ECE 480
Contents
1. 36 volts and LM voltage regulators Figure 4 5 Voltage Regulator Circuit Schematic Diagram for Single Color LEDs 4 3 Conclusion Above all after measuring all the spectrum of the LEDs and testing all the LEDs with the camera the team would select the best LED for the final birefringence detection system The White LED has the greatest potential because of its largest optical power output Then the corresponding final voltage regulator design would also be determined References High Power LEDs White Cool White 5000K 80CRI Mouser Electronics Mouser n d Web 26 Mar 2014 High Power LEDs Single Color Philips Lumileds Philips n d Web 26 Mar 2014 Stephen A Zajac amp Gregory M Wierzba ECE 480L SENIOR DESIGN SCHEDULED LAB Lab handbook Michigan State University East Lansing Spring 2014 Outer Shell Intro The outer shell is a very important part of this project because it functions as a shield for the inner circuitry and shields ambient light from getting into the system If too much ambient light gets into the system then the measurements become inaccurate Also it is desirable for the outer shell to be robust this way in case any unforeseen accident happens the measurement system will not break Design The way this was done was through a 3 dimensional printing software known as NX The measurements for the outer shell were in part done to try and make the shell as large as possible so that it woul2. best color for blocking out the light This way a greater percentage of the ambient light will be a shielded from the camera This method of 3 dimensional printing uses a type of inexpensive plastic to print This means that the material is not very robust not very high quality To ensure robustness and to make sure that ambient light does not get into the camera by traveling through the shell itself the walls must be designed such that it is relatively thick Conclusion The outer shell itself is around 10 grams and so the outer shell itself only costs around 10 dollars at this point in time Given that it is so cheap to print it is likely that there will be some modifications made after testing for the final product starts 6 Visual Studio User Interface and Image Processing Abstract User interfaces give non technical users the ability to navigate and implement hardware solutions that would otherwise need to be accomplished by subject experts User interfaces are crucial in a world where hardware and electronics dominate everyday life One of the most dominant electronic components now a days is the sensor The sensor is so dominant because this electronic component is able to gather and interpret data while imitating the human sense One of the most useful kinds of sensors is the camera as sight is one of the most fundamental human senses Image processing provides the ability to trivially interpret and manipulate data from these sen
3. lighting applications The benefits of this white LED are various it has higher efficiency that can generate over 130 lumens per watts at 35 5 volts takes less space refer to the figure below more uniform and crisp light beams that the typical total included angle Total angle at which 90 of total luminous flux is captured is 125 degree and the typical viewing angle the off axis angle from lamp centerline where the luminous intensity is half of the peak value is around 100 degree High Power LEDs White LUXEON CoB LHC xxxx 1208 Specifications Features Manufacturer RoHS Illumination Color Color Temperature Luminous Flux Color Rendering Index CRI Viewing Angle Forward Current Forward Voltage Mounting Style series Packaging Brand Height Length Maximum Operating Temperature Minimum Operating Temperature Factory Pack Quantity Width Documents 2 My Notes Philips Lumileds ae Ros Details Cool White 5000 K 3950 Im 80 100 deg 900 mA 36 V Screw LUXEON CoB Tube Fhilips Lumileds 1 7 mm 24mm 05 C 40C 100 20 mm Figure 4 3 The Mechanical Dimension specifications and appearance of the White LED Second besides the lime LED the other four single color LEDs blue green orange and red are belong to LUXEON Rebel and LUXEON Rebel ES series by Philips Lumileds and they share some similar specifications same typical operating current 350 mA same
4. mechanical dimensions tightly LEDs packing for color mixing and the optimizing applications to reduce size and cost However the typical operating voltages wavelengths and light power outputs are different Furthermore the lime LED is characterized as LUXEON Z by Philips Lumileds Although many specifications of lime LED are different from other single color LEDs the basic utilization is similar i Performance amp 350 mu Performance 700 mA MA nine Typical Luminous Typical Minimum Typical Luminous Luminous Flux lm Flux lm or Efficacy Im Luminous Flux lm Flux lm or or Radiometric Radiometric Power or of Radiometric Radiometric Power Power nov mW Radiant Efficacy Power mW mi LXML PMOl 0100 100 161 68 L ML PMOtl O090 s0 95 23 150 63 LXML PMOl O0080 BO 86 86 139 58 LXML PMOt O070 70 79 fis 125 52 LXML PBOI GO40 400 M 38 E 29 Lx ML PB01 0030 20 0 35 33 58 24 LXML PBOI 0023 235 28 26 48 20 LXML PBOI O018 121 22 21 38 16 50 58 28 60 67 32 LxML PBO2 _ si x da 80 B3 40 L Mi2 POO1 0060 60 62 83 119 7d LXM2 POOI 00S0 50 53 1a 106 65 LXM2 POOI 0040 40 da 65 90 56 LXMiL POO1 0050 50 ha 53 dh 35 LXML PDOI 0040 40 46 dl 75 30 L ML PDO1 0030 30 38 af B2 24 LXM2 PHOl 00 0 70 42 Ja 134 83 LXM2 PHOI 0060 60 67 E 122 6 LXML PHOI 0060 60 62 63 100 d LXML PHO1 0050 50 56 57 gg 35 09 NO Figure 4 4 The Mechanical Dimension specificat
