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YOKOGAWA SmartDAC+ GM Technical Information

YOKOGAWA SmartDAC+ GM Technical Information

Data acquisition system, introduction to the various features of the gm
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TI 04L55B01-01EN
Data Acquisition System
Introduction to the Various
Features of the GM
TI 04L55B01-01EN
©Copyright Nov. 17 2014
4th Edition July 9 2018

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Summary of Contents for YOKOGAWA SmartDAC+ GM

  • Page 1 Technical Data Acquisition System Introduction to the Various Information Features of the GM TI 04L55B01-01EN TI 04L55B01-01EN ©Copyright Nov. 17 2014 4th Edition July 9 2018...
  • Page 2 Blank Page...

  • Page 3: Table Of Contents

    Data Acquisition System Introduction to the Various Features of the GM TI 04L55B01-01EN CONTENTS Using This Document ..................i What Is SMARTDAC+ GM? ..............1-1 Functions That Ensure Reliable Measurements........1-2 1.1.1 Rich I/O Interface .................... 1-2 1.1.2 Actual Values Underlying Accurate Measurements ........1-3 1.1.3...
  • Page 4 Toc-2 3.3.10 EtherNet/IP Function (/E1 option) ..............3-44 3.3.11 WT Communication Function (/E2 option) ........... 3-45 3.3.12 Bluetooth Function (/C8 option) ..............3-46 3.3.13 Measurement/Setting Server Function ............3-46 3.3.14 Advanced security function (/AS option) ............3-46 3.3.15 Multi-batch Function (/BT option) ..............3-47 3.3.16 AEROSPACE HEAT TREATMENT (/AH option) .........

  • Page 5: Using This Document

    • The content of this document is subject to change without notice as a result of enhanced performance and functions. • If you find any inaccuracies or errors in this document, please contact Yokogawa. • Any copy or reproduction of the content of this document, in whole or in part, without permission is prohibited.

  • Page 6: What Is Smartdac+ Gm

    What Is SMARTDAC+ GM?  Overview The SMARTDAC+ GM Data Acquisition System is a data logger that excels in versatility and expandability. The main unit contains memory for data acquisition and also supports SD cards for external storage. The system consists of a Data Acquisition Module (GM10), Power Supply Module (GM90PS), and Module Base (GM90MB), which houses various modules.

  • Page 7: Functions That Ensure Reliable Measurements

    Functions That Ensure Reliable Measurements The GM has four basic functions: measurement, recording, display, and storage. In addition, data can be used in various ways such as system configuration through the standard software (Hardware Configurator) and data file display (Universal Viewer). This section provides an overview of each function. 1.1.1 Rich I/O Interface l Input The GM can measure the following types of inputs. The supported input types vary depending on the module. For details on the various input types, see section 3.1.1, “Measurement.”...

  • Page 8: Actual Values Underlying Accurate Measurements

    ºC, 55±10% RH, supply voltage 90–132, 180–264 V AC, power frequency within 50/60 Hz ±1%, warm-up of 30 minutes or more, no vibrations or other hindrances to performance. *2 For the measuring accuracy (guaranteed), see the module’s general specifications (GS 04L53B01-01EN). *3 These values do not include the reference junction compensation accuracy. rdg: Reading value • For details on modules with higher guaranteed accuracy specifications, contact your nearest YOKOGAWA dealer. TI 04L55B01-01EN...

  • Page 9: Fail-Safe Saving Of Recording Data

    1.1.3 Fail-safe Saving of Recording Data Data storage The GM supports long-term recording and multi-channel recording. Measurement data is constantly saved in internal memory and can be transferred periodically to an external storage medium (SD card). Moreover, the FTP client function can be used to provide data redundancy using a file server. Measurement data is saved without fail even in a sudden power interruption.

  • Page 10: Easy Access From Web Browser

    1.1.4 Easy Access from Web Browser Data being measured can be monitored in real time on a Web browser. Using a network environment, you can monitor data over a wide area. You do not need to use a dedicated software application. Control operation, configure View on a Web browser Ethernet Web screen example  Configuration and Operation You can configure the GM from a Web browser. You can also start and stop recording, write messages, and so on. See section 3.1.5, “Display (Web browser).” TI 04L55B01-01EN...

