User Guide
I/S & 100 Series SC Series
Ioline SmarTrac™
User Notice
Trademarks
Ioline and SmarTrac are trademarks of Ioline Corporation. Other product names, logos, designs, titles,
words or phrases mentioned within this publication may be trademarks, service marks, or trade names of
Ioline Corporation or other entities and may be registered in certain jurisdictions including internationally.
Ioline Disclaimer
IOLINE CORPORATION PROVIDES THIS MANUAL “AS IS” WITHOUT WARRANTY OF ANY KIND,
EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES
OR CONDITIONS OR MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. IN NO
EVENT SHALL IOLINE, ITS DIRECTORS, OFFICERS, EMPLOYEES OR AGENTS BE LIABLE FOR ANY
INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES (INCLUDING DAMAGES
FOR LOSS OF PROFITS, LOSS OF BUSINESS, LOSS OF USE OR DATA, INTERRUPTION OF BUSINESS
AND THE LIKE), EVEN IF IOLINE HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES
ARISING FROM ANY DEFECT OR ERROR IN THIS MANUAL OR PRODUCT.
Limit of Liability Statement
It is the responsibility of the operator of the cutter to monitor the performance of the cutter and maintain
it in proper working condition by following the instructions in this User Guide. It is the responsibility
of the operator of the cutter to follow all safety precautions and warnings that are described in this User
Guide. Ioline is not responsible for injuries that may occur as a result of unsafe operating procedures.
Ioline is not responsible for substandard operational performance as a result of failure to maintain the
cutter as described in this User Guide.
© 1997-2008 Ioline Corporation. All rights reserved. This manual may not be copied, photocopied, reproduced, translated, transmitted or converted to any electronic or machine-readable form in whole or in
part without prior written approval of Ioline Corporation.
Service and Support
If you require assistance with an Ioline product, your local Ioline dealer or authorized service center is
ready to help. Support information is also available 24/7 on the Ioline Web site—or you may contact Ioline
directly:
Ioline Corporation
14140 NE 200th Street
Woodinville, Washington 98072 U.S.A.
Ioline Customer Service Department
Monday through Friday
7:00 A.M. - 5:00 P.M. U.S. Pacic Time
Voice: 1.425.398.8282
Fax: 1.425.398.8383
support@ioline.com
www.ioline.com
Part Number 106844 Rev. 5
Ioline SmarTrac™
User Guide
I/S & 100 Series SC Series
Images & Illustrations
Figure 1 The Ioline SmarTrac I/S cutter front view ............................................................. x
Figure 2 The Ioline SmarTrac Contour (SC) cutter front view ....................................... xi
Figure 3 The Ioline SmarTrac SC-72 cutter front view .................................................... xii
Figure 5 Power and communications ports .............................................................................xiv
Figure 6 USB Connection ........................................................................................................ 17
Figure 7 Ignore the Windows® XP Warning ........................................................................ 17
Figure 8 Click Next when the New Hardware Wizard window appears .............. 17
Figure 10 Find the COM port number under the Device Manager window ............ 18
Figure 11 Setup the software for USB .................................................................................... 19
Figure 12 Enter the port settings under the Device Manager window ......................19
Figure 13 The Ioline Control Center Installation window. ........................................20
Figure 14 The SmarTrac keypad ............................................................................................... 21
Figure 15 Origin point ................................................................................................................ 22
Figure 16 The Control Center Setup Screen ............................................................... 23
Figure 17 The Control Center Main Menu .................................................................... 24
Figure 18 Adjusting pinchwheel pressure .............................................................................. 31
Figure 19 Locking the idler pinchwheels off the platen ...................................................... 31
Figure 20 Installing the blade and blade foot in the holder ...............................................32
Figure 21 Installing the blade holder in the carriage jaw .................................................... 32
Figure 22 When properly exposed, the blade lightly scores the backing ....................... 33
Figure 23 Suggested settings for different materials ............................................................ 35
Figure 24 Plotting pen guidelines ............................................................................................. 36
Figure 25 The Tangential Panel .................................................................................................40
Figure 26 Rectangular registration marks .............................................................................. 41
Figure 27 Recommended registration mark dimensions .................................................... 41
Figure 28 Registration marks margin ...................................................................................... 42
Figure 29 Registration mark locations on plot ..................................................................... 42
Figure 30 Replacing the blade ................................................................................................... 49
Figure 31 Cleaning the drive shaft ........................................................................................... 50
Figure 32 The Calibration Box and measurements ......................................................... 51
Figure 33 Print and measure a 1-cm black square on a white background .................... 52
Figure 34 Registration tool in jaw ............................................................................................ 52
Figure 35 Align tool with the corner of the box ................................................................. 52
Figure 36. The Control Center Calibration window ..................................................... 53
Figure 37. The Small Sensor Calibration window .........................................................................54
Table of Contents
Table of Contents
Safety &Cautions
Visual Reference Guide
Getting Started ................................................................................................. 15
Compatible Materials .......................................................................................................... 15
Chapter 1
Installation
Chapter 2
Operation
Installation ......................................................................................................... 16
Unpack the Cutter ............................................................................................................... 16
Assembly ................................................................................................................................ 16
Prepare the Area .................................................................................................................. 16
Connect the Cutter to the Computer ............................................................................ 16
Install Ioline Software, Drivers and Manuals ................................................................... 17
Power On ............................................................................................................................... 17
Install Drivers ........................................................................................................................ 17
Special COM port Settings .............................................................................. 18
Automatically Find the COM Port ................................................................................... 18
Manually Find the COM Port ............................................................................................ 19
Manually congure the USB settings (optional) ............................................................ 20
Keypad Controls ............................................................................................... 21
START / STOP ........................................................................................................................ 21
Arrow Keys ............................................................................................................................ 22
Set Origin ............................................................................................................................... 22
Speed ....................................................................................................................................... 22
Force ....................................................................................................................................... 22
Test Cut .................................................................................................................................. 22
Repeat ..................................................................................................................................... 23
The Ioline Control Center ............................................................................... 23
Changing System Settings ................................................................................................... 24
Menu Bar Features ........................................................................................... 25
File ............................................................................................................... 25
Setup ........................................................................................................... 25
Display ......................................................................................................... 25
Options ....................................................................................................... 25
Calibrate ..................................................................................................... 25
Test .............................................................................................................. 25
Help ............................................................................................................. 25
Screen Menu Options ....................................................................................... 26
Measurement Units .............................................................................................................. 26
Panel Size ................................................................................................................................ 26
Scale ......................................................................................................................................... 26
Autoloop ................................................................................................................................ 26
Tangential Cutting ................................................................................................................ 26
Special Features .................................................................................................................... 26
Update Display ...................................................................................................................... 27
Send Settings to Cutter: Temporary ................................................................................ 27
Send Settings to Cutter: Permanent ................................................................................ 27
Acceleration .......................................................................................................................... 28
Up/Down Delays .................................................................................................................. 28
Force ....................................................................................................................................... 28
Force Values ........................................................................................................................... 28
Blade Overcut ....................................................................................................................... 28
Blade Steering Arc ................................................................................................................ 28
Cutting a Design ............................................................................................... 29
General Guidelines .............................................................................................................. 29
Power On ............................................................................................................................... 29
Loading the Material ............................................................................................................ 29
Aligning the Material and Pinchwheels ............................................................................ 30
Adjusting the Pinchwheel Pressure .................................................................................. 30
Locking the Pinchwheels Off of the Platen ..................................................................... 31
Installing a Blade and the Blade Foot ............................................................................... 32
Installing a Blade Holder or Pen ....................................................................................... 32
Adjusting Exposure and Force ........................................................................ 33
Adjusting Blade Exposure: .................................................................................................. 33
Force Adjustment: ................................................................................................................. 34
Verication: ............................................................................................................................ 34
Sending a Cut/Plot File to the Cutter .............................................................................. 34
Pausing Cutting ..................................................................................................................... 34
Canceling a Cut .................................................................................................................... 35
Suggested Settings ................................................................................................................ 35
Guidelines for Plotting Pens ............................................................................................... 36
Cutting Long Designs .......................................................................................................... 36
Cutting Small Characters (Under 1/4-in.) ........................................................................ 37
How to Pounce ..................................................................................................................... 38
Stencil Cutting ....................................................................................................................... 39
Tangential Cutting ................................................................................................................ 40
Communication Test ............................................................................................................ 43
Chapter 3
Communication Testing
Testing the Cutter Serial Port ........................................................................................... 44
Testing the Computer Serial Port .................................................................................... 44
Troubleshooting Chart ........................................................................................................ 45
Chapter 4
Troubleshooting
LED Codes ............................................................................................................................. 47
Troubleshooting the Parallel Port (for older machines) .............................................. 47
Replacing the Blade .......................................................................................... 49
vii
Chapter 5
Routine Maintenance
Cleaning the Drive Shaft ................................................................................. 50
Size Calibration ................................................................................................ 50
Prepare the cutter: ............................................................................................................... 50
Gather the Calibration Data: ............................................................................................. 50
Enter the Calibration Data: ................................................................................................ 51
Calibrating the Sensor for Contour Cutting ................................................. 52
Prepare to Calibrate the Sensor ....................................................................................... 52
Calibrate the Sensor ............................................................................................................ 53
Service & Support ............................................................................................ 55
Getting Help ..................................................................................................... 55
Chapter 6
End Notes
Customer Service ............................................................................................. 56
Your Comments Are Requested ..................................................................... 56
Before you contact Support… ........................................................................ 57
The FCC Wants You to Know... ........................................................................ 58
Glossary
Index
viii
Notes
Please read these safety guidelines before beginning operation of
the cutter. The cutter uses a very sharp blade when cutting. The
parts can move quickly. Always observe the following safety precautions:
n Do not allow the material to become suddenly taut between
the plotter and a roll of material during plotting. A service
loop of unrolled material is required for problem free operation. Using the Autoloop function (enabled in the Control
Center) will create the required service loop by gently pulling
a set amount of material from the roll before cutting. Ioline
recommends using the Autoloop function when plotting on a
roll of material.
Safety &
Cautions
n Do not try to repair the machine without factory authorization.
Only qualied service personnel should attempt any disassembly or access to internal components. If external mechanical
adjustments are necessary, turn off the cutter and disconnect it
from all power sources (both the computer and the wall outlet).
n Be careful with hair, jewelry, or loose clothing near the cutter.
They can become caught in the mechanical parts.
n Never move the carriage by hand. Use the Arrow keys and let
the machine do it.
n Keep hands away from the carriage when the cutter is in opera-
tion. The carriage will automatically move to its right end position when the power is turned on.
n Be careful when lifting the cutter. Hold the bottom surfaces of
the cutter to lift or move it.
n Keep ngers away from the drive shaft when the cutter is in
operation.
n Use caution when changing a blade in the blade holder. See the
Routine Maintenance chapter of this User Guide for the recommended procedure.
n Be careful when handling the blades. They are sharp and could
cause an injury if mishandled. Although the blades are made
of an extremely hard material, they are brittle and can break if
dropped or mishandled.
ix
KEY
O
N
A. Dust Cover
B. Drive Shaft Marker
C. Carriage
D. Blade Holder
E. Idler Wheel
F. Drive Shaft
(beneath material)
G. Pinchwheel
H. Pinchwheel Lever
E
FD
GA B C H
I
J
M
L
K
Figure 1. The Ioline SmarTrac I/S cutter front view.
x
C
D
Visual Reference Guide
KEY
O
I. Keypad
J. Stand Leg
K. Stand Leveling Foot
L. Cross-member
A B E H
M. Media Roller
N. Platen
O. Traverse
P. LED Sensor
F G
I
J
N
M
L
K
C
D
Figure 2. The Ioline SmarTrac Contour (SC) cutter front view.