5. ECE 480 Design Team 12 Adam Tayloe Dan Schulz Chunyu Li Allen Lin Dan Kuang Abstract Content Birefringence Physics Intro The synthetic diamonds that Fraunhofer grows are subject to stress and impurities There are two methods for growing diamond High Temperature High Pressure HTHP and Chemical Vapor Deposition CVD With HTHP extreme temperatures and pressures are applied to graphite With CVD the diamond is grown from a chemical reaction between a vapor and a substrate There is a seed crystal with new diamond formed on top of it To detect impurities in the synthetic diamond birefringence is measured The causes for birefringence in a diamond are dislocations lattice parameter variations precipitates and inclusions fractures and plastic deformation Sometimes these cause the diamond to change color Objective The objective of this project is to detect birefringence in the diamond and define a quantitative value for it that Fruanhofer can use to compare one diamond to the other A linearly polarized filter will be placed in front of an LED causing polarized light to pass through the diamond The light will then travel through a second perpendicularly placed polarizing filter If there is no birefringent properties in the diamond no light will pass through to the camera If however there are impurities due to one of the properties described in the introduction light will pass through the second polarizing filt
6. age 6 and 7 of the Orion StarShoot 5 Solar System Camera user manual Issues TO BE CONTINUED AFTER TESTING Conclusion The camera that is going to be used in birefringence measurement instrument can produce images in desired resolution that team and sponsor want Since we have not yet performed testing on the camera for the birefringence measurement equipment we have not yet obtained optimal settings for the camera needed to produce the right image quality to analyze the diamond samples With the right settings for this camera particularly for brightness the viewing distance and clarity of the captured diamond samples will be useable and appropriate for reaching the goal of measuring the birefringence for this choice of design 4 The Light Source Sub System Abstract The team s goal for this project is to build a system that can measure and detect the impurities of the diamonds grown by Fraunhofer CCL The system uses the optical birefringence concept which requires a perfect alignment between light source polarizers diamond sample and the light detector camera For the light source subsystem the previous team used a laser pointer as their light source However the laser had a non uniform distribution of its light which created spots on the diamond The current team chose Light Emitting Diodes LED as new light source Compared to the laser LEDs can generate the same amount of power but with more uniform and crisp light beams To
7. d leave extra room for the LED light and the voltage regulator At the top of the shell is a hole which is designed so that the camera could be placed to take pictures Below that are three slots for slides The middle slide is for the diamond sample and the other two slides are for the polarizers There is also a sliding door which is designed so that it could be removed That ability to remove the door is important because it is the only way to place slides in the measurement system itself The outer shell was designed so large that it must be turned sideways on the 3 dimensional printing machine makerbot in order to fit Another design consideration is the distance between the polarizers diamond sample to the camera It is desirable to place the polarizers and diamond samples as close to the camera as possible because this way less light gets in between the polarizers producing inaccurate results For the same reason that light could get in between the two filters it is also important to consider the distance between the polarizers and the sliding door Minimizing the distance between the polarizers and the sliding door reduces the amount of ambient and LED light that would get in between the polarizers Another concern regarding the light is whether or not ambient light would get into the system Therefore it is important that the entire system is surrounded by the outer shell as much as possible even though there is an opening with the sliding d
8. e red circle The actual processing of the image is shown underlined in blue The second image s pixels specified by m_image2 are being assigned a new value that is calculated as the absolute difference between the pixel value of image one m_imag1 and the initial pixel value of the second image 6 4 Conclusion In conclusion Visual Studio can be used to create a very user friendly graphical interface as well as accurately process an image This software program makes it very easy for the user to interpret data from the diamond image which is taken by the camera The user interface will allow the client to easily navigate the program and successfully calculate the birefringence of the diamond via image processing Summary Content Bibliography Content
