KLA Tencor RFSC812A Integral Wafer Storage Case for 200 and 300mm Wafers User Manual Integral Wafer NC Title Page

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Non-Contact Integral Wafer™
User Manual
5451 Patrick Henry Dr.
Santa Clara, CA 95054
408-986-5600
Fax 408-986-5601
info@sensarray.com
www.sensarray.com
Copyright © 2006 by °SensArray® Corporation. All rights reserved.
UM-INT- 2007.04
SensArray reserves the right to modify, change, or improve any or
all specifications published in this document without notice.
Important Notices
Warranty
Integral Wafer System Hardware
SensArray Corporation warrants that the contact style or non-contact style Integral Wafer
Systems (“Products”) sold will be free from defects in material and workmanship, and
perform to SensArray’s applicable published specifications for a period of 12 months after
shipment for the Docking Station. The Integral Wafer is warranted for 6 months or a
specified number of operating hours, whichever occurs first. Refer to the specification
provided with your wafer for the exact warranty terms. The Products that comprise the
System shall include the Docking Station. The liability of SensArray hereunder shall be
limited to replacing or repairing, at its option, any defective Products that are returned
F.O.B. to SensArray’s plant in Santa Clara, CA. In no case are Products to be returned
without the purchaser first obtaining SensArray’s permission and Returned Materials
Authorization [RMA] number. In no event shall SensArray be liable for any consequential
or incidental damages. Products that have been subject to abuse, misuse, accident,
alteration, neglect, or unauthorized repair or installation are not covered by this warranty.
SensArray will make the final determination as to the existence and cause of any alleged
defect. SensArray is not responsible for maintaining or supplying any consumable
materials used in conjunction with this hardware. No warranty is made with respect to
any customized equipment or Products supplied with Integral Wafer systems where
produced to Purchaser’s specifications except as specifically stated in writing by
SensArray in the contract for such Products. The purchaser will pay the shipping costs of
returned materials to SensArray; SensArray will pay the cost of shipping
repaired/replaced material to Purchaser. This Warranty is the only warranty made by
SensArray with respect to the Product delivered hereunder and may be modified only by
a written instrument that is signed by a duly authorized officer of SensArray and accepted
by Purchaser. Except as provided above, SensArray makes no warrantees, expressed or
implied, including any warranty of merchantability for a particular purpose.
Integral Wafer Software
SensArray Corporation warrants that (a) Integral Wafer software (Software) will perform
substantially in accordance with the accompanying written materials for a period of 12
months after shipment, and (b) the medium on which the Software is recorded will be free
from defects in materials and workmanship under normal use and service for a period of
12 months after shipment.
Faults caused by unauthorized modification, misuse or abuse of products, or problems
due to software not supplied by SensArray, are not covered by this Warranty. During the
Warranty Period, the purchaser may return failed Software to SensArray for repair or
replacement, at SensArray’s option. SensArray does not warrant that the operation of the
Software shall be uninterrupted or error free. The purchaser will first notify SensArray of
the nature of the problem and obtain a Returned Materials Authorization [RMA] number.
The purchaser will pay the costs of shipping returned Software to SensArray; SensArray
will pay the cost of shipping repaired/replaced Software to the purchaser. No other
warranty is expressed or implied. SensArray specifically disclaims the implied warranty
of merchantability and fitness for a specific application.
The Integral Wafer Software Documentation Materials (“Documentation”) are subject to
revision and change without notice. SensArray agrees to make a best effort attempt to
keep the purchaser advised of changes to the Documentation.
Software License Agreement
The Software is owned by SensArray Corporation and is protected by United States
copyright laws and international treaty provisions. Therefore, you must treat the Software
like any other copyrighted material. Under the Copyright Laws, the Integral Wafer
Software, or accompanying written materials, may not be copied, photo-copied,
reproduced, translated, in whole or in part, without the prior written permission of
SensArray.
You may make one copy of the Software solely for backup or archival purposes.
You may make 10 copies of the written materials accompanying the SensArray
Corporation-produced Software provided that such copies are solely for use by personnel
using the Integral Wafer System.
All rights not expressly granted to you in this Agreement are reserved to SensArray
Corporation.
Third-Party Software
Licenses for any software which was provided but not produced by SensArray
Corporation are granted solely and only by the original supplier or manufacturer and
solely and only with the supplier’s limitations and rights. Copying restrictions for such
software are governed solely and only by the original supplier or manufacturer’s license
or any other supplier-approved agreements, as applicable.
Trademarks
°SensArray®, Thermal MAP, Integral Wafer™, and Process Probe® are trademarks of
SensArray Corporation.
Windows and Excel are trademarks or trade names of Microsoft Corporation.
Any other terms mentioned in this document that are known to be trademarks or service
marks have been appropriately capitalized. Use of a term in this document should not be
regarded as affecting the validity of any trademark or service mark.
Some of the technology used in this product is acquired under license from the
management and operating contractor of the Oak Ridge National Laboratory on behalf of
the U.S. Department of Energy.
Radio Frequency Interference Compliance
Applies to the Storage Cases and RF Carrier Station
NOTE: This equipment has been 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 own expense.
For the RF Carrier Station, only the USB cable supplied with the equipment is authorized
for use with this device; any other cable is not authorized and may cause undesired
interference, etc. Refer to Chapter 3 for product installation.
RF Carrier Station USB Cable
Product Modifications
Applies to the Storage Cases and RF Carrier Station
Changes or modifications to this equipment not expressly approved by KLA-Tencor may
void the user’s authority to operate the equipment.
English
French
This device complies with Industry Canada
licence-exempt RSS standard(s). Operation is
subject to the following two conditions: (1) this
device may not cause interference, and (2) this
device must accept any interference, including
interference that may cause undesired operation of
the device.