P
G
F
xi
KEY
P
A. Dust Cover
B. Drive Shaft Marker
C. Idler Wheel
D. Carriage
A
B
C
E. Blade Holder
F. LED Sensor
G. Pinchwheel
H. Drive Shaft
See Detail 1 See Detail 2
I
J
O
N
Figure 3. The Ioline SmarTrac SC-72 cutter front view.
K
M
See Detail 3
xii
KEY
D
E
K. Stand Leg
L. Platen Leveling Foot
M. Stand Leveling Foot
N. Cross-member
F
O. Platen
P. Traverse
G
H
Detail 1
Detail 2
L
Detail 3
xiii
KEY
R. Power Switch
S. Serial (COM) Port
R
T. USB Port
U. Power Cord
S
T
U
Figure 5. Power and communications ports are located on the back of the right cover.
xiv
Getting Started
Thank you for purchasing the Ioline SmarTrac cutter.
This manual contains instructions and guidelines for setting up, operating and maintaining your cutter. The SmarTrac hooks up to your
system like a printer. Use design software to create your designs
and send les to the SmarTrac for cutting or plotting. The following
components are needed to cut designs:
Chapter 1
Installation
n A Windows-compatible computer. The computer must be as-
sembled and installed correctly before you connect it by serial
or USB cable to the cutter.
n Design software loaded into the computer according to the
manufacturer’s installation instructions. If you have any questions about the computer or the software, you will need to
contact the manufacturer or your dealer. Most design software
provides drivers for Ioline cutters. If you need assistance with
drivers, contact Ioline customer service.
n There is a specialized software program that comes with the
cutter called the Ioline Control Center. This software utility
enables you to adjust cutter settings and perform system diagnostics.
n The SmarTrac will cut the graphic exactly as you have designed
it on the loaded material. See table below for a list of compatible
materials.
Compatible Materials
SmarTrac I/S and
SmarTrac Contour (SC)
Vinyl
Sandblast
Rubylith
Flock
Stencil
3M® 9600 & thin reectives
100 System
Gorilla Grip®
Thermo-FILM®, ThermoFLOCK®, and Thermo-GRIP®
Holographics and
WindowTinting lm
CAD-CUT® or Backed Twill
All materials handled by
SmarTrac I/S
Hint
If you use Windows® XP or later,
you can connect the SmarTrac
to your computer via USB. Use a
serial connection for older operating systems or if your computer
does not have a USB port.
16
Ioline SmarTrac User Guide
Caution
Do not lift the cutter by
the plastic end covers, the
dust cover, or the carriage
rail. This may permanently damage
the machine. Use the bottom
surfaces of the cutter to lift or
move it.
Installation
Unpack the Cutter
This procedure requires two people. Carefully remove the cutter
from the box and place it on a at, stable surface. Check the Packing
List to ensure that all of the accessories are present. Save all packing
materials and the box.
Assembly
Refer to the SmarTrac Quick Start Guide for directions on assembling the cutter.
If you purchased the SmarTrac with a stand or table-top cradle,
you’ll nd assembly directions and hardware in the Accessory Kit.
Assemble and attach the stand or cradle to the cutter before attempting to plot. Make sure the media rollers (media shaft on the SC-72)
are properly installed and that the cutter is facing the correct direction. Place a level on top of the cutter and adjust the stand leveling
feet as required to level the stand.
Prepare the Area
Prepare a large clean area to work. Make sure the oor or table top
is free of debris and clear of any obstacles. Pull the cutter away from
the wall so the material can move freely.
i
Always turn off the power to
both the computer and the
machine before connecting any
cables. This will protect the equip-
ment and reset the cutter.
i
Ioline recommends using a surge
protector power strip for both
the PC and the machine.
Note
Note
Connect the Cutter to the Computer
With power off on the machine and PC, connect the SmarTrac to the
computer with either a USB or serial cable. A USB cable is provided
in the Accessory Kit. Install the included power cord in the cutter
and plug it into a wall outlet.
Figure 6. USB Connection. (Unused serial port
also shown above.)
Chapter 1: Overview
17
Install Ioline Software, Drivers and Manuals
The Control Center is a utility that enables you to adjust parameters
and optimize cutter performance. The SmarTrac and 100 System
come with a CD-ROM that includes a Microsoft Windows® XP, Vista
and Win 7 version of the Ioline Control Center, the 101 software
(100 System only), USB drivers, Adobe Acrobat, and electronic User
Guides (Acrobat required to view).
1. Turn on the power to the computer and start Windows®.
2. Insert the Ioline CD ROM into the CD ROM drive (usually D:)
3. Select the Start button.
4. Choose Run.
5. Type D:\SETUP (substitute the correct letter if the CD ROM
drive letter is not D:) and Click OK.
6. Follow the instructions that appear on the screen.
7. Consult the Operation chapter of this manual for details on using the Ioline Control Center software.
Power On
1. Turn on power to the Ioline equipment. The cutter power
switch is located next to the power cord behind the keypad.
i
Ioline USB drivers are only com-
patible and tested with Microsoft
Windows operating systems ver-
sions XP, Vista, and Win 7.
i
Ioline USB drivers create a special
COM port that allows computer
software with serial communi-
cation support to use the USB
connection.
Note
Note
2. The carriage will move toward the keypad side of the machine
when the power is turned on. Keep hands and loose clothing
away from all moving parts of the cutter.
3. The red LED on the front panel will light when the start-up
process is nished.
Install Drivers
1. After power on, USB driver installation should start automatically.
2. A warning may appear about driver certication. Click “Ok”,
“Proceed Anyway,” or “Continue.”
Figure 7. Ignore the Windows® XP Warning.
18
Ioline SmarTrac User Guide
3. If the Add New Hardware Wizard window appears. Click on
Next. Note: Later versions of Windows like Vista and Win 7 do not
usually require these steps.
Figure 8. Click Next when the New Hardware
Wizard window appears.
4. Click in the circle next to Search for a suitable driver for my
device then click Next.
i
Serial communications and
sometimes USB use a COM port
designation. See the SmarTrac
Quick Start Guide for more
information. If connected to a se-
rial port, a COM port designation
(i.e. COM 1, COM 2, etc.) must
be selected. The choice of a port
for the cutter will depend on the
ports being used by other devices
on the computer. Consult with
the dealer if a port is not available.
Note
5. Click on Browse then nd the USB_Drivers_G2 folder on the
Ioline Installation CDROM. Click on Open, then OK.
6. A note will appear that the Wizard completed installing drivers. Click the Finish button.
7. Some versions of Windows may repeat this process a second
time for the USB to UART Controller. Click the Finish button.
Special COM port Settings
Depending on the design software and your requirements, you may
need to determine a COM port setting to congure printing direct
to Ioline equipment. Use the Control Center to Automatically Find the
COM Port or Windows Device Manager to Manually Find the COM
Port. Both methods are described below. This is NOT necessary for
the Ioline Control Center or the 101 Software.
Automatically Find the COM Port
1. Press the Start/Stop key on the cutter keypad until the light
turns green.
2. Open the Ioline Control Center Go to Step 3 to nd a serial connection COM port or Step 5 for USB connection COM port .
3. IF USING A SERIAL CABLE: determine the COM port by clicking on the Setup menu then choose Port Setup.
4. The Control Center Setup window will appear. Record which
COM port is highlighted and/or has a check box lled in.
5. IF USING A USB CABLE: determine the COM port by clicking
on the Display menu then choose USB Info.
6. The USB Info window will appear. Record which COM port is
listed in the COM Port window.
Manually Find the COM Port
1. Open the Windows Control Panel.
2. Double click on the System icon then the Hardware tab then
Device Manager button.
3. Double click on the Ports (COM and LPT) item to expand the
list.
4. Find the USB Serial Port (COMx) item in the list. Write down
the COM port number shown in the label. Use this information
when conguring software that communicates with the equipment (see below).
Chapter 1: Overview
19
Figure 10. Find the COM port number under the
Device Manager window.
Setup the Software to use USB
1. Install the application(s) that will send data to the machine.
This includes utilities that are included with the equipment.
2. When conguring the driver and communications for the application, choose the COM port number determined above in
Find the COM Port.
3. If additional COM port settings are required, use the values
shown in the Figure 11.
20
Ioline SmarTrac User Guide
i
Note
Figure 11. Setup the software for USB.
Manually changing the Windows®
COM port settings is required
for some programs. Use the
Windows
change settings.
®
Device Manager to
Manually congure the USB settings (optional)
1. Open the Windows Control Panel.
2. Double click on the System icon.
3. In Windows® 2000 and XP, open the System window, click on
the Hardware tab then the Device Manager button.
4. Double click on the Ports (COM and LPT) item to expand the
list.
5. Right click on the USB Serial Port (COMx) item in the list, then
choose Properties.
Figure 12. Enter the port settings under the De-
vice Manager window.
6. Click on the Port Settings tab and enter the values shown
above in Figure 11.
7. Click on OK when nished.
Chapter 2
Operation
Keypad Controls
The keypad allows access to the main cutter functions.
Figure 14. The SmarTrac keypad.
i
Unless otherwise stated, the
following information applies to
both the I/S and SC SmarTrac
lines.
Note
START / STOP
The START / STOP key connects or disconnects communication
between the computer and the cutter. If the START / STOP key is
pressed during cutting or plotting (STOP mode) the machine will
stop when the current vector is nished.
The Arrow keys are active when in STOP mode. When the
START / STOP key is pressed again, (START mode) cutting will
resume exactly where it stopped.
START mode Green light Arrow keys inoperable, cut-
STOP mode Red light Arrow keys operable, cutter
ter online (ready to receive
instructions).
ofine (not ready to receive
instructions).
22
Ioline SmarTrac User Guide
i
Design software usually refers to
the origin as “lower left” because
it is the lower left corner of a
design. Because the cut is usually
oriented as shown, it is physically
on the right side of the cutter.
Note
Arrow Keys
Pressing the Arrow keys moves the material back and forth or the
carriage from side to side. The Arrow keys will not work unless the
cutter is in STOP mode (see START / STOP above).
Set Origin
The Set Origin key sets the
initial origin or starting position
for the design. Unless you use
the Repeat function to cut the
same graphic, it is best to set a
new origin before cutting each
design. If a new origin is not set
before sending a le to the cutter, the cutter will begin at the
origin point set for the previous
cut le.
Your design software may give you the option of selecting the origin
point. If you set the origin within the software, but do not reset it on
the cutter using the Set Origin button, the SmarTrac will treat the
new le as a continuation of the previous cut. This affects the Repeat
function. (See the Repeat section below.)
Figure 15. Origin point.
Caution
Note: Using too much
force can cause excessive
drag, damage the pen or
blade, or tear the material.
To set a new origin, make sure the SmarTrac is in STOP mode (Red
light is on). Use the Arrow keys to move the pen or blade to the
intended origin of the cut, then press the Set Origin key. The cutter
will then be ready to accept cut/plot les.
Speed
Use the Speed knob on the front panel of the cutter to adjust the
speed. Turn the knob clockwise to increase the speed, or counterclockwise to decrease the speed. Set the speed according to the type of
cutting and material being used. See the Cutting a Design section of this
manual.
Force
Adjust the force by using the Force knob on the front panel. Turn
the Force knob clockwise to increase the force exerted on the pen or
blade. See the section on Cutting a Design for the recommended settings.
The range of force available at the knob is adjustable in the Control
Center. The maximum range is 1 to 500 grams (1 to 400 grams for the
I/S 60).