9. er and into the camera Issues Many issues arise when dealing with such precise measurements The alignment of the diamond and polarizers must be perfect If there is any slant or misalignment the birefringence calculations will be useless The LED must also produce light with a surface area at least the size of the diamond or there will be areas that lack a measurement Ambient light from outside of the system must also be kept to a minimum insured by the outer shell Results TO BE CONTINUED AFTER MEASUREMENTS Conclusion There are various reasons that a diamond may express birefringent properties Fraunhofer is interested in finding a quantitative measure for the birefringence and being able to identify exactly where in the diamond the stresses and impurities are located Predicted issues that may arise include proper alignment of the system and keeping out ambient light from the measurements References Lang A R Causes of Birefringence in Diamond Nature com Nature Publishing Group n d Web 27 Mar 2014 Diamond Imaging Intro The camera was chosen as the hardware to capture the image of the diamond to measure the intensity of the light passes through the diamond to measure the birefringence The camera takes a photograph of the diamond to be later used to measure the light intensity that passes through the diamond via the use of a Windows based application designed for performing a birefringence measurement Through featu
10. ions and appearance of the Color LEDs 4 2 Voltage Regulator Implementation Corresponding to the two types of LEDs the voltage regulator can be designed by two plans First design is for the single color LEDs which provides the voltage from 2 1 volts to 3 volts The other design is for the white LED which offers the voltage around 36 volts First for the single color LED a Wall Wart 9 V 300 mA and voltage regulators such as LM2940 and LM3940 are selected to build the power supply for single color LEDs The schematic diagram is in the bottom of this page The spot 4 is the output voltage of the power supply However the voltage is higher than the typical voltages of single color LEDs so a simple resistors circuit in series can solve this problem Using red LED for example the typical operating voltage is 2 1 volts To obtain this particular voltage connecting a 10 ohms actual value is 10 296 ohms and an 18 ohms actual value is 18 334 ohms resistor in series that one side connect to the 3 3volts measuring the actual output voltage is 3 282 volts Eventually connecting the red LED parallel with the 18 ohms resistor The voltage of the LED would be 3 282 18 334 18 334 10 296 2 1003 volts By changing the resistor combinations the other single color LEDs can be operated by this voltage regulator system The theory to operate the White LED is similar to operate single color LEDs but might need a different wall wart
11. lected the user is brought to the main menu In order to start new projects select File New Proiect A new screen will pop up and ask what kind of project is to be created Select MFC Application and click Ok Once again a new cialog box will be displayed Select Application Type in Une lell column vl imenu options select Une MFC standart radiu button under Project Style and then click Finis A new project will be created with pre created classes as shown below In the next section will explain how the user interface can be modified and how to implement the functionality in the code 6 2 User Interface Modification and Functionality In order to modify the user interface the user must be in the Resource View In order to accomplish this select View gt Resource View from the main menu Next single click on the MFCApplication1 arrow in the left column Resource View tab Repeat this step for MFCApplication1 rc and Menu Finally double click on the option IDR _MFCApplication1 TYPE The menu that will be displayed when the program is run is shown as seen below e doo x As seen above new menu options can be added by typing in the Type Here box Other functionality can be added such as buttons text boxes etc through the Toolbox tab which is specified by the red arrow To use the tools contained in the Toolbox tab simply drag and d
12. obtain and calculate multiple measurements the team chose six different colors of LEDs each emitting light at different wavelengths white blue lime green orange and red Finally to integrate these LEDs into one light source system a voltage regulator is required that provides different voltages for each LED Eventually a knob switch might be needed to turn on a single output LED Figure 4 1 Multiple LEDs that were utilized in light source system 4 1 LEDs Implementation The LEDs can be categorized into two types one is high power white LED and the other is high power single color LED All the LEDs are manufactured by Philips Lumileds and sold by Mouser Additionally each LED is characterized as high power LED which can generate enough power for researching in some scientific experiments Mfg Part Number supplier Part Number Part Description Cost each se i LHC1 5080 1208 997 LHC1 5080 1208 White LED a ca i 24 dd LAML PB01 0040 S97 LAML PBO 10080 LEO ro LAML PEO1 0060 S97LXML PEO 1 0060 LED 997 L ZIP AON 997 LXM2PH010070 Oranga LED 997 LXM2PD010050 Red LED la ik Total Your Order 42 78 Figure 4 2 LEDs Part Numbers and Costs First the white LED has notable difference comparing to the other single color LEDs It was characterized as LUXEON CoB by Philips Lumileds which are available in 3 Step as well as 5 Step MacAdam Ellipse enabling uniform optical performance in general