Le présent appareil est conforme aux CNR
d'Industrie Canada applicables aux appareils radio
exempts de licence. L'exploitation est autorisée aux
deux conditions suivantes : (1) l'appareil ne doit pas
produire de brouillage, et (2) l'utilisateur de
l'appareil doit accepter tout brouillage
radioélectrique subi, même si le brouillage est
susceptible d'en compromettre le fonctionnement.
Table of Contents
Using This Manual ..................................................................................................................iii
Overview .......................................................................................................................................... iii
What You Need to Know................................................................................................................. iii
Conventions Used in this Manual .....................................................................................................iv
Chapter 1 Overview ..............................................................................................................1-1
The Integral Wafer System ............................................................................................................ 1-1
Acquiring Data ............................................................................................................................... 1-1
Analyzing Data .............................................................................................................................. 1-2
Chapter 2
System Setup .................................................................................................2-1
Before You Begin .......................................................................................................................... 2-1
Proper Wafer Handling Procedures........................................................................................... 2-1
Unpacking Your System ................................................................................................................ 2-2
Removing the Wafer from the Storage Case............................................................................. 2-2
Charging the Equipment Before Use ........................................................................................ 2-4
Setting Up the Software ................................................................................................................. 2-4
Preparing Equipment for the Cleanroom ....................................................................................... 2-5
Cleaning the Equipment ............................................................................................................ 2-5
Cleaning the Integral Wafer. ..................................................................................................... 2-5
Cleaning the Carrier Station...................................................................................................... 2-6
Chapter 3 Using the Charge and Communication Carrier Station .................................3-1
Using the Carrier Station................................................................................................................ 3-1
Removing the Wafer from the Carrier Station............................................................................... 3-6
Using the Wafer with the Carrier Station....................................................................................... 3-7
Chapter 4 Using the Integral Wafer System Controller Software ...................................4-1
Starting the Program ...................................................................................................................... 4-1
Wafer Time Limit Feature ............................................................................................................. 4-7
Defining a Survey .......................................................................................................................... 4-9
Transferring Wafer Data .............................................................................................................. 4-13
Appendix A Reference Information ................................................................................A-1
Sensor Bank Reference ................................................................................................................. A-1
Correlating Sensor Coordinates .................................................................................................... A-2
Non-contact Integral Wafer User Manual
iii
Using This Manual
Overview
This manual consists of the following sections.
•
Chapter 1, Overview—Discusses features, components, and configurations of the
Non-contact Integral Wafer System.
•
Chapter 2, System Setup—Discusses unpacking the system components, preparing
the equipment for the cleanroom, and connecting the system cables.
•
Chapter 3, Using the Charge and Communication Carrier Station— provides an easy
means to prepare the wafer for data acquisition and to perform data retrieval.
•
Chapter 4, Using the Integral Wafer Controller Software— Discusses acquisition
setup, acquisition features, and how to retrieve the measurement data using the
Carrier Stations.
•
Appendix A, Reference Information- Wafer sensor location information.
What You Need to Know
This user manual assumes that you are familiar with the version of the Windows operating system
installed on your computer and can perform—as a minimum—the following tasks.
•
Start (boot) the computer
•
Log on to Windows
•
Select from menus
•
Select and open files
•
Use a mouse or pointer, including how to point and click to select objects and
operate controls such as buttons
•
Use standard window controls such as scroll bars
Non-contact Integral Wafer User Manual
iv
Using This Manual
Conventions Used in this Manual
Several standard conventions are used in the text of this manual to make the information presented a
little clearer and easier to understand. Every attempt is made to be consistent in the application of
these conventions.
Note:
Highlights important information.
Bold
Bold text indicates button names, icon names, and menu items.
italic
Italic text indicates the section and/or chapter name in a cross-reference. For example:
See the Using the Acquisition Setup Window section of Chapter 3, Acquiring Data, for more
information. Italic text can also be used to emphasize a word or phrase.
Courier
Typeface
Courier typeface indicates file names, directories, and text that you enter. For example:
The file is located in the C:\Sensarray\Configs directory.

A word offset by angle brackets indicates a key on the computer keyboard. For example:
After you specify the parameters, press the  key.
»
The twin arrow symbol indicates menu navigation. For example: Select
Acquisition»Acquire on the Thermal MAP Analysis window to open the Acquisition
Setup window. This tells you to click on Acquisition on the menu bar and then click on
the Acquire option from the drop-down menu.
Indicates important safety information. The icon is usually associated with a Warning or
Caution in the document describing potential for product damage or personal injury.
Other international standard icons specific to a particular hazard or action may be used
in place of the exclamation mark.
Non-contact Integral Wafer User Manual
1-1
Chapter 1 Overview
The Integral Wafer User Manual is designed to document the setup and use of the Integral
Wafer system in conjunction with the Integral Wafer Controller software. This manual will
discuss only the non-contact version of the Integral Wafer. The results of the measurement
run may be analyzed using the Thermal MAP Analysis Software included with the system.
The Thermal MAP Analysis software program is documented in the Thermal MAP Analysis
Software User Manual. A PDF version of this manual may be found in the C:\Sensarray\
Documents folder on your computer’s hard drive.
This chapter discusses the features of the non-contact Integral Wafer system.
The Integral Wafer System
The Integral Wafer has a complete measurement system embedded in the wafer to record
thermal surveys in semiconductor processing equipment without the need for wired
connections. Embedding the components within the wafer allows it to be treated like a
production wafer in most equipment, as long as it is within the operating temperature range
of the wafer.
The Integral Wafer system consists of an Integral Wafer, a carrier station for communicating
with and recharging the wafer, a USB cable, a laptop computer, and a CD containing the
software and drivers needed by the system.
