Above the view window is a handy toolbar that allows easier access to common tools. With the ability to create a double sided project you have easy access to switch between the Top and Bottom Sides of your project. The Layers Drop down bar has now moved from the drawing tab to the View Toolbar, making it accessible at all times. When you are working on a two-sided job additional icons will appear on the View Toolbar. On the left you will see an icon indicating whether the job you are working on will be flipped horizontally or vertically.
This is important because the software will automatically mirror your toolpaths and geometry around different axes depending on this setting.
To maintain the correct alignment of your toolpaths you must physically turn the material on your CNC machine in the same direction as you have specified during the design process. The next button indicates which side you are currently working on. It is a toggle button that can be clicked. Clicking this button swaps the active side of your job.
The final additional tool for two-sided job is on the right hand side of the View Toolbar and it allows you to toggle the 3D composite relief to show either the currently active side or your model only, or both sides of your model as a single solid block. When you are working on a rotary job an additional icon will appear. This button allows you to toggle the 3D view between wrapped display mode and flat display mode. Aspire includes drawing and editing tools that allow designs to be created and modified, which can ultimately be used directly for toolpath creation or as part of the 3D Modeling creation.
Commands for vector creation and editing are very easy to use and multiple design elements can also be drawn or imported, scaled, positioned and interactively edited to make a new design. Text can also be created using any TrueType or OpenType fonts installed on your computer, or the single stroke engraving fonts supplied with the software. This option opens the Job Setup form, which is used to create a new blank job of the specified dimensions and type.
The relative origins for X0, Y0 and Z0 are also specified at this point, and the measurement units can be set in either inches or metric. This option opens the File Save As dialog window and allows the job to be saved as a Aspire file. Navigate to the required folder, enter a suitable name for the job and click the Save button. You can also change the Save As Type using the Dropdown menu. This will allow you to save your file in the.
The imported vectors will always be read in at the size and scale they were created in their original design software. Once open they can be scaled and edited in the same way as vectors created in Aspire. All the Vector tools will be dealt with in that section of this manual. PVC and. Any Toolpath data saved as. PVC or. V3D files can be imported and will be visible in the Toolpath List. This opens the File Open dialog window and allows image files to be selected and imported into the current open job.
Images are imported to sketch vectors over the top of them, generate traced vectors or to be used to generate a 3D Component directly from the image. These functions will be covered in more detail in the 2D and 3D design section of this manual. Files previously created and saved in Aspire will be opened and displayed in the 2D Design window and 3D View if they contain 3D data.
Files previously created and saved in Aspire will be opened and displayed in the 2D Design window. The Job Setup Form is automatically opened showing the maximum X and Y dimensions of the opened design.
The actual size of the material can then be specified along with the required thickness and appropriate X0, Y0 and Z0 origins. Files from typical design software such as Corel Draw can be opened. The Job Setup form will automatically be opened so the required material size can be specified. Files from typical design software such as Adobe Illustrator and Corel Draw can be opened. The AI file will be placed with the lower left corner of the design at X0, Y0.
Software such as the Adobe product range can be used to convert files from other design and word processing software into the industry standard PDF file format. The text and vector content of PDF files is extracted when imported into Aspire. When importing multiple page PDF documents each page is placed on a separate layer. SketchUp files with a. SKP extension see www. See the Sketchup section for detailed instructions on importing Sketchup files. To import data from a SketchUp file you must already have created or opened a job to import the data into.
As a SketchUp model is usually a 3D representation of the part, the SketchUp importer offers a number of options to allow you to start manufacturing the model. We will illustrate the two main choices for how the model will be imported using the SketchUp model shown to the left. Vectric have no affiliation with Fine Woodworking, we are just using screenshots of the model constructed while following their tutorials to illustrate the process of importing a SketchUp model.
When the SketchUp model is selected from the File Import dialog, the following dialog will be displayed. Although this initially looks complex, the dialog is divided into four logical sections which will be describe below. In the first section there are two main choices for how the data from the model will be imported, 'Exploded Flat Layout' and 'Three Views - Front, Top, Side' as shown below.
This option will create an 'engineering drawing' style layout of the SketchUp model as shown in the screenshot below. The size of the model is preserved and it is relatively simple to pick up dimensions for parts you are going to manufacture from the various views. The colors of the lines you see are taken from the colors of the original SketchUp layers the various parts of the model are on. This option will take each component in the model and orientate it flat ready for machining as shown in the screenshot below.