  • Page 11: Offline Configuration And Monitoring

    IP Address Configurator This software is used to set the GM10’s IP address, subnet mask, default gateway, and the like. 1.1.6 System Configuration Using Data Logging Software GA10 (Sold separately) A dedicated software application for configuring a full-fledged system is available. This application is capable of acquiring data from multiple devices including SMARTDAC+ GM. • Max. 100 devices • 100 ms high-speed acquisition • Max. 2000 channels (tags) Data Logging Software GA10 Ethernet TI 04L55B01-01EN...

  • Page 12: A Full System Configuration Example

    A Full System Configuration Example You can configure a GM system as shown below. Web site Server • Download PC software • Download user’ s manuals Ethernet Power meter Temperature Serial controller Network (WT) communication Recorder printer RS-422/485 Signal input Data Acquisition System GM RTD TC/DCV Pulse SD card Single unit system USB port Remote input Multi unit system...

  • Page 13: Gm Application Examples

    GM Application Examples This section introduces main application examples in different industries. Electrical and Electronic  l Performance evaluation testing of microwave ovens and IH cooking heaters • The GM is used to acquire temperature data at multiple points to evaluate temperature distribution and ambient temperature. • Measurement less susceptible to noise is possible by using electromagnetic relay type modules.
  • Page 14 Vehicles  l Car air conditioner evaluation • The GM is used to acquire in-car temperatures, duct temperatures and humidities, supplied voltages, outside air temperatures, engine on/off state, and other types of data. • The wide operating temperature range of -20 to 60°C enables testing in environmental test labs, hot and cold regions, and so on. •...
  • Page 15 1-10  Environmental Monitoring Factory utility monitoring • The GM is used to acquire and monitor various types of data, such as power, temperature, flow rate, PH, and residual chlorine concentration, from different utility equipment in factories. • Equipment maintenance is possible based on the acquired data. Web browser Ethernet Factory utility Power Main unit Flow rate...
  • Page 16 1-11 Plants  l Film coating process monitoring • The GM is used to acquire and monitor the volume and components of photosensitizing agents, sheet feeding speeds, temperatures, humidities, the volume of bubbles, and the like. • Performance and quality management of film is possible. • Acquiring and monitoring of process data is easy with Data Logging Software GA10. GA10 Ethernet Temperature...

  • Page 17: Scalable Data Acquisition System

    Scalable Data Acquisition System Component Devices A single GM unit consists a combinat-ion of the following modules and a module base. A data acquisition module is linked to the left of the power supply module, and input/output modules are linked on the left side of the data acquisition module. A multi unit system (see the later explanation) is configured by linking expansion modules and connecting units over a LAN network. A module base is used to link a data acquisition module, input/output modules, and expansion module. Name Model Component Names Description Data Acquisition GM10 A module for acquiring data. 7 segment LED×2 Module It is linked to the left of the power supply...

  • Page 18: Flexible Support For Channel Additions And Reductions

    ü ü resistanse Flexible Support for Channel Additions and Reductions YOKOGAWA’s original block structure (patented) l Modules can be added one module at a time. l Unique structure in which modules are linked to a module base l Secure linking using a module base (slide lock mechanism; can also be fastened with screws) l Module insertion and removal from the front, easy maintenance The GM can be set up in a single unit system or multi unit system.
  • Page 19  Max. 420 Channel Measurement through Expansion (Multi unit) This system consists of sub units connected to a main unit for data acquisition. Up to six sub units can be connected. The GM10-2 can be used to configure a 420-channel (input channel) system. Expansion modules are used to connect between the main unit and sub units and between sub units. Units are connected using Ethernet cables.