13. oor To mitigate this problem the sliding door is designed such that the edges of shell and door are angled non perpendicularly This way it is harder for ambient light to slip through the cracks Figure 5 1 shows the design of the outer shell in the NX file and Figure 5 2 shows the design of the sliding door Figure 5 1 Outer Shell Design in NX Figure 5 1 Outer Shell Sliding Door Design in NX 3D Printing The 3 dimensional printing is used to create the outer shell This printing is done in the DECS lab located in the engineering building on Michigan State University s campus In order to do the printing the files done in NX must be saved as an STL file At first when the file is opened up the software on the DECS computer which is responsible for the printing says that physical object itself is too large This happens because the outer shell is so large that it does not fit in the 3 dimensional printing machine when it is sitting upright In order to make the outer shell fit it must be placed sideways onto the printing platform 3 dimension printing gives the option of choosing which color to use when printing The color black was chosen for a few reasons First black absorbs light more so than other colors This is important because this way less light gets reflected so less light gets in between the polarizers making the results less accurate The second reason is that it is harder for light to get through the shell since black is the
14. res and specifications of the camera it is possible to capture images of sufficient resolution and size required to fit within the viewing range of the measurement device Camera The camera that is going to be used for the birefringence hardware is the Orion StarShoot 5 MP Solar System camera which is originally designed to be used on telescopes This camera comes with a usb cable which allows real time imagery to be sent to a PC anda software application that has its own visual feed for the camera This camera has a huge 5 megapixel 2592x1944 one shot color imaging sensor which has pixel size 2 2 micron squared which will allow for sufficient resolution to analyze the diamond sample imagery These specifications for this camera were similar to the camera used by the previous design team for this type of project The software application that comes with this camera allows for adjusting the quality of captured images The two options which include exposure and gain are used to adjust the brightness of the image The gain option adjusts dimming and brightening of the image to obtain the desired image clarity Another option which is exposure permits adjusting the amount of light the camera is exposed to when capturing images The other option is dark frame correction which is used to eliminate inherent noise in the form of vertical lines and bright dots that becomes noticeable if the exposure time is over 3 seconds These options can be found in p
15. rop the tool to be used onto the screen The left column options as specified by the blue circle allows for the creation of dialogue boxes tables icons and toolbars In order to implement the menu option functionality as part of the code right click on the menu option to add select Add Event Handler and select CMFCApplication1Doc under the class list and click Ok This process will create a function for the selected menu option which can be manipulated in the code under the MFCApplication1Doc cpp class option In order to return to the list of available classes simply click the Class View tab in the lower left hand corner of the screen In order to implement dialog boxes an important aspect when it comes to user interfacing right click on the main MFCApplication1 tab up at the top of the Resource View Next select Add gt Resource When a new box is displayed select Dialog and click New To add functionality to the newly created dialog box drag and drop the appropriate tools from the toolbox When the dialog box is up to user standard right click on the dialog options that takes user input and select Add Variable This creates a variable that is associated with the input of the user In order to connect the actual dialog box to the code right click on the dialog box and select Add Class Give the dialog a class name such as CDialog The functionality of
