$ EZ-EDS Version 3.3 Generated Electronic Data Sheet [File] DescText = "Electronic Data Sheet for EMGZ309"; CreateDate = 12-17-2010; CreateTime = 13:22:39; ModDate = 12-17-2010; ModTime = 13:27:51; Revision = 1.0; HomeURL = "www.fms-technology.com"; [Device] VendCode = 1219; VendName = "FMS Force Measuring Systems AG"; ProdType = 100; ProdTypeStr = "Digital Tension Measuring Amplifier"; ProdCode = 1; MajRev = 1; MinRev = 30; $ Digital Microprocessor Controlled Tension Amplifier ProdName = "EMGZ309"; [Device Classification] Class1 = EtherNetIP; [Params] Param1 = 0, $ reserved, shall equal 0 4,"20 0F 24 01", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC1, $ Data Type 1, $ Data Size in bytes "cfgLanguage", $ name "", $ units $ This parameter determines the displayed language. The user can $ choose between the two languages: English and German. The menu $ navigation in the web browser is always in English. "Language", $ help string 0,1,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Enum1 = 0,"English", 1,"German"; Param2 = 0, $ reserved, shall equal 0 4,"20 0F 24 02", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC3, $ Data Type 2, $ Data Size in bytes "cfgOffset", $ name "", $ units $ The value determined with the adjustment procedure Offset $ Compensation is stored as a Digit value in the parameter $ Offset. The offset value is used to compensate the roller $ weight. "Offset", $ help string -8000,8000,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Param3 = 0, $ reserved, shall equal 0 4,"20 0F 24 03", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC7, $ Data Type 2, $ Data Size in bytes "cfgGain", $ name "", $ units $ This parameter stores the value determined with the Calibration $ Procedure. Alternatively you can input a calculated value $ using the FMS Calculator, if the material tension cannot be $ simulated. "Gain", $ help string 100,20000,100, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param4 = 0, $ reserved, shall equal 0 4,"20 0F 24 04", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC8, $ Data Type 4, $ Data Size in bytes "cfgSystemForce", $ name "Newton (N)", $ units $ The System Force determines the measuring capability of $ your measuring roller. E.g. if you use two 500 N sensors $ in your measuring roller, enter 1000N. "System Force", $ help string 1000,200000000,1000000, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param5 = 0, $ reserved, shall equal 0 4,"20 0F 24 05", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC7, $ Data Type 2, $ Data Size in bytes "cfgSignalCutoffFrequency", $ name "Hertz (Hz)", $ units $ The EMGZ309 contains a lowpass filter to prevent noise $ overlaying to the output signal. This parameter stores $ the cut off frequency of the filter. The lower the cut $ off frequency, the more sluggish the output signal will be. $ The filter stabilizes the output signal in case of highly $ fluctuating force values. This filter is independent from $ the display. $ filter. "Signal Cutoff Frequency", $ help string 1,2000,100, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 1; $ decimal places Param6 = 0, $ reserved, shall equal 0 4,"20 0F 24 06", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC6, $ Data Type 1, $ Data Size in bytes "cfgDisplayCutoffFrequency", $ name "Hertz (Hz)", $ units $ The controller provides a lowpass filter to prevent noise $ disturbing the LCD or when there is a high fluctuation $ of the force values. The parameter Dis.Filt stores the cut off $ frequency of the filter. The lower the cut off frequency, $ the more sluggish the display will be. A correctly tuned $ filter will steady the value shown in the display. The $ display filter does not influence the output signal filter. "Display Cutoff Frequency", $ help string 1,100,10, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 1; $ decimal places Param7 = 0, $ reserved, shall equal 0 4,"20 0F 24 07", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC1, $ Data Type 1, $ Data Size in bytes "cfgCurrentOutputMode", $ name "", $ units $ This parameter selects the current output signal mode of $ the amplifier. It is either 4..20mA or 0..20mA. "Current Output Mode", $ help string 0,1,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Enum7 = 0,"0...20mA", 1,"4...20mA"; Param8 = 0, $ reserved, shall equal 0 4,"20 0F 24 08", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xD1, $ Data Type 1, $ Data Size in bytes "cfgUnit", $ name "", $ units $ This parameter determines the unit of the force. It can be $ set to N, kN, lb, g or kg. "Unit", $ help string ,,2, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Enum8 = 2,"Newton (N)", 3,"kilo Newton (kN)", 4,"Pound (lb)", 5,"Gramme (g)", 6,"kilo Gramme (kg)"; Param9 = 0, $ reserved, shall equal 0 4,"20 0F 24 09", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC8, $ Data Type 4, $ Data Size in bytes "cfgForceInNewtonAtMaxOutput", $ name "Newton (N)", $ units $ This parameter defines at what force the output $ is set to the maximum value (10V or 20mA). The force $ is specified in Newton (N). "Force in Newton at Maximum Output", $ help string 