  • Page 20: Unit Types And Configurations

    Unit Types and Configurations There are two GM unit configurations: main unit and sub unit. A system consisting only of a main unit is called a single unit system; a system consisting of a main unit and sub units is called a multi unit system. Main Unit  The main unit includes the data acquisition module. Up to 10 input/output modules can be linked. An expansion module (GX90EX) is linked to the left end when connecting to sub units. In this case, the maximum number of input/output modules that can be linked is six. Main unit When a sub unit is connected (Single unit system) (Multi unit system)

  • Page 21: Flexible Installation Methods

    Flexible Installation Methods The GM can be not only installed on a desktop but also mounted on a DIN rail or a wall. Special attachments are not necessary.  Desktop Legs for desktop installation DIN Rail Mounting  The GM can be mounted easily on a DIN rail using the latches on the rear of the module base. Latches for DIN rail mounting Wall Mounting ...

  • Page 22: Functions

    Functions Basic Functions 3.1.1 Measurement  Input/output Types A rich lineup of input/output modules are available. You can select the best-suited module according to your measurement needs. Input/output modules Module Model Type Number of Channels Analog input GX90XA Universal, solid state relay, scanner type (-U2) Electromagnetic relay, scanner type (-T1) Low withstand voltage relay, scanner type (-L1) DC current (mA), scanner type (-C1) High withstand voltage (-V1) High-speed universal, individual A/D type (-H0)
  • Page 23 Pulse measurement Using digital input and digital input/output modules, you can measure pulses of flow rates, rain gauges, and the like (250 Hz max., minimum pulse width: 2 ms). To perform pulse measurements, the GM10 needs to have the computation (/MT) option. When chattering filter is off. 125 Hz when chattering filter is on. Using pulse input module, you can sum pulses of flow rates, rain gauges, and the like (20KHz max., minimum pulse width: 25 µs). To perform pulse sum computation, the GM10 needs to have the computation (/MT) option.  Input Calculation The following calculations can be performed on input signals.
  • Page 24  Other Types of Input Processing l Moving average Performs moving average over the specified number of sampling points. For example, you can use this to smooth the data when the input signal is fluctuating due to noise or other unwanted influences. Scan interval Average Average Sampling count Bias This is used to add a constant value to input values or scaled values (input computation). Channel on which bias is added Input value Measured value Bias (a constant value) Calibration correction Input values can be corrected using segment linearization.
  • Page 25  Scan Interval This is the interval at which the input signal is sampled and converted into digital values (A/D conversion). You can select from 1 ms, 2 ms, 5 ms, 10 ms, 20 ms, 50 ms, 100 ms, 200 ms, 500 ms, 1 s, 2 s, and 5 s. The scan intervals that you can set vary depending on the module. If modules with different shortest scan intervals are present in the system, the shortest scan interval that you can set is the shortest scan interval of the slowest module.
  • Page 26 High-speed measurement at the shortest measurement interval of 1 ms Measurement at the shortest interval of 1 ms is possible by using a high-speed analog input module equipped with an original A/D converter developed by YOKOGAWA. Dual interval measurement Two different scan intervals can be used together in a single system. Slow changing signals such as temperature and fast changing signals such as pressure and vibration can be measured simultaneously and efficiently. Scan groups are specified on each module.
  • Page 27  Reference Junction Compensation (RJC) Performs reference junction compensation on thermocouple input. You can select whether to perform reference junction compensation internally within GM or externally (with a reference junction compensator). Thermocouple Internal reference junction Thermocouple External reference junction Burnout Detection  When the range type is set to thermocouple (TC), resistance temperature detector (RTD) or standard signal (GS (1-5V), GS (4-20 mA)), the GM detects sensor burnouts.