The Integral Wafer system is delivered with a SensArray-provided laptop computer preloaded with all software. As an option, existing Thermal MAP laptop computer systems
may be upgraded to run the Integral Wafer software as long as you are running Windows
2000 or higher, and have an available USB port.
Integral Wafer systems are available in 200 mm and 300 mm versions, with different carrier
station options. The systems can acquire data from 1 to 64 analog channels, depending on
the model. The analog channels are divided into banks. Each bank is made up of up to 8
wafer sensors.
Measurements taken by the sensors are converted from analog to digital signals within the
onboard electronics.
Acquiring Data
Utilizing the Integral Wafer to acquire temperature data in your equipment is a simple
process. Measurement parameters, such as sensors to be used, scan rate, time delay, etc., are
set up using the Controller software. The wafer is then transferred to the measurement
chamber from a FOUP or cassette via robotic arms, and the thermal measurement survey
data is acquired. After the survey is complete, the wafer is returned to the Carrier station
and the data can be retrieved from the onboard memory. The data may then be analyzed
using Thermal MAP Analysis Software.
Non-contact Integral Wafer User Manual
1-2
Overview
Analyzing Data
The data files acquired by the Integral Wafer may be analyzed using Thermal MAP Analysis
Software to view XY graphs, contour maps, surface maps, animations, and data tables. For
more information on the use of the Analysis portion of the Thermal MAP 3 software, please
refer to the Thermal MAP 3 Analysis Software User Manual included on the CD.
The data can be viewed and evaluated in table form if desired. A row in the table is called a
sample or a single-timed sampling of all of the sensors on the wafer. You use the sample
number to identify the table row of measurements collected at the sample time.
The first column in the table is the sample number. The second column is the time point at
which the sample was acquired. For example, as shown in Figure 1-1, sample 93 has a time
of 93 seconds. The remaining columns in the table are the temperatures of the sensors within
the wafer. Additional columns of data can be present if calculated values have been logged.
Figure 1-1. Sample Data Table from an Integral Wafer
During acquisition, Integral Wafer performs computations on acquired data, such as
determining the minimum, maximum, mean, range (max-min), and standard deviation of
all wafer sensor values for the sample, and logs the results in columns. These computed
values are referred to as calculated values.
After acquiring, linearizing, and storing the sensor data, you can display or print the data as
a line plot graph, as shown in Figure 1-2. In addition, you can display data in a table or as a
wafer map.
Non-contact Integral Wafer User Manual
Overview
1-3
Figure 1-2. Displaying Data on a Line Plot Graph
You can also create a two-dimensional color contour map as shown in Figure 1-3 or a threedimensional surface map as shown in Figure 1-4 of a single sample point.
Figure 1-3. 2-Dimensional Color Contour Map
Non-contact Integral Wafer User Manual
Figure 1-4. 3-Dimensional Surface Map
1-4
Overview
With the Animation feature, an animation of the survey data can be created. The animation
can be set for a particular range of the acquired samples, saved to a standard AVI file, and
replayed at any time. The AVI file can be sent to other computers not running the
Thermal MAP software and played using the Windows Media Player or other compatible
video players.
Data may also be exported to a spreadsheet program, edited in the spreadsheet, and loaded
back to Thermal MAP for further analysis.
Non-contact Integral Wafer User Manual
2-1
Chapter 2 System Setup
Before you can begin working with the non-contact Integral Wafer system, you need to unpack the
system components, prepare the equipment for transfer to the cleanroom, and charge the wafer
batteries.
Before You Begin
Before using the Integral Wafer, there are several safety and handling precautions that should be
noted. Please read the information provided in this manual and become familiar with the Integral
Wafer before attempting your first thermal survey.
•
Operation of Integral Wafer outside of its specified temperature range could result in
unreliable readings and/or damaged wafers. Please review the recommended
operating range for your particular model of Integral Wafer.
•
Rotational speeds up to 5000 rpm have been tested and found to be safe. While it is
possible that even higher rotational speed might be reached without damage to the
wafer or spin plate, SensArray cannot provide any guarantees above 5000 rpm.
Proper Wafer Handling Procedures.
While the Integral Wafer is designed to survive in a semiconductor fabrication environment,
reasonable care must be taken to prevent damage to the components on the wafer, or breaking the
wafer.
•
Always wear gloves whenever you handle the wafer.
•
Hold the wafer by the edges only or support from the backside of the wafer with
your hand or with a vacuum wand. In some situations, you may have to grasp the
edge of the wafer with your gloved fingers to prevent dropping the wafer, as when
you try to insert the wafer into your equipment or a carrier station.
•
Never place the wafer on an uneven surface. A small downward pressure on the
wafer applied at the right point could cause the wafer to break or cause cracks
within the silicon.
Non-contact Integral Wafer User Manual
2-2
System Setup
Unpacking Your System
Inventory all items and compare to the packing list included with the shipment.
Retain all packaging materials for the system. This is required for the return of the
Integral Wafer for repairs or recalibration.
If any parts are missing or damaged, contact SensArray immediately. Be prepared to provide a list
of the missing and/or damaged components, the Purchase Order Number, and the SensArray Sales
Order Number.
NOTE: Do not return components without contacting SensArray first and obtaining a Return Material
Authorization. When returning components to SensArray, you must repack the equipment in the original
packing material. Failure to properly pack the components may result in additional damage to the equipment.
Removing the Wafer from the Storage Case
The non contact Integral Wafer storage case is designed to keep the Integral Wafer batteries
charged to the optimum level for an extended period of 1 to 2 years. This is done by periodically
checking the status of the batteries and recharging the batteries when their voltage drops below a
threshold.
CAUTION: The storage case is not designed to be used to recharge wafers after acquiring
data. The storage case may not be used as a carrier station. It is used only to store a wafer
when the wafer is not in use.
