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The MAXUM edition II and MicroSAM gas chromatographs can transfer measured results and status information to process control systems, operator panels or printers during operation.
Interfaces
Chromatograph, operator panel, printer and control system use special electronic interfaces:
- Electrical connection
The device interfaces are connected by electric cables. The electrical properties of the interfaces are standardized. - Control of communication and language
Rules must be observed to control the communication. It must be clearly defined in networks who is the "sender" and who is the "receiver" of the data. Both communication partners must use the same protocol.
MODBUS
MODBUS is a rule for controlling data transfer between two computer systems - a transmission protocol. MODBUS is the "de facto" industry standard for connecting measuring and control devices to process control systems (PCS). Most process control systems can be equipped with serial interfaces and MODBUS.
Using the MODBUS coupling, information can be sent interference-proof via just one data line. Information can be read from process gas chromatographs (PGC), and certain functions of the PGC can also be parameterized.
Advantages:
- Information on the PGC status during operation
- Supply of protected data in numerical form without falsification by interfering pulses
- Reduced cabling overhead
The MODBUS coupling can:
- Transmit measured values
- Transmit status information
- Output information on the current analysis
- Trigger control functions
The MODBUS uses a master/slave transmission procedure. The control system is always the master, the process gas chromatograph is the slave.
The representation of data in the message frames is based on the compact RTU format.
Memory division
To ensure that the meaning of the registers is known to each network station, this must be defined in the configuration. The results of each component in each sample must be written into defined positions in the PCS memory. These address declarations depend on the number of chromatographs, samples and components. The same applies to status, sample sequence and sample release. Standard addresses are also defined in these cases.
OPC server (OLE for Process Control)
OPC is a vendor-independent software interface. It allows standardized access from Windows applications to chromatograph data. OPC corresponds to a typical client/server architecture.
OPC allows a universal connection between any Windows application which supports an OPC client interface and the MAXUM edition II / MicroSam.
The OPC server is usually installed on a separate PC.
OPC is a modern alternative to MODBUS. MAXUM edition II and MicroSAM do not require an additional interface, they use the existing Ethernet connection (TCP/IP).
OPC standardizes the access to measured values, status functions, control functions and analytical data in a manner similar to MODBUS.
Advantages with OPC applications:
- Reduced maintenance costs
- Simple GUI for configuration
- Reduced system integration costs
- Reduced test costs
- Reduced maintenance costs
OPC server
Hardware components
NAU - Network Access Unit
An NAU expands and supplements a GC network, and has three fundamental functions:
- Enclosure for 7 additional I/O plug-in cards
- Connection of serial ASCII printers and external host PCs (control system)
- Central operation of a GC network from one point
The Network Access Unit (NAU) is an input/output station for the Siemens process chromatographs. It can be used to centrally call, process and pass on data. It is used if it is not possible to connect the electronics close to the analyzer, if the number of MicroSam inputs/outputs is insufficient, or if installation in a central control room is required. This significantly reduces the required wiring to the control room.
The NAU can also be used as a central control unit for function testing, data output and parameterization of the MicroSam. It permits access to the MicroSam to which it is connected, as well as to all other Siemens gas chromatographs and further NAUs of the system which are networked over the system bus.
The NAU is connected to the Ethernet or DataNet and has a total of 7 slots to accommodate a wide range of electronics cards. These comprise cards for analog and digital signal processing as well as interfaces for host computers and process control systems. An NAU can be expanded by a further 10 slots using a CAN Extension Unit.
A total of 7 different electronics cards are available:
|
8 analog outputs |
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4 digital outputs, |
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2 digital outputs, |
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10 Base FO Ethernet (fiber-optic coupling) |
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DataNET Copper (redundant system bus) |
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DataNET Fiber Optic |
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Advanced Data Highway |
CEU - CAN Extension Unit (only MAXUM edition II)
- Increases the I/O capacity of the GC or NAU
- 10 additional I/O plug-in cards
- Has its own power supply
- Also for zone 1
ANG - Advance Network Gateway
Connects OptiCHROMs to the Ethernet network.
