Summary of Contents for Magnescale MG80-EI
- Page 1 EtherNet/IP Interface Module MG80-EI Read all the instructions in the manual carefully before use and strictly follow them. Keep the manual for future references. Operating Manual...
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Page 2: Table Of Contents
3.1. Download setting application and EDS file ............. 6 3.2. About IO data ......................6 3.3. Setting various parameters ..................6 3.3.1. Connecting MG80-EI with PC ................7 3.3.2. Parameter Setting ....................8 3.3.3. Restart MG80-EI ....................15 4. Specifications ........................16 4.1. - Page 3 6.2.2. CIP Class 0x01 Identity object ................58 6.2.3. CIP Class 0x04 Assembly object ..............59 6.2.4. CIP Class 0x06 Connection Manager object ............ 60 6.2.5. CIP Class 0xF5 TCP/IP Interface object ............61 6.2.6. CIP Class 0xF6 Ethernet Link object ............... 62 6.2.7.
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Page 4: Revision History
Revision history Revision Date Description Pages 1.00 2020/04/16 1.01 2020/05/18 Corrections of errors and additions 1.02 2020/10/12 Corrections of errors 1.03 2020/11/16 Add Status code table 1.04 2021/05/25 Add Status code table... -
Page 5: Overview
1. Overview MG80-EI is an interface unit main module which enables acquisition of the multi-axis measurement data by connecting with a PC or PLC via EtherNet/IP communication protocol. This manual explains the setup procedure and detail of the functions. For specification of MG80-EI, MG80-CM and LZ80, refer to the instruction manual of each product. -
Page 6: Basic Information
(Both straight and cross cables can be used.) ・The number of connectable unit depend on the available lower 1byte of the IP address. If the available IP address is 1 (0x01) to 255(0xFF), maximum of 255units of MG80-EI (4,080 axes of measuring units) can be connected. -
Page 7: Setting
When EDS file is imported to the development environment, the IO data is handled as Byte array data. Refer “6. Communication” in this manual for IO data mapping. 3.3. Setting various parameters Setting for MG80-EI can be changed with the application for Windows PC “MG80SettingTool.exe”. -
Page 8: Connecting Mg80-Ei With Pc
- “1” (It will be used by MG80-EI in setting mode) - Same address with other connecting devices. 3. Set MG80-EI IP address switches to “0x00”. This will activate the setting mode. In this mode, IP address will be fixed as shown below. -
Page 9: Parameter Setting
3.3.2. Parameter Setting Various parameters can be set with MG80SettingTool. Following display will show when the software is opened. Network settings Connection Parameter settings... - Page 10 1. Click the Start button at the top right corner. 2. Click the Connect button. 3. If the connection is successful, “Network settings” and “Parameter” field will become valid. If the connection fails, turn off MG80-EI power and close PC application, then restart the procedure.
- Page 11 4. Follow the steps below to change the MG80-EI Network Settings. The IP address set in this field will be applied in the actual measuring environment. The lowest 1byte of the IP address (In this case “1”) must also be set with the switches on the MG80-EI, after setup with this software.
- Page 12 After setting the parameters, click the “Set” button at the bottom of the screen to save the parameters in MG80-EI. Note) Make sure to click the “Set” button in each screen, or parameters will not be save in MG80-EI.
- Page 13 Parameters and Description in the Windows application. Parameters Description (Parameter name) Axis Setting for connected Measuring device. Enter Resolution, Direction, use of (Axis Setting) Reference point, and Master preset value of each axis here. Frame Setting for what data to carry in each Frames. Calculation (Addition, (Frame Setting) Subtraction) result of selected axis, Output mode, Preset value of each frame.
- Page 14 (1) Axis Setting screen Reference point preset value (unit: 0.1μm) Axis number Select from the pull-down Input resolution:(0.1, 0.5, 1.0, 2.0, 5.0, 10.0μm) Direction: Count direction of the measuring unit Use Ref point: Valid or invalid of reference point detection. (2) Frame Setting screen Preset value (Unit: 0.1μm) Frame number...