  • Page 28: Recording

    DI modules Normal and remote operation modes are available. For normal DI input, specify Normal. Specify Remote to use the DI module as a remote control input. When there are multiple DI modules, only one of them can be set to Remote. Remote can only be specified for a DI module or DI/DO module installed in the main unit.
  • Page 29  Methods for Recording Event Data and Display Data This section explains the methods for recording event data and display data. l Event data The GM records the data sampled at the scan interval at the specified recording interval. Detailed data is recorded, but the data size becomes large. Event data recording Recording data Time Scan interval Recording interval l Display data Display data can be likened to recording to chart paper on conventional pen recorders. Using the data sampled at the scan interval, the GM records the maximum and minimum sampling data values within each recording interval (interval determined by the trend interval [/div]).
  • Page 30  Event Data Recording Modes The following event data recording modes are available. Free Recording starts when you start it and stops when you stop it. Measurement data is divided by the specified duration (data length). Time File File File Adding data Data length Set the size of recording data per file. Recording data is divided at the specified file size. The selectable data lengths vary depending on the number of channels to record and the Scan interval setting.
  • Page 31 3-10 Internal Memory  The recorded measurement data is divided at a specific time interval (data length for event data and file save interval for display data) and saved to files. If the internal memory is full or if the number of display data files and event data files exceeds 500 for the GM10-1 or 1000 for the GM10-2, files are overwritten from the oldest file. Time • • • File Data length (Event data) File saving interval (Display data) Update date File 1 File 2 File 3 File 4 Internal memory Overwrite Recording Channels  Set the channels for recording the measurement data of event data, display data, and manual sampled data.

  • Page 32: Output

    3-11 3.1.3 Output The GM can output relay signals (digital output module or digital input/output module) when an alarm occurs, when a failure occurs, when they are manually turned on, or according to the event action function. The output (DO channel) can also be recorded. Digital output module Module Model...

  • Page 33: Storage

    3-12 3.1.4 Storage Measurement data saved in the internal memory can be saved in an external storage medium (SD card) automatically or manually.  Auto Save Measurement data in the internal memory is saved automatically to an external storage medium (SD card). Keep the SD card inserted in the drive at all times.

  • Page 34: Display (Web Browser)

    3-13 Measurement Data File Format  Measurement data can be saved in binary or text format. Binary format If security is a priority, save the measurement data in binary format. It is extremely difficult to decipher or tamper binary data using a typical text editor. l Text format If you want to directly open the data with a general-purpose text editor, spreadsheet application, or the like, save the data in text format. You will be able to edit the data without using a dedicated software application.
  • Page 35 3-14 Message writing Messages can be written in event data and display data. Message Types of messages that can be written Message Type Explanation Preset message You can write preset messages. Number of displayable characters: Up to 32 Up to 100 messages can be registered. Free message You can write messages that you enter freely. There are 10 free messages. The messages that you enter are registered in free messages 1 to 10.

  • Page 36: Various Functions

    3-15 Various Functions 3.2.1 Alarm Function For the measured values, up to four levels of alarms can be set on each channel. Alarms can be output to relays and internal switches. The alarm types that you can set vary depending on the channel type (input/output, math, communication).
  • Page 37 3-16 Type Explanation Difference high An alarm is activated when the Difference in the measured values of two channels limit (h) difference in the measured values of Hysteresis two channels is greater than or equal to the specified value. This alarm Alarm value can be specified on measurement channels set to difference computation. Alarm output ON Difference low limit An alarm is activated when the Difference in the measured values of two channels difference in the measured values of Hysteresis...
  • Page 38 3-17  DO Output Operation l AND/OR Operation When multiple alarms are assigned to one alarm output relay, you can select which condition below will activate the output relay. You can also specify AND operation for internal switches. • AND: Activated when all assigned alarms are occurring simultaneously • OR: Activated when any of the specified alarms is occurring l Reflash When multiple alarms are assigned to one alarm output relay, this function notifies the occurrence of subsequent alarms after the relay is activated by the first alarm. When subsequent alarms occur, the output relay is released temporarily. The duration for which the relays are deactivated can be set to 500 ms, 1 s, or 2 s.