Test Cut
The Test Cut button cuts a test pattern. Use it before cutting new
material to help determine the proper force (for knives or pens) and
blade exposure for cutting designs—and the effect of the blade offset
and overcut settings specied in the Control Center. See the section
on Cutting a Design for details on adjusting force and blade exposure. The
Control Center section has details about blade offset and overcut.
1. Make sure that material is loaded in the cutter that the blade
holder is installed in the carriage. Position the blade over the
material near the right side of the cutter.
Chapter 2: Operation
23
2. Check for the Red light. Press the START / STOP key if it is not on.
3. Press the Test Cut key for one second. The plotter will cut a
small test pattern consisting of a circle within a square.
4. Adjust the force and blade exposure up or down with the Force
knob and the blade foot. Repeat the test cut until the desired
line quality is obtained. See the section on Cutting a Design for
details on adjusting force and blade exposure.
5. Successive test cuts automatically align to the left of the last test cut.
6. If the Test Cut key is pressed for three seconds the plotter will
cut a 1.9 in. x 7.1 in. pattern.
Repeat
The SmarTrac nearly 1 megabyte of data in buffer memory so that
you can use the Repeat key to create additional copies of a graphic
without having to resend the le. The cutter must be in STOP mode
(red LED) in order to use the this key.
Since the SmarTrac begins cutting or plotting at the current blade
location in STOP mode, reposition the blade or pen rst (using the
Arrow keys) before pressing the Repeat key.
Several issues affect the repeat function and the data stored in memory:
1. If the le exceeds the capacity of the buffer, the Repeat function
is disabled.
i
If an origin is not set between
les, two possible unintended
results can occur: if the combined
cuts do not exceed the buffer,
Repeat will cause them all to
be recut or, if the combined les
exceed the buffer size, Repeat
will be disabled.
Note
2. Your graphic will remain in memory until you reset the origin,
send another le, or update settings with the Update Display
function. (Update Display is described later in this chapter.)
The Ioline Control Center
The Ioline Control Center is a utility program that does three things:
n Allows adjustment of settings to tailor output from the computer.
n Sends completed cut les to the cutter. (To make design chang-
es to the le, you must use the design software.)
n Includes several diagnostic tests for troubleshooting.
Figure 16. The Control Center Setup Screen.
i
To avoid communication port
conicts, do not simultaneously
run more than one application
that is communicating with the
plotter.
i
The design software may override
the Control Center settings.
Check to see if it has by pressing
the Update Display button be-
fore and after a cut is completed.
If the settings change, use the
design software to modify cutting
parameters.
Note
Note
24
Ioline SmarTrac User Guide
Figure 17. The Control Center Main Menu.
Changing System Settings
You can adjust many settings with the Control Center to t your needs:
n Put the cutter in START mode (Green light mode) before
changing system settings. To do so, press the START / STOP
key and make sure the Green light is on before changing any
settings.
n The Screen Menu displays most commonly adjusted param-
eters. The Menu Bar contains utilities and less commonly
adjusted cutter settings.
n Your selected changes take effect only after you press one of
the Send Settings buttons.
Menu Bar Features
The Ioline Control Center provides comprehensive help les to explain the functions of the software options. Below is a brief summary
Menu Bar items.
File
Send Cut/Plot File Sends a cut (.PLT) le to the cutter.
Open Settings File Restores saved settings les.
Save Settings As Save settings les.
Exit Exits the Control Center program.
Setup
Plotter Setup Selects the correct cutter model.
Port Setup Selects the communications port.
Chapter 2: Operation
25
Display
Plotter Settings Displays current cutter settings.
Factory Defaults Restore original factory settings.
ROM Version Displays installed ROM version.
Memory Buffer Displays installed memory buffer
size.
Blade Status Displays whether or not the blade
holder is installed.
Options
Filtering Toggles Filtering on and off.
HPGL Setting Selects an HGPL language.
Install New Firmware Installs new rmware on the cutter.
Calibrate
Calibrate Plotter Calibrates the cutter.
Test
Serial Test Tests serial communications.
Computer Port Test Tests the computer port.
Plotter Port Test Tests the cutter port.
Help
Contents Lists contents of help les.
About Provides Control Center version
information.
26
Ioline SmarTrac User Guide
Screen Menu Options
Measurement Units
English or Metric units are available when adjusting settings.
Panel Size
The Panel Size is the maximum area the cutter can use for cutting.
The factory-set (and maximum) X-axis panel length is 838-in long
(2129-cm). The maximum Y-axis panel size depends on the machine
width. The material moves along the X-axis; the carriage moves
along the Y-axis. When cutting on a Cut Sheet the panel values
should be adjusted to match the sheet size.
Scale
The factory-set Scale is 100%. The cutter will produce a cut in the
exact size of any cut le that is sent. If the scale is 50%, the cutter will
produce a cut that is half the intended size. The scale of the cutter
can range from 1% to 999%. Note: Both X- and Y-axes are set independently.
Caution
Autoloop default is
off. Do not allow the
material to become taut
when using a roll of material with
Autoloop disabled. Manually
create and maintain a service loop
in the rear.
Autoloop
With Autoloop enabled the cutter will create a service loop of material at the beginning of the plot and whenever necessary during the
cutting process. The factory setting is 30-in (76.2-cm), but the loop
size is adjustable. Disable Autoloop when cutting short pieces of
material or scraps.
Tangential Cutting
When enabled, the tangential cutting feature will carefully align the
blade with the line segment before making each cut in the material.
Settings:
Enable: Turns on the Tangential Cutting feature in the cutter after
the Permanent button is pressed.
Length: Determines how far the alignment cut starts from the begin-
ning of the line segment. The default of 33 is best for most
materials.
Force: Sets the pressure used when making an alignment move.
Ten grams typically makes little or no mark on the material but properly aligns the blade.
Special Features
See the sections, How to Pounce and Stencil Cutting, for details on using these features.
Pounce The Pouncing feature will make a series of holes for trans-
ferring a pattern to a at surface. Special pounce tools are
required. The hole size and spacing is adjustable. See Cut
and Blank below for more details.
Tag Board Tag Board Cutout is for cutting stencil material (tag board).
Cutout A standard blade holder and blade is required. An in-
termittent cut is created so that the stencil stays in place
during cutting. See Cut and Blank below for more details.
Cut The Cut value is the length, in thousands of an inch
(mils.), that the blade will cut when plotting the segmented line for pouncing or tag board cutout.
Chapter 2: Operation
27
Pouncing Tag Board
Default Length 40 mils. (.04-in) 2000 mils.
Maximum Length 4000 mils. 5000 mils.
Minimum Length 40 mils. 50 mils.
Cut Values
Blank The Blank value is the length, in thousands of an inch
(mils), that the blade skips (e.g. will not cut) when plotting the segmented line for pouncing or tag board cutout.
The default length is 600 mils (.6 inches) for pouncing
and 60 mils for tag board. The maximum is 4000 mils for
pouncing and 5000 mils for tag board. The minimum is 40
mils for pouncing and 50 mils for tag board.
Pouncing Tag Board
Default Length 600 mils. (.6-in) 60 mils.
Maximum Length 4000 mils. 5000 mils.
Minimum Length 40 mils. 50 mils.
Blank Values
i
The design software may override
the Control Center settings.
Check to see if it has by pressing
the Update Display button be-
fore and after a cut is completed.
Check the plotter setup screens
in the design software to make
adjustments if necessary.
Note
Update Display
Selecting this option will update all of the screen values with the current settings stored in the cutter. For example, using Update Display
after a blade is inserted in the carriage will update the Control Center and allow access to the Tag Board Cutout parameters.
Send Settings to Cutter: Temporary
After changing any setting, the changes must be sent to the cutter. If
Send Settings to Cutter: Temporary is selected, all of the displayed
settings will be used for the current session. When the cutter is
turned off these settings will be lost and the previous permanent
settings will be in effect when the cutter is turned on again. If any
settings are changed, repeat the Test Cut procedure to ensure that
the results are satisfactory.
Send Settings to Cutter: Permanent
If Send Settings to Cutter: Permanent is selected, all of the displayed
settings will be sent to the cutter and will be saved for all subsequent
sessions, even after turning off the cutter.
28
Ioline SmarTrac User Guide
Acceleration
The factory-set Acceleration is 1.0 g. The Acceleration setting determines how quickly the pen or blade will reach full speed when starting or ending a cut line. Use the Control Center to change the setting
within a range of 0.1 to 1.0 g. For long or difcult cuts, or when trying to achieve maximum accuracy, use lower Acceleration settings.
Up/Down Delays
The factory-set Up and Down Delays are both 0 milliseconds (ms)
or 0 thousandths of a second. The Delay setting controls the amount
of time, in milliseconds, the cutter pauses after lifting or lowering
the pen or blade. Under normal circumstances this setting will not
require adjustment. Thick material (e.g. sandblast mask) may require
a delay of 25 to 50 ms.
Force
The minimum and maximum force settings for the Force control
knob on the keypad is adjustable.
Force Values
Force Setting
Factory-set Default 10 grams
Default Maximum 200 grams
Maximum 400 grams
Default Minimum 10 grams
Blade Overcut
Blade Overcut is the distance the blade travels beyond the end of a
cut. Blade Overcut ensures that each cut actually reaches the point
where one cut line meets and slightly overlaps another cut line. This
ensures that all of the pieces of the design will be cut completely,
with no undercuts. The factory-set Blade Overcut is 10 mils. This setting is ignored when a pen is installed in the carriage.
Blade Steering Arc
Blade The Blade Offset is nominally 15 mils (or 47 mils on some
Offset blades), but specic blades can vary within a tolerance.
For close work, making some tiny test cuts at several settings, then picking the best one, can improve accuracy.
This setting is ignored when a pen is installed in the carriage.
Minimum Minimum Angle sets the angle for the cutter blade
Angle steering arc. For a very tiny cut, a small or zero angle
can be specied. For larger cuts a greater angle of up to
45 degrees is best. The factory-set value works well with
most les. Adjusting this setting for small cuts may improve performance. This setting is ignored when a pen is
installed in the carriage.
Cutting a Design
Before cutting a design, turn the cutter on, load it with material,
install a blade holder, and set an origin. (These steps are outlined
below.) In most cases the design les are sent directly from the
design software to the plotter. If necessary, use the Ioline Control
Center software to send design les, adjust settings and test cutter
communication.
General Guidelines
1. Never let the material become suddenly taut between the
plotter and a roll of material during plotting. A service loop of
unrolled material is required for problem-free operation. Ioline
recommends using the Autoloop function (enabled in the Con-
trol Center). It will create the required service loop by gently
pulling a set amount of material from the roll before cutting.
Autoloop default is off.
2. Use the Paneling feature in the design software for long
designs. Paneling will restrict the length of any X-axis move.
Ioline suggests an X panel size of 10 to 20 inches with no panels
greater than 40 inches.
Chapter 2: Operation
29
3. Force. Incorrect force can cause misalignment problems over
the range of a long cut. If the force is too high, the material may
skew.
4. Prepare a large clean area to work.
Power On
Turn on the computer and the cutter. The cutter power switch
is located next to the power cord on the back. The carriage will
move when the power comes on. Keep hands and loose clothing
away from all moving parts of the SmarTrac. The Red light on the
front panel will come on when the Start-up Procedure is nished.
Loading the Material
If using a roll of material:
Place the roll between the media rollers (stand), on the axle (cradle or
SC-72 stand) or at the back of the machine (foot).
If using a roll of paper:
Hang the paper roll on an axle if available. Use a media roller or the
cradle tube if the cutter has them. Place the roll behind the machine
if the cutter has only feet. Note: Do not place a paper roll between
two media rollers.