- Page 15 (3) Comparator Setting screen Select the group Set the Steps number to be set in the Select the frame selected frame. (2step/4step) Comparator setting Comparator setting group number Click the icon or enter the value manually. comparator settings (Unit: 0.1μm) (4) I/O Setting screen Input/output setting of the second Input/output setting of the first I/O...
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Page 16: Restart Mg80-Ei
3.3.3. Restart MG80-EI 1. After setting all parameters, turn off the power. 2. Set lower 1 byte of the IP address for measurement, by changing the IP address switches on the MG80-EI. 3. Restart the power to operate with the saved parameters. -
Page 17: Specifications
・Receives commands from the host device. ・The communication standard is the EtherNet/IP specification. TCP/IP communication ・When switches are set to “0x00”, MG80-EI enters “Setting mode” with IP address fixed to 192.168.100.1. for TCP/IP communication. This allows IP address and parameters to be changed, using application for Windows PC. -
Page 18: Led Indicator
4.2. LED indicator The function of LED display is described below. [PWR] Power LED :Displays the operation status of this module Color Status Contents Green Power off Ready for operation after power on [ALM] Alarm LED :Displays the alarm status of all modules. Color Status Contents... - Page 19 Communication port status LED Displays the link status of communication port 2 Color Status Description Green Link not established Link established Displays the link speed of communication port 2 Color Status Description Orange Abnormal communication speed Communication speed is normal Displays the link status of communication port 1 Color Status...
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Page 20: Function
5.1. Functions list Item Contents Condition Module configuration MG80-EI can be expanded to 255 units via EtherNet/IP network (total 4080axes) Whole system Number of Counter module MG80-CM:From 1 to 16units (Measuring unit 1 to 16 axes) connectable modules I/O module LZ80-K1/K2:Max. 2units... -
Page 21: Frame Definition
A frame is a constituent unit of the implicit communication of EtherNet/IP, which can carry various types of outuput. MG80-EI has 16 frames, numbered in alphabet A to P. Each frame can carry output of freely selected axis, and its ouput type. -
Page 22: Detail Of Function
5.3. Detail of function 5.3.1. Peak hold Stores maximum, minimum, peak to peak(maximum-mininum) values of the frame. Example of output in each mode are shown below. Black line indicates the measurement (current) value, red line indicates the maximum value, blue line indicates the minimum value. When the measuring unit moves from left to right, each of the peak value are updated and output as a frame data. -
Page 23: Pause
5.3.2. Pause Stopps updating the comparator and peak value calculation of a frame with pause function ON. Transition of the pause function of ON/OFF are shown below. Output Current Max → 8mm Min → -8mm P-P → 16mm -8mm -10mm Pause ON Pause OFF Example of using Pause function... -
Page 24: Comparator
5.3.7. Comparator Up to 8 sets of comparetor settings are available for each frame. Each comparator has option of 2 modes (2 or 4 steps of threshold). Output will be the “area” number. Examples are shown below. <Mode = 2 steps> Current value 12mm Threshold 1 = 5mm Threshold 2 = 20mm... -
Page 25: I/O Module Control
5.3.9. I/O module control Functions can be assigned freely to the terminals of the I/O module. Function with multiple selection, such as comparator groups, can be changed by input signal during the operation. The function and detail are described below. Function assignment of input of I/O terminal Function Contents... -
Page 26: Communication
6.1.1. Tag data link(Implicit message) MG80-EI supports Implicit message of EtherNet/IP standard and performs cyclic communication (Tag data link) with the scanner (EtherNet/IP PLC). MG80-EI performs cyclic communication (tag data link) with the following instances of Class0x4. Instance 111 Output (Scanner:PLC→Adapter:MG80-EI) 34byte Instance 124 Input (Adapter:MG80-EI→Scanner:PLC) - Page 27 BOOL IF1.ST6.BW_QuitChannel_A BOOL IF1.ST6.BW_QuitChannel_B BOOL IF1.ST6.BW_QuitChannel_R 3~7 - - BOOL IF1.ST6.Encoder01Reset 1~7 - - BOOL IF1.ST7.BW_QuitChannel_A BOOL IF1.ST7.BW_QuitChannel_B BOOL IF1.ST7.BW_QuitChannel_R 3~7 - - BOOL IF1.ST7.Encoder01Reset 1~7 - - BOOL IF1.ST8.BW_QuitChannel_A BOOL IF1.ST8.BW_QuitChannel_B BOOL IF1.ST8.BW_QuitChannel_R 3~7 - - BOOL IF1.ST8.Encoder01Reset 1~7 -...