  • Page 39: Event Action Function

    3-18  DO Output Relay Operation Reflash Non-hold/Hold Alarm ACK Alarm ACK Channel 1 Alarm occurrence Channel 2 release Channel 3 Alarm DO output relay (Reflash on) Normal 500 ms, 1 s, 2 s DO output relay Alarm (Reflash off) (when a relay is set to OR logic) Normal AND/OR Channel 1...
  • Page 40 3-19  Event Types Item Explanation Remote (DI) DI channel of remote control input Relay (DO) Relay status Internal switch Internal switch status Alarm - IO channel Alarm of an I/O channel Alarm - Math channel Alarm of a math channel Alarm - Communication channel Alarm of a communication channel Any alarm...
  • Page 41 3-20  Possible Combinations of Events and Actions The combinations that are indicated with ü marks in the table below can be used. Event Remote Relay Internal Alarm Alarm Alarm Timer Match User Status (DO) switch - IO - Math - Communication alarm timer function Action channel channel channel Recording ü ü ü...

  • Page 42: Control Event Action Function

    3-21 3.2.3 Control Event Action Function The control event action function is used to execute a specified action when certain events occur. For details, see the Loop Control Function, Program Control Function (/PG Option) User’s Manual (IM 04L51B01-31EN).  Control Operation l Loop Control and Common Control Function Description Run all control loops Starts running all loops when the input changes from off to on. Stop all control loops Stops all loops when the input changes from off to on. Control operation stop/start (specified loop) Stops the control operation of specified loops when the input changes from off to on. Starts the control operation of specified loops when the input changes from on to off. Auto/manual switch (specified loop) Switches the control operation of specified loops to auto when the input changes from off to on. Switches the control operation of specified loops to manual when the input changes from on to off. Remote/local switch (specified loop) Switches the control operation of specified loops to remote when the input changes from off to on. Switches the control operation of specified loops to local when the input changes from on to off. Auto switch (specified loop) Switches the control operation of specified loops to auto when the input changes from off to on.
  • Page 43 3-22 Program Control Function Description Program RUN/RESET switch Starts program operation when the input changes from off to Stops program operation when the input changes from on to off. Hold operation Pauses the operation of program patterns when the input changes from on to off. Advance operation Advances the operation of program patterns by one segment when the input changes from on to off.

  • Page 44: Batch Function

    3-23 The behavior varies depending on the energize/de-energize state of the contact type. 3.2.4 Batch Function You can attach batch information to event data files and display data files. You can manage event data and display data files using batch information. At the start of recording, batch number, lot number (when in use), and comments (1 to 3) are entered. Each comment can be entered once during recording. Comment Record start Record stop...

  • Page 45: Math Function (/Mt Option)

    3-24 3.2.5 Math Function (/MT option) You can define expressions using measured data, computed data, and the like as variables, compute the expressions, and display and save the results. You can set up to 200 (GM10-2) math channels.  Computation Types Classification Operator Syntax Explanation Basic arithmetic Determines the sum of a and b – a–b Determines the difference between a and b Determines the product of a and b Determines the quotient of a and b Basic operation ABS( ) ABS(a) Determines the absolute value of a...
  • Page 46 3-25 Classification Operator Syntax Explanation Special operation CLOG.AVE( ) CLOG.AVE Determines the average value among the specified group of (e1.e2.e4-e6) channels (e1, e2, e4, e5, e6). CLOG.SUM( ) CLOG.SUM Determines the sum among the specified group of channels (e1, (e1.e2.e4-e6) e2, e4, e5, e6). CLOG.P-P( ) CLOG.P-P Determines the maximum - minimum value among the specified (e1.e2.e4-e6) group of channels (e1, e2, e4, e5, e6). PRE( ) PRE(e1) Determines the previous value of e1.

  • Page 47: Logic Math Function

    3-26 3.2.6 Logic Math Function Logic math is a function that outputs calculated results as 0 or 1 to relays (DOs) or internal switches. Up to 50 logic math operations can be set. l Computation Types Type Computing Element Auxiliary operation +, - Basic arithmetic +, -, *, / Relational operation...

