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Labsphere illumia Plus2 Hardware Manual

Integrating sphere spectroradiometers
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illumia®Plus2
Integrating Sphere
Spectroradiometers
Hardware Manual
Labsphere, Inc. 231 Shaker Street, North Sutton, NH 03260 USA
www.labsphere.com +1.603.927.4266

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Summary of Contents for Labsphere illumia Plus2

  • Page 1 Integrating Sphere Spectroradiometers Hardware Manual Labsphere, Inc. 231 Shaker Street, North Sutton, NH 03260 USA www.labsphere.com +1.603.927.4266...
  • Page 2 Labsphere. Labsphere reserves the right to revise this documentation at any time without obligation on the part of Labsphere to provide notification of any such revision or change. Labsphere incorporated has made all reasonable efforts to ensure the information contained within this document is accurate and complete.

  • Page 3: Table Of Contents

    1. TABLE OF CONTENTS Document Conventions ........................6 Important Safety Information ......................7 3.1. General Safety Statement ......................7 3.2. To Avoid Fire or Personal Injury ....................7 3.3. Operating Conditions: ....................... 8 3.4. Clearance Requirements ......................8 3.5. Lighting Hazard......................... 8 3.6.
  • Page 4 10.1.1. 4π Post Extension ......................29 10.2. 2π Rear Sphere DUT Mount Assembly ................30 Junction Boxes and Junction Sockets ..................31 11.1. ICM-500 Control Module ....................33 11.2. Interconnect Cable ....................... 34 Spectrometers and Lamp Power Supplies.................. 35 12.1. CDS-600/610 Spectrometer ....................
  • Page 5 14.14. Install the LPS Power Supply Software and Device Driver ..........71 14.15. Connection Diagram ......................72 Xitron XT2640 Communication Settings .................. 73 15.1.1. Baud Rate Setting ......................73 15.1.2. Data Coupling Setting ....................74 Chroma AC Source Communication Settings ................76 Appendix 1: illumia®Plus2 - 600/610 Specs &...

  • Page 6: Document Conventions

    2. DOCUMENT CONVENTIONS This Operators Manual includes the following conventions: The note icon is used to highlight important configuration information. The caution icon is used to illustrate environments where an electrical shock hazard exists. The heat icon indicates situations where hazardous temperatures exist.

  • Page 7: Important Safety Information

    Proper Use and Operation Failure: Do not operate unit if it is suspected that there are electrical failures. Disable the product if it is damaged and return to Labsphere at the address provided in the user manual. The product should be clearly marked as defective after power is turned off and unit is disconnected from power source.

  • Page 8: Operating Conditions

    3.6. System Ratings — Primary System Components This table defines the system rating for the Labsphere ICM-500 and the Labsphere LPS power supplies; the only active electronic components that are common to all illumia ®...

  • Page 9: Minimum System Requirements

    • Two or more processor cores • Two or more GHz/core o Four or more processor threads/core • 8GB RAM 4. ABOUT THIS MANUAL This manual describes the hardware, system installation and maintenance of a typical Labsphere ® ® illumia Plus2 system. illumia...

  • Page 10: Uncrating And Installing The 165Cm And 195Cm Systems

    5. UNCRATING AND INSTALLING THE 165CM AND 195CM SYSTEMS To uncrate and install the 165cm and 195cm sphere systems: 1. Remove the top panel of the crate by taking out all of the screws along the edges using a Philips head driver and power drill. Locate the Left and Right sides of the crate as the sides that have lag bolts along the base.
  • Page 11 Remove the two 2 x 4 boards at the top of the sphere, by removing the screws located on the outside of the side panels. Support the beams while removing the screws so that it does not fall and damage the sphere. 6.
  • Page 12 11. Adjust the two leveling feet (outlined in red) at the base of the fixed half of the frame so that the sphere is level. Leveling Foot 6. Once level, adjust the mounting brackets by loosening the two Allen bolts that attach them to the frame.