If using a cut sheet or scrap:
i
If Autoloop is not enabled in
the Control Center, do not
allow the material to become
taut between the cutter and the
material roll. Manually create and
maintain a service loop in the
rear. See Autoloop in the Ioline
Control Center section for
more information.
Note
Disable Autoloop.
30
Ioline SmarTrac User Guide
Aligning the Material and Pinchwheels
Ioline recommends using the “Typewriter Method” to align the material to the platen. The drive shaft is optimized for most common material widths as well as scraps. When loading material, use the drive
shaft markers on the traverse to nd the drive shaft segments.
1. Lift the pinchwheels by raising the pinchwheel lever on the
right side of the cutter. Bring the material up and through the
space under the pinchwheels. Pull down enough material to
reach the media rollers on the stand (I/S 80, SC-40 and larger
models) or about one foot (25-cm) on the table-top cradlemounted I/S 60 models.
2. Roughly align the material so that the edges are overlapping
the wide-right drive shaft segment and one of the smaller segments. Use the drive shaft markers on the traverse to nd the
drive shaft segments when they are covered by material.
3. Position the outer-pinchwheels on the material about 1-in (2.5-cm)
from the edge. Use the drive shaft markers on the traverse as a
guide to make sure the wheels are over a drive shaft segment.
Caution
While checking alignment with the Arrow
keys, make sure that the
material between the material roll
and the cutter is never pulled taut
with the drive shaft.
4. Slide the inner-idler wheels (when provided) so that they are
as close to evenly spaced between the outer wheels as possible
while remaining over a drive shaft segment. Use the drive shaft
markers on traverse to ensure that the wheels are positioned
correctly.
5. With both hands, reach under the stand or cradle and clasp
the front edges of the sides of the material hanging from the
front of the machine against the edges of the material hanging
from the back of the machine. Pull downward on the material
and square the edges so that they are parallel front and back.
Alternatively, align the edge of the material with the edge of
the material roll.
6. While maintaining the material square and taut, clamp the
pinchwheels to the material by lowering the pinchwheel lever
on the right side of the cutter.
7. Check alignment by using the Arrow keys to move the material
forward and back. The material edge should run straight.
Adjusting the Pinchwheel Pressure
100 Systems and wide SmarTrac models have pinchwheels with adjustable spring force*. This allows the user to use maximum force (24
lbs.) for holding material (which requires more force for better tracking) or less force (8 lbs.) for lightweight materials like paper and for
sandblast resists that must be tracked directly on the rubber surface.
The pinchwheels can also be set in a position that keeps them completely off the surface so that the inner pinchwheels on larger cutters
will not interfere with pen plotting.
* This option is not available on all
SmarTrac models.
Set Force Adjustment by turning the screw on the back of the pinchwheel assembly.
1. Move the pinchwheel to the access hole on the back of the dust cover.
2. Insert a at screwdriver into the slot and turn the adjustment
screw 90 degrees. When the slot is in the vertical position on the
outer wheels, the force is 24-lbs. The horizontal position indi-
cates 8-lbs of force. On units equipped with inner pinchwheels,
force can be set to 12 lbs. (vertical setting) or 4-lbs. (horizontal setting). The 12-lb. inner pinchwheel setting is useful for
heavier materials such as heavy sandblast or reective sheeting.
Chapter 2: Operation
31
High Force Position
Cam Slot Vertical
Figure 18. Adjusting pinchwheel pressure.
Low Force Position
Cam Slot Horizontal
Locking the Pinchwheels Off of the Platen
The idler pinchwheels have a locking feature* that will hold them off
of the platen during cutting or plotting. This will reduce ink smearing if plotting with a heavy ink marker.
1. Lift the idler pinchwheels off the platen with the pinchwheel lever.
2. Press on the handles at the rear of the idler pinchwheel arm.
3. Flip the locking clip into position with both thumbs. Make sure
that the clip is under the lower tabs.
4. When the pinchwheels are lowered onto the platen the idlers
will stay in the up position.
Figure 19. Locking the idler pinchwheels off the platen.
* This option is not available on all
SmarTrac models.
32
Ioline SmarTrac User Guide
i
Be very careful when handling
the blades as they are sharp and
brittle and the tips can chip or
break. Using a hard surface to
insert the blade may damage it.
Note
Installing a Blade and the Blade Foot
A blade and a blade holder are included in the Accessory Kit. To
install the blade and blade foot in to the blade holder:
1. Remove the foot from the assembly by unscrewing it counterclockwise.
2. Slide the blade into the hole in the blade holder until it bottoms
out. The blade should spin freely.
3. Screw the foot clockwise onto the shank. Stop before the blade
emerges.
Figure 20. Installing the blade and blade foot in the holder.
Installing a Blade Holder or Pen
1. Rotate the clamp out of the way, then turn the clamp screw
until there is enough room to insert the blade holder or pen.
2. If using a blade holder or plotter pen, slip the ange into the
slot in the carriage jaw. If using a regular pen, position the tip
1
/10-inch off of the platen when the jaw is in the up position.
The cutter can hold any pen with a maximum barrel diameter
of 7/8-in (22-mm).
3. Tighten the clamp screw until the blade or pen is secure.
Figure 21. Installing the blade holder in the carriage jaw.
Chapter 2: Operation
33
Adjusting Exposure and Force
Properly adjust blade exposure and force to achieve good cutting
results. Getting this right can make or break a design.
Adjusting Blade Exposure:
1. Turn the Force knob clockwise to maximum. Set the Speed to
50% with the keypad knob. The maximum force setting is ad-
i
Successive test cuts will automatically be positioned to the left of
the previous test cut.
Note
Figure 22. When properly exposed, the blade lightly scores
the backing.
justable in the Control Center to 500 grams (400 grams for the
I/S 60), if required for thick materials. A maximum force of 200
grams is sufcient for most materials.
2. Check that the blade tip is barely visible when viewing the
blade from the side. This technique approaches the correct
blade exposure from too little with no chance of having too
much (which could damage the blade).
3. Press the START / STOP button on the front panel until the
LED is red. Move the carriage until the blade is near the right
edge of the material.
4. Press the Test Cut key for one second. The cutter will cut a test
design. There will be no cutting if the initial foot adjustment
was correct.
5. Turn the foot 1/8-turn upward (clockwise from below). Press
the Test Cut key. The material should have a light pattern.
6. Continue increasing the blade exposure and making test cuts.
The test design will completely separate from the surrounding
material and lightly score the material backing when enough
blade is exposed.
34
Ioline SmarTrac User Guide
Force Adjustment:
Different types of materials require a different cutting force. Before
adjusting Force, make sure that the blade exposure is adjusted rst.
See Adjusting Blade Exposure, above.
1. Turn the Force knob down slightly from maximum, about one
mark, and repeat the Test Cut. Use Full Force if the Test Cut is
not complete.
2. If the Test Cut is complete, turn the Force down again and
repeat the Test Cut. Continue until the cut is incomplete. This
indicates that there is not enough force to push the exposed
blade fully into the material. At this point turn the Force knob
up one mark, which should be just enough.
Verication:
1. Press the Test Cut key for 3 seconds. The cutter will cut a 1.9
inch x 7.1 inch design.
2. If the design does not separate cleanly and leave a light scoring
on the backing, try another 1/8 turn upward (counter clockwise from above) of blade exposure and a very slight increase
in force.
Caution
Do not turn the material
roll or pull material tight
between the drive shaft
and the material roll while cutting
is paused. If the material becomes
suddenly tight, the machine will
jam.
Sending a Cut/Plot File to the Cutter
Always load the cutter and make test cuts to determine the correct
settings before sending any les. See the Adjusting Blade Exposure
and Force sections for more details.
Important: Make sure that the carriage and material are in the
proper position and that an origin is set by pressing Set Origin on
the keypad (LED is green).
Send the le directly from the design software following the directions in the documentation or—
From the Ioline Control Center:
1. From the menu bar select File, Send Cut/Plot File.
2. Either enter the path and le name of the cut or select the correct location from the directory\le lists in the dialog box. For
example, the path might be:
C:\IOLINE\<lename>.plt
4. Select OK.
Pausing Cutting
1. Press the START / STOP key to place the cutter in STOP mode
(red LED).
2. When cutting is interrupted, the carriage and material can be
moved with the keypad Arrow keys.
3. Press the START / STOP key to resume cutting. The cutter will
return to the original cutting position and continue plotting
where it stopped. The keypad LED will change from red to
green.
Canceling a Cut
1. Press the START / STOP key to place the cutter in STOP mode
(red LED).
2. Cancel the cut from the design software (refer to the design
software manual or consult software dealer) or cancel the cut in
the Control Center software by clicking on the Abort button in
the Send File window. (Note: If this step is skipped the cut will
continue when a new origin is set.)
3. Press the Set Origin key to make the cutter delete the cut data
it has already received but has not yet plotted.
Suggested Settings
There are many variables that determine cutter output quality. Ioline
recommends using low force and speed settings when making the
initial test cuts. Gradually increase these settings until the best values
for the material are found. Refer to Figure 23 for settings for a variety
of material types. Force values are provided for starting reference
only. These settings may vary due to manufacturer, color, age, and
temperature of the material.
Chapter 2: Operation
35
Material Thick-
Blade Offset
ness
(mils)
Amberlith™ / Rubylith™ 1 45
(mils)
o
15 30-60 med. 0.1 30o 0-5 0-50
Force
(grams)
2
Speed
(ips)
Accel-
eration
(grams)
Min.
Angle
(degrees)
Overcut
(mils)
Down
Delay
(millisecs)
Flock 15 Cobra 47 100-200 min. 1 15o 10 0
Thermo-Flock 15 45
Gorilla-Grip 4-5 45
Polyester, Metalized 2 45
Reective, Engineering Grade 5 45
Sandblast Mask2 18
3
1
1
Cobra 47 220-260 min. 1 15o 30 0
o
o
o
o
15 200-300 min. 1 15
15 200-300 min. 1 15
15 100-140 max. 1 30o 10 0
15 240-250 min. 1 30o 10 0
- - - - - - - -
o
o
10 0
10 0
36 Cobra 47 220-260 min. 1 15o 30 0
1
40
Stencil, Lacquer Adhering 1 45
Stencil, Vinyl 4 45
Stencil, Water Soluble 1 45
Tag Board 10 45
Vinyl, Calendered 3 45
- - - - - - - -
o
o
o
o
o
15 80-100 max. 1 30o 10 0
15 200-220 min. 1 30o 10 0
15 125-135 med. 1 30o 10 0
15 300-400 min. 0.1 30o 10 0
15 100-150 med.-
1 30o 10 0
max.
Vinyl, Cast 2 45
o
15 100-150 med.-
1 30o 10 0
max.
1 These sandblasts typically have a backing which is designed for cutting
by hand.
2 Use the low force setting on the pinchwheels if using a 80 cm or
larger plotter.
NOTE:
Settings should be adjusted for cutting small letters or intricate detail,
refer to the Cutting Small Characters section.
Figure 23. Suggested settings for different materials.
36
Ioline SmarTrac User Guide
Guidelines for Plotting Pens
Ioline has determined guidelines for plotting with a plotter pen.
Refer to the Figure 24 for recommended settings for a variety of pen
types. Use Test Cut and gradually increase these settings until the
best value is found for the pen being used. Remember that Force
values are for starting reference only. These settings may vary due to
manufacturer, color, age, and temperature of the material.