  • Page 48: Report Template Function

    Ethernet Printer l Files Created by Using Report Template Files Report File Template Explanation Report files in Excel format Excel format A report template for each kind of report file is created. For each kind of report file, a corresponding report Report files in PDF format Yokogawa template file is used to create the appropriate report files. proprietary format Report output to printer Yokogawa The report template for PDF reports is used to output proprietary data to the printer. format l Creating Report Templates for PDF Report Files and Printer Output To create a report template, use the editing tool provided by YOKOGAWA to enter keywords and text in the cells of table.

  • Page 49: Security Function

    3-28 3.2.9 Security Function The security function consists of the following functions. • Login • User privileges • Key lock Security function Admin Only registered Login Communication users can log in • User name User Operation restriction • Password × Memory START Lock the GM keys Key lock...
  • Page 50 3-29  User Privileges Limitations can be applied to the operations that a user can perform. Up to 10 conditions of operation limitations can be set (authority numbers 1 to 10). For each user, you can set whether to apply user limitations and the conditions to be applied. Operation limitations Operation Explanation...

  • Page 51: Fail, Status Output

    3-30 3.2.10 Fail, Status Output CPU errors (FAIL) and status can be output as relay signals. You can select which status to output from event action. To output relay signals, you need a digital output module (GX90YD) or digital input/output module (GX90WD).  Status Output Item Device information Description Details Device status Recording A relay signal is output when ------ recording starts. Math A relay signal is output when ------ computation starts.

  • Page 52: Timer And Internal Switch Functions

    3-31 3.2.11 Timer and Internal Switch Functions Timers  Timers are used in event action and computation (/MT option). There are two types of timers: absolute and relative. You can set up to twelve timers for each type. Absolute Timer The timer expires at the times determined by the reference time and the interval. The reference time is set on the hour (00 to 23).

  • Page 53: Log Scale Function (/Lg Option)

    3-32 3.2.12 Log Scale Function (/LG option) A logarithmic voltage that has been converted from a physical value is applied to the GM, and then the GM’s Log scale (logarithmic scale) is used to display and record the physical value.  Input Type The GM supports the following three types of input signals. l Logarithmic Input This is referred to as “Log input.” It is an input in which voltages correspond to logarithmic values of physical values.
  • Page 54 3-33  Log Input (Nonlinear Log Input) Example To support the nonlinear output of vacuum gauges, use the calibration correction function to correct the GM input values with linear approximation. Conceptual diagram The pressure scale is mapped to an input scale that has been multiplied by a constant number to derive the output scale.

  • Page 55: Communication And Network Functions

    3-34 Communication and Network Functions 3.3.1 DHCP Function IP parameters can be set automatically using DHCP. DNS server Default gateway Ethernet DHCP server 3.3.2 File Transfer Function (FTP) The GM has FTP server and FTP client file transfer functions.  Server You can use a PC to access the GM via FTP. You can perform operations such as retrieving directory and file lists from the external storage medium (SD card) of the GM and transferring and deleting files. In addition, you can also retrieve the directory or file list and transfer files in the internal memory. Files stored on the Internal memory/external storage medium Ethernet FTP server SD memory carad...

  • Page 56: Sntp Function

    3-35 l File Transfer Destination (FTP server) You can specify two file transfer destinations (FTP servers): primary and secondary. If the primary server is down, the file is transferred to the secondary server. If the report template function is in use, report files in Excel format and report files in PDF format that are created in the external storage medium of the GM can be automatically transferred when they are created. Data file Destination (FTP Transfer log to transfer server) information (FTP log) FTP client Data file Ethernet Secondary Primary...

  • Page 57: Mail Transfer Function (Smtp)

    3-36  Server The GM can operate as an SNTP server. When an SNTP client device on the network queries the GM for time information, the GM sends the information. SNTP server 12:34 Ethernet Time query SNTP client device 3.3.4 Mail Transfer Function (SMTP) Mails can be transferred when alarms occur, when reports are created, and so on. You can set up to two destinations (recipient 1, recipient 2). You can also set multiple e-mail addresses in a single recipient (space-delimited).