If this option is selected, for each part in the model, the 'face' with the largest area based on its outer perimeter i. This strategy works very well for models which are to be manufactured from sheet goods where there are no features on particular faces which need to be on the 'top' such as pockets. This option allows the user to control more explicitly the orientation of each part in the model.
When this option is selected simply chose the material which has been used to indicate the top face from the drop down list. If a part is found in the model which does not have a face with the specified material, that part will be oriented by making the largest face the top.
This field lets the user specify the gap between parts when they are first imported. After importing, the nesting functions within Aspire can be used to layout the parts with more control and across multiple sheets. SketchUp does not maintain true arc or circle information for the boundaries of its parts. This is a problem when it comes to machining as the 'polygonal' SketchUp representation can give very poor machining results. For this reason, Aspire offers the option to refit circles and arcs to imported data.
The screenshot above left shows the results of importing a part with a filleted corner and hole with these options unchecked. The 'fillet' is made up of a series of straight line segments and the circular 'hole' is actually a polygon made up of straight lines.
The 'fillet' now consists of a single smooth arc and the circular 'hole' now also consists of arcs rather than straight line segments. Both these features will machine more cleanly in this form. A SketchUp model will often contain parts that you do not wish to machine such as hinges, knobs etc.
To allow control over what is imported you can choose to only import parts of the model which are on particular layers using this section of the dialog. To only import data from selected layers, choose the 'import visible data on selected layers' option and click the check box next to each layer to indicate if you want to import data from that layer.
Note that the number of parts on each layer is displayed next to the layer name. It is very easy to assign different parts of the model to different layers within SketchUp to help with the import process into Aspire.
The screenshot below shows the result of only importing data on the 'Door' layer from the example. As long as the 'Group imported parts' option is selected, these parts can then be easily nested ready for machining as shown in the image below the 'Group imported parts' option is explained later in this section.
This section of the form allows advanced handling of how 'parts' within the SketchUp model are identified and treated on import. This option is normally selected for all but the simplest models as it allows each 'part' of the model to be selected, moved and nested easily after import. You will need to ungroup the imported data after nesting etc. Items which you retain in groups can be ungrouped at any time in the usual ways.
If the right-click menu-option to Ungroup back onto original object layers is used which is the default option when using the icon or shortcut U then the software will place the ungrouped items back onto the original layers they were created on in SketchUp.
There is a style of 'building' with SketchUp where individual 'parts' are made up of several components 'butted' against each other. The screenshot below shows such a component. This object is made up of many smaller components representing the tabs on the top, the connectors at the end and the support at the bottom as shown below. The part in the image has been ungrouped and the central vector selected.
As you can see, the outer boundary is made up of separate segments for each 'feature'. Aspire does have the ability to create an outer boundary for vectors but this can be time consuming if it has to be done manually.
This data is now ready to be machined directly. It is important to understand the limitations of this option. It can be substantially slower. Creating robust boundaries for each part can consume a lot of processing power. Any feature which shares an edge with the boundary will be deleted.
If the tabs on the top of this part were to have been machined 'thinner', this approach would not have been suitable as the bottom edge of the tabs has been removed.
The new features will help a lot of SketchUp users dramatically reduce the time it takes to go from a SketchUp design to a machinable part using Aspire. It is important to understand though that while these options provide a useful set of tools, in many cases there will still be additional editing required to ensure the part is ready to toolpath.
Understanding the options and how they work will allow the part to be designed in SketchUp with these in mind and therefore help to minimize the time to machine once the data is imported. The 3D file must first be scaled to the required size before toolpaths are calculated, and then the complete file saved ready for importing into Aspire.
These files can only be moved and positioned inside Aspire but cannot be scaled. The associated toolpath s are also drawn in the 3D window and the names appear in the Toolpath list.
Toolpaths for the example above have been calculated with the X0 Y0 in the middle of the 3D design. When imported into Cut2D the data is automatically positioned using the same coordinates, which places three quarters of the design off the job. In the second image the grayscale image has been moved to the middle of the job. The thumbnail preview is also copied for each toolpath, making it very easy to position additional copies of a 3D toolpath.
