CablePro is a complete Cable Management System (CMS) for computers that run Microsoft Windows operating systems. The CablePro software application is designed for cable management of data, voice and video network infrastructures. It is an ideal tool for documenting the design, and cataloging the components of wiring for technological systems. Also, CablePro is designed to aid voice and data cabling professionals and/or purchasing professionals in documenting or writing detailed cabling specifications. The program calculates both, fixed labor by standardized codes and labor by a time factor (hours and fractions of hours). CablePro is the ideal tool to transcribe mechanical/electrical or architectural/engineering drawings, blueprints, and graphical representation of cable requirements.
In addition, CablePro can aid in producing a written 'cabling specification' that can be used for creating an appropriate drawing and it is ideal for compiling an 'as-built' cable management report for your cable clients or your cable infrastructure. CablePro's Quick Quote Wizard can be used to automatically generate from the specifications -request for quotations (RFQ), invitation to bid (ITB), sales quotes, contracts, bill of materials, summary specifications, faceplate labels, patch panel labels, and cable-end tags/labels.
Full Specifications What's new in version 7.1.28 Version 7.1.28 may include unspecified updates, enhancements, or bug fixes. General Publisher Publisher web site Release Date July 06, 2012 Date Added July 18, 2012 Version 7.1.28 Category Category Subcategory Operating Systems Operating Systems Windows NT/2000/XP/2003/Vista/Server 2008/7 Additional Requirements None Download Information File Size 6.3MB File Name CablePro7D.exe Popularity Total Downloads 5,300 Downloads Last Week 6 Pricing License Model Free to try Limitations 90-day trial Price $395.
PDMS includes comprehensive functions for all aspects of 3D plant design. Select from the list to learn more. A fully interactive, colour shaded 3D plant design environment. Hundreds of designers can work concurrently on a project, in a fully controlled manner, with visibility of the entire design at all times.
Designers progressively create a highly intelligent 3D design by selecting and positioning parametric components from an extensive catalogue. Clash checking and configurable integrity checking rules help a designer create ‘right first time’ design and enable effective overall design quality assurance. A configurable Status Management function provides visual highlighting and clear reporting of design maturity status of PDMS objects. A standard model library saves design time and effort, by making it easier to reuse designs from existing built-in complex components. Highly configurable, automatic generation of a wide range of reports and drawings direct from the PDMS database. AVEVA PDMS is highly configurable and includes both a powerful programmable macro language (PML) and a.NET API to customise the system and automate key tasks.
PDMS integrates with all other AVEVA Plant™ applications and interface products to form a complete and configurable 3D plant design solution for the power and process industries. Share catalogue information across multiple projects, for consistency and standards compliance. Share information between AVEVA Plant™ applications for Integrated Engineering & Design. Use with ™ for seamless multi-site collaboration on a single, common project model.
Citrix Ready®, for operation in a Cloud environment AVEVA Schematic Model can store P&IDs from any intelligent P&ID application, combining freedom of choice of P&ID design software with access to the powerful functions of the PDMS environment. P&ID data can be imported from ™ or any ISO15926-compliant application. All P&IDs, from whatever source, can be used to create, compare and modify the 3D plant model using ™. Invaluable when integrating multiple P&IDs from different contractors on a project, this open approach saves man-hours and makes elimination of errors quick, easy and thorough. P&ID design can now benefit from PDMS functions, such as multi-user working, revision control and global project execution.
Complete and consistent schematic information enables quicker commissioning and easier plant maintenance. An extensive set of catalogues covers industry, national, and international standards, and includes piping, structural steel, ducting, hangers, supports and cable trays. Each catalogue provides parametric definition of all components in the required size ranges, ratings and types. For piping components, for example, data is stored related to connection types, physical and nominal size, material codes and bolt requirements. Engineering specifications control the way in which catalogue components may be used in the design. Standard catalogues can be defined once and shared across multiple projects. Controlled changes to components and specifications are quick and easy to make and apply across the design.
AVEVA PDMS’s highly interactive piping design functions allow rapid modelling of all piping systems, based on component catalogues and engineering specifications. From this model, Piping General Arrangement drawings, isometric drawings and bills of quantity are produced. A full range of piping isometrics can be automatically generated, from the complete system, through to fabrication, erection and individual spool isometrics. AVEVA PDMS manages and integrates all stages of the piping workflow, from initial routing, through basic and detailed design to individual pipe spooling at the fabricator. In Integrated Mode, AVEVA PDMS references engineering and schematic data for design input. PDMS can be augmented with ™ for the detail design of pipe supports, and interfaced with specialist applications for pipe stress analysis, flow calculation, wall thickness calculation or other tasks.