  • Page 13: System Overview

    Plus2 systems are covered in a separate Labsphere manual (AQ-30059-000). ® All illumia Plus2 systems includes Labsphere’s Integral software to operate the system with. Refer to the included Labsphere Integral Operation manual (AQ-81000-100) for details on its installation and operation. 6.1. Standard System Components ®...

  • Page 14: Icm-500 Control Module

    Figure 1: ICM-500 Control Module 6.1.2. Programmable DC Power Supplies One of three Labsphere LPS power supplies are included in every illumia®Plus2 system. These power supplies are designed to accurately provide DC current to reference lamp, auxiliary lamp, and DCV devices under test.

  • Page 15: System Components

    7. SYSTEM COMPONENTS Figures 1 and 2 represent a typical, mid-range illumia ® Plus2 system with the 4π and 2π DUT fixtures. Upper 4π Mounting Clamp Front Hemisphere Rear Hemisphere Aux Lamp Port Calibration Lamp Port 4π Mounting Fixture 2π Port Frame Reducer (2) 4π...

  • Page 16: Integrating Spheres

    100cm 165cm 195cm 300cm The spheres are made of spun aluminum and the inner surfaces are treated with Labsphere’s Spectraflect ® — a proprietary, high-reflectance specially formulated barium sulfate coating that produces a nearly perfect diffuse reflectance surface. The sphere assemblies come with a bottle of ®...

  • Page 17: Lms-025 25Cm Sphere Assembly

    8.1. LMS-025 25cm Sphere Assembly Figure 5: LMS-025 25cm Sphere Assembly...

  • Page 18: Lms-050 50Cm Sphere Assembly

    8.2. LMS-050 50cm Sphere Assembly Figure 6: LMS-050 50cm Sphere Assembly...

  • Page 19: Lms-100 100Cm Sphere Assembly

    8.3. LMS-100 100cm Sphere Assembly Figure 7: LMS-100 100cm Sphere Assembly...

  • Page 20: Lms-165 165Cm Sphere Assembly

    8.4. LMS-165 165cm Sphere Assembly Figure 8: LMS-165 165cm Sphere Assembly...

  • Page 21: Lms-195 195Cm Sphere Assembly

    8.5. LMS-195 195cm Sphere Assembly Figure 9: LMS-195 195cm Sphere Assembly...

  • Page 22: Lms-300 300Cm Sphere Assembly

    8.6. LMS-300 300cm Sphere Assembly Sphere Weight: 1020 lbs (462 kg Sphere Max Height: 140 inches (3.6 cm) Sphere Footprint Open/Closed: 150 in W x 201 L Figure 10: LMS-300 300cm Sphere Assembly...

  • Page 23: Sphere Frames And Hinges

    8.7. Sphere Frames and Hinges The 25cm, 50cm, and 100cm diameter spheres are mounted on a one-piece extruded aluminum frame in which the front and rear hemispheres are hinged together directly and mounted to the left side vertical frame rail. The 165cm and 195cm diameter spheres are mounted on a two-piece, extruded aluminum, hinged frame in which the front hemisphere’s frame is on casters to allow it to roll open in an arc on its hinge while the rear hemisphere frame remains stationary (typically bolted to the floor).

  • Page 24: Sphere Lamps

    9. SPHERE LAMPS 9.1. 2π Calibration Lamp Assembly ® The 2π calibration lamp assembly is available in every illumia Plus2 configuration, except for the 3- meter system that only comes with the 4π lamp assembly. The 2π lamp assembly includes: •...

  • Page 25: Calibration Lamp Assembly

    9.1. 4π Calibration Lamp Assembly The 4π calibration lamp assembly is part of the 4π lamppost, central sphere mount assembly and ® available in every illumia Plus2 configuration. The lamp has a push-and-turn power connector that fits into the candelabra bayonet mount that screws into the 4π DUT breadboard. Refer to section 10.1 “4π Lamppost Central Sphere Mount”...

  • Page 26: Auxiliary Lamp

    9.2. Auxiliary Lamp ® The auxiliary lamp assembly is included in every illumia Plus2 system. The auxiliary lamp assembly includes: • ICS series QTH lamp with protective acrylic tube — lamp wattage varies with the system • Protective foam-lined case •...

  • Page 27: Device Under Test Fixtures

    DEVICE UNDER TEST FIXTURES 10.1. 4π Lamppost Central Sphere Mount The 4π lamppost assembly is available in every illumiaPlus2 configuration, either on its own or as an add- on to a 2π system. Refer to the Appendix sections at the end of the manual for a breakdown of the systems. When supplied as an upgrade kit, the 4π...
  • Page 28 The 4π lamppost assembly is designed to locate the DUT in the exact center of the sphere’s horizontal plane while allowing it to be moved up and down along the sphere's vertical axis. To achieve the correct DUT orientation, the post assembly can either be suspended from the top of the sphere or mounted at the bottom of the sphere and subsequently adjusted to position the device in the center of the sphere.

  • Page 29: Post Extension

    10.1.1. 4π Post Extension To extend (or collapse) the 4π post: 1. Firmly grasp the mounting fixture in one hand and turn the clamping knob counterclockwise with the other hand. Clamping Knob Mounting Fixture Breadboard 2. Slowly pull the mounting fixture up or down to the desired position by extending or collapsing the post.

  • Page 30: Rear Sphere Dut Mount Assembly

    10.2. 2π Rear Sphere DUT Mount Assembly The 2π rear sphere DUT mount assembly is available in every illumia ® Plus2 system, with the exception of the 25cm and 3-meter systems. This assembly includes: • 13.00 to 6.00-inch port frame reducer with handle/hanger •...

  • Page 31: Junction Boxes And Junction Sockets

    JUNCTION BOXES AND JUNCTION SOCKETS The 100cm, 165cm and 195cm diameter sphere assemblies come with a triangular shaped sheet metal junction box in which the interconnect cable and lamp cables are connected. Two AC outlets are also provided to power additional accessories or components. The 300cm diameter sphere assemblies come with a rectangular shaped sheet metal junction box in which the interconnect cable and lamp cables are connected.
  • Page 32 4π Connection Box Figure 22: Junction Socket for the 50cm Sphere Assemblies — shown with 4π connection box Lamp Connection Socket (2) AC Outlet (2) Junction Socket Figure 23: Junction Box for the 3-Meter Sphere Assemblies...

  • Page 33: Icm-500 Control Module

    4. AC Input Socket o Connects to an optional Chroma AC Source unit 5. DC Input Socket o Connects to the Labsphere LPS power supply 6. Power Meter Socket o Connects to an optional Xitron XT2640 power analyzer 7. User Input Terminal Strip...

  • Page 34: Interconnect Cable

    11.2. Interconnect Cable The 14 ½-foot interconnect cable connects the rear panel of the ICM-500 to the outside panel of the junction box. It uses a 35-pin circular twist-lock connector at either end. 14 of the 35 pins are used. The male end connects to the ICM-500 and the female end connects to the junction box.

  • Page 35: Spectrometers And Lamp Power Supplies

    SPECTROMETERS AND LAMP POWER SUPPLIES The illumia®Plus2 systems can be operated using one of three different Labsphere spectrometers. The spectrometer’s optical fiber connects to a port frame equipped with an SMA/cosine adaptor and to the system computer through the ICM-500 USB hub.

  • Page 36: Cds-2600 Spectrometer

    12.2. CDS-2600 Spectrometer The highly sensitive, back-thinned CCD array of the CDS-2600 spectrometer offers low noise, high dynamic range, very low stray light and a broad spectral response with a calibrated spectral range from 350 to 1050 nm and a resolution of 2.4 nm and dynamic range >200,000:1. It has a permanently mounted fiber SMA connector for easy installation and communicates with the host computer over a USB connection.

  • Page 37: Cds-2600 Performance Specifications

    12.2.2. CDS-2600 Performance Specifications Detector: TE Cooled 1044 x 64 CCD (back thinned) Spectral Range: 325 - 1050 nm Calibrated Spectral Range: 350 - 1050 nm Resolution: 2.4 nm Data Point Interval: 1.0 nm Integration Time: 8 ms - 900 seconds Cooling: -10 ±...

  • Page 38: Cds-3020/3030 Spectrometer

    12.3. CDS-3020/3030 Spectrometer The CDS-30x0 Spectrometer is designed to measure critical spectral and optical characteristics of devices with reliability, speed and accuracy specifically in manufacturing environments. Fiberoptic connectors easily connect the CDS-30x0 to a variety of measurement devices for both spectroradiometric and photometric measurement.

  • Page 39: Lps Series Programmable Lamp Power Supplies

    They can also be operated and programmed in stand-alone mode using the dedicated LPS software that is included on the Labsphere flash drive. Refer to the included Labsphere LPS software manual (AQ-0318-100) and LPS hardware manual (AQ-0318-000) for more information. Both manuals are on the Labsphere flash drive.

  • Page 40: Lps Series Specifications

    12.4.1. LPS Series Specifications Specification Description SUMMARY LPS-175-27 LPS-350-28 LPS-525-42 Maximum Current (Amps) 8.33 Maximum Voltage (Volts) Maximum Power (Watts) SETPOINT CURRENT Range (Amps) 0 – 8.33 0 – 13 0 – 13 Resolution (Amps) 0.001 0.001 0.001 Accuracy, Operating Points (±[% 0.025% + 0.0021 0.025% + 0.0033 0.025% + 0.0033...

  • Page 41: Add-On Component Modules

    The Xitron XT2640 is a powerful and accurate testing and analyzing system for all power test applications. The model in the Labsphere IL-PM1 kit is a single channel unit that can be upgraded to four channels. The kit includes a custom Labsphere cable (AS-33002-002) that consists of a four-pin twist lock connector on one end and four banana jacks on the other end.

  • Page 42: Chroma Ac Source Kit Il-Ac1

    The Chroma model in the Labsphere IL-AC1 kit is the 61603. The kit includes a custom Labsphere cable (AS-33002-004) that consists of an eleven-hole twist lock connector (using five pins) on one end and five labeled, color-coded wires with ring-terminals on the other end.

  • Page 43: Rtd Ambient Temperature Probe (Optional)

    13.3. RTD Ambient Temperature Probe (optional) The optional RTD (resistance temperature detector) probe provides accurate and repeatable temperature measurements inside the closed integrating sphere. The RTD probe works by using a basic principle; as the temperature of a metal increases, so does the resistance to the flow of electricity. An electrical current is passed through the sensor, the resistance element is used to measure the resistance of the current being passed through it.

  • Page 44: Installation

    The installation process of the various illumia®Plus2 systems is essentially the same with the exception of the 3-meter versions that require on-site assembly and installation by a trained Labsphere technician or application engineer. The installation process for all other systems consists of three primary procedures: 1.

  • Page 45: Transporting The Lms-195 195Cm Sphere Assembly

    This procedure is not necessary with all other sphere assemblies, including the larger 300cm sphere assembly that can only be constructed and installed on- site by trained Labsphere personnel. 14.1.1. To Transport the LMS-195 Sphere Assembly Two or more able-bodied adults are required to do this.
  • Page 46 3. After removing the latch bracket, rotate the fixed hemisphere on its side and pass it through the door opening. Door Frame Spectraflect Surface Do not touch or mar Fixed Hemisphere 4. Rotate the moving hemisphere on its side and pass it through the door opening. Door Frame Moving Hemisphere 5.

  • Page 47: Installation Of The Sphere Assembly And Its Components

    14.2. Installation of the Sphere Assembly and its Components 1. Uncrate the sphere assembly and its associated components and transport them to the installation site. 2. Take note of the orientation of the sphere to ensure clearance when the hemisphere is opened. Refer to the floor plan diagram for your system in section 8 “Integrating Spheres”...

  • Page 48: Installation Of The 2Π Calibration Lamp

    14.3. Installation of the 2π Calibration Lamp The 2π calibration lamp ships inside its own protective case and is identified on the case as either “2PI-1-INT-650” or “2PI-1-INT-1400”, depending on the size of the illumiaPlus2 system. Refer to section 9.1 “2π Calibration Lamp Assembly” on page 24. 1.
  • Page 49 6. Connect one end of a 7-pin twist-lock lamp cable to the lamp socket. Connect the other end of the cable to the socket labeled “2π CAL” on the junction box in 100cm, 165cm, 195cm and 300cm systems. In 25cm and 50cm systems, connect the break-away cable labeled “2π CAL” that is attached to the junction socket on the sphere frame.