16. sors Visual Studio is a software program that can accomplish this Visual Studio a Microsoft program is an integrated development environment that focuses around user interface and image processing 6 1 User Interface Implementation Visual Studio allows the user to either build a user interface with one or multiple windows depending on the intention of the project When Visual Studio is first opened the user is prompted to select the programming language that will be used in the development settings Once the language is selected the user is brought to the main menu In order to start a new project select File gt New gt Project A new screen will pop up and ask what kind of project is to be created Select MFC Application and click Ok Once again a new dialog box will be displayed Select Application Type in the left column of menu options select the MFC standard radio button under Project Style and then click Finish A new project with multiple windows will be created with pre created classes as shown below AFC pplicarori Microsett Viewel St nt pao i X OELE Pe merih Mie mranl Non Jolty HE HIO EWO PRORCI BULI DEBUG RAM OLS TESI AFCHIISCIURE ANAYA WINJUW Hill re Here ee elyon aeee Maines ww We 20 RERE P D ocal ingows Diduga Ato Debus Wind fl P a ng Atl ace Oh te eM T IT j A rir b 9 dr A A sedi Lain 18 ambi auecax AabC aathoe AAH anpbce doubt said aa
17. tan bt sube Atheist AMG AOC i Brea PEREN A rant AYA 8335 Bac ye gt Eleven Nn ipa Iearingt ending Te noie fn mph Intenel Strnp Cwe leme Gabbe Reh Ione lack THe chee Mat INA lpi 6 Visual Studio User Interface and Image Processing NECApaicationt Doc iF ston View Abstracts Isorintorfarna give non torhniral users the nbil y ta navigate and implemen hardware solutions thet would otherwise need to be accomplished by subject experts User interfaces are iuciol ina world where hardware ane elec uricy duminate everyday life One of Une iust dominant electronic components now a days is the sensor The sensar is an daminant herause this electronic component is able to gather and interpret data while behaving like human senses Cre vl the musl uselul kinds u sensors is the camera as sight is une ol lhe must fundamental human senses Imago processing provides the ability ro trivially interer and manipulate date from these sensors Visual Studio is a software program that can accomplish this Visual Studio a Microyu t program is an integrated developer environment tal fucuses arvund iser interface and image processing 6 1 GUI CONSTRUCTION Visual Studu allows the user tu either build user interface villi one ur multiple windows depending onthe intention of the project When Visual Studio is first opened the user is prompted tosolact the programming language that will be used in the development setings Onee the language is se
18. terate the height of the picture need to be created in order to traverse every pixel of the image This image processing must be implemented in the menu handler function that was created during the modification of the user interface See the figure below in order to have a better understanding of the implementation of image processing in code ImageProcess Microsoft Visual Studio Resource View ImageProcess Y File Edit View Project Build Debug Team Data Tools Test Window Help fall ad da Debug win2 AFGORONA IO e e 2 0 R9A3459 ImageGenerateView h ImageProcess cpp ImageProcessView cpp ImageProcess h ImageProcessDoc cpp X ImageProcessDoc h A ClmageProcessDoc i o Y OnCalculatebirfringenceGeneratebirefringencemap void CImageProcessDoc OnCalculatebirfringenceGeneratebirefringencemap TODO Add your command handler code here BeginWaitCursor m_image2 SetSameSize m_image1 for int r r lt m_image2 GetHeight r for int c 0 c lt meimege2 Gethidth c m_image2 r c 3 1 abs m_image2 r c 3 m_imagel r c 3 UpdateAllViews NULL EndwaitCursor Show output from jl alad3 e 6 02 PM 3 26 2014 lt RO ul amp Its shown in the example above how image processing is dealt with To start the red arrow points to the function declaration of the menu handler Inside the function the two for loops specified above can be seen inside th
19. the dialog box will be associated with the newly created class and the menu handlers 6 3 Image Processing In Visual Studio only omp and jpeg formats are acceptable for processing In addition the program and file format only support RGB color images All processing is done internally on 8 bit per pixel RGB data However in Visual Studio the actual data order is BGR blue green and then red To implement image processing in Visual Studio there is a special class in the library called CGrlmage h and CGrlmage cpp These files must be included by placing include graphics Grlmage h at the top of the appropriate classes This header and source file contain certain functions that help with image processing These functions include GetWidth and GetHeight which return the number of pixels in the width and height of the picture respectively Another useful function is LoadFile which loads an acceptable file into the specified variable Finally the function SetSameSize variable function allows the calling variable to be set as the same pixel size as the variable in the parameters In order to properly use these functions a variable of type CGrlmage must be created and then call these functions as methods To perform image processing the user must load in an acceptable image and save it to a variable of type CGrlmage using the LoadFile function Two for loops one to iterate the width of the picture and one to i
Download Pdf Manuals
Related Search