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Automated Pipe Routing includes automatic selection of items such as gaskets and flanges, allowing a preliminary route and Materials Take Off to be created very quickly. The Quick Pipe Routing function enables interactive pipe routing by using the mouse pointer to specify changes in direction. Components can be quickly positioned using feature snapping and intelligent prediction can complete a pipe route automatically. Sophisticated pipe manufacturability checks help designers ensure that pipes can be fabricated at least cost. Flange rotation checks ensure that bolt holes are correctly aligned. Integrity and clash checking functions highlight errors during modelling, for high quality design.
Sophisticated modification capabilities enable the piping design to be progressively refined. These include functions to apply specification and bore changes across the line, and to define and modify sloping pipes. Piping Assemblies such as vents, drains or control sets can be added to the design as entities.
Existing configurations can be saved for re-use elsewhere. All drawings have associative dimensions and ‘intelligent’ annotations, and can be updated automatically with design changes.
Accurate materials information can be generated on each sheet or drawing or on separate reports for any System, Line, Area, and so on. Fully automatic piping isometric drawings can be produced directly from the database. Options are available to meet any industry, national, company or project requirement. AVEVA PDMS manages the creation of individual pipe spool isometrics, and of fully intelligent welds in the database, which can be maintained across multiple revision cycles. The Equipment functions build 3D models for all kinds of plant items, from pumps and exchangers through to complex items such as reactor vessels and compressors. Any level of detail can be modelled. 3D CAD models can be imported via translators, including ™.
Laser scanned models of ‘as-built’ equipment can be referenced. (See ™ for more information.).
Multiple graphical representations are available, and obstruction volumes may be added so that spaces required for maintenance access can be visualised and clash-checked during layout and design. Equipment templates allow complex parameterised design configurations to be defined so that they can be quickly and easily re-used, even across multiple projects. Equipment items include ‘intelligent’ connection points, with relevant attributes, for the connection of associated piping, ducting, instrument and electrical systems. AVEVA PDMS provides close integration with the Electrical and Instrumentation disciplines. All E&I items, including cabinets, transformers and switchgear, can be located in the 3D plant layout for visualisation, clash checking and production of arrangement drawings.
™ enables connectivity information from ™ and ™ to be fed into PDMS for automated cable routing in the 3D model. PDMS feeds routed cable lengths back for accurate calculation of quantities. Compare & Update capabilities allow cable catalogues to be kept consistent between 3D layout and E&I engineering as the overall design evolves. 3D models of electrical equipment and off-line instruments can be created from parameterised templates, or imported as STEP files using ™. Valves and in-line instruments are selected from catalogues via engineering specifications. The workflow is fully integrated with 3D piping design, enabling such items to be detailed on piping isometrics, for example. The PDMS Cable Tray application selects components from a catalogue via an engineering specification and creates the complete cable tray layout.
Cable Tray isometric drawings can be automatically generated for manufacturing purposes. For more extensive functionality, PDMS may be used with ™. PDMS integrates with ™ for the design of cable tray supports, and with ™, for the design and engineering of Instrumentation and Control systems. AVEVA PDMS includes a specialist function for the design of all types of ducting. 3D ducting designers use an engineering specification to select parametric components from an extensive catalogue. A Fill function automatically fills the straight parts of the route with straight lengths of ducting. In-line equipment such as dampers, vanes, diffusers and hoods can all be included.
The ducting model can be split into spool parts for manufacture and pre-assembly. Spool and isometric drawings can be produced automatically. AVEVA PDMS integrates with ™ for the design of ducting supports.
Integrity checking ensures correct alignment and sizing of duct components. AVEVA PDMS includes parametric design of the steel and concrete structures found in process and power plant. A wide range of layout and component drawings can be produced, together with accurate weight and materials information. The Beams & Columns application defines a fully connected network of structural sections. Simple regular structures can be created easily. Standard bracing configurations can be customised as required. Structural modelling uses parameterised, extendable catalogues for components such as section profiles, joints, and fittings.
Curved, tapered and built-up beams are all available. The Panels & Plates application enables designers to define flat panels of any shape, while the Walls & Floors application defines walls and floors of standard shapes. Fittings can be added to all types of beams, plates, walls, floors and so on, to apply items such as doors, windows, ‘intelligent’ piping penetrations, stiffeners, lifting lugs and fire-proofing. A specialised Access platforms, Stairs and Ladders (ASL) application is provided. Intelligent, parametric penetrations can be defined, with details such as kick-plates, and connected to both the structure and the penetrating item (for example, pipe or duct).