0,200000000,1000000, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param10 = 0, $ reserved, shall equal 0 4,"20 0F 24 0A", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xD1, $ Data Type 1, $ Data Size in bytes "cfgCommandCode", $ name "", $ units $ There are two procedures available. One for offsetting and $ the other for calibrating the system. The command 0 triggers $ the Offset procedure. The command 1 triggers the Calibration $ procedure. In case of the calibration the parameter $ sdwCmdArgWeightInUnit must be set as well. "Execute a procedure on the target", $ help string ,,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Enum10 = 0,"Offset Adjustment", 1,"Calibration"; Param11 = 0, $ reserved, shall equal 0 4,"20 0F 24 0B", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC4, $ Data Type 4, $ Data Size in bytes "cfgCmdArgWeightInUnit",$ name "", $ units $ This is the value of the defined weight that is hanging $ on a rope. The weight unit corresponds to the configured $ amplifier unit. "Calibration weight in units", $ help string 0,200000000,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param12 = 0, $ reserved, shall equal 0 ,, $ Link Path Size, Link Path 0x0830, $ Descriptor 0xC4, $ Data Type 4, $ Data Size in bytes "inActualValueInADC", $ name "digital value (14 bit)", $ units $ Signed digital actual value. This value is already $ offset corrected, amplified and filtered. "Signed digital actual value", $ help string -32768,32767,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Param13 = 0, $ reserved, shall equal 0 ,, $ Link Path Size, Link Path 0x0830, $ Descriptor 0xC4, $ Data Type 4, $ Data Size in bytes "inActualValueInN", $ name "Newton (N)", $ units $ Actual force in Newton. "Actual value in Newton", $ help string -200000000,200000000,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param14 = 0, $ reserved, shall equal 0 ,, $ Link Path Size, Link Path 0x0830, $ Descriptor 0xC4, $ Data Type 4, $ Data Size in bytes "inActualValueInLb", $ name "Pound (lb)", $ units $ Actual force in Pounds. "Actual value in Pounds", $ help string -200000000,200000000,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param15 = 0, $ reserved, shall equal 0 ,, $ Link Path Size, Link Path 0x0830, $ Descriptor 0xC4, $ Data Type 4, $ Data Size in bytes "inActualValueInUnit", $ name "", $ units $ Actual force in the unit that is configured. "Actual value in Unit", $ help string -200000000,200000000,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links 3; $ decimal places Param16 = 0, $ reserved, shall equal 0 ,, $ Link Path Size, Link Path 0x0830, $ Descriptor 0xC8, $ Data Type 4, $ Data Size in bytes "inStatus", $ name "", $ units $ In the Operation State the amplifier will indicate limit $ violations. $ Bit 0 set: mechanically overloaded $ Bit 1 set: output underflow $ Bit 2 set: output overflow "Operation status", $ help string 0,7,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Param100 = 0, $ reserved, shall equal 0 ,"", $ Link Path Size, Link Path 0x0000, $ Descriptor 0xC1, $ Data Type 1, $ Data Size in bytes "cfgApplyConfAsmData", $ name "", $ units "Apply configuration assembly data", $ help string 0,1,0, $ min, max, default data values ,,,, $ mult, div, base, offset scaling ,,,, $ mult, div, base, offset links ; $ decimal places Enum100 = 0,"Don't apply configuration assembly data", 1,"Apply configuration assembly data"; [Assembly] Assem100 = "Input", , 20, 0x0002, ,, 32,Param12, 32,Param13, 32,Param14, 32,Param15, 32,Param16; Assem102 = "Configuration", , 40, 0x0002, ,, 8,Param100, 8,Param1, 16,Param2, 16,Param3, 32,Param4, 8,Param6, 16,Param5, 8,Param7, 8,Param8, 32,Param9; [Connection Manager] Connection1 = 0x02010002, $ 0-15 = supported transport classes $ 16 = trigger: cyclic $ 17 = trigger: change of state $ 18 = trigger: application $ 19-23 = trigger: reserved $ 24 = transport type: listen-only $ 25 = transport type: input-only $ 26 = transport type: exclusive-owner $ 27 = transport type: redundant-owner $ 28-30 = reserved $ 31 = Client = 0 / Server = 1 0x446403A5, $ 0 = O->T fixed size supported $ 1 = O->T variable size supported $ 2 = T->O fixed size supported $ 3 = T->O variable size supported $ 4-5 = O->T number of bytes per slot (obsolete) $ 6-7 = T->O number of bytes per slot (obsolete) $ 8-10 = O->T Real time transfer format $ 11 = reserved $ 12-14 = T->O Real time transfer format $ 15 = reserved $ 16 = O->T connection type: NULL $ 17 = O->T connection type: MULTICAST $ 18 = O->T connection type: POINT2POINT $ 19 = O->T connection type: reserved $ 20 = T->O connection type: NULL $ 21 = T->O connection type: MULTICAST $ 22 = T->O connection type: POINT2POINT $ 23 = T->O connection type: reserved $ 24 = O->T priority: LOW $ 25 = O->T priority: HIGH $ 26 = O->T priority: SCHEDULED $ 27 = O->T priority: reserved $ 28 = T->O priority: LOW $ 29 = T->O priority: HIGH $ 30 = T->O priority: SCHEDULED $ 31 = T->O priority: reserved ,0,, $ O->T RPI, size, format ,20,Assem100, $ T->O RPI, size, format ,, $ config #1 size, format 40,Assem102, $ config #2 size, format "emgz309 - Input Only", $ Connection Name "", $ help string "20 04 24 66 2C 65 2C 64"; $ Path