- Page 28 BOOL IF1.ST12.Encoder01Reset 1~7 - - BOOL IF1.ST13.BW_QuitChannel_A BOOL IF1.ST13.BW_QuitChannel_B BOOL IF1.ST13.BW_QuitChannel_R 3~7 - - BOOL IF1.ST13.Encoder01Reset 1~7 - - BOOL IF1.ST14.BW_QuitChannel_A BOOL IF1.ST14.BW_QuitChannel_B BOOL IF1.ST14.BW_QuitChannel_R 3~7 - - BOOL IF1.ST14.Encoder01Reset 1~7 - - BOOL IF1.ST15.BW_QuitChannel_A BOOL IF1.ST15.BW_QuitChannel_B BOOL IF1.ST15.BW_QuitChannel_R 3~7 -...
- Page 29 0~7 DINT IF1.ST16.Encoder01 Frame O measured value 60~63 0~7 DINT IF1.ST17.Encoder01 Frame P measured value BOOL IF1.ST1.StatusInput01 MG80-EI will output zero. Labels in the left field are used in previous model BOOL IF1.ST1.StatusInput02 MG70-EI. 2~7 - - 0~7 SINT IF1.ST1.SupplyCurrent 0~7...
- Page 30 B signal of axis 2 BOOL IF1.ST3.BW_Channel_R Z signal of axis 2 3~7 - - Unused Outputs zero 0~3 - - MG80-EI will output zero. Labels in the left field are used in previous model BOOL IF1.ST3.DigitalInput01 MG70-EI. BOOL IF1.ST3.DigitalInput02 6~7 - - BOOL IF1.ST4.PowerSupply01...
- Page 31 MG80-EI will output zero. Labels in the BOOL IF1.ST7.PowerSupply01 left field are used in previous model BOOL IF1.ST7.PowerSupply02 MG70-EI. 2~7 - - BOOL IF1.ST7.BW_Channel_A A signal of axis 6 BOOL IF1.ST7.BW_Channel_B B signal of axis 6 BOOL IF1.ST7.BW_Channel_R Z signal of axis 6 3~7...
- Page 32 MG80-EI will output zero. Labels in the 0~3 - - left field are used in previous model BOOL IF1.ST10.DigitalInput01 MG70-EI. BOOL IF1.ST10.DigitalInput02 6~7 - - BOOL IF1.ST11.PowerSupply01 MG80-EI will output zero. Labels in the left field are used in previous model BOOL IF1.ST11.PowerSupply02...
- Page 33 B signal of axis 13 BOOL IF1.ST14.BW_Channel_R Z signal of axis 13 3~7 - - Unused Outputs zero 0~3 - - MG80-EI will output zero. Labels in the left field are used in previous model BOOL IF1.ST14.DigitalInput01 MG70-EI. BOOL IF1.ST14.DigitalInput02 6~7 - - BOOL IF1.ST15.PowerSupply01...