Paper Pen Speed Force
BMI® Super
Layat or
equivalent
high-quality
bond
“ BIC® Round
“ Standford®
“ HP®-style
— Plastic tip — — Not
— Ceramic tip — — Not
— Liquid ink /
Figure 24. Plotting pen guidelines.
HP®-style
ballpoint
Stic ballpoint
Sharpie
ber tip
Metal tip
Maximum 60 – 80 1 5ms pen up/
Maximum 180 – 200
Maximum 70 – 100
Maximum 70 – 100
— — Not
(grams)
Comments
1 5ms pen
down delays
recommended
recommended
recommended
Cutting Long Designs
When cutting long designs, it becomes increasingly important for
the material to be aligned properly and for the settings to be properly adjusted. Before cutting, verify that the SmarTrac is properly
calibrated and that the pinchwheels are correctly spaced. For best results, certain system settings should also be adjusted. Use the Ioline
Control Center to make these changes. The following suggestions
will help you produce ne quality long designs.
1. Use a stand or cradle. The use of a stand or cradle takes advantage of the cutter platen design. When draped over the platen,
the material benets from its natural tendency to curl downward.
2. Build a material slide. Cut two cardboard pieces the width of
the stand and large enough to lean against the stand legs. This
prevents the material from going under the machine and getting buckled with material from the other side.
3. Check the material roll. Place the roll of material to the right
of the material cradle or media rollers. Make sure the roll is
tightly wrapped and even along the sides.
4. Load the material straight. See the previous sections Loading the
Material and Aligning the Material and Pinchwheels to properly
load the cutter.
5. Lower Acceleration. Using the Ioline Control Center, set Accel-
eration to 0.5 g or less. Lower acceleration will help with overall
accuracy, especially in the transition between Frames.
6. Use Autoloop. Autoloop will gently pull a set amount of material from the roll. This helps the material feed into the cutter
more accurately and keeps it from “jerking” from the roll.
Autoloop also helps to set up the drive track in the backing of
the material, which helps keep the material aligned. Autoloop
is enabled in the Control Center. Set Autoloop to ON and set
the Loop Size to the default of 30 inches. Setting the Panel
Size in the design making software to the same length as the
Loop Size might help tracking accuracy. If Autoloop is OFF,
maintain a service loop of material behind the cutter to prevent,
“jerking,” material from the roll.
7. Speed. Set the Speed knob to 50 percent or less. Moving the
material at a slower speed helps to keep it more stable and
prevents it from kinking or buckling.
8. Force and Blade Depth. Incorrect cutting Force and Blade
Depth can cause misalignment problems over the range of a
long plot. If the Force is too high, the material may skew. If the
Blade Depth is set too deep, it could cut all the way through
the material and/or cause the material to become jammed under the blade.
Chapter 2: Operation
37
9. Let the software help. Use the Automatic Sorting, Ordering or
Contour Ordering feature in the design software (some soft-
ware programs automatically handle this process). This will
reduce the number of time consuming back and forth and side
to side movements. Wear on the material backing (as well as
the material itself) is decreased, which will improve tracking.
The more complex the le, the more difcult the problem.
10. Use the Paneling feature in the design software. Paneling will
restrict the length of any X-axis move. Ioline suggests a Panel
Size of 10 to 20 inches. With most design making software,
the Paneling feature allows the placement of a panel between
characters.
Cutting Small Characters (Under 1/4-in.)
For cutting small characters or intricate detail in various material, it
is necessary for the cutter to be calibrated properly and to make sure
the pinchwheels are spaced correctly. Also, some of the system settings should be adjusted to achieve more accurate detailed cutting.
This is done by making changes in the Ioline Control Center and by
adjusting the dial controls on the front panel. The following is a list
of adjustments that should be made:
1. Lower Force. The lowest blade force possible is the best for
small, detailed cutting. Start by making test cuts with one
quarter Force. Gradually increase the Force until the material is
completely cut.
2. Slower Speed. The Speed knob should be set halfway or less.
3. Foot Adjustment. After setting the lowest cutting Force, adjust
the Foot downward until the cut is not complete, then back
it up just enough to get a complete cut. Since some Force is
38
Ioline SmarTrac User Guide
applied to the Foot, a slight increase in cutting force might be
necessary. When the Foot is adjusted properly, the blade tip
should just cut through the material.
4. Lower Acceleration. When cutting Rubylith or Amberlith, set
the Acceleration to 0.1 g in the Control Center. Set the Accel-
eration to 0.5g for all other material.
5. Minimum Angle. This is listed in the Control Center under the
Blade Steering Arc heading. The Minimum Angle should be
set at 0 degrees.
6. Overcut. Set this between 0-5 mils. If weeding becomes difcult at corners, increase Overcut by one mil at a time until
weeding is easier. A little more force might help if the material
has incomplete cutting not at the corners.
7. Offset. Usually the offset listed for the blade is used as the
Offset in the Control Center. For very small characters, tiny
manufacturing variances among blades can make a difference.
Check this by cutting small characters with sharp turns, i.e. the
letter N. With the standard 45 degree, .015 inch offset blade, try
several tests using different offset values, i.e. 13, 14, 15, 16, and
17 mils, then pick the value with the best result.
8. Position the Wheels. Place the pinchwheels near the cutting
area to assure that the material stays at.
How to Pounce
Use the pounce feature with high quality paper. Ioline recommends
20 lb. paper that lies at. A pounce tool and a pounce blade (available from Ioline) are also required.
1. Select Pounce in the Ioline Control Center. Make sure that Tag
Board Cutout is turned OFF. Put the cutter in START mode
(green LED on). Update the cutter with the Send Settings (temporary or permanent) buttons.
2. Slide the paper roll onto a media roller (use the roller as an
axle). Ioline does not recommend using two media rollers to
cradle paper rolls.
3. Enable Autoloop or create a service loop of material.
4. Set the Speed knob to maximum. Set the Acceleration to 0.5 g.
Performance will vary with different paper types. Experiment
with lower settings if required.
5. Turn the Force knob to maximum (default is 200 grams).
6. Install the pounce tool and blade like a standard blade holder.
(Note: there is no foot on the pounce blade assembly.)
7. With the Red light ON, press the Test Cut key for 3 seconds.
The cutter will pounce a 1.9 inch x 7.1 inch design.
8. Increase or decrease the force on the Force Knob as needed for
a complete puncture through the paper. If the pounce blade
picks up the paper and jams, try setting the Force and/or Ac-
celeration to lower settings.
9. The Pouncing Cut is intermittent - short pounce cut followed
by a longer uncut segment. The default length is 40 mils (.04
inches) for the cut and 600 mils (.6 inches) for the blank. The
lengths of the cuts and blanks are adjustable with the Control
Center. Perform test cuts to determine the proper settings for
these parameters. (E.g., try wider blank spacing for larger images.) See the section describing the Ioline Control Center for more
details on adjusting the cut and blank settings.
Stencil Cutting
Stencil material (Tag Board) is handled much the same as thinner
material with the important exception of using much higher force.
1. Select Tag Board Cutout in the Ioline Control Center. Make
sure that Pounce is turned off. Put the cutter in START mode
(green LED on). Update the cutter with the Send Settings (temporary or permanent) buttons.
2. Slide the paper roll onto a media roller (use the roller as an
axle). Ioline does not recommend using two media rollers to
cradle tag board rolls.
3. Enable Autoloop or create a service loop of material.
Chapter 2: Operation
39
4. Install a blade holder in the carriage.
5. Perform test cuts to establish blade exposure and Force settings. See the section Adjusting Blade Exposure and Force for
the proper procedure. Most tag board cuts are made at or near
maximum force (400 grams). Check the Control Center for the
maximum force setting. Adjust as necessary. See the Suggested
Settings in Figure 23 for more details.
6. A Tag Board Cut is intermittent - a long cut length followed
by a short uncut segment. The default length is 2000 mils (2.0
inches) for the cut and 60 mils (.06 inches) for the blank. The
lengths of the cuts and blanks are adjustable with the Control
Center. Perform test cuts to determine the proper settings for
these parameters. See the section describing the Ioline Control
Center for more details on adjusting the cut and blank settings.
40
Ioline SmarTrac User Guide
Tangential Cutting
This feature is available only on SmarTrac SC and wider
I/S models manufactured after March 2005.
When enabled, the tangential cutting feature will carefully align the
blade with the line segment before making each cut in the material.
This process is useful for especially challenging materials like reective vinyl. Using tangential cutting will reduce throughput because
of the extra alignment steps. Use the Ioline Control Center software
to enable and adjust tangential cutting.
Follow these steps to enable tangential cutting:
1. Power on the Ioline cutter.
2. Use the Arrow keys to position the blade and material where
cutting should begin. Press the Set Origin button on the keypad so that the keypad light turns green.
3. Open the Ioline Control Center software.
4. Find the Tangential Cutting box on the main screen.
5. Check the box next to Enable. Press Permanent in the Send
Settings to Cutter window.
6. Perform a test cut on the machine. See Cutting a Design earlier
in this chapter to learn about test cuts.
7. Adjust parameters as necessary. The settings are explained
below. Make sure to press Start/Stop until the keypad LED is
green before updating settings in the cutter with the Permanent
button.
8. The cutter is ready to make tangential cuts. Open the Control
Center software and uncheck the Enable box then press the
Permanent button to return to normal cutting mode.
Figure 25. The Tangential Panel.
Chapter 2: Operation
41
Contour Cutting
This feature is available only on SmarTrac Contour (SC)
models and retrotted I/S 85 models.
The contour cut feature provides an automatic registration process
that, when combined with contour cut enabled design software, will
read registration marks on a pre-printed image, send the position
data to the software, then receive an ‘adjusted’ plot le that precisely
cuts around the image. The registration and adjustment process is
required because the color printing and/or laminating process may
distort the media, especially when heat is used to cure the ink or
apply lms. These processes cause the image to expand and contract
and might affect accuracy.
The following conditions are required
for successful registration cutting with
an Ioline SmarTrac
Contour cutter:
1. The background
material is
white.
1-in
1-in
i
If using a pen for testing, recalibrate the sensor by following the
calibration process described in
this User Guide.
Note
2. Four registration marks are
printed in the
corners of an
encompassing rectangle
around the
pre-printed
image(s). In
other words,
the marks form
the corners
of a rectangle
that encloses,
and is at least
1-in bigger on
all sides than,
the maximum
dimensions
of the printed
image(s). See
Figure 26.
3. The registration marks are solid rectangular black squares with
a minimum size of 0.275-in. (7-mm) and a maximum size of .59
in. (15 mm). Ioline recommends a 0.394-in. (1-cm) square. See
Figure 27.
Figure 26. Rectangular registration marks.
1-cm
1-cm
Figure 27. Ioline recommends registration mark di-
mensions of 0.394-in (1-cm) square.
4. Make sure there is a minimum margin of 3-in. between the
registration marks and the edge of the vinyl on both sides and
the top and bottom. See Figure 28.
42
Ioline SmarTrac User Guide
5. The design
software was
used to create
the registration marks,
is capable of
initiating registration process
for Ioline cutters, and can
adjust the cut
le using the
registration
measurements
made by the
cutter. Contact
the manufacturer of the design software to determine if Ioline
contour drivers are available.
6. An origin point should be set on the cutter so that the sensor
light is positioned within the center of the rst registration
mark. See Figure 29 before scanning begins. See Set Origin earlier
in this chapter to
learn the steps for
setting an origin
point with the
keypad.
Figure 28. There should be a 3-in margin between
the registration marks and the edge of the vinyl.
3-in
3-in
7. The sensor is
calibrated for
the tool installed in the
carriage. The
cutter is calibrated for the
blade holder at
the factory.