  • Page 58: Http Function

    3-37 3.3.5 HTTP Function You can access the GM from a Web browser and monitor measurement data in real time and configure and operate the GM. For details, see section 3.1.5, “Display (Web browser).” 3.3.6 Communication Channel Function (/MC option) When data from Modbus devices or PC is recorded on the GM, the acquired data is assigned to communication channels (GM10-1: C001 to C300, GM10-2: C001 to C500). Data acquired from power meters using WT communication (/E2 option) is also assigned to communication channels.

  • Page 59: Modbus Function

    3-38 3.3.7 Modbus Function The Modbus function is used by the GM and external Modbus devices to perform communication and data reading and writing. The GM can perform the following operations. Interface Protocol Function Ethernet Modbus/TCP Modbus server Modbus client (option, /MC) RS-422/485 Modbus/RTU Modbus slave...
  • Page 60 3-39 Modbus Client/Master Function  The GM can operate as a Modbus client or master. It can read from and write to the internal registers of Modbus server or slave devices. Read data can be assigned to communication channels (/MC) for processing. Modbus server device Server device Winternal register...

  • Page 61: Ssl Communication Function

    3-40 3.3.8 SSL Communication Function Communication that sends and receives information encrypted by the SSL protocol is possible. Public key encryption and certificate are used to encrypt communication and secure the connection. SSL(Secure Sockets Layer) SSL is a function for encrypting data communication between devices on the Internet and other networks. It ensures safe data transmission such as by preventing spoofing by other devices and data eavesdropping.  Supported Servers HTTP server and FTP server are supported.
  • Page 62 3-41  Supported Clients FTP client and SMTP client are supported. FTP Client A trusted certificate is saved in the internal memory in advance. When an access is made to an FTP server, it compares the certificate received from the server to the one in the internal memory. Encrypted data is sent to the server. FTP server Certificate Data Encryption Ethernet Trusted certificate SMTP Client A trusted certificate is saved in the internal memory in advance. When an access is made to an SMTP server, it compares the certificate received from the server to the one in the internal memory. Encrypted e-mail is sent to the server. SMTP server Certificate Email...

  • Page 63: Darwin Compatible Communication

    3-42 3.3.9 DARWIN Compatible Communication A portion of the DARWIN’s setting and control commands is supported. Measured data, math data, and the like can be output in DARWIN format. You can use an existing program that has been created for DARWIN to communicate with the Ethernet and RS-422/485 are supported. Existing control program Ethernet Output Command DARWIN  Supported Commands l Instantaneous Data Output Commands Command Description Outputs measured data and math data in binary format. Outputs unit and decimal point information of a specified channel in ASCII format. Sets the byte output order. ESC+T Command If a “Esc+T”...
  • Page 64 3-43 l Data Output Request Commands Command Parameter Description 0: Measured data Selects the talker output data. 1: Setting parameters 2: Unit information 5: System configuration information 9: Setup mode setting data output 0: Measured data (ASCII) Selects the output format of measured/math data. 1: Math data (binary) 2: Math data (ASCII) 3: Math channel (binary) ̶...

  • Page 65: Ethernet/Ip Function (/E1 Option)

    EtherNet/IP is a protocol that extends Common Industrial Protocol (CIP) to Ethernet. The use of Ethernet enables high-speed and periodic exchange of massive control and monitoring data between control devices placed at dispersed locations. Devices that support EtherNet/IP are available from many vendors. Among them, Rockwell Automation’s Programmable Logic Controller (PLC) and Remote I/O of the Allen-Bradley brand are widely used. Yokogawa’s GM, equipped with the EtherNet/IP server function, supports communications with these PLCs. GM Functions  The GM provides the following functions: • Participate in an EtherNet/IP network as an Adapter (Server).

  • Page 66: Wt Communication Function (/E2 Option)

    3.3.11 WT Communication Function (/E2 option) The WT communication function is used by the GM to acquire values measured and computed on WT power meters and analyzers made by Yokogawa Meters & Instruments Corporation. The values are acquired in digital form over Ethernet. The acquired data can be assigned to communication channels (/MC option) and displayed and recorded simultaneously with the measured temperature or other data of the GM.

