelboards can be imported from other bases and alternates into your current switchboard. Importing involves two stages: 1. Import the panelboard, which places it in a holding area at the bottom-right of the Layout tab 2. Select the imported panelboard and place it in a switchboard structure. Note: Panelboards do not automatically change as you modify the switchboard configuration. If you make changes to a switchboard that could affect the engineering of any existing panelboard items, then you must revisit the affected panelboards and make changes where necessary. To import an IFS panelboard: 1. Click Import from the file menu and then click Import Panelboard. 2. Double-click a folder, then a job, and then a base or alternate. 3. Click each panelboard that you want to import and then click the Open button. The panelboard(s) selected is listed in the bottom-right area of the Layout tab. If the panelboard consists of multiple items, then it imports as separate items. Placing an Imported Panelboard 1. On the Layout tab, on the left side, click a structure in which you wish to place the imported panelboard. 2. In the bottom-right area of the window, click the panelboard that you wish to place. 3. Click the left arrow in the bottom-right area to place the panelboard in the structure. Adding a Dry Type Transformer 1. Double-click Dry Type Transformer from the device list to add it to the structure. 2. Enter a designation for the dry type transformer. 3. Configure the transformer options. 4. Click OK. Note: A dry-type transformer can only be added to a bottom compartment.
Adding a Switchboard Chassis A switchboard chassis and other components can be added to an IFS structure. Other components include: main breakers, feeder breakers, TVSS, and customer metering. The 22X switchboard chassis fits in a top or bottom compartment structure and the 50X switchboard chassis fits in a single compartment structure. 1. Double-click a Top or Bottom Swbd Chassis (22X). 2. To add a designation, enter the name of the chassis designation. 3. Configure the switchboard chassis, and then click the Done button. Adding an Wall Mount ATS (Automatic Transfer Switch) There are a variety of automatic transfer switches depending on the IFS structure that can be added. 1. Double-click one of the following devices: Top Wall Mount ATS Bottom Wall Mount ATS Note: The Automatic Transfer Switch take-off appears. Some of the options are already selected based on the configurations you have already made to the switchboard. 2. Configure the automatic transfer switch. 3. Save the automatic transfer switch and close the window. Adding an Automatic Transfer Switch Structure 1. In the Structure bin, click the Automatic Transfer Switch Structure bar. 2. Click on a type of structure to add to the layout. 3. Click on the structure in the layout and then double-click on Automatic Transfer Switch from the parts bin. Note: Some of the options are already selected based on the configurations already made to the switchboard. 4. Save the automatic transfer switch and close the window.