Procedure:
1. Load the pre-printed material into the cutter and verify that
material movement is as straight as possible.
2. Center the sensor light over the rst registration point and
press the Set Origin key on the keypad. The rst registration
point (R1) is nearest the right end of the cutter and the front
edge of the material. See Figure 29.
3. Use the design software to begin the registration process. The
cutter will automatically scan all four registration marks and
send the measurements back to the design software.
4. The design software will adjust the cut output to the image
then send the Ioline formatted le to the cutter.
Figure 29. Registration mark locations on plot.
There are three communication diagnostic tests available in the
Control Center. These tests are designed to help determine if a
communication problem exists and to isolate where the problem is
occurring.
A diagnostic module is required to run two of these tests. It will
work on both the computer and cutter serial (COM) ports. It is available from Ioline or an authorized dealer.
Communication Test
Chapter 3
Communication Testing
This test will determine if communication is working between the
computer and the plotter on the parallel (LPT) or serial (COM) ports.
Run this test from the Control Center, Test Menu. The diagnostic
module is not required to run this test.
1. Turn the plotter off. Connect the plotter to the computer with
either a serial or parallel port cable. See the section Connect
the Cutter to the Computer in the Installation chapter for more
details.
2. Start the Ioline Control Center. Select Test, Communication
Test from the menu bar at the top of the window.
3. Turn on the cutter while holding down the Test Cut key on the
keypad. Hold down the Test Cut key until the cutter beeps and
the light ashes three times. The cutter is now in Test Mode.
4. If testing the serial (COM) port, press the START / STOP key
on the cutter and verify that the handshake line (CTS) status
displayed on the computer screen toggles ON/OFF. Leave the
handshake line ON. This is not necessary for the parallel (LPT)
port.
5. Press the Repeat key to switch the cutter into Echo Mode. The
Green light will come on.
6. Press a key on the computer and verify that the character transmitted equals the character received. If the characters match
then the connection between the cutter and computer is working properly.
7. Select Exit after the communication test is complete.
8. Turn off the cutter at the end of the test to exit Test Mode.
9. The next two tests are not necessary if serial (COM) port testing
is successful.
44
Ioline SmarTrac User Guide
Testing the Cutter Serial Port
The diagnostic module is required for this test.
1. Connect the diagnostic module directly to the cutter COM port.
2. From the Control Center main menu, select Test, Plotter Port
Test.
3. Turn on the cutter while holding down the Test Cut key on the
keypad. Hold down the Test Cut key until the cutter beeps and
the light ashes three times. The cutter is now in Test Mode.
4. Press any Arrow key on the keypad to transmit and receive
characters. Verify that the cutter beeps.
5. Turn off the cutter at the end of the test to exit Test Mode. If
this test fails, the cutter port is faulty.
Testing the Computer Serial Port
The diagnostic module is required for this test.
1. Connect the diagnostic module directly to the COM port on the
computer. If the computer COM port has a nine pin connector,
use a 9-pin to 25-pin adapter between the COM port and diagnostic module.
2. From the Control Center main menu, select Test, Computer
Port Test.
3. Verify that the COM port selected is the correct one. If it is not,
select the proper COM Port.
4. Verify the CTS handshake line is on.
5. Press any key on the computer keyboard and verify that the
character transmitted equals the character received.
6. Select the Exit button at the end of the test to exit Test Mode. If
this test fails, the computer port is faulty.
If the system is not working correctly the problem could be with the
computer, the cable, the design software, or with the cutter. Changes
to the computer operating system or the installation of new periph-
erals or software might cause conicts. If the computer or the design
software cause a problem, consult the computer or software manuals
or call the manufacturer or dealer.
If the problem is with the cutter, begin by making sure power is
on and that the cable between the machines is connected correctly.
Test the connection with the methods described in the Communica-
tion Testing section. Consult the following chart for more detailed
troubleshooting techniques:
Chapter 4
Troubleshooting
Troubleshooting Chart
The plot does not start at the correct point on the material.
Cause:
1. You have not set an origin.
2. The origin selected in your software is different than the one
you selected on your plotter.
The plot does not repeat when pressing the Repeat key.
Cause:
1. Buffer overow: le size exceeds
buffer size.
When a plot is sent, nothing happens.
Cause:
1. The SmarTrac is in STOP mode.
2. You forgot to set an origin.
Solution:
1. Select an origin.
2. Select origins in the software
and on the plotter that coincide
(usually lower-left, which is the
right side of the plotter. See
Figure 4.)
Solution:
1. See Repeat under the Opera-
tion chapter.
Solution:
1. Press the START / STOP key on
the keypad to put the SmarTrac
in START mode.
2. Use the Arrow keys to position
the blade and press Set Origin
on the keypad.
3. There is a communications
problem.
3. See Communication Testing
and perform diagnostic tests.
Contact your dealer if the prob-
lem persists.
46
Ioline SmarTrac User Guide
Printing or cutting is erratic.
Cause:
1. The wrong plotter language is
assigned to the plot le.
The blade skips or tears the material.
Cause:
1. The blade is dirty.
2. Blade Force is too low.
3. The blade is dull or broken.
The corners of the plot or cuts do not completely meet.
Cause:
1. The material is slipping.
2. The blade is dull or broken.
3. The Blade Overcut is too low.
4 The Blade Offset is incorrect.
The design does not weed cleanly.
Solution:
1. Make sure the correct driver setting is selected (HPGL or DM/PL).
Solution:
1. Clean or replace the blade.
2. Increase Blade Force.
3. Replace the blade.
Solution:
1. Clean the drive shaft.
2. Replace the blade.
3. Use a higher Blade Overcut
value.
4 See the Blade Offset section.
Cause:
1. Blade Force is too low.
2. The blade is dull or broken.
3. The Blade Overcut is too low.
4. The Offset is incorrect.
Poor tracking.
Cause:
1. Pinchwheels are positioned
over a bearing (e.g. a
smooth section) of the drive
shaft.
2. Blade Force is too high.
3. Acceleration is set too high.
4. Speed is set too high.
5. The material kinks as it accumulates in the front or rear of the
plotter.
6. The drive shaft is dirty.
Solution:
1. Increase Blade Force.
2. Replace the blade.
3. Use a higher Blade Overcut
value.
4. See the Blade Offset section.
Solution:
1. Reposition the pinchwheels.
over a drive shaft tread (located
under the white drive shaft
markers).
2. Reduce the Blade Force.
3. Set Acceleration to .5g.
4. Reduce Speed to 50% or less.
5. Make sure the material remains
smooth, at and square during
loading. Clear the media path
in the front and rear of the
SmarTrac.
6. Clean the drive shaft.
Chapter 4: Troubleshooting
47
LED Codes
The Green light on the front panel blinks once:
Cause:
1. The carriage is jammed
The Red light on the front panel blinks once:
Cause:
1. The drive shaft is jammed.
The Red light on the front panel blinks twice:
Cause:
1. Buffer overow or communication problem.
Solution:
1. Turn the SmarTrac off and clear
away any debris or jammed
material.
Solution:
1. Turn the SmarTrac off and clear
away any debris of jammed
material.
Solution:
1. See Communication Testing
and perform diagnostic tests.
Call your dealer if the problem
persists.
i
If any yellow lights blink on the
keypad, make note of the number
of times the light blinks and
contact Ioline Customer Service
immediately. Contact information is located in the End Notes
chapter.
Note
The Red and Green lights on the front panel blink intermittently:
Cause:
1. Plotter language syntax error.
2. Bad or corrupted le.
Solution:
1. Make sure the correct driver is
selected.
2. Restore the le from backup or
recreate it.
Troubleshooting the Parallel Port (for older machines)
If the computer communicates with the cutter over a network, it is
common for LPT 1 to be ‘captured’, meaning, the data is redirected
to the network instead of owing out of the parallel port on the back
of the computer. Ending the capture will allow data to ow normally
from the computer to the plotter.
1. Click the START button, select Settings and then click Printers
to open the Printers window.
2. Right Click the printer icon for a network printer and select
Properties.
3. Click on the Capture Settings or Details tab.
4. Click on End Capture. Select LPT 1 and click OK.
5. Assign the network printer path to another parallel port designation such as LPT 3. Set the printer to use that port or select a
network print queue path.
i
If other lights are visible, contact
Ioline Customer Service.
i
These instructions may vary depending on the Windows® version.
Note
Note
48
Ioline SmarTrac User Guide
BIOS settings can also have an effect on parallel port performance.
The SmarTrac supports only SPP parallel port communication. ECP
and EPP modes are not supported. These instructions include editing the PC BIOS to ensure that the port is in the proper mode prior to
staring Windows.
1. Click the START button, select Settings and then click Control
Panel to open the Control Panel window.
2. Double Click the System icon to open the System window and
then click the Device Manager tab.
3. Remove the parallel port by clicking Ports, selecting the port
and clicking the Remove button.
4. Shut down Windows.
5. Restart or Reset the computer.
6. Enter the PC BIOS setup. This is usually done by hitting the
DEL key or ESC key during the boot sequence. Consult the
computer manuals or contact the manufacturer for more information about entering BIOS setup.
7. Find the parallel port setup options and set the port to be SPP
(not ECP or EPP). Also, make sure there is no DMA activity
over with the port.
8. Save the BIOS settings and exit setup.
9. Restart the computer and allow Windows® to start up. Windows® should nd the port and install it using the new settings.
Chapter 5
Routine Maintenance
Replacing the Blade
If plot quality suddenly degrades the blade might be dull or broken.
The tip of the blade is very fragile and can chip or break if dropped.
It is difcult to see when the blade is damaged. A magnifying glass
can be helpful. To replace the blade:
1. Remove the adjustable blade foot by unscrewing it counterclockwise.
2. Remove the old blade with a pair of needle nose pliers and
discard it.
3. Slide the new blade into the blade until it bottoms out. The
blade should spin freely.
4. Screw the foot onto the blade holder (clockwise). Stop just before the blade tip emerges.
Caution
The blade tip is sharp and
fragile. Be careful when
handling it.
Figure 30. Replacing the blade.
5. Perform test cuts as described in the Cutting a Design section
before continuing to use the cutter.
50
Ioline SmarTrac User Guide
Caution
Warning: Do not use any
cleaning agents (beside
alcohol), water or brushes
with metal bristles to clean parts
of the plotter. Pay special attention to keeping the drive shaft
bearings free of all liquids.
Cleaning the Drive Shaft
Clean the drive shaft regularly to make sure the cut lines remain accurate. To clean the drive shaft:
1. Turn off the cutter and disconnect the power cord.
2. Remove any accumulated dust and residue with a stiff bristle
brush.
Figure 31. Cleaning the drive shaft.
i
The Scale command does not
effect the calibration values.
Note
Size Calibration
Over time, cutters may require calibration to account for normal wear
and tear. Typically, the accuracy of a cut is within 0.2% overall. By using
the calibration feature, the variance can be adjusted to within 0.05%.
Prepare the cutter:
1. Open the Ioline Control Center program. Put the cutter in
START mode (green LED).
2. Load the cutter with material that is greater than 22-in wide
(60-cm model) or greater than 30-in wide (80-cm or larger models) and a minimum of 48-in long. Install a blade holder (use
cutting material) or pen (use paper material) in the carriage.
Enable Autoloop or manually create a service loop of material.
3. Move the carriage and material with the Arrow keys so that
the blade or pen is about one inch from both the right and front
edge of the material. Set an origin. See the Operation chapter for
more details on preparing to cut.
Gather the Calibration Data:
1. Select Calibrate, Calibrate Plotter from the Control Center
Menu Bar.