- Page 34 0~7 - - Unused Outputs zero 0~7 SINT IF1.ST1.ModuleOk MG80-EI will output zero. Labels in the left field are used in previous model MG70-EI. 0~7 SINT IF1.ST2.ModuleOk Status of MG80-CM 1 *See appendix 0~7 SINT IF1.ST3.ModuleOk Status of MG80-CM 2 *See appendix 0~7...
- Page 35 0~7 SINT IF1.ST9.CompResult Frame H comparator result 0~7 SINT IF1.ST9.OutKind Frame H output mode 0~7 SINT IF1.ST9.CompKumiNum Frame H comparator group number 0~7 SINT IF1.ST10.CompResult Frame I comparator result 0~7 SINT IF1.ST10.OutKind Frame I output mode 0~7 SINT IF1.ST10.CompKumiNum Frame I comparator group number 0~7 SINT IF1.ST11.CompResult...
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Page 36: Cip Communication (Explicit Message)
6.1.2. CIP communication (Explicit message) Use CIP communication (Explicit message) to send commands from scanner (PLC of EtherNet/IP device) to the MG80-EI at intended timing. Commands such as parameter change, Reset, Preset Call, etc. are performed by CIP communication. Communication with MG80-EI is done by Instance Class 0x4. - Page 37 When receiving a command response, execute the command according to the following CIP information. CIP information of command response reception CIP information Value Description Path Class CIP class 0x4 Instance CIP object instance 104 Attribute CIP attributes Service CIP service 0xE:Get Attribute-Single Transmission data 0Byte No transmission data required...
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Page 38: Cip Communication Command List
6.1.3. CIP communication command list The following is a CIP communication command list. CIP communication command list Command Command Overview number 4(0x04) Input resolution setting [Axis number]、[Sign]、[Input resolution setting value] 5(0x05) Input resolution acquisition [Axis number] 6(0x06) Reference point use setting [Axis number]、[Reference point use setting] 7(0x07) Reference point use setting acquisition... - Page 39 The following shows the details of the CIP communication command. (1) Input resolution setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x04 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Axis number Setting value (Hex) ‘1’~’10’...
- Page 40 (2) Input resolution acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x05 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Axis number Setting value (Hex) ‘1’~’10’ 0x30~0x39 ‘11’~’16’ 0x41~0x46 5~15 DATA2 Dummy ~...
- Page 41 (4) Reference point use acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x07 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Axis number Setting value (Hex) ‘1’~’10’ 0x30~0x39 ‘11’~’16’ 0x41~0x46 5~15 DATA2 Dummy ~...
- Page 42 (6) Axis calculation setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x09 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame Setting value (Hex) number ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 DATA2 ※ASCII code Sign1 Setting value (Hex) ‘+’...
- Page 43 Calculation is needed in the program to convert those into measurement values. measurement values = number of pulses × sensor resolution Output data of the MG80-EI is measurement value in 0.1μm unit. It is necessary to remove the calculation program when replacing MG70-EI to MG80-EI.
- Page 44 (9) Output mode acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x0C RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 5~15 DATA2 Dummy ~ 0x00 DATA11 (10)
- Page 45 (11) Comparator group number acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x0E RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 5~15 DATA2 Dummy ~...
- Page 46 (13) Comparator step number acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x10 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 5~15 DATA2 Dummy ~...
- Page 47 (14) Comparator threshold setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x11 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 DATA2 ※ASCII code Comparator group number Setting value (Hex) ‘1’...
- Page 48 (15) Comparator threshold acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x12 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 DATA2 ※ASCII code Comparator group number Setting value (Hex) ‘1’...
- Page 49 (16) I/O function assignment setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x13 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Target I / O Setting value (Hex) module number ‘0’:IO1 0x30 ‘1’:IO2 0x31 DATA2...
- Page 50 ※ASCII code Output function Setting value (Hex) ‘0’:Drdy 0x30 ‘1’:Comp_out0 0x31 ‘2’:Comp_out1 0x32 ‘3’:Comp_out2 0x33 ‘4’:Comp_out3 0x34 ‘5’:Comp_out4 0x35 ‘6’:Alarm 0x36 ‘7’:Org_pass 0x37 ‘X’:No_Func 0x58 8~15 DATA5 Dummy ~ 0x00 DATA11...