The wafer will be maintained in the storage case until it is needed. To use the wafer, place the
horizontal wafer shipper case right side up on a clean work surface and open the latches on the
case, as shown in Figure 2-1. Remove the lid. Locate the Charge and Communication (C/C) Carrier
Station near the storage case.
Figure 2-1. Opening the 300mm storage case
Non-contact Integral Wafer User Manual
System Setup
2-3
The maintenance module is placed on top of the wafer to allow for wireless maintenance. The
module is enclosed and sealed in a clean room compatible plastic bag. Do not remove the
maintenance module from its bag. It is there to ensure that the surface the wafer comes into contact
with is clean.
There is an LCD screen that indicates the wafer serial number and battery voltage. A blinking blue
LED also indicates that the wafer is good. If the wafer is not viable, the screen will indicate ‘no
wafer present’. The maintenance module must be reset to force it to search for a wafer by pressing
the reset button. The module will then spend approximately 15 seconds looking for a wafer in its
presence. If a wafer is present (centered and against the coil) and the module is unable to detect the
wafer, try to place the wafer in the carrier station to check the wafer state. If wafer looks healthy in
the carrier, the storage case may be problematic. Contact SensArray technical support for help.
To remove the wafer from the storage case, remove the aluminum liner from the case to expose the
maintenance module. Lift the maintenance module out of the case and place it in a clear area on the
work surface. Carefully remove the wafer from the case and place it in the C/C carrier station.
Figure 2-2. Lifting maintenance module
Figure 2-3. Remove wafer from case
Non-contact Integral Wafer User Manual
2-4
System Setup
Place maintenance module back into case, flip RF shield back over module and replace lid. Save
case for future use.
Charging the Equipment Before Use
Place the Integral Wafer into the carrier station shipped with the unit to maintain the charge on the
internal batteries. Please see Using the Charge and Communication Carrier Station for more
information on inserting and removing the wafer to and from the carrier stations.
Plug the laptop into the AC power supply and fully charge the laptop battery.
Setting Up the Software
The Integral Wafer system normally includes a SensArray qualified laptop computer that has been
prepared with all needed software to setup, run, and retrieve data from the Integral Wafer.
However, if you are upgrading an existing Thermal MAP 3 system, please follow these directions.
Before using the Integral Wafer, the USB driver for the carrier stations and wafer, the Integral
Wafer Controller Software, and the wafer calibration files must be loaded onto the host computer.
The software has been tested under Windows 2000 and Windows XP.
1. Place the Integral Wafer CD in the host computer CD drive.
2. Using Windows Explorer or My Computer, navigate to the
\INTEGRATEDWAFER.INSTALL folder and run INtegratedWaferController v2.x.x.exe.
Follow the onscreen directions of the installer program. Do not change any default
directories; this could cause problems when the program is run.
3. Connect the USB cable between the host computer and the carrier station. Wait until the
Found New Hardware dialog begins.
4. Follow the Windows directions on screen to complete the new hardware setup. When
requested to locate the driver for the new hardware, select the CD-ROM drives option
and click Next. The wizard will automatically locate the correct driver. There are two
drivers that will load, just follow the onscreen directions. If you are using Windows XP,
ignore the “this is not a Windows certified driver” warning.
If you are installing Thermal MAP on your computer for the first time, follow
the directions in step 5.
If you are installing the Integral Wafer on a system that already has the full
Thermal MAP program, do not install the Analysis only version found on the
Integral Wafer CD. This will cause your existing version to lose the Acquisition
feature. Skip step 5 and use the provided upgrade Thermal MAP CD to install
the full version. Insert the CD and follow the onscreen directions. Then continue
with Step 6.
Non-contact Integral Wafer User Manual
System Setup
2-5
5. Using Windows Explorer or My Computer, navigate to the \THERMAL
MAP.INSTALL folder and run the installer program. Follow the onscreen directions of
the installer program. Do not change any default directories; this could cause problems
when the program is run.
6. Remove the Integral Wafer CD from the CD drive.
7. Insert the Wafer Configuration CD and run the setup.exe program on the CD. This will
install the calibration file for your wafer into the proper directory on the computer.
When completed, remove the Wafer Configuration CD from the drive.
NOTE: If you are upgrading the calibration files later, they will be installed in the same folder as the existing
calibration/configuration files.
Preparing Equipment for the Cleanroom
Cleaning the Equipment
When installing a computer and an Integral Wafer system in the cleanroom, follow industry
standards, including wiping down the computer and the exterior of the carrier station with
cleanroom wipes dampened with deionized (DI) water and/or isopropyl alcohol. Wipe down the
Integral Wafer itself.
Cleaning the Integral Wafer.
Significant efforts are made to keep wafers clean during the manufacturing process. Due to the
nature of some processes and demands by customers for cleaner wafers, the Integral wafer is now
offered as a cleaned product. It has gone through a SC1 and SC2 cleaning process to remove metals
and organics. The cleaned wafer is packaged in a clean room compatible zip lock bag to prevent
contamination until it is ready to be used.
Despite our best efforts, the Integral Wafer may pick up contaminants from repeated handling. The
ideal method of cleaning surface contaminants from the wafer is to blow a gentle stream of CDA or
inert nitrogen across the surface. However, some forms of surface contamination cannot be
removed this easily.
The wafer can be cleaned with IPA or DI water and a cleanroom cloth. Due to the design nature of
the Integral Wafer, scratches in the coating on the backside of the wafer may exist. This has not
been shown to cause degradation in the performance of the wafer.
A gentle stream of DI water or IPA may be used to loosen surface contamination, then use CDA or
inert nitrogen to blow the surface dry.