2. Select Calibration Plot to cut the factory stored calibration cut.
The cutter will plot a large box. (Figure 32.)
3. Precisely measure both X-axis and Y-axis lines. Better accuracy
in measurement equals better calibration.
4. Measure both sides and the top and bottom of the box.
Y1
X1 X2
~40 in.
Y2
Figure 32. The Calibration Box and measurements.
5. Take the average of the horizontal (Y) values by adding them
together and dividing by 2. Repeat this procedure for the vertical (X) values.
Chapter 5: Routine Maintenance
51
Example:
If X1 = 39.750 in. and X2 = 39.700 in.
The sum is 79.450 in. (39.750 in. + 39.700 in. = 79.450 in.).
The average is 39.725 in. (79.450 in. / 2 = 39.725 in.)
The X calibration value is the average, 39.725 in.
Enter the Calibration Data:
1. Enter the measured values in the boxes in the Calibration window. Make sure the SmarTrac is in START mode (green LED).
Select the Set Calibration button.
2. The cutter will send the calibration values and the new Cali-
bration Setting will be displayed in the boxes in the window.
3. Click on Done when nished.
52
Ioline SmarTrac User Guide
Hint
Sensor calibration is required
if using any tool other than the
Ioline blade holder (i.e. a ball
point pen). Calibration is also
required to switch back to the
Ioline blade holder after calibrating for a different tool.
Calibrating the Sensor for
Contour Cutting
The registration sensor is calibrated for
the standard Ioline
cutting tool at the
factory before shipment. If the registration sensor if ever
replaced or if tools
other than the standard Ioline blade
holder are used for
registration, use the
following process
to recalibrate the
sensor:
Figure 33. Print and measure a 1-cm black square
on a white background.
1-cm
1-cm
Prepare to
Calibrate the
Sensor
1. Print a black
1-cm square on
a white background. Use the
sensor calibra-
tion les, 1cm_
square.jpg or
1cm_square.doc,
in C:\Ioline\
Calibration to
generate the
square. Make
sure that there
is at least a margin of 3 inches
from each edge
of the material
to the edges of
the box. Printing the square
in the center of
a standard sheet
of white paper
is acceptable.
Make sure to
carefully measure the square
after printing to
ensure that it is
exactly 1-cm.
Figure 34. Registration tool in jaw.
Figure 35. Press the tool down to verify the tip lines
up with the corner of the box.
2. Insert the tool that is used during registration into the tool
jaw on the carriage. If calibrating for the Ioline blade holder,
insert the registration tool (Ioline PN 105745) included in the
Accessory Kit.
3. Move the carriage and material so that the tip of the tool is near
the lower left corner of the black square.
4. Turn the Speed knob down to the minimum level and continue
to position the carriage and material until the tip is exactly over
the corner. Gently press the tool down onto the paper to ensure
that the tip is lined up. See the Figure 35.
5. Press the Set Origin button on the keypad and ensure that the
keypad light is Green.
Calibrate the Sensor
1. Open the Ioline Control Center. A shortcut is available in
Start>Ioline.
Chapter 5: Routine Maintenance
53
Figure 36. The Control Center Calibration window.
2. In the Menu Bar, choose Calibrate>Calibrate Plotter…
(Figure 36.)
3. Press the Sensor Calibration button at the bottom of the window.
4. Ensure the cutter is ready with the tip of the tool positioned
over the lower left corner of the black box and a Green keypad
LED. Press the Calibrate Sensor button in the small window
that appears. (Figure 37.)
5. The sensor will automatically perform the calibration process
and update the four values in the windows.
6. Press Done when the process is complete.
54
Ioline SmarTrac User Guide
Figure 37. The Small Sensor Calibration window.
7. Perform test registration cuts to verify that alignment is correct.
If it is not, check that the black box is exactly 1-cm then repeat
the procedure again. Contact Ioline Customer Service if calibration is unsuccessful.
Getting Help
Ioline is committed to providing the highest quality service and support to its customers. If you need assistance with an Ioline SmarTrac,
a number of resources are available:
1. First, refer to this SmarTrac User Guide for answers to your spe-
cic questions.
2. Many detailed troubleshooting and repair issues are listed in
the SmarTrac Service Manual, available upon request from
Ioline Customer Service.
Chapter 6
End Notes
Hint
SmarTrac Service manuals, technical bulletins, software updates and
other information are available
to SmarTrac owners on www.
ioline.com. Access is free.
3. Consult the support section of the Ioline Web site: www.ioline.com.
4. For additional assistance, contact your local dealer or Ioline
Customer Service. Contact information is listed under Customer
Service in this chapter.
Any warranty servicing of this product not specically described
in this manual must be authorized in writing by Ioline Customer
Service. You may obtain service by calling or faxing Ioline Customer
Service. The technicians will help you determine the nature of the
problem. If factory repair is necessary, you will receive a RMA (Return Material Authorization). Please gather the information indicated on the next page before contacting Ioline or your dealer.
1. When returning a machine, carefully package the equipment
in its original container or packaging equivalent. You may
purchase shipping containers from Ioline by contacting Ioline
Customer Service. Ioline is not responsible for any damage
due to inadequate or improper packaging.
2. Carefully wrap and secure all items in the shipping container to
prevent damage. Seal the container and note the RMA number
near the address block.
3. Ship the container using FED-EX or another approved carrier.
COD shipments ARE NOT ACCEPTED. An Ioline representative will contact you prior to the start of work with an estimate
of repair cost. All repairs are warranted for 90 days.
56
Ioline SmarTrac User Guide
Customer Service
Ioline Corporation is committed to providing quality service and
support to our customers. If you need assistance with an Ioline product, contact your local dealer or Ioline authorized service center. You
may also contact:
Ioline Customer Service Department
Monday through Friday
7:00 A.M. - 5:00 P.M. U.S. Pacic Time
Voice: 1.425.398.8282
Fax: 1.425.398.8383
support@ioline.com
www.ioline.com
Your Comments
Are Requested
Ioline Corporation is interested in comments on our documentation
and products. Please send corrections or suggestions to:
Ioline Corporation
14140 NE 200th Street
Woodinville, WA 98072 USA
Voice: 1.425.398.8282
Fax: 1.425.398.8383
info@ioline.com
www.ioline.com
Before you contact Support…
Please gather the following information about your printer before
contacting Ioline or your dealer for technical support:
The FCC Wants You to Know...
This equipment generates and uses radio frequency energy and, if
not installed and used properly (in strict accordance with manufacturer instructions), it may cause interference to radio and television
reception. Operation is subject to the following two conditions: (1)
This device may not cause harmful interference, and (2) this device
Name:
Company
Name:
Phone
Number:
Fax:
E-mail:
Chapter 6: End Notes
57
Model:
Serial
Number*:
Date of
purchase:
Dealer:
Type of material
used:
Type of
Computer:
Type of
design software:
New software
or peripherals:
Service history:
* Look for the serial number above
the power switch on the back side
of the right cover.
58
Ioline SmarTrac User Guide
must accept any interference received, including interference that
may cause undesired operation. If this equipment does cause interference to radio or television reception - which can be determined
by turning the equipment off and on - you are encouraged to try to
correct the problem by one or more of the following measures:
n Use only shielded interface cables.
n Reorient the receiving antenna.
n Relocate the host computer with respect to the receiver.
n Move the host computer away from the receiver.
n Plug the host computer into a different outlet so that the host
computer and receiver are on different branch circuits.
If necessary, consult the dealer or an experienced radio/television
technician for additional suggestions. How To Identify and Resolve
Radio-TV Interference Problems, a booklet published by the Federal
Communications Commission, is a helpful reference. Please contact
the FCC to request a copy:
i
This equipment was tested
and found to comply with the
limits for a Class A digital device,
pursuant to part 15 of the FCC
Rules. These limits are designed
to provide reasonable protection
against harmful interference when
the equipment is operated in a
commercial environment. This
equipment generates, uses, and
can radiate radio frequency energy and, if not installed and used
in accordance with the instruction
manual, may cause harmful interference to radio communications.
Operation of this equipment in a
residential area is likely to cause
harmful interference in which
case the user will be required to
correct the interference at his or
her own expense.
Note
www.fcc.gov
Document stock number: 004-000-00345-4
This booklet is available from:
U.S. Government Printing Ofce
Washington, D.C. 20402
Glossary
A
Acceleration - The rate that a cutter changes the
velocity of the carriage or the material. Acceleration
is measured in units of g (1 g = 32.2 ft/s2). Higher acceleration can increase throughput but may degrade
cut quality.
Arc - A segment of a circle, also called a curve.
Axis - The geometric guidelines used to place a coor-
dinate. Used to determine pen or blade paths for
cutters.
B
Blade - Refers to the carbide steel cutting tool used
by design-cutting cutters. Blades are specied by
offset (tip distance from center) and angle (relative
to material). They are designed to work with many
different materials.
Blade Bevel - Angle of the vertical cutting edge of
a blade. Larger angles help the blade travel through
thicker material that produce more drag between the
blade and the medium.
Blade Offset - The distance the blade tip trails behind the center of the blade.
Blade Steering Arc - The arc followed by the center
of the blade as it rotates around the (xed) tip. This
is used to align the blade in the direction of the next
vector so no tearing occurs.
Cast - Polyvinyl chloride (PVC) sheeting formed by
spreading a molten vinyl mixture on a carrier sheet
or web, and then baking at high temperatures to remove solvents and fuse the remaining material into
a lm. Cast lm is usually thinner and more expensive than calendered vinyl.
Control Panel - Panel on the right side of the machine where primary plotter functions are accessible.
Also called the Keypad.
Coordinate - A point that can be referenced by its
position on the X or Y axes of a cutter. The use of
line or arc segments to connect coordinates creates
paths for pens and knives to follow when cutting.
Contour Cut - The contour cut feature provides an
automatic registration process that, when combined
with contour cut enabled design software, will read
registration marks on a pre-printed image, send the
position data to the software, then receive an ‘ad-
justed’ plot le that precisely cuts around the image.
Cut Sheet - A single piece of material that is loaded
into the cutter but is not pulled from a roll.
D
DM/PL - Programming instructions language used
to connect a cutter with a computer. DM/PL is used
in the plotter drivers of some design programs.
Drive Shaft - The motor driven shaft that moves
material through a friction feed cutter. The drive
shaft has a rough surface that grips the material.
C
Calendered - PolyVinyl Chloride (PVC) sheet-
ing squeezed between a series of heated rollers to
achieve a small enough thickness for cutting with a
cutter. Calendered lm is generally thicker and less
expensive than cast vinyl, but it sometimes tends to
shrink or move back to its original thickness.
F
File Name Extensions - In MS-DOS® and Windows®
based programs, the three letters after the period in
a le name. In design les the three letters denote
a le type, such as the vector and bitmap based
Encapsulated Postscript (EPS) and the vector based
Hewlett Packard® Graphics Language (PLT).
6060
Ioline SmarTrac User Guide
Flange - The projecting rim around the edge that
holds the pen or blade holder to the tool carriage.
The cutter automatically recognizes when a pen or
blade is installed and changes cutting parameters
accordingly.
Font - Refers to the style and width of a particular
design of letters, numbers, and symbols, such as
Helvetica Bold or Times Roman.
Force - In cutting, the downward pressure exerted
on a pen or blade tip to ease cutting through materials. Additional force can be added by adjusting the
Control Center Force settings and updating the cutter. Increasing the force will darken pen lines or aid
in cutting thicker materials like tag board.
Friction feed - Process where the material is fed
through a cutter by placing it between a motor-driven drive shaft and tensioned pinchwheels.