Profile catalogues cover the leading international and national profile standards, including angles, channels and I-beams. Sample joint catalogues contain standard types of joints including cleats, endplates and sniped end preparations. Parameterised joint definitions automatically resize a joint if an associated section is resized. Fittings catalogues contain parameterised structural and industrial fittings, including lifting lugs, stiffeners, windows and doors. Interfacing options are available to link to third-party analysis software and structural detailing systems. AVEVA PDMS is fully interoperable with ™. Both share the same catalogues and specifications and may be used together on the same project.
AVEVA P&ID 12.1 SP2.9 2016 AVEVA P&ID is a P&ID drafting program that allows a user to create intelligent, project-wide data as the P&ID is designed using the familiar AutoCAD drafting system. It enables a wide range of reports to be generated. ISO 15926 outputs allow drawings and data to be loaded into the schematic model database for integration with downstream engineering and design activities. STANDARD AUTOCAD USER INTERFACE AND CONCEPTS. AVEVA P&ID is available with a wide range of AutoCAD versions. EFFECTIVE STAND-ALONE APPLICATION.
Ideal for working at remote sites, or for project subcontractors FLEXIBLE PROJECT-WIDE CONFIGURATION. Allows the use of many industry naming standards, such as ISA, KKS or PIP. It also allows for project configuration of attributes such as line styles, layers, colours, fonts and so on, to produce P&IDs which comply with users’ CAD standards. ISO 15926-COMPLIANT. AVEVA P&ID can export the P&ID and associated data in ISO 15926 format, allowing it to be imported into the schematic model and subsequently used for P&ID/3D comparisons during detail design activities. PROJECT-WIDE REPORTING.
A wide range of project reports can be generated in Excel format EASY-TO-USE CATALOGUE EDITOR. New intelligent symbols can be added rapidly, or standard AutoCAD symbols re-used by adding intelligence to them. ‘Dumb’ AutoCAD P&IDs can be easily converted into intelligent P&IDs. AUTOMATION FUNCTIONS. Automation functions make the P&ID draughting process fast and easy. Diagrams can be drawn once and re-used within the design or elsewhere.
EFFECTIVE RE-USE OF EXISTING INFORMATION. Excel export/import capabilities allow modifications to be carried out across an entire set of P&IDs – for example, to implement a new tagging convention for a repeat design project contact us: Email:[email protected] Skype:engsoft64.
Description Specification controlled design - The program relies on the SQL data base, containing the dimensional catalogue of the cable trays components, through which the user is guided and controlled while modeling the raceways net. Fast and accurate modeling of the raceways - With ESApro Cable Trays powerful tools the modeling of the cable trays becomes easy, quick and precise. Structural steel - This library, shared with thePlant Design Suite, allows to complete the model with support structures such as racks, basements, stairways, walkways. Clash detection - The program checks out if the raceways collide each other or with pipe lines, machinery, structures and in general whatever 3D entity present in the model. Automatic orthographic views - The automatic orthographic view tool, very versatile and rich in details, is one of the strong points of ESApro. The views are automatically updated whenever modifications are made to the model. Material lists - The program automatically generates the material lists in Excel and TXT formats.
Cables Routing - Once positioned the electrical utilities into the model and set the cable list, ESApro Cable Routing performs the automatic routing of the cables, identifing the shortest path in compliance with the various constraints (sections filling, compatibility with other cables). Anyway the routing proposed by the program can be forced by the user in case of specific situations. I agree to the extended privacy statement Extension of Bricsys' If you continue and download a third-party application for BricsCAD, your Personal Identifiable Information will be shared with that third party which is the author and/or owner of the application you will download. We will employ reasonable efforts to require this third party to abide by our Privacy Statement - including this extension - and not further use or disclose your Personal Identifiable Information for any purpose other than providing us or you with products and services.
Conduit. (left), cable tray (right).Shows expanded properties including parallel routing mode. Select a system from the following locations:. For cable tray: In the Add Cable Trays dialog box System. For conduit: On the Properties palette General System Styles Browser palette The cable tray and conduit tools have specific, predefined systems, such as Power - 120V or Data.
