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Table of Contents
Related Manuals for LumaSense 140 Series
Summary of Contents for LumaSense 140 Series
- Page 1 IMPAC Pyrometer Series 140 with Ethernet TCP/IP Interface...
- 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 ..........................5 1.1 Differences from the Series 140 Manual ............... 5 1.2 Legend........................5 1.3 Terminology ......................5 Connections ........................7 2.1 Electrical Installation....................7 2.1.1 Pin Assignment of the Male Socket ................ 7 2.1.2 Bus Interface Connector ..................8 2.1.3 Bus Cable ........................ - Page 4 Index ............................25 Contents • 4 IS-IGA 140 Ethernet Manual...
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Page 5: General
1 General This manual is supplemental to the standard Series 140 manuals and only contains information relevant to Ethernet use. It is not intended to be a standalone reference. For information about operating our Series 140 pyrometers, please refer to the standard Series 140 manuals. 1.1 Differences from the Series 140 Manual •... - Page 6 To ensure consistent document formatting, this page was intentionally left blank. General • 6 IS-IGA 140 Ethernet Manual...
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Page 7: Connections
2 Connections Button for laser aiming or thru-lens view finder Error LED Status LED Power LED Ethernet female connector M12x1 decoded ♀ Power supply / Analog current output connector ♂ - Series 712 - M9x0.5 Linkact LED 2.1 Electrical Installation 2.1.1 Pin Assignment of the Male Socket Color Indication... -
Page 8: Bus Interface Connector
2.1.2 Bus Interface Connector The Series 140 Ethernet Pyrometer is equipped with one M12 female connector d-coded for the Ethernet communication. M12 Ethernet Pin Assignment Wire Color Signal Indication Yellow TxD+ Transmission Data+ Orange TxD- Transmission Data- White RxD+ Data Ground Blue RxD- Receiver Data+... - Page 9 Link/Activity LED Status Description No bus connection Connection is established, but no activity The instrument is on a fully functional network Flashing Connection and communication active Error LED Status Description Communication is ok Indicates internal errors of bus, configuration problems, or errors while Flashing initializing Ethernet Power LED...
- Page 10 To ensure consistent document formatting, this page was intentionally left blank. Connections • 10 IS-IGA 140 Ethernet Manual...
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Page 11: Ethernet
Ethernet To use the Series 140 Ethernet pyrometers with a client system platform, independent commands and data in ASCII format can be exchanged via TCP/IP. The pyrometer was designed to act as a TCP/IP server. The network settings can only be changed if the pyrometer is in polling mode. 3.1 Network-addresses, network-connections After switching on, the pyrometer waits for data communication with a network participant and is always prepared to react to ICMP messages (e. - Page 12 Send request string to the pyrometer: Receive Response string from pyrometer: Ethernet • 12 IS-IGA 140 Ethernet Manual...
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Page 13: Infrawin-Et
4 InfraWin-ET For pyrometers of Series 140-ET a special version of the measurement and evaluation software InfraWin is available. This version, InfraWin-ET, can be used to read out and change various parameters of the instrument. After starting the software, press the push button “Discover” to search for all connected pyrometers in the network. -
Page 14: Operating Modes
4.1 Operating modes Using InfraWin-ET the operating mode of the software can be selected. Possible selection are: Polling Mode Burst Mode Transparent Mode 4.1.1 Polling Mode With the Polling Mode a data exchange will be started. The measuring temperature as well as the internal temperature of the pyrometer will continuously be read out. -
Page 15: Transparent Mode
4.1.3 Transparent Mode The Transparent Mode allows direct access to the pyrometer. Therefore the UPP command has to be sent as ASCII sequence according to the pyrometer’s operation manual (without address byte), e.g. “ms”. The connection to the pyrometer can be terminated by using the push button “Disconnect“. 4.2 Change of the IP address In order to change the IP address, first search for the pyrometer in the network by using the push button “Discover”. -
Page 16: Display Of Pyrometer Settings
4.3 Display of pyrometer settings In order to display the current pyrometer settings, first search for the pyrometer in the network by using the push button “Discover”. Then select the desired pyrometer by clicking on it and confirm your selection using the push button “Settings“. -
Page 17: Communication Modes And Boot-Up Sequence
5 Communication Modes and Boot-up Sequence The pyrometer implements two separate communication modes, Polling mode and Burst mode, which are not active at the same time. The default mode of operation is the Polling mode and this is the mode the pyrometer always enters following power-up. The two modes are not active at the same time, but the user can command the pyrometer to switch from one mode to the other. -
Page 18: Data Format Upp (Universal Pyrometer Protocol)
Error status: AAfs Output: XX; XX=00…FF (00 = no error) (01…FF: error code for LumaSense service) Laser targeting light: AAlaX X = 0 switch off laser X = 1 switch on laser Communication Modes and Boot-up Sequence • 18... -
Page 19: Burst Mode
Description Command Parameters Reading parameters: AApa Output 11-digit, decimal: Digit 1 und 2 (10...99 or 00): Emissivity Digit 3 (0 ... 6): Exposure time Digit 4 (0 ... 8): Clear time max. storage Digit 5 (0 ... 1): Analog output Digit 6 und 7: (00 ... - Page 20 Data Rate (TI = Sample Time) Changes the sample time in ms for the measuring values transmission, the data rate acts only on the burst mode, in polling mode it has no effect. Initially the data rate is set to “0”. TI = Sample Time Command "$TIXXXXX"...
- Page 21 Ethernet Settings (IP = IP-Settings) This command sets or requests the IP-Settings of the converter. The IP-Address, Subnet and Gateway must be valid in form a.b.c.d, with a, b, c, d from 0 to 255. Attention: The IP-Settings will take effect immediately after the command is executed. The converter will perform a software reset and the new settings will be activated.
- Page 22 To ensure consistent document formatting, this page was intentionally left blank. Communication Modes and Boot-up Sequence • 22 IS-IGA 140 Ethernet Manual...
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Page 23: Reference Numbers
6 Reference Numbers 6.1 Instrument Reference Numbers Thru-lens View Type Temperature Range Laser Targeting Light Finder IS 140-ET MB 14: 550 ... 1400 °C 3 912 100 3 912 110 IS 140-ET MB 16: 600 ... 1600 °C 3 912 120 3 912 130 IS 140-ET MB 18:... - Page 24 To ensure consistent document formatting, this page was intentionally left blank. Reference Numbers • 24 IS-IGA 140 Ethernet Manual...
- Page 25 Index Analog output 5 Error 9 Link/Activity 9 Boot-up Sequence 17 Power 9 Burst Mode 14, 19 Status 8 Bus Cable 8 Bus Interface Connector 8 M12 8 Male Socket 7 Cable Reference Numbers 23 Change IP Address 15 Changing Modes 20 Network connections 11 Communication Modes 17 Network-addresses 11...
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