Never place the wafer in an ultrasonic cleaning bath. The
vibration set up by the ultrasonics may damage the electronics
inside and render the wafer inoperable.
Non-contact Integral Wafer User Manual
2-6
System Setup
Cleaning the Carrier Station.
The carrier station is easily cleaned by wiping the surfaces with a cleanroom cloth dampened with
IPA. Nothing harsher is needed to remove contamination from the surface. Be sure to clean the
interior of the carrier station. Debris on the surface may cause stress points on the Integral Wafer
when the lid is closed. To avoid damage to the Integral Wafer, only clean the interior of the carrier
when the wafer is not present.
Recharging and Storing Integral Wafer
The carrier station contains removable, rechargeable lithium-ion batteries. The carrier station
batteries should maintain a charge on the wafer batteries for up to three years. The carrier station
batteries can be charged via USB or with the provided power adapter.
Very Important! Keep the wafer stored in a carrier station when not making thermal surveys.
This will help ensure the maximum lifetime for the onboard wafer batteries.
When storing the wafer in the carrier for extended periods of time, confirm that the LCD display
reads ‘Wafer Ready’. This indicates that the carrier station has established proper contact with the
wafer and ensures that the wafer battery charge is being maintained.
Non-contact Integral Wafer User Manual
3-1
Chapter 3 Using the Charge and Communication
Carrier Station
The Carrier Station is available in both 200 and 300mm versions and provides a method of
charging and communicating with the wafer through an RF signal rather than a set of
contact pins.
Using the Carrier Station
The carrier station protects the Wafer and maintains the battery charge during storage. It
also provides the communication link between the Wafer and the host computer.
The carrier station provides an easy, non-contact means of preparing the wafer for data
acquisition and to perform data retrieval. It is important to follow proper procedures in
removing and inserting the wafer in the carrier station to avoid damaging the wafer.
Wafer
positioners
LCD Display
SC1/SC2 cleaned
Cleanable
white
white polypropylene
polypropylene
insert
insert plate
plate
Coil printed circuit board
for RF communication
and charging between
wafer and carrier
Figure 3-1. C/C Carrier Station Components
Figure 3-2 shows the C/C carrier station with USB port plug in. There are four LEDs on the
left side of the carrier base, as referenced in Table 3-1. The green LED comes on when the
USB cable is connected and there is communication between the host computer and the
carrier station. The yellow LED will flicker when transferring data to and from the wafer.
The red LED is on when the batteries are charging. When the red LED is flashing rapidly
and solid, the unit is actively charging the batteries on the Wafer. It should typically take
less than 10 minutes to fully charge the batteries. If it is flashing slowly, the battery charge is
being maintained. Though the carrier will continue to maintain the batteries on the wafer,
the red LED will flicker every 10 to 20 seconds when the USB cable is not connected to a
power source. The blue LED blinks when a wafer is detected and communicating with the
carrier.
Non-contact Integral Wafer User Manual
3-2
Using the Carrier Station
Table 3-1: LED status indicators
LED color
Indicates
Green
Successful USB connection to computer
Yellow
USB communications activity
Red
Wafer Charging
Blue
Communication received from wafer
Red/Blue alternating
Wafer measurement has been initiated
Carrier reset
switc h
Green LED
USB port
Yellow LED
Red LED
Blue LED
Figure 3-2. Connections and LED Indicators
Non-contact Integral Wafer User Manual
Using the Carrier Station
3-3
Removable
rec hargeable
battery
Figure 3-3. Backside of C/C Carrier
Figure 3-4. LCD Display
Non-contact Integral Wafer User Manual
3-4
Using the Carrier Station
Figure 3-5. C/C Carrier Station Closed
To open the carrier station and gain access to the wafer, push in the white Delrin cover latch
button as shown in Figure 3-6 and lift the handle attached to the lid.
Latch
Button
Figure 3-6. Unlatching the Carrier Station
Non-contact Integral Wafer User Manual
Using the Carrier Station
3-5
Once the lid is raised completely, spring tension will keep it open.
Figure 3-7. Carrier Station Open
CAUTION: Only handle the Wafer on the edges with gloves on.
The wafer is locked to the surface of the white plastic insert on the carrier station by a
spring-loaded clamp mounted to the side of the carrier station. To unclamp the wafer, pull
the wafer clamp straight out until it clears the side of the wafer carrier. Then press down
until it aligns with the recess in the side of the carrier station. Allow the clamp to slide
forward into the recess.
Non-contact Integral Wafer User Manual
3-6
Using the Carrier Station
Wafer Clamp
Figure 3-8. Wafer Clamp
Removing the Wafer from the Carrier Station
While the Lid is opened, you can slide the wafer off the carrier plastic insert surface. A
groove is provided on the right-hand side of the carrier station surface to allow you to get
your finger below the side of the wafer as shown in Figure 3-9. Slide the wafer to the left
until there is enough of the wafer free of the carrier plastic insert surface to put your other
hand or a vacuum wand under the wafer. Remove the wafer completely. Do not pull the
wafer too quickly off the plastic insert surface. Static attraction between the bottom of the
wafer and the plastic insert surface may place undue stress on the Wafer and result in
breakage.
Finger
groove
Remove in this
direction only
Vacuum wand
or
finger groove
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Using the Carrier Station
3-7
Figure 3-9. Wafer Removal Points
Remove wafer in this direction only
Figure 3-10. Removing the Wafer from the Carrier Station
You can now place the wafer in a wafer cassette or other loading mechanism to perform the
thermal survey.
CAUTION: Only handle the wafer from the bottom or by the edges as much as possible.
Always ensure the backside of wafer is cleaned of any particle or any other materials.