For example, a single design can be copied and mirrored to create Left and Right versions of a 3D design or to place multiple copies of a decorative design in the corners of a cabinet door panel as shown below. Toolpaths for the 3D elements can be previewed along with the conventional Profile, Pocketing and Drilling toolpaths, and everything will be saved ready for machining. A good example of where this functionality might be used in conjunction with PhotoVCarve is for making personalized picture frames that include the PhotoVCarve grooves plus descriptive engraved text and a decorative Profiled or Beveled border.
As shown below:. Imported toolpaths can also be edited to position them inside the material or to change the cutting parameters - speeds and feed rates can be changed. Selecting Export All will export all of the vectors contained on the specified sheets and layers. Selecting Export Selected Only will export only the vectors which are currently selected and on the specified sheets and layers. The sheets you wish to be exported to PDF can be selected from within this section.
Clicking Clear All will deselect all of the sheets and clicking Select All will cause all of the sheets to become selected. The layers you wish to be exported to PDF can be selected from within this section.
All the visible layers with content on them will show up in this list. When All visible layers is chosen all of the vector layers will be selected. Only vectors on the layers selected will be exported into the PDF file. Export Job Bounds - If this option is selected a vector representing the boundary of the job will also be output to the PDF file. Clicking Export will prompt you to choose a filename and location for your file and save your drawing in PDF format at that location.
The Cut tool removes the selected objects from a design in a similar way to pressing the Delete key, but the selected objects are copied to the clipboard and can be Pasted into either the current file or a new file if required.
Only one item can be Cut or Copied at a time. The Copy tool copies selected objects to the clipboard, leaving the original in place and allows duplicates to be made and re-used in the design by pressing the Paste icon.
This Paste option places the contents of the clipboard created by Cut or Copy into the design, allowing elements to be re-used in different areas of a design or in other Aspire parts. Clicking this option steps forward through design steps that have been Undone using the Undo command see above to get back to stage that the user started using the Undo function.
The Job Setup form is displayed whenever a new job is being created, or when the size and position of an existing job is edited. Single Sided job type should be used when design only requires the material to be cut from one side.
This is the simplest type of job to design and machine. For more information about Rotary job type see Job Setup - Rotary. This section of the form defines the dimensions of the material block you will be using for your project in terms of width along the X axis , height along the Y axis and thickness along the Z axis.
This datum can be set at any corner, or the middle of the job. This represents the location, relative to your design, that will match the machine tool when it is positioned at X0, Y0.
While this form is open, a red square is drawn in the 2d view to highlight the datum's position. When editing the Job Size parameters of an existing job, this option determines whether any drawings you have already created will be scaled proportionally to match the new job dimensions. If you wish to preserve the existing size of your drawings, even after the job size has changed, leave this option unchecked.
With this option checked, your drawings will be re-sized to remain in the same proportion and relative position within your new material extents when you click OK. When working with 3D models a lot of calculation and memory may be required for certain operations. Setting the Resolution allows you to choose the best balance of quality and speed for the part you are working on. The better the resolution quality chosen, the slower the computer will perform. As this is completely dependent on the particular part you are working on and your computer hardware performance, it is difficult in a document like this to recommend what the setting should be.
Generally speaking, the Standard fastest setting will be acceptable for the majority of parts that Aspire users make. If the part you are making is going to be relatively large over 18 inches but still has small details, you may want to choose a higher Resolution such as High 3 x slower and for very large parts over 48 inches with small details then the Highest 7 x slower setting may be appropriate. The reason that the detail of your part needs to be taken into account is that if you were making a part with one large item in it e.
As the Resolution is applied across your whole work area it is important to set the size of your part to just be big enough to contain the part you plan to carve. It would not be advisable to set your material to be the size of your machine - e. This sets the color or material effect which will be applied to the base 3D model.
It is possible to change this at any time and also to apply different colors and materials to different Components using the Component manager. In most cases a new job represents the size of the material the job will be machined into or at least an area of a larger piece of material which will contain the part which is going to be cut.
Clicking OK creates a new empty job, which is drawn as a gray rectangle in the 2D View. Dotted horizontal and vertical Grey lines are drawn in the 2D design window to show where the X0 and Y0 point is positioned. Double Sided job type is useful when it is desired to cut both sides of your material.
Aspire allows you to visualise and manage the creation and cutting process of both sides of your design within a single project file. Zero off same side This option allows Z Zero to reference the same physical location , regardless whether material is flipped or not. This section gives choice between horizontal and vertical flipping when changing machining side. Aspire uses that information to correctly manage the alignment of the geometry relating to each side.