DNH - DataNET Hub
Communications router completely redundant in the network: has 2 own TCP/IP addresses, dual electronics and power supply.
ANCB - Advance Network Communication Board
Converts the communications protocols in the device
Two versions:
- MAXUM directly to DataNET
- MAXUM directly to OptiCHROM data highway
Software
Modern chromatographs are controlled by microprocessors.
We differentiate between software in the device and software on a PC operator panel.
Software in the chromatograph
The chromatograph can carry out analyses independently, without an operator panel being connected. It then requires its own control software and local operating software (HMI).
Software in the operator panel (PC)
Siemens gas chromatographs can be operated over Ethernet and a PC, by using the built-in control panel (HMI), or with a Network Extension Unit (NAU).
Workstation software
The most important programs this contains are the MAXUM System Manager, the MAXUM EZChrom and the HMI-Emulation. In addition, it contains useful MAXUM utilities and loadable extensions such as:
MaxBasic
For modification of MaxBasic programs in the gas chromatographs or the NAU.
MAXUM OPC Server
For coupling of the MAXUM e.g. to control systems.
Simulated Distillation
For import/export of methods for simulated distillation.
MAXUM System Tools
For data logging, for firmware updating, or for operation of discontinued OptiCHROMs (APC 8.0).
Different levels of operation
Operation of the PC is in three levels:
- System Manager - network monitoring and configuration of the chromatograph
- EZChrom - method development and control of analysis
- MMI emulation - operator control and monitoring
System Manager:
Configuration of database and applications
The System Manager provides the connection to the chromatograph as well as an overview of the network.
It is additionally used for configuration and high-level monitoring of the chromatograph, and additionally branches to the MMI emulation, EZ Chrom and Basic editor.
The System Manager almost exclusively outputs static displays, i.e. it fetches a table from the chromatograph's database, and saves it again there later. Only results and alarms are displayed dynamically.
The System Manager presents the hardware in tables, e.g. the system table contains all hardware components of the chromatograph: detectors, valves, ovens, digital outputs, etc.
In addition, the System Manager can:
- Save databases of a chromatograph as a file on the PC, or load them from the PC into the chromatograph.
- Upgrade the chromatograph software.
- Call EZChrom, MMI emulation, Datalogger or the MaxBasic editor.
EZChrom:
Generate methods and sample sequences
The EZChrom software is installed on the PC and is also included in the operator software in the chromatograph, e.g. it integrates the detector signals there, calculates the results, or switches time-controlled events.
EZChrom on the PC is responsible for the following tasks:
- Generate or modify methods
- Carry out re-integration
- Calibrate a method
- Display and print saved and real-time chromatograms
- Archive chromatograms
- Generate and modify sample flow sequences
- View analysis clock
- Switch the chromatograph to Run or Hold.
MMI emulation: Operator control and monitoring
This is identical to operation on the built-in control panel of a MAXUM or an NAU. It is used for operator control and monitoring. For example, it is possible to display results, switch valves or modify temperatures. However, there are only minimum possibilities for editing the configuration and tables. The MMI is always a dynamic display.
APC 8.0
This is an interface to the OptiCHROM Advance gas chromatographs. It is started from the MAXUM System Manager. It permits operation of older types of chromatograph via a PCI card.
The following can be executed with APC 8.0:
- Service panel emulation on the PC
- Data logging
- Viewing of chromatograms
- Editing of tables in OptiCHROM.
GC-Tools operating software
GC-Tools is the Windows-based operating software for discontinued Siemens gas chromatographs of Series 202 and 302. This software expands the BEDI operating software, which is based on MS-DOS.
The Network Explorer shows all information at the device level, e.g.:
- Chromatogram display
- Manual control of all parameters
- Drivers for the four serial interfaