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Summary of Contents for LumaSense technologies IMPAC IN 9 plus
- Page 1 IMPAC Pyrometer IN 5/9 plus...
- Page 2 LumaSense Technologies prohibits the duplication of any portion of this manual or the use thereof for any purpose other than the operation or maintenance of the equipment described in this manual, without the express written permission of LumaSense Technologies.
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Page 3: Table Of Contents
Contents General Information ....................... 5 1.1 Information about the user manual ..............5 1.1.1 Legend ........................5 1.1.2 Terminology ......................5 1.2 Safety ........................5 1.2.1 Laser Targeting Light ....................5 1.2.2 Electrical connection ....................6 1.3 Limit of liability and warranty ................6 1.4 Unpacking the Instrument .................. - Page 4 4.2.2 Online (ONL) ......................18 4.3 Factory settings ..................... 18 Parameter Descriptions / Settings ................19 5.1 Settings at the pyrometer or via serial interface ..........19 5.1.1 Emissivity (Emi) ....................... 19 5.1.2 Exposure time (t ) ....................19 5.1.3 Analog Output 0/4 to 20 mA ................
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Page 5: General Information
1 General Information 1.1 Information about the user manual Congratulations on choosing this high quality and highly efficient IN 5/9 plus pyrometer. This manual provides important information about the instrument and can be used as a work of reference for installing, operating, and maintaining your pyrometer. It is important that you carefully read the information contained in this manual and follow all safety procedures before you install or operate the instrument. -
Page 6: Electrical Connection
LumaSense Technologies is not liable for any damages that arise from the use of any examples or processes mentioned in this manual or in case the content of this document should be incomplete or incorrect. -
Page 7: Unpacking The Instrument
Email: eusupport@lumasenseinc.com 1.6 Shipments to LumaSense for Repair All RMA shipments of LumaSense Technologies instruments are to be prepaid and insured by way of United Parcel Service (UPS) or preferred choice. For overseas customers, ship units air- freight, priority one. -
Page 8: Transport, Packing, And Storage
Send RMA Shipments to your nearest technical service center: Santa Clara, California Frankfurt, Germany LumaSense Technologies, Inc. LumaSense Technologies GmbH 3301 Leonard Court Kleyerstr. 90 Santa Clara, CA 95054 USA 60326 Frankfurt Telephone: +1 408 727 1600 Germany +1 800 631 0176 Telephone: +49 (0)69-97373 0 Email: support@lumasenseinc.com... -
Page 9: Introduction
2 Introduction 2.1 Appropriate use The IN 5/9 plus is a digital, highly accurate pyrometer for non-contact temperature measurement of Sapphire and Sapphire Wafers between 0 °C and 1500 °C. 2.2 Scope of delivery Instrument with selected optics, works certificate, PC measurement and evaluation software InfraWin Note: A connection cable is not included with the instrument and has to be ordered separately (see Chapter 10, Reference numbers). -
Page 10: Dimensions
Analog Output: Adjustable 0 ... 20 mA or 4 ... 20 mA (linear) Load: Max. 500 Ohm at 24 V (max. 200 Ohm at 18 V) Digital Interface: RS232 (RS485 on request) Parameters: Adjustable on the pyrometer (in offline mode): Emissivity, exposure time, 0/4 ... -
Page 11: Physical User Interface
2.5 Physical user interface Laser warning label Fixing screws for rear panel Stainless steel housing Electrical connector Optics Laser targeting light button Type label Setting keys at the pyrometer Housing rear panel 2.6 Accessories (Optional) Numerous accessories guarantee easy installation of the pyrometers. The following overview shows a selection of suitable accessories. -
Page 12: Miscellaneous
2.6.3 Miscellaneous The air purge protects the lens from contamination with dust and moisture. It must be supplied with dry and oil-free pressurized air and generates an air stream shaped like a cone. Vacuum support Air purge units The pyrometer can be easily mounted on a vacuum chamber with the KF 16 vacuum support with sighting window. -
Page 13: Controls And Installation
3 Controls and Installation 3.1 Electrical Installation The IN 5/9 plus pyrometer is powered by a voltage of 24 V DC (possible range 18 ... 30 V). Once connected to power, the instrument operates immediately and needs no warm-up time. To switch off the instrument, unplug the connector. -
Page 14: Connecting To Rs232 Interface
commonly used adapters are too slow for fast measuring equipment, so it is recommended to use the RS485 USB adapter cable (ref. no. 3 826 750). With a slow RS485 connection it is also possible to set a wait time at the pyrometer, which delays the response of a command to the pyrometer (see 5.2.6 Wait time t 3.1.3 Connecting to RS232 interface... -
Page 15: Sighting
3.2 Sighting 3.2.1 Laser targeting light For exact measurement of the object temperature, the pyrometer must be aligned correctly onto the object. For this alignment, the pyrometers are equipped with a laser targeting light. This laser enables the simple and accurate alignment even onto small objects. The laser marks the center of the measuring spot. -
Page 16: Optics
3.3 Optics The IN 5/9 plus pyrometer is equipped ex works with one of the specified optics shown in the table. Each optic is focussed at a certain distance (main measuring distance). At these distances, each lens achieves its smallest spot size. Normally the spot size will increase at any other distance (shorter or longer). -
Page 17: Instrument Settings
4 Instrument Settings The pyrometers are equipped with a wide range of setting options for optimal adaption to the required measuring condition and for getting the correct measuring temperature (description of all available parameters see Chapter 5 Parameter description / settings). Basic settings can be done at the pyrometer itself and additional settings can be made via serial interface and software InfraWin. -
Page 18: Instrument Switches
4.1.1 Instrument Switches 4/0 mA: DIP switch 2 for Emi: Rotary switch for adjusting the analog output Emissivity adjustment to 0 ... 20 mA or 4 ... 20 mA ONL/OFFL: DIP switch 1 : DIP switches 3,4,5,6 for switching for adjusting the online- / offline mode exposure time t See Chapter 5 for the Parameter descriptions / Settings. -
Page 19: Parameter Descriptions / Settings
5 Parameter Descriptions / Settings 5.1 Settings at the pyrometer or via serial interface 5.1.1 Emissivity (Emi) Settings: For a correct measurement, it is necessary to adjust the emissivity. The 100% emissivity is the relationship between the emission of a real object and the (in Online Mode, emission of a blackbody radiation source (this is an object which absorbs all up to 120%) -
Page 20: Analog Output 0/4 To 20 Ma
To change the exposure time the corresponding DIP switch for 0.5 s, 1 s, 2 s or 5 s must be set in the ON position. A longer response time of 10 s can be set if the switch for 0.5 s and 5 s is set to the ON position at the same time, a longer response time of 30 s can be set if the switch for 1 s and 5 s is set at to the ON position the same time. -
Page 21: Subrange
Extern: The external clearing of the storage can be activated and used within an own software (see Chapter 9 Data format UPP (Universal Pyrometer Protocol)) or via an external contact (for connection see 3.1.1 Pin assignment for the connector on the back of the pyrometer). In this case, the storage operates only in single storage, because only a single deletion mechanism is used. -
Page 22: Address
5.2.4 Address Settings via When connecting several pyrometers to one serial interface with RS485, it is interface: necessary for each instrument to have its own device address for communication purposes. First, it is necessary to connect each instrument separately to give it an address. After that, all instruments can be connected and addressed individually. -
Page 23: Wait Time (T )
5.2.6 Wait time (t Settings: Using a pyrometer with RS485 it is possible that the connection is not fast 00 Bit enough to receive the pyrometer’s answer to an instruction of the master. In this case, a wait time can be set to slow down the data transfer (e.g.: t = 02 99 Bit at a baud rate 9600 means a wait time of... - Page 24 To ensure consistent document formatting, this page was intentionally left blank. IN 5/9 plus Manual Parameter Descriptions / Settings • 24...
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Page 25: Software Infrawin
6 Software InfraWin The operating and analyzing InfraWin software is included with delivery of the pyrometer. In addition to allowing you to make parameter adjustments via PC, the InfraWin software also provides temperature indication, data logging, and measurement analysis features. A software description can be found in the program’s help menu. - Page 26 To ensure consistent document formatting, this page was intentionally left blank. IN 5/9 plus Manual Software InfraWin • 26...
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Page 27: Maintenance
7 Maintenance 7.1 Cleaning the front window Since the device does not contain parts that require regular maintenance, the only regular maintenance required is periodic inspection of the front window for build-up of foreign particiles. If allowed to build up, the particles can influence the energy received by the instrument. - Page 28 To ensure consistent document formatting, this page was intentionally left blank. IN 5/9 plus Manual Maintenance • 28...
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Page 29: Troubleshooting
8 Troubleshooting Before sending the pyrometer for repair, try to find the error and to solve the problem with the help of the following list. Temperature indication too low • Incorrect alignment of the pyrometer to the object ⇒ New correct alignment to achieve the max. temperature signal •... - Page 30 To ensure consistent document formatting, this page was intentionally left blank. IN 5/9 plus Manual Troubleshooting • 30...
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Page 31: Data Format Upp (Universal Pyrometer Protocols)
9 Data Format UPP (Universal Pyrometer Protocols) Via interface and a suitable communication software or via “Test” function of the InfraWin software commands can be exchanged directly with the pyrometer. Note: The ONL/OFFL switch must be in the ONL position before adjusting the following parameters via the software (see 4.2). - Page 32 Description Command Parameters Reading temperature AAme as with mb sub range: Baud rate: AAbrX X = 0 to 4 0 = 1200 Baud 2 = 4800 Baud 4 = 19200 Baud 1 = 2400 Baud 3 = 9600 Baud Reading ambient AAut Output: stored value, 4-digit hex temperature:...
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Page 33: Reference Numbers
10 Reference Numbers 10.1 Reference numbers instrument IN 5/9 plus Reference Number Instrument with optics a = 95 mm 3 871 800 Instrument with optics a = 112 mm 3 871 810 Instrument with optics a = 160 mm 3 871 820 Instrument with optics a = 270 mm 3 871 830 Instrument with optics a = 400 mm... - Page 34 3 826 510 PI 6000: programmable PID controller 3 834 210 Adjustable mounting support 3 835 160 Air purge unit 3 835 440 Air purge unit, stainless steel 3 837 230 Water cooling jacket (heavy design) with integrated air purge unit 3 837 350 Heavy water cooling jacket with protection window 3 837 370...
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Page 35: Index
Index Accessories 11 Installation Address 22 Electrical 13 Ambient temperature compensation 22 Instrument settings 17 Analog Output 20 Instrument settings: 18 Analyzing devices 14 Instrument Switches 18 Appropriate use 9 Interface settings: 18 Avoiding Reading Errors 23 Language 25 Baud Rate 21 Laser targeting light 15 Laser Targeting Light 5 Legend 5... - Page 36 Safety 5 Scope of delivery 9 Service Request 7 Settings / parameter descriptions 19 Shield 13 Sighting 15 Software InfraWin 25 Spot size 16 Storage 8 Subrange 21 Support 7 Switches at the Instrument 17 Technical Data 9 Transport 8 Troubleshooting 29 Universal Pyrometer Protocols 31 Unpacking the Instrument 7...
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