Rotary job type enables the use of a rotary axis also called a 4 th axis or indexer. Aspire will provide alternative visualisation, simulation and tools appropriate for rotary designs.
For the best accuracy using Cylinder Axis option is recommended. This datum can be set at any corner, or the middle of the job, when viewed as a flat 2d drawing. This option selects along which axis the material block will rotate. Selecting Along X Axis means that X coordinates represent movement along the cylinder, whereas Y coordinates represent the angle around the cylinder. Selecting Along Y Axis means that Y coordinates represent movement along the cylinder, whereas X coordinates represent the angle around the cylinder.
Each tool gives you the option of dynamically drawing with the mouse in the 2D View, or entering precise data using the form. When you click on a shape tool icon its associated form will open on the Drawing tab. Here you can see the precise dimensions of the shape you are working on, which you can edit directly, as well as other options specific to the type of shape you are editing. If you click on a shape drawing tool when nothing is selected in the 2D View, you will be able to create new shapes using the Create button.
If you select a previously created shape, you will be able to modify its properties using the same form and update the shape using the Apply button. There are a number of tools dedicated to the creation and editing of text. These can be found on the Drawing tab, below the shape creation tools. Aspire can make use of any TrueType font already installed on your computer, as well as Vectric's own single-line fonts designed specifically for CNC machining.
The Text selection tool then allows you to dynamically alter the text positioning, spacing or even to bend your text into an arc. For even more flexibility, use the Text on Curve tool to place your text along any vector curve or line that you have drawn. The Convert Text to Curves tool allows you to then use Node Editing to fine tune the vectors of the text to any shape required.
Trace Bitmap tool allows you to automatically trace imported bitmaps using a variety of options within the tool to control the vectors that are created.
The dimensions tool allows you to add a variety of dimensioning annotations to your vector drawing. As the cursor is dragged across the screen the radius is dynamically updated. The increments will depend upon your snap radius and the job size. The radius or diameter can be specified while dragging out a circle: Type the value while dragging followed, by D if it's a diameter, or R if it's a radius: Keys Result 1 2 R Radius 12 2 R Radius 2 1 D Diameter 1.
Circles can also be drawn by entering the required XY origin, selecting either Radius or Diameter and entering the required size on the form. The selected circle is displayed as a dotted magenta line. Edit the Center Point and Radius or Diameter. To modify another circle without closing the form hold a Shift key down and select the next circle.
Instead of releasing the left mouse button when you have dragged your shape to the required size, you can also type exact values during the dragging process and set properties precisely. Left-click and drag out your shape in the 2D View.
With the left mouse button still pressed, enter a quick key sequence detailed below. Release the left mouse button. By default, two values separated by a comma, will be used to set width and height of your ellipse.
One value will create a circle with the given diameter. While you are dragging out the ellipse, type Width Value , Height Value Enter or Diameter , Enter to create an ellipse with the specified dimensions. By using specific letter keys after your value, you can also indicate precisely which property it relates to.
Accurate ellipses can also be drawn by entering the required XY origin point with the Width and Height of the oval. Click Apply to create the ellipse. To modify another ellipse without closing the form hold a Shift key down and select the next ellipse.
The Draw Rectangle Tool allows rectangles to be created interactively with the cursor and Quick Keys or by entering the exact coordinates, type of corners square, internal or external radius and Width and Height using typed input. As the cursor is dragged across the screen so the XY size is dynamically updated. By default, two values separated by a comma, will be used to set width and height of your rectangle. One value will create a square with that side length.
While you are dragging out the rectangle corner, type Width Value , Height Value Enter or Side Length , Enter to create a rectangle with the specified width and height. Rectangles can also be drawn by entering the required XY origin point with the Width and Height of the rectangle. To modify another rectangle without closing the form hold a Shift key down and select the next rectangle. If you hold a Shift key down and select an object that isn't a rectangle so if you click text or a polyline, for example a Rectangle will be created as a bounding box of the clicked object:.
Polygons e. Triangles, Pentagons, Hexagons etc. As the cursor is dragged across the screen so the radius is dynamically updated. By default, entering a single values will be used to set the radius of your polygon. While you are dragging out the polygon, type Radius Value Enter to create a polygon with the precisely specified radius. Polygons can also be drawn by entering the required XY origin , selecting either Radius or Diameter and entering the required size.