Using the Wafer with the Carrier Station
To place the wafer on the carrier station, first open the lid of the carrier station. Slide the
wafer onto the plastic insert surface and slightly push the wafer against the wafer
positioners. Make sure the edge of the wafer slides under the top surface of the positioners.
Once the wafer is positioned correctly, pull the wafer clamp out from the recess, lift it up,
and slowly slide the clamp forward until it presses against the wafer. Release the clamp.
Lower the lid until the latch contacts the locking pin. Press the locking pin in and lower the
lid until the locking pin pops out as shown in Figure 3-11. The lid is now secure.
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Using the Carrier Station
Latched
Unlatched
Figure 3-11. Lid Locking Pin
The C/C carrier has an LCD on top left corner. When lid is opened, the message System
Idle should be displayed.
LCD Display
White insert
Figure 3-12. Idle Message Displayed
When wafer is present and lid is closed, the LCD will display Loading Wafer. Once the
wafer is detected, the message Wafer Ready will display and the blue LED will blink.
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3-9
Figure 3-13. Wafer Ready Displayed
If you close the LID and no wafer is inside the carrier, you will see the message No Wafer
detected.
There may be a delay between the carrier LCD display messages and the system controller
application message on your laptop. Do not use the wafer until you actually see the message
display on the system controller application.
Figure 3-14. System Controller Software Screen
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4-1
Chapter 4 Using the Integral Wafer System Controller
Software
The Integral Wafer System Controller is a software program that communicates with the
Integral Wafer through the 200 mm and 300 mm carrier station. It monitors the status of the
system, retrieves data from completed thermal surveys, and sets up the parameters for the
next set of surveys.
Before using the controller software, please read instructions on using the Carrier Station.
See the Using the Carrier Station section of Chapter 2 for more information.
Starting the Program
Connect the carrier station to the computer with the USB cable. Start the IW System
Controller program by double-clicking the desktop icon. The program starts. The program
automatically locates the connected station and establishes communication.
If no carrier station is connected, the software will still start but displays the message
“Looking For iWafer System…”. Once you have connected the system, the software will
then establish communication and display the Measurement tab.
Figure 4-1 shows an example of the startup screen with the default Measurement tab
selected. The screen shows the system connected to a 300mm carrier station.
Figure 4-1. Measurement Tab Screen
Verify that the wafer and carrier station type listed below the Sensor Maintenance button is
the correct wafer type and carrier station.
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Using the Carrier Station Controller
NOTE: If the program cannot locate the Integral Wafer or the carrier station, verify that the carrier
station is connected to the computer, the wafer is correctly aligned inside the carrier station
with lid closed and that the appropriate calibration file for the wafer is loaded onto the
computer.
If the carrier station is connected but no wafer is present, you will see the screen in Figure 42.
Figure 4-2. No Wafer Present
The Measurement tab screen displays by default when the program is first started. Most of
the operations performed will be done from this screen. The wafer voltage is displayed
directly below the Sensor Maintenance buttons.
The actual voltage of the two batteries imbedded between wafers is displayed along with
the charging condition. When the battery voltage is above 4.15 volts, the wafer battery is
fully charged. Always wait until the wafer is fully charged before sending the wafer out on
survey. A partially charged battery may cause the wafer to stop collecting data before the
end of the run. If the voltage reading drops below 4 volts, the batteries are considered to
have insufficient charge to complete a survey and the software will not allow the
measurement with the wafer to start. The Start Survey button is disabled until battery
voltage exceeds 4 volts. If the voltage drops below 3.00 volts, the batteries are no longer able
to hold a charge. Figure 4-3 shows an example of a wafer with insufficient voltage to
perform a survey.
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Using the Carrier Station Controller
4-3
Figure 4-3. Wafer Voltage Too Low
At the very bottom of the screen, a small box displays status messages for actions performed
by the software.
Clicking the Exit button at any time will cause the program to end and return you to
Windows.
The System Info tab screen shows the vital information for the carrier station, and the
wafer. When the carrier station is attached, it also displays the voltages of the Carrier CPU
and Main Battery.
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Using the Carrier Station Controller
Figure 4-4. System Info Tab Program Screen
The Wafer Type section shows the model and serial number of the wafer currently
connected, as well as the firmware version. It also shows the current wafer voltage and
status of the wafer battery monitor (enabled or disabled).
The Station Type section shows the model and serial number of the docking station
currently connected, as well as the firmware version. It also displays the controller software
version.
The About tab screen shows the vital information for the base station or carrier software
versions and the licensing status of the program.
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4-5
Figure 4-5. The About Tab Screen
If the program is not properly licensed, the about screen will show the message No Valid
License Found in the Product Registration Status area. The program will not make a
measurement unless it is properly registered.
Improper registration can occur if a fresh installation was performed on the computer after a
system crash or other similar occurrence or if the license key file was accidentally deleted.
Figure 4-6. Software License Not Valid
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Using the Carrier Station Controller
Click on the Software Licensing Information button at the bottom of the screen to open an
information box. The box will display a unique registration key that is specific to your
computer.
Figure 4-7. Registration Key Dialog
Copy the text displayed in the Registration Key box exactly as it appears. Send an email to
SensArray or the Sales representative you purchased the software from and include the text
from the registration key. You will receive a file from SensArray that contains the unlock
key for your software.
When you receive the file, copy it into the C:\SensArray\LICENSES folder on your hard
drive. When you restart the program, the licensing information should now be valid.
Figure 4-8. Incompatible Firmware
If the program is not up to date, the Measurement tab screen will display the message
shown in Figure 4-8. If you have recently replaced your wafer and/or carrier it may
contain updated firmware that is not recognized by older releases of the Controller
program. Use the Integral Wafer CD that was provided with your new wafer to ensure that
the latest version of the Controller program is installed. See the Setting Up the Software
section of Chapter 2 for more information.