G
H
HPGL Setting - The cutter supports three industry
standard cutter languages: HPGL 7475, HPGL 7596,
and DM/PL. Most design software uses DM/PL or
HPGL 7475 which have a lower left origin. DM/PL
cannot be selected in the Control Center because the
cutter will automatically recognize it. HPGL 7596
uses a center origin so cutting begins at the center of
the intended cutting area.
I
Idler Wheel - Secondary wheels that help keep wide
material at during cutting.
J
K
Keypad - Panel on the right side of the machine
where primary plotter functions are accessible. Also
called the Control Panel.
M
Mil - Thousandths of an inch or milliinches. For
example; 75 mils is the same as .075 inches. 1 mil is
equal to .025mm.
Minimum Angle - This is the minimum angle for
which the machine will perform a Blade Steering
Arc.
O
Offset - The distance the tip of the blade trails be-
hind the center of the blade.
Origin - Place marking the zero (0) coordinate on
the X or Y axes. Used as a starting reference by cutters for pen or blade paths.
Overcut - Distance the blade travels beyond the end
of each cut vector.
Overlap - Amount of material cut in one panel (or
tile) that duplicates what is done in the previous
panel (or tile). The overlapped image allows for
alignment when assembling and installing a large
image.
P
Panel - Production area of a cutter. Cutters have a
size limit along the Y axis (a few inches less than the
width of the cutter) and the X axis. If a job exceeds
the production area, consecutive panels must be set
up by the design software. Also called tiling. Paneling a long cut will increase accuracy.
Parallel Communications - Method of sending
information from a computer to a cutter by sending
1 byte (8 bits) at a time through a cable. This method
is faster than serial communication. The parallel port
on a PC is a female (small holes) connector.
Plotter - A device that uses coordinates and vectors
to create images. In electronic design making, plotters recreate vectors on material with a set of coordi-
nates stored in a computer le.
Pinchwheel - Wheeled roller, tensioned by springs,
that clamps material between it and the drive shaft
for transporting the material.
L
Pounce Pattern - A full sized pattern of any design
to be painted. Once the pattern is created, the outline
Glossary
61 61
is perforated into paper using the Pounce feature.
The pattern is then held rmly against the substrate
and perforations patted with powder, charcoal or
colored chalk dust, leaving an outline of the design.
R
Registration Marks - Shapes printed on material
that provide reference points for manual or automatic correction systems.
Resolution - The smallest distance that a cutter can
move the material or the carriage. Plotter resolution
affects the accuracy that a plot le is reproduced on
the material.
Roll Feed - A method of pulling material from a roll
for plotting and cutting. Works in conjunction with
panels.
S
Serial Communications - Method of sending infor-
mation from a computer to a cutter by sending 1 bit
at a time through a cable. The serial port on a PC is a
male (small pins) connector.
V
Vector - In computerized design making, a line seg-
ment between two coordinates, on which a pen or
blade path can be created for cutting.
Vinyl - Polyvinyl chloride (PVC) lm that, in design
making, is backed with an adhesive that will create a
strong bond to a surface when pressure is applied.
W
Weeding - Process of pulling extraneous material
away from a cut design leaving only the sections
representing the intended design.
X
X-Axis - Theoretical horizontal line providing a
lengthwise reference point for cutters. Associated
with material movement over the platen on the cutter.
Y
Service Loop - Slack material between the material
roll and the cutter.
Stencil - A thin sheet of material into which a design
is cut. When a stencil is placed on another substrate
and paint or ink is applied, the image represented
by the cut out portion of the stencil is printed on the
substrate below it.
T
Tag Board - A heavy paper (usually 150 pound) that
is used in the apparel industry for cutting patterns
and stencils.
Tangential Cutting - When enabled, the tangential
cutting feature carefully aligns the blade with a line
segment before making each cut in the material, offering cleaner cuts on thicker materials.
Throughput - The speed at which a cutter completes
a job. Represents the ability to process information
and produce an image.
Y-Axis - Theoretical vertical line providing a longitudinal reference point for cutters. Associated with
carriage movement on the cutter.
6262
Ioline SmarTrac User Guide
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Index
Symbols
1cm_square.doc 52
1cm_square.jpg 52
A
Acceleration 28, 35, 36, 37, 38, 46, 59
Accessory Kit 16, 32, 53
Arc 59
Arrow key ix, 21, 22, 23, 30, 34, 40, 44, 45, 50
Assembly 16. See also The SmarTrac Quick Start
Guide
Autoloop ix, 26, 29, 36, 37, 38, 39, 50
Axis 59
B
Blade
Installing 32
Replacement 49
Blade bevel 59
Blade exposure 22, 23, 33, 34, 39
Adjusting 33
Blade foot 23
Blade holder ix, x, xii, 22, 25, 27, 29, 32, 38, 39, 42, 49,
50, 52, 53, 60
Installing 32
Blade Offset 22, 28, 46, 59
Blade Overcut 28, 46
Blade status 25
Blade Steering Arc 28
Buffer 23, 25, 45
C
Calendered 59
Calibration 25, 50, 52, 53
For contour cutting 52–54
Measuring the calibration box 51, 52, 53, 54
Calibration Box 51
Cam slot 31
Cancel a job 35
Carriage x, xi, xii, xiii, 16, 22, 17, 26, 27, 28, 30, 32, 33,
34, 39, 42, 47, 50, 53, 59, 60, 61
Carriage rail. See Traverse
Cast 59
Communication
Conicts 23
Parallel 60
Parallel port 47
Serial xiv
Setup within the Ioline Control Center 25
USB xiv
Setup 19
Communication Testing 43, 43–44
COM Port 18, 19, 44
Finding 18, 19
Computer 57
Contour cutting 41–42, 59
Control Center ix, 15, 16, 22, 23, 17, 23, 24, 25, 27, 29,
33, 35, 36, 37, 38, 39, 40, 43, 44, 50, 53, 60
Menu Bar 24
Screen Menu 24
Options 26–28
Send settings buttons 24
Setup 23
Control Panel 19, 20, 48, 59, 60
Coordinate 59
Cradle 29, 30, 36, 38. See also Stand
Cross-member xiii
Customer Service 56
Cut Sheet 26, 59
64
Ioline SmarTrac Quick Start Guide
Cutting 29–42
Aligning the material 30
Canceling a job 35
Contour graphics 41–42
General guidelines 29
Installing a blade 32
Loading material 29
Long signs 36–37
Pausing 34
Quality 23, 35, 36, 38, 49, 59
Replacing the blade 49
Scraps or short pieces 26, 29
Sending cut les 29, 34
Small characters 37–38
Tangential blade control 40
D
G
Green light mode. See START mode
H
Help x, 22, 25, 36, 37, 38, 43, 55–57, 59, 60. See
also FlexPlot and Control Center
High Force Position 31
HPGL 25, 46, 60
HPGL Setting 60
Defaults 25
Design software 15, 22, 57
Support 15
DM/PL 46, 59, 60
Drive Shaft x, xii, 59
Cleaning 50
Drive shaft marker x, xii, 30, 46
Drive shaft segment 30
Dust cover x, xii
E
EPS 59
F
Factory defaults 25
FCC 58
Feed shaft xi
File name extensions 59
Filtering 25
Firmware 25
Flange 60
Font 60
Force 22, 23, 28, 29, 30, 31, 33, 34, 35, 37, 38, 39, 60
Adjusting 33–34
Force Adjustment 30, 34
Friction feed 60
I
Idler wheel x, xii, 60
Position 30
Installation 16–18
Ioline Corporation x, 56
J
Jaw 32, 52, 53
K
Keypad xi, 21, 59, 60
Arrow keys 21
Controls 21–23
Force 22
Repeat 23
Set Origin 22
Speed 22
START / STOP 21
Test Cut 22
L
LED sensor xi, xii, 41, 42, 52, 53
Limit of liability statement x
Loading material 29
Long signs 36–37
Lower left 22
Low Force Position 31
M
Material 15
Alignment 30
Feed path ix
Loading 29
Reectives 28, 30, 31, 40
Sandblast 28, 30, 31
Tag board 27
Vinyl 15, 35, 61
Maximum cutting area 26
Measurement units 26
Media 57
Media rollers xi, 16, 29, 30, 36, 38, 39
Memory 23, 25
Mil 60
Minimum Angle 28, 38, 60
N
Pinchwheel x, xii, 30, 31, 35, 36, 37, 38, 46, 60
Adjustment 30–31
For pen plotting 30
Cam slot 31
Locking 31
Locking clip 31
Maximum force 30
Position 30
Pinchwheel lever x, 30, 31
Platen xi, xiii, 31
Platen leveling foot xiii
Plotter 60
Plotter settings 25
PLT 25, 59
Pounce 26, 38, 39, 60, 61
Blank value 27
Cut value 27
Pounce pattern 60
Pouncing Cut 38
Power cord xiv
Power switch xiv, 57
Index
65
O
Ofine 21
Offset 60
Online 21
Operating System 15
Origin 22, 23, 29, 34, 35, 42, 45, 50, 60
Lower left 22
Setting 22
Overcut 22, 60
Overlap 60
P
Panel 60
Paneling 29, 37, 60
Panel size 26, 37
Parallel communications 60
Parallel port 47
Pausing 34
Pens
Guidelines 36
Installing 32
Q
R
Radio frequency 58
Red light 47
Red light mode. See STOP mode
Reectives 31, 40
Registration marks 41, 42, 59, 61
Registration tool 52
Repair 55, 56
Repeat 22, 23, 43, 45, 51
Resolution 61. See also Printing resolution
Roll feed 61
ROM version 25
S
Safety x, ix
Sandblast 28, 30, 31
Scaling graphics 26
66
Ioline SmarTrac Quick Start Guide
Scraps 26, 30
Sensor xi, xii, 41, 42, 52, 53, 54
Sensor Calibration button 53
Serial communications 61
Serial port xiv, 15, 16, 17, 18, 25, 43, 57, 60, 61
Testing 25, 44
Service 55
Service loop ix, 26, 29, 37, 38, 39, 50, 61. See also Feed
loop
SmarTrac Quick Start Guide 16, 18
SmarTrac Service Manual 55
Software. See Control Center
Speed 22, 33, 35, 36, 37, 38, 46, 53
Stand xi, 16, 29, 30, 36
Cross-member xiii
Leveling foot xiii
Stand leg xiii
Stand leg xi, xiii
Stand leveling foot xi, xiii
START mode 21, 24, 38, 39, 45, 50, 51
Start point. See Origin
START / STOP 21
Start-up Procedure 29
Stencil 15, 26, 35, 39, 61
Blank value 27
Cut value 27
STOP mode 21, 22, 23, 34, 35, 45
Support 55–57, 55–58
Contact information 56
Ioline Web site 55
Required information 57
Warranty 55
System requirements 15
System settings
Adjusting 23
Permanent 27
Saving 25
Suggested settings 35
Temporary 27
Traverse xi, xiii
Troubleshooting 45–48
Communication Conicts 23
Computer Port Test 25
Diagnostic tests 23
Plotter Port Test 25
Radio or TV interference 58
Radio-TV interference 58
Serial Test 25
Typewriter Method 30
U
Update Display 23, 27
Up/Down delays 28
USB
Setup 19
USB port xiv, 15, 16, 17, 18, 19, 20
V
Vector 61
Vinyl 61. See also Media
W
Warranty 55
Weeding 61
X
X-Axis 61. See also Plot
T
Tag board 27, 35, 38, 39, 61
Tangential cutting 40, 61
Tech Support 56
Test cut 22, 23, 27, 33, 34, 36, 38, 43, 44
Throughput 61
Y
Y-Axis 61. See also Plot
Z
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