Click Apply to update the circle. To modify another polygon without closing the form hold the Shift key down and select the next polygon. Stars can be created interactively with the cursor and Quick Keys, or by entering the number of points, exact coordinates and outer radius and inner radius percentage using typed input. The quickest and easiest way to create a star is by clicking and dragging the shape to size in the 2D View using the mouse.
As the cursor is dragged across the screen so the outer radius is dynamically updated. By default, entering a single value will be used to set the outer radius of your star. While you are dragging out the star, type Radius Value Enter to create a star with the precisely specified outer radius.
To modify another star without closing the form hold a Shift key down and select the next star. This tool creates continuous straight lines through points clicked, entered coordinates, tangent between a point and an arc or tangent to two arcs.
The polyline tool can also be used create lines that are tangent to arcs in your existing drawing. To create a line tangent from a point to an arc simply enter the initial point and then hover the cursor over the arc and press T. To create a line tangent from an arc to a point click on the arc to insert a point and then hover the cursor over the next point position and press T.
To create a line tangent from one arc to another click on the arc to insert a point and then hover the cursor over the second arc and press T. An existing open contour can be extended by holding down the Ctrl key and then clicking on either its start or end point. By default, entering a single value will be used to add a point at the specified distance along the line direction currently indicated by the mouse pointer position, relative to the preceding point.
With polyline drawing underway, move the mouse pointer in the direction you wish to create a new line segment and type Length Value Enter to extend the line by the specified distance in that direction. By default two values, separated by a comma, will create the next line point at the absolute X Y coordinate indicated by the two values, respectively. By using specific letter keys after your values, you can also specify the line segment in terms of angle and length. You can also use the form to enter values for each line segment as you go along.
The segments can be defined using:. The Create Arc tool allows a single arc span to be created using precise values, or dynamically within the 2D View. Precise values for the start and end point positions in absolute X Y coordinates and either the radius or the height of the arc can be entered in the form directly.
Click Create to draw and arc using these values. The properties of an arc can be edited at any time by selecting the arc before choosing the Create Arc tool. This opens the form with the current properties and position of the selected arc and these values can then be edited. Repeating texture patterns can be created using the Create Vector Texture tool. These vectors can be machined in a variety of ways to create attractive textures.
To use the tool click the icon on the drawing tab. If required, select any contours that you wish the pattern to be created within.
By using the sliders and edit boxes on the form the style of the created pattern can be varied. Click Preview to see a preview your created texture as you adjust the form's parameters.
When you are happy with the preview, click OK to create the pattern. The lines in the texture are created at an angle. This value can be set to any value between degrees and 90 degree.
The line spacing controls the distance between the contours created by the tool. Use the edit box labeled Max. Spacing to enter a maximum value of line spacing.
The slider underneath the edit box controls the degree of variation in the line spacing. If the slider is to the far left then this mean variation is at a minimum and so the lines are evenly spaced. If the slider is to the far right the variation is highest and so the distance between created contours varies between zero and the maximum spacing specified.
Within this section of the form the created pattern can be made to behave in a wave-like fashion. This wave is controlled by two parameters: the amplitude and wavelength. The wavelength describes the length over which the contours shape repeats itself. A bigger wavelength gives a long wave while a small wavelength gives a short wave. The amplitude describes the height of the wave.
Larger amplitude means a taller wave and smaller amplitude means a shallow wave. The noise slider controls the degree of randomness applied to the above values and can be used to create less regular patterns.
The vectors created by this function have many applications but a key one is to combine them with either a Profile Toolpath or where available the Texture Toolpath to create decorative panels and background textures, a small selection of the possible results you can derive from this combination are shown in the images below.
Text is edited in-place including Arc Text and Text on a Curve, even if it has been moved, scaled and rotated. If the form is opened with no selection, the new text is placed somewhere on the material if possible between the center of the material and the center of the view to help keep it visible. An empty box is drawn in the view which helps visualize the currently specified text height and anchor point.
Existing text has guide lines showing the height of the top line of text. Some fonts will descend below the lower line like handwriting on a note pad. Clicking selected text while editing, changes the anchor point to a box which can be dragged and dropped with snap.
The view is updated shortly after the user stops changing the form properties e. Custom kerning and spacing adjusted using the Kerning and Spacing tool is maintained through the edit where possible. Fonts that start with the character are drawn vertically downwards and are always left justified.
The Single Line Radio Button changes the Fonts list to show a selection of fonts that are very quick to engrave. The Larger Edit Clicking OK accepts any text entered into the window and Cancel will throw away any changes. Positions text relative to the full body of text, this only has a noticeable effect when writing multiple lines of text.