- Page 51 (17) I / O function assignment acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x14 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code I / O module number Setting value (Hex) ‘0’:IO1 0x30 ‘1’:IO2 0x31...
- Page 52 (18) Reset command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x15 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 5~15 DATA2 Dummy ~ 0x00 DATA11 (19) Preset value setting command Offset...
- Page 53 (20) Preset value acquisition command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x17 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 5~15 DATA2 Dummy ~ 0x00 DATA11 (21)
- Page 54 (22) Master preset value setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x19 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Axis number Setting value (Hex) ‘1’~’10’ 0x30~0x39 ‘11’~’16’ 0x41~0x46 DATA2 Master preset value ~...
- Page 55 (24) Master preset call command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x1B RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Axis number Setting value (Hex) ‘1’~’10’ 0x30~0x39 ‘11’~’16’ 0x41~0x46 5~15 DATA2 Dummy ~...
- Page 56 (26) Pause ON / OFF setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x20 RSV1 0x00 RSV2 0x00 DATA1 ※Code Frame number Setting value (Hex) ‘A’~’J’ 0x30~0x39 ‘K’~’P’ 0x41~0x46 DATA2 ※ASCII code Pause ON/OFF Setting value (Hex) ‘0’:OFF...
- Page 57 (28) Unit setting command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x39 RSV1 0x00 RSV2 0x00 DATA1 ※ASCII code Unit Setting value (Hex) ‘0’:mm 0x30 ‘1’:other 0x31 5~15 DATA2 Dummy ~ 0x00 DATA11 (29) Unit acquisition command...
- Page 58 (31) Parameter initialization command Offset Label Setting value (Hex) Enter an arbitrary value different from the value previously sent. 0x3F RSV1 0x00 RSV2 0x00 4~15 DATA1 Dummy ~ 0x00 DATA11...
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Page 59: Cip Object
6.2. CIP object The CIP (Common Industrial Protocol) object specifications of EtherNet/IP supported by MG80-EI are listed below. 6.2.1. Supported CIP object CIP ID Name 0x01 Identity object 0x04 Assembly object 0x06 Connection manager object 0xF5 TCP/IP interface object 0xF6... -
Page 60: Cip Class 0X04 Assembly Object
0x998 (2456) STRUCT of USINT Major revision USINT Minor revision WORD Status UDINT Serial number SHORTSTRING Product name "MGS Interface module MG80-EI" USINT Status Instance service Servicess Get_Attributes_All Reset Get_Attribute_Single 6.2.3. CIP Class 0x04 Assembly object Class attributes Access Data Type... -
Page 61: Cip Class 0X06 Connection Manager Object
Instance attribute Access Data Type Description Default Get/Set Array of Byte Data Instance service Services Get_Attribute_Single 0x10 Set_Attribute_Single 6.2.4. CIP Class 0x06 Connection Manager object Class attributes Access Data Type Description Default UINT Revision UINT Max instance UINT Number of instances UDINT Maximum ID Number Class Attributes UDINT... -
Page 62: Cip Class 0Xf5 Tcp/Ip Interface Object
Instance service Services Get_Attribute_All Get_Attribute_Single 0x4E Forward_Close 0x52 Unconnected_Send 0x54 Forward_Open 6.2.5. CIP Class 0xF5 TCP/IP Interface object Class attributes Access Data Type Description Default UINT Revision UINT Max instance UINT Number of instances UDINT Maximum ID Number Class Attributes UDINT Maximum ID Number Instance Attributes Class service... -
Page 63: Cip Class 0Xf6 Ethernet Link Object
6.2.6. CIP Class 0xF6 Ethernet Link object Class attributes Access Data Type Description Default UINT Revision UINT Max instance UINT Number of instances UDINT Maximum ID Number Class Attributes UDINT Maximum ID Number Instance Attributes Class service Services Get_Attribute_All Get_Attribute_Single Instance attribute Access Data Type... -
Page 64: Cip Class 0X64 Vendor Specific Class
6.2.7. CIP Class 0x64 Vendor Specific Class(Bus controller) Class attributes Access Data Type Description Default UINT Revision UINT Max instance 0xE5 Class service Services Get_Attribute_All Get_Attribute_Single Instance attribute Access Data Type Description Default UDINT Adapter status UINT Hardware major revision UINT Hardware minor revision UINT... - Page 65 UINT Length of the X2X network 0x25 ※Total size of instance 122 status information in bytes (16 frames x 1Byte) + 1Byte = 17Byte UINT Length of the output status ※Total size of instance 123 0x26 information in bytes (16 frames x 3 bytes) + 4bytes +17 bytes = 69 bytes UINT Highest X2X station number...