  • Page 50: Installation Of The 2Π Calibration Lamp Baffle

    14.4. Installation of the 2π Calibration Lamp Baffle This baffle must be installed to shield the two detector ports when using the 2π calibration lamp. 1. Locate the two knurled, captive panel-screws on the outside of the rear hemisphere, just to the right of the two detector port covers.
  • Page 51 3. Take the 2π baffle from the accessories kit and locate the two threaded cylinders that are swaged to the inside mounting flange. Threaded Cylinder (2) Mounting Flange Figure 36: 2π Baffle 4. Place the baffle’s threaded cylinders on the two captive panel-screws threaded studs on the inside of the rear hemisphere.

  • Page 52: Installation Of The 4Π Dut Mounting Pole Assembly

    14.5. Installation of the 4π DUT Mounting Pole Assembly 1. If installing the 4π DUT mounting pole assembly, remove the lamp post plug from either the top or bottom of the fixed sphere, depending on which end the lamp post will be installed. Turn the clamp lever counterclockwise to release the plug.
  • Page 53 4. Push the 4π pole up through the cylinder hole to the point where approximately 28mm of the pole protrudes through the top of the hole. Turn the clamp lever clockwise to lock the pole in place. Clamp Lever Lamp Cable ≈...

  • Page 54: Installation Of The 4Π Baffle

    14.6. Installation of the 4π Baffle The 4π baffle must be installed over the two detector ports when using the 4π DUT mounting post assembly. The 4π baffle and hardware are in the same carton as the 4π post assembly. 1.
  • Page 55 3. Put on latex or cloth gloves and do not touch the baffle or inside surface of the sphere with bare hands. 4. Take the 4π baffle from the accessories kit and locate the two threaded cylinders that are swaged to the inside mounting flange.
  • Page 56 6. Loosen the lock-tab screw using a small Philips screwdriver on the inside and a 5.5mm wrench or socket holding the acorn nut on the outside. Only loosen the lock-tab screw enough to create a gap for the baffle’s lock-tab to fit under the screw’s flat washer. Do not remove the screw. Lock-Tab Screw Acorn Nut 5.5mm Wrench...
  • Page 57 8. Mount the baffle in place by hand-threading the two knurled captive panel-screws from the outside into the two threaded cylinders on the baffle flange on the inside. 9. Squeeze the two 4π baffle legs together, just enough to slip the lock-tab on the right leg into the gap under the lock-tab screw’s flat washer.

  • Page 58: Installation Of The Detector Port Sma/Cosine Connector

    14.7. Installation of the Detector Port SMA/Cosine Connector After installing the 2π and/or 4π detector baffles in the previous two sections, the SMA/Cosine connector must be installed into either one of the two detector ports. This will provide the fiber-optic connection to the spectrometer in your system.
  • Page 59 3. Hold the collar flush against the sphere wall and tighten the two screws with a 1.5mm hex driver. 4. Unscrew the protective blue cap from the SMA/Cosine connector and thread on the unconnected end of the fiber cable that is connected to the spectrometer for your system.

  • Page 60: Installation Of The Auxiliary Lamp

    14.8. Installation of the Auxiliary Lamp 1. Locate the auxiliary lamp port cover on the left side of the rear (fixed) hemisphere, next to the sphere frame. Aux Lamp Port Cover Sphere Frame Aux Lamp Port Cover Rear Hemisphere...
  • Page 61 2. Loosen the two setscrews on the outside edge with a 1.5mm hex driver, remove the port cover and locate the port frame underneath. Port Frame 1.5mm Hex Driver Aux Lamp Port Cover 3. Put on latex or lint-free cloth gloves at this point. Take the auxiliary lamp from its case and remove the protective sheath by loosening the two setscrews that hold it in place with a 1.5mm hex wrench.
  • Page 62 Mounting Collar (flush against base) Figure 38: Auxiliary Lamp Installed in Rear Hemisphere with Twist-Lock Power Cable 5. In 100cm, 165cm, 195cm and 300cm systems, connect one end of a 7-pin twist-lock lamp cable to the lamp socket and the other end to the socket labeled “AUX” on the junction box. In 25cm and 50cm systems, connect the AUX break-away cable from the junction socket on the sphere frame to the auxiliary lamp socket.