  • Page 67: Bluetooth Function (/C8 Option)

    3-46 3.3.12 Bluetooth Function (/C8 option) Instead of bringing your PC to the site, you can use a tablet to monitor the measurement data (digital display) and configure some of the settings. You must install a dedicated software application in your tablet. For details, visit the YOKOGAWA website. Bluetooth 3.3.13 Measurement/Setting Server Function Dedicated commands can be used to configure the GM, acquire data, and so on. Supported interfaces • Ethernet • USB • RS-422/485 (/C3) • Bluetooth (/C8) 3.3.14 Advanced security function (/AS option) This function makes the GM comply with FDA 21 CFR Part 11 (Electronic Records;...

  • Page 68: Multi-Batch Function (/Bt Option)

    3-47 3.3.15 Multi-batch Function (/BT option) The Multi Batch function allows you to record and save the measured data from multiple batches separately (per batch). You can also apply the Multi Batch function to multiple consecutive processes. Features Start and stop recording separately for each batch and create data files for each batch. Batch group 1 Data file Record start Record stop Equipment 1 Batch group 2 Data file Record start Recor stop Equipment 2 Batch group 6...

  • Page 69: Aerospace Heat Treatment (/Ah Option)

    3-48 3.3.16 AEROSPACE HEAT TREATMENT (/AH option) Supports aerospace heat treatment measurements and NADCAP AMS2750E compliant recording and reporting. Schedule management for periodically executing calibration correction configuration and the like In correction coefficient mode of calibration. l Notification Screen Manage user-defined schedules for periodical execution. Operation Example When Notification is set to 1 (DayBfr) and Renotification is set to 8h Notification screen Calibration due date display start Notification screen Notification screen Notification screen Notification screen appears appears appears appears 00:00 08:00...

  • Page 70: Opc-Ua Server (/E3)

    3-49 3.3.17 OPC-UA SERVER (/E3) Data acquired by the GM can be accessed through Ethernet communication from a host system (OPCUA client). Equipped with an OPC-UA server function. GM measurement data can be retrieved directly from a host system, such as SCADA and MES. OPC-UA client Write Ethernet...
  • Page 71 3-50 Classification Function Service set Attribute Read, Write MonitoredItem CreateMonitoredItems, ModifyMonitoredItems, DeleteMonitoredItems, SetMonitoringMode Subscription CreateSubscription, ModifySubscription, DeleteSubscriptions, Publish, Republish, SetPublishingMode Data Structure :Objects Node :Folder Node :Variable Node(With Value) :Property Node(With Value) :Data acceptable Node OPU-UA Root Object GM10-1J@IP Address or hostname Comm Channel Device IO Channel...

  • Page 72: Slmp Communication (Mitsubishi Plc) (/E4)

    3-51 3.3.18 SLMP COMMUNICATION (Mitsubishi PLC) (/E4) Protocol function that enables connection from a GM to Mitsubishi Electric PLCs without sequencer programs. Equipped with a client function for the MC protocol. Connection to Mitsubishi Electric PLCs can be established easily. SLMP Server Internal dataServer Server function Ehernet Client function...

  • Page 73: Pid Control Function (Pid), Program Operation Function

    3-52 Internal data Device code Special link register Direct access input Direct access output Index register File register R, ZR Extended data register Extended link register 3.3.19 PID Control Function (PID), Program Operation Function (/PG Option) PID control and program control become possible by installing the PID control module and program control function. Control Function A single PID control module can perform PID control on up to two loops.

  • Page 74: Revision Information

    Add Pulse input module, Multi-batch function, Aerospace heat treatment, OPC-UA server, SLMP communication (Mitsubishi PLC) June 2017/3rd Edition Supported Release 4 of the Data Acquisition System GM. July 2018/4th Edition Supported Release 4 (version 4.03) of the Data Acquisition System GM. Written by Yokogawa Electric Corporation Published by Yokogawa Electric Corporation 2-9-32 Nakacho, Musashino-shi, Tokyo 180-8750, JAPAN TI 04L55B01-01EN...

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