The cable tray or conduit that you draw inherits the system’s properties, such as its design parameters, display properties, and rise and drop style. Specify Routing Preference for Conduits from Properties palette General Dimensions Routing Preference. Specify dimensions from the following locations:. For cable tray: In the Add Cable Trays dialog box, at Width and Height. For conduit: On the Properties palette, under Dimensions, at Nominal size.
Specify how to draw the run. Tip: For horizontal offset, select Left, Right, or Center, and then enter the distance between the run and the horizontal object.
For vertical offset, select Top, Center, or Bottom, and then enter the distance between the run and the vertical object. Draw a run at a specified elevation enter the desired elevation, as described above. Click (next to Elevation) to prevent the elevation from being changed. Extend a cable tray or conduit run at a specified elevation use Add grips ( ) as described in Adding Conduit or Cable Tray Using Grips. The new segment inherits the elevation and other properties of the original segment. Draw with only the specified angle click next to Elbow Angle (cable tray) or Bend angle (conduit). All segments you draw next will use the same angle.
To show a vertical rise in the drawing area at a specific elevation, do the following:. For cable tray: Click in the Add Cable Trays dialog box. In the Cable Tray Layout Preferences dialog box on the Routing tab, select Automatically create riser at new Elevation. Click OK, and then enter an elevation in the Add Cable Trays dialog box. For conduit: Click (Preferences) on the Properties palette. In the Conduit Layout Preferences worksheet, select Automatically create riser at new Elevation. Click OK, and then enter an elevation on the Properties palette.
Automatically create riser at new Elevation not selected. Specify the rise/run angle (cable tray) or slope (conduit) as follows:. For cable tray: In the Add Cable Trays dialog box, under Layout Method, click Use Rise/Run, and specify a value in degrees. For conduit: On the Properties palette, under Routing, specify a value for Slope and Slope format. For conduit, you can click (Connection details) to view the flow direction and connection type for connector #1.
Continue specifying points to add more segments to your run. The software inserts the appropriate fittings to connect the segments that you draw. For information about temporarily overriding the default fittings, see Adding Cable Tray or Conduit Fittings Manually.
Conduit. (left), cable tray (right).Shows expanded properties including parallel routing mode. Select a system from the following locations:. For cable tray: In the Add Cable Trays dialog box System. For conduit: On the Properties palette General System Styles Browser palette The cable tray and conduit tools have specific, predefined systems, such as Power - 120V or Data. Historia del peru contemporaneo carlos contreras pdf viewer. The cable tray or conduit that you draw inherits the system’s properties, such as its design parameters, display properties, and rise and drop style. Specify Routing Preference for Conduits from Properties palette General Dimensions Routing Preference.
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Specify dimensions from the following locations:. For cable tray: In the Add Cable Trays dialog box, at Width and Height. For conduit: On the Properties palette, under Dimensions, at Nominal size. Specify how to draw the run.
Tip: For horizontal offset, select Left, Right, or Center, and then enter the distance between the run and the horizontal object. For vertical offset, select Top, Center, or Bottom, and then enter the distance between the run and the vertical object. Draw a run at a specified elevation enter the desired elevation, as described above. Click (next to Elevation) to prevent the elevation from being changed. Extend a cable tray or conduit run at a specified elevation use Add grips ( ) as described in Adding Conduit or Cable Tray Using Grips.
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The new segment inherits the elevation and other properties of the original segment. Draw with only the specified angle click next to Elbow Angle (cable tray) or Bend angle (conduit).
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All segments you draw next will use the same angle. To show a vertical rise in the drawing area at a specific elevation, do the following:. For cable tray: Click in the Add Cable Trays dialog box. In the Cable Tray Layout Preferences dialog box on the Routing tab, select Automatically create riser at new Elevation. Click OK, and then enter an elevation in the Add Cable Trays dialog box.
For conduit: Click (Preferences) on the Properties palette. In the Conduit Layout Preferences worksheet, select Automatically create riser at new Elevation. Click OK, and then enter an elevation on the Properties palette. Automatically create riser at new Elevation not selected. Specify the rise/run angle (cable tray) or slope (conduit) as follows:. For cable tray: In the Add Cable Trays dialog box, under Layout Method, click Use Rise/Run, and specify a value in degrees. For conduit: On the Properties palette, under Routing, specify a value for Slope and Slope format.
For conduit, you can click (Connection details) to view the flow direction and connection type for connector #1. Continue specifying points to add more segments to your run. The software inserts the appropriate fittings to connect the segments that you draw.
For information about temporarily overriding the default fittings, see Adding Cable Tray or Conduit Fittings Manually.