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4-7
Wafer Time Limit Feature
To ensure optimum performance, as well as to help prevent possible structural or mechanical wafer
failures, Integral Wafers that are intended for use in certain processes or applications are equipped
with a built-in time limit feature. When the maximum recommended operating time has been
reached, the wafer will automatically cease to operate. Refer to your wafer’s specifications for
environmental operational limits and allotted usage hours.
The Measurement tab portion of the Controller program displays the remaining usage time
available to your wafer as shown in Figure 4-9.
Figure 4-9. Usage Time Remaining
When a wafer is approaching its final deployment, an alert box will appear indicating that the
maximum recommended operating time has almost elapsed. As long as there is available usage
time left, the Controller program will allow you to start a survey and deploy the wafer for a normal
measurement activity.
Figure 4-10. Usage Time Expiring
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Using the Carrier Station Controller
When the available usage time has elapsed, the Measurement tab will no longer display any wafer
deployment options.
Figure 4-11. Usage Time Elapsed
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Using the Carrier Station Controller
4-9
Defining a Survey
1.
From the Measurement tab, click on the Configure Sensor Banks button to setup the
measurement parameters. The number of banks and sensors displayed on the
configuration screens depends on the size of the wafer.
2.
If you note sensor locations on the sensor display that are marked with an X, these are
sensors that are disabled. You cannot enable or disable individual sensors using this
program, only banks of sensors.
Figure 4-12. Measurement Options- 300mm Wafer
3.
Select the bank or banks with which you wish to measure by clicking on the bank label
or check box, or by clicking on an individual sensor on the sensor map. As you place
your mouse cursor over a bank number in the Banks column or an individual sensor on
the sensor map, the sensors that make up that bank are highlighted. When a sensor
bank is disabled, it will be displayed in red.
4.
Clicking the Enable All Sensors button cancels any previous changes and re-enables all
available sensors.
5.
If you need to disable or enable individual sensors within a bank, click on the Sensor
Maintenance button on the main controller window. A new window appears that
allows individual sensor selection.
6.
Click on the sensor that you wish to enable or disable. When enabled, the sensor
number is displayed. When disabled, the sensor number is displayed in a light gray
color.
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Using the Carrier Station Controller
Figure 4-13. Select Enabled Sensors Window
7.
Click the Save button when finished to save the new configuration to the Integral
Wafer. The window closes and returns you to the Measurement Options window
NOTE: The disabled sensors will be noted in the Integral Wafer memory. Data will still be taken
during the measurement, but the data will not be written to the output file when the data is
transferred from the wafer. Disabling an individual sensor does not increase the run time.
8.
Select the scan period for your measurement by clicking on the drop down list in the
Measure Temperature Every section. The minimum and nominal runtime settings will
update with changes in the settings. You should note that the faster the scan period, the
greater the noise introduced into the measurement. For best result, consider a scan
period of 1 second or longer.
NOTE: The runtime is based on a calculation of the available memory on the Integral Wafer, the
number of banks selected, and number of scans per second. The longer the period between
scans and the fewer sensor banks enabled, the longer you can take data.
9.
Clicking the Temperature Trigger Type button allows you to set an absolute or
transient temperature point as a trigger to start the measurement. No measurements
will be taken until the trigger point is reached. This allows you to put the carrier station
in place and transfer the wafer into the test chamber without having to set a precise
delay time to start the measurement. This condition allows more useful available
measurement time.
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Using the Carrier Station Controller
4-11
Figure 4-14. Selecting Temperature Trigger Type
10. Select Absolute from the drop down list next to Temperature Trigger Type. Enter the
desired trigger temperature into the box in degree Celsius. Your Trigger is now set. If
the trigger temperature is unknown or varies from run to run, selecting Transient from
the drop down list may be a preferred option. With the temperature trigger set to
transient, a 0.35°C per second gradient will activate the wafer. To cancel either
function, select Disable from the option list.
11. Clicking the Enable Run Time Limit check box allows you to set a maximum time that
the survey will run. Enter the desired run time into the box in second intervals.
Figure 4-15. Set Survey Time Limits Dialog
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Using the Carrier Station Controller
12. Click on the Enable Measure Delay check box to allow setting a measurement delay.
Click on the down arrow on the drop-down box and select the amount of delay desired
before the measurement starts. You can only select the fixed values (from 1 minute to 1
hour) in the drop-down list, typing a custom time value will not work.
Figure 4-16. Setting Measurement Delay
NOTE: Using the "Measurement Delay" prevents data recording until you have time to physically
place the Integral Wafer into the system to be measured. No data is recorded during the
"Measurement Delay" period. However, the battery is still running.
13. Click the Start Survey button.
14. The Start Survey button will change to read Abort Survey. Pressing this button before
the wafer has left the dock will cancel the survey and reset to the Start Survey. The
parameters for the survey may then be changed and the survey started once again.
Once the wafer has left the carrier station, the button will dim and no longer function. If
the carrier station is unplugged from computer, the program screen reverts to the
message ‘Looking for iWafer System…”.
15. Move the carrier station into position for transferring the wafer into the test chamber.
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Using the Carrier Station Controller
4-13
Transferring Wafer Data
1.
Connect the carrier station to the computer with the USB cable. The program will
automatically recognize the wafer.
Figure 4-17. Getting Wafer Data
NOTE: If you are connected to the wafer through a carrier station, and there is data on the wafer, a
message appears for you to download the data.
Figure 4-18. Download Data
Click Yes to download the data or No to ignore it. Clicking Yes has the same effect as
pressing the Retrieve Last Survey button.
2.
Once the button is active, click the Retrieve Last Survey button to transfer the latest
survey file to your computer.
3.