Sets the position of your text block. Either enter values directly and click Apply , or click in the 2D View with the mouse cursor to set the position values interactively. Clicking in the 2D View will begin a new block of text, set to the new Anchor point. To edit text properties or content of previously created text: If the Create Text form is open, hold the Shift key down and click the text you wish to edit or If the Create Text form is closed, click the left mouse button on the text in the 2D View to select it before opening this form.
The form will now allow you to edit the properties of the selected text. Click the Apply button to update the changes in the 2D View. Click the Cancel button to finish or cancel the editing and close the form.
This option automatically sizes a block of text to fit inside the bounding box width and height limits of a selected vector. If no vector is selected the text is scaled to fit the size of the material.
When the Text form is open, the Dimensions for the Width and Height of the selected vectors or job dimensions are shown, and these are used to constrain the font size of the text. This example shows text in an Engraving Font drawn in an ellipse.
The bounding box of the ellipse is used for the layout:. Positions text relative to the selected bounding box or material size with options for left, center and right aligned. These are the actual size of the box into which the text will be fitted. If the text is scaled interactively by left clicking twice on the text or precisely using the scale tool, the new bounding box is updated and displayed as a light gray rectangle.
When the text fits the width of the box and there is space above and below it, the text can be made to fill that vertical space using one these methods:. When the text fits the height of the box and there is space at the sides, the text can be made to fill that horizontal space using one these methods:.
Select the cursor and click to select the Text to be edited. The text will be displayed as magenta lines with 2 Green handles in the middle for dragging the text into arc-text :. The interactive letter kerning allows default text to be modified so that adjacent pairs of letters sit more naturally together.
A typical example is shown above where the capital letters W A V are placed next to each other and the default space is excessive. Holding Shift and Ctrl keys together and clicking the Left mouse button moves the letters closer together in larger increments. Line spacing can be modified by placing the Edit Text cursor between lines. Separate Headset Jack - Using a Headset is Easy, Interactive Display - Three-line 24 character tilt display with associated soft keys for easy viewing, High Visibility Message Waiting Indicator - Message indicator can easily be seen, Interactive Soft Keys - Change to provide intuitive feature access, 24 Programmable Function Keys - User programmable for one-button access to co-workers, features, and outside lines, 15 Fixed Feature Keys - Quick Access to commonly used features, Speakerphone - Built-in for hands free operation, Volume Control - Adjust volume levels for speaker, ringer, and headset individually, Adjustable Legs - Elevates the telephone for two additional angles, Wall Mount - Each telephone has a built-in wall mount bracket.
Compatible with the NEC Aspire phone system only. A receptionist and dispatcher will surely take advantage of the Button Display keyset. Its two-line alphanumeric display with interactive soft keys and DSS console support make this phone the ideal attendant position. Call for Pricing and Availability NEC DSX 34 Button Phone This phone is available in either black or white with features like a display that will display caller ID, a user can also perform normal functions of the phone with the soft keys below the display portion of the telephone such as programming the phone, transfer of calls create voice mail greetings and programming voice mail features.
NEC Aspire 34 Button Phone Call for Pricing and Availability Separate Headset Jack - Using a Headset is Easy, Interactive Display - Three-line 24 character tilt display with associated soft keys for easy viewing, High Visibility Message Waiting Indicator - Message indicator can easily be seen, Interactive Soft Keys - Change to provide intuitive feature access, 24 Programmable Function Keys - User programmable for one-button access to co-workers, features, and outside lines, 15 Fixed Feature Keys - Quick Access to commonly used features, Speakerphone - Built-in for hands free operation, Volume Control - Adjust volume levels for speaker, ringer, and headset individually, Adjustable Legs - Elevates the telephone for two additional angles, Wall Mount - Each telephone has a built-in wall mount bracket.
NEC Aspire Handbook pages. This document contains proprietary information that is protected by copyright. Check with your Communications Manager and make a note of any differences. Alphanumeric Display helps Soft Keys provide quick you use features and tells you about and easy access to features - just Page 4 Notes : 1. When using this phone for system programming, as there is no MSG key as with a keyset, the LND key must be used to back up a level in the program menu this requires system software 5.
Press a line key for 1. Optional Lift handset. Your MW is lit. Hold Use Hold instead of 1. Your co-workers can take the call off Hold.
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