  • Page 63: Installation Of The Rtd Ambient Temperature Probe

    14.9. Installation of the RTD Ambient Temperature Probe The optional RTD ambient temperature probe assembly consists of the probe itself and the TC-08 junction box that the probe leads plug into. Refer to section 13.3 “RTD Ambient Temperature Probe (optional)” on page 43. 1.
  • Page 64 3. Insert the probe into the port. 4. Position the mounting collar over the port frame until it is flush against the port frame base. Tighten the two setscrews in the mounting collar with a 1.5mm hex driver. 5. Insert the probe lead plug into one of the sockets in the TC08 junction box. 6.

  • Page 65: Installation Of The Primary Electronic Components

    14.10. Installation of the Primary Electronic Components For proper operation install either the Power Meter Jumper (provided with the ICM-500) or a Power Meter. Refer to step 8. 1. Position the ICM-500 and LPS power supply next to each other. This can be on the sphere shelf in the larger illumiaPlus2 systems or on a bench.
  • Page 66 5. Locate the 7-pin twist lock lamp cable that came with LPS power supply. Plug and twist one end into the socket labeled “OUTPUT” on the rear of the LPS. Plug and twist the other end into the socket labeled “DC INPUT” on the rear of the ICM-500. LPS Power Supply 7-Pin Twist Lock Lamp Cable 6.

  • Page 67: Chroma Ac Source Add-On Installation

    14.11. Chroma AC Source Add-on Installation 1. Take the 5-wire-to-twist-lock cable harness that comes with the Chroma AC Source add-on kit and connect the spade terminals on the ends of the five labeled wires to the output terminal block on the rear panel of the Chroma AC Source. Match the letters on the wire labels with the letters on the terminal block.
  • Page 68 3. Plug the USB end of the RS232-to-USB cable from the Chroma AC Source into one of the six USB sockets on the rear panel of the ICM-500. 4. Adjust the communication setting in the Chroma AC Source to accept the RS232 connection. Refer to section 16 “Chroma AC Source Communication Settings”...

  • Page 69: Xitron Power Analyzer Add-On

    14.12. Xitron Power Analyzer Add-on 1. Locate the power meter twist-lock cable with the four red and black banana plugs on one end that came with the Xitron add-on kit. Insert the four banana plugs into the “CH 1” output strip on the rear panel of the optional Xitron XT2640 power analyzer.

  • Page 70: Computer Connections And System Start Up

    1. Connect the AC power cables to all electronic components in the system and turn them on. 2. Connect a USB A-to-B cable from the user’s computer to the front USB socket on the ICM-500. 3. Insert the supplied Labsphere USB flash drive into a USB socket in the user’s computer and run the Integral Installer.

  • Page 71: Install The Lps Power Supply Software And Device Driver

    1. Exit the Integral application. 2. Locate the Labsphere flash drive that is packaged with the LPS power supply, insert it into an available USB port in the host computer and select the option to open it in its own folder.

  • Page 72: Connection Diagram

    14.15. Connection Diagram JUNCTION JUNCTION ICM-500 ICM- SPHERE SPHERE LAMP LAMP LAMP SOURCE SOURCE SOURCE INPUT INPUT SOURCE SOURCE SOURCE INPUT INPUT LAMP LAMP LAMP OUTPUT OUTPUT USER USER USER USER USER INTER- INTER- SOURCE SOURCE SOURCE INPUT INPUT LAMP LAMP LAMP CONNECT...