A Name File and Enter Comment dialog box opens. Enter any comments you wish to
make about the file in the Comment box.
4.
Click the OK button.
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Using the Carrier Station Controller
Figure 4-19. File Transfer Dialog Box
5.
The Save As dialog box appears. This is a standard Windows dialog box.
6.
Type the new name for the file in the File name: box or select an existing file name from
the list.
Figure 4-20. Selecting the Folder
7.
Select the directory to place the file into in the Save in: dropdown and click the Save
button to start the download. You may create a new folder, if needed, by clicking the
new folder icon.
8.
The main program window appears and starts transferring the wafer data to the host
computer.
9.
The program displays a progress bar showing the percentage of the measurement data
transferred.
10. Once the data is transferred to memory, the program applies the calibration coefficients
to the wafer data.
11. Once the calibration is applied, the screen displays a message showing the file(s) was
decoded successfully.
12. As soon as the data is transferred, the Thermal MAP Analysis program (if installed)
opens and displays the data in an Analysis window. For information on using the
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Using the Carrier Station Controller
4-15
program, please read the Analysis Software User Manual located in the
C:\SensArray\Documentation folder on the host computer or use the Help file in the
Thermal MAP Program.
NOTE: If the Thermal MAP Analysis does not start automatically, this normally means that the
program was not upgraded on your computer. You can start Thermal MAP from the desktop
icon or click Start»Programs»SensArray»Thermal MAP from the start menu. Verify that the
version is 3.0.6 or higher. If not, install the upgrade provided with your Integral Wafer system.
Figure 4-21. Thermal MAP Analysis Window Example
13. When you are finished, you may exit Thermal MAP and the Integral Wafer Controller
software.
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A-1
Appendix A Reference Information
Sensor Bank Reference
Tables 1 and 2 detail the sensors that make up each bank for 200mm and 300mm wafers.
Table 1. 200mm Bank Definitions for 53 Sensors
Bank
Sensors
C07
C11
F30
F32
G34
G36
H40
H48
C09
C13
F31
F33
G35
G37
H44
H52
C08
C12
D16
D20
E24
E28
H42
H50
C06
C10
D14
D18
E22
E26
H38
H46
H39
H41
H43
H45
H47
H49
H51
H53
D15
D17
D19
D21
E23
E25
E27
E29
B02
B03
B04
B05
A01
Table 2. 300mm Bank Definitions for 65 Sensors
Bank
Sensors
C06
C08
D10
D18
E26
E34
F42
F54
C09
C07
D22
D14
E38
E30
F60
F48
B05
B03
D24
D16
E40
E32
F63
F48
B02
B04
D12
D20
E28
E36
F45
F57
D25
D17
E41
E33
F64
F52
F65
F53
D23
D15
E39
E31
F61
F49
F62
F50
D11
D19
E27
E35
F43
F55
F44
F56
D13
D21
E29
E37
F46
F58
F47
F59
A01
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A-2
Reference Information
Correlating Sensor Coordinates
Use the R, theta coordinates listed in tables 3 and 4 along with the layout drawings in figures 1 and
2 to match the sensor position on the wafer to the matching position on your hotplate or surface.
For reference only. Drawing not to scale.
Figure 1. 200mm Sensor Layout
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Reference Information
A-3
Table 3. 200mm Integral Wafer Sensor Positions
Sensor
Radius
(mm)
Theta
Sensor
Radius
(mm)
Theta
A01
E27
77
315
B02
14
90
E28
77
B03
14
180
E29
77
45
B04
14
270
F30
90
135
B05
14
F31
90
225
C06
35
90
F32
90
315
C07
35
135
F33
90
45
C08
35
180
G34
94
135
C09
35
225
G35
94
225
C10
35
270
G36
94
315
C11
35
315
G37
94
45
C12
35
H38
97
90
C13
35
45
H39
97
112.5
D14
56
90
H40
97
135
D15
56
135
H41
97
157.5
D16
56
180
H42
97
180
D17
56
225
H43
97
202.5
D18
56
270
H44
97
225
D19
56
315
H45
97
247.5
D20
56
H46
97
270
D21
56
45
H47
97
292.5
E22
77
90
H48
97
315
E23
77
135
H49
97
337.5
E24
77
180
H50
97
E25
77
225
H51
97
22.5
E26
77
270
H52
97
45
H53
97
67.5
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A-4
Reference Information
For reference only. Drawing not to scale.
Figure 2. 300mm Sensor Layout
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Reference Information
A-5
Table 4. 300mm Integral Wafer Sensor Positions
Sensor
Radius
(mm)
Theta
Sensor
Radius
(mm)
Theta
A01
E34
110
270
B02
135
E35
110
292.5
B03
225
E36
110
315
B04
315
E37
110
337.5
B05
45
E38
110
C06
37
90
E39
110
22.5
C07
37
180
E40
110
45
C08
37
270
E41
110
67.5
C09
37
F42
147
90
D10
74
90
F43
147
105
D11
74
112.5
F44
147
120
D12
74
135
F45
147
135
D13
74
157.5
F46
147
150
D14
74
180
F47
147
165
D15
74
202.5
F48
147
180
D16
74
225
F49
147
195
D17
74
247.5
F50
147
210
D18
74
270
F51
147
225
D19
74
292.5
F52
147
240
D20
74
315
F53
147
255
D21
74
337.5
F54
147
270
D22
74
F55
147
285
D23
74
22.5
F56
147
300
D24
74
45
F57
147
315
D25
74
67.5
F58
147
330
E26
110
90
F59
147
345
E27
110
112.5
F60
147
E28
110
135
F61
147
15
E29
110
157.5
F62
147
30
E30
110
180
F63
147
45
E31
110
202.5
F64
147
60
E32
110
225
F65
147
75
E33
110
247.5
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