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Page 66: Cip Class 0X65 Vendor Specific Class
UINT IP address s Reading network address ※ witch value 0xE0 switches (0x01~0xFF) UINT 3000 0xE1 Module initialization delay [ms] ※ 3000[ms] UINT Enable/disable the Telnet 0xE2 password 0:Password invalid UINT IP maximum transmission unit 1500 0xE3 [bytes] ※ 1500 bytes UINT 0xE4 Current boot config assembly ID... - Page 67 Read the number of 0xA0 UINT I/O module registers 0 FIXED List of register Array of 0xA1 addresses for an I/O fUDINT 0 FIXED module Array of List of register values 0xA2 fUDINT for an I/O module 0 FIXED Analog input data 0xE0 UINT length in bytes (AI)
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Page 68: Appendix
7. Appendix 7.1. Parameter list Parameter list Item Set value (ASCII code) Lower limit Upper limit Default IP address 0x00000000 0xFFFFFFFF 0xC0A86401 Subnet mask 0x00000000 0xFFFFFFFF 0xFFFFFF00 Network information Default gateway 0x00000000 0xFFFFFFFF 0xC0A864FE Reserved Positive direction Sign Minus direction 0.1μm Measuring 0.5μm... - Page 69 Lower Item Set value (ASCII code) Upper limit Default limit Sign of + Plus sign measuring + - + - Minus sign unit Ⓐ Measuring unit 1 value Measuring unit 2 value Measuring unit 3 value Measuring unit 4 value Measuring unit 5 value Measuring unit 6 value Measuring unit 7 value...
- Page 70 Item Set value(ASCII code) Lower limit Upper limit Default Group 1 Group 2 Group 3 Comparator Group 4 group Group 5 number Group 6 Group 7 Flame A Comparator ~ Group 8 setting Flame P None Mode Step 2 Step 4 Step 1 Compare threshold1 Comparator...
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Page 71: Status Code
Item Set value(ASCII code) Lower limit Upper limit Default Flame A Presets for each Preset ~ Preset value -99999999 99999999 frame Flame P Measuring unit1 Master Preset for each ~ Master preset value -99999999 99999999 preset measuring unit Measuring unit16 Flame A Pause OFF Pause for each... - Page 72 Co., Ltd. et sont destinées exclusivement à l'usage des acquéreurs de l'équipement décrit dans ce manuel. Magnescale Co., Ltd. interdit formellement la copie de quelque partie que ce soit de ce manuel ou son emploi pour tout autre but que des opérations ou entretiens de l'équipement à...
- Page 73 Note: This product (or technology) may be restricted by the government in your country. Please make sure that end-use, end user and country of destination of this product do not violate your local government regulation. 45 Suzukawa, Isehara-shi, Kanagawa 259-1146, Japan MG80-EI 2021.5 2-A02-947-1D Printed in Japan ©2020 Magnescale Co., Ltd.