  • Page 73: Xitron Xt2640 Communication Settings

    XITRON XT2640 COMMUNICATION SETTINGS 15.1.1. Baud Rate Setting The baud rate must be set in the optional Xitron XT2640 power analyzer to accept RS232 (RS232/NULL to USB) commands: 1. Turn on the Xitron XT2640 and select the SYS CONFIG menu on the right-hand side. 2.

  • Page 74: Data Coupling Setting

    15.1.2. Data Coupling Setting The default data coupling setting in the Xitron XT2640 is “AC ONLY” in the “MEAS CONFIG” menu. This must be switched to AC+DC. 1. Turn on the Xitron XT2640 and select the “MEAS CONFIG” menu on the right-hand side. Note the “COUPLING”...
  • Page 75 4. The “COUPLING” button at the top of the “DATA” column will now read “AC+DC”. 5. Press the “SYS CONFIG” button to return to the home screen, then press the “SAVE SETTINGS” button. In the next screen. press the “USER 1” button or any other open storage location.

  • Page 76: Chroma Ac Source Communication Settings

    CHROMA AC SOURCE COMMUNICATION SETTINGS The Chroma AC Source must be set to accept RS232 (RS232/DB9F to USB) commands. Once the settings are saved (either temporarily or permanently), the Chroma will accept RS232 commands. 1. Power up the Chroma and wait for it to cycle through its status screens and display the home screen.
  • Page 77 5. The display should read “PARITY = NONE” and “BAUD = 19200” as shown below. 6. To change a value, navigate to it using the PAGE up/down arrow buttons, then turn the dial to change the value. Once the desired value is displayed, press the ENTER button. 7.

  • Page 78: Appendix 1: Illumia®Plus2 - 600/610 Specs & Ordering Information

    APPENDIX 1: ILLUMIA®PLUS2 - 600/610 SPECS & ORDERING INFORMATION System illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 ® ® ® ® ® with 25 cm sphere with 50 cm sphere with 100 cm sphere with 165 cm sphere with 195 cm sphere illumia Plus2 600...

  • Page 79: Appendix 2: Illumia®Plus2 - 2600 Specs & Ordering Information

    APPENDIX 2: ILLUMIA®PLUS2 - 2600 SPECS & ORDERING INFORMATION System illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 ® ® ® ® ® with 25 cm sphere with 50 cm sphere with 100 cm sphere with 165 cm sphere with 195 cm sphere illumia Plus2 2600...

  • Page 80: Appendix 3: Illumia®Plus2 - 3020/3030 Specs & Ordering Information

    APPENDIX 3: ILLUMIA®PLUS2 - 3020/3030 SPECS & ORDERING INFORMATION System illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 ® ® ® ® with 50 cm sphere with 100 cm sphere with 165 cm sphere with 195 cm sphere illumia Plus2 3020: ®...

  • Page 81: Appendix 4: Illumia®Plus2 - 3 Meter Specs & Ordering Information

    APPENDIX 4: ILLUMIA®PLUS2 - 3 METER SPECS & ORDERING INFORMATION System illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 illumia Plus2 ® ® ® ® ® 600-300 610-300 2600-300 3020-300 3030-300 4π version: AA-40024-300 AA-40034-300 AA-40074-300 AA-40084-300 AA-40094-300 Sphere: LMS-300 LMS-300 LMS-300 LMS-300...

  • Page 82: Appendix 5: Icm-500 Rack Mount Kit

    Plus2 rack mount kit enables the ICM-500 control module to be mounted into a standard EIA 19-inch equipment rack. A 3U rack space is required. The rack mount kit can be ordered with the system or added on to one later. Contact Labsphere Customer Service for ordering information. ICM-500 Mounting Hole (4)

  • Page 83: Appendix 6: European Union Declaration Of Conformity

    APPENDIX 6: EUROPEAN UNION DECLARATION OF CONFORMITY...
  • Page 84 P.O. Box 70, Shaker Street • North Sutton, NH 03260 Phone: 603-927-4266 • FAX : 603-927-4694 • E-mail : info@labsphere.com • www.labsphere.com Labsphere offices are in the United States, France, Germany, the United Kingdom and the Asia Pacific region. Visit www.labsphere.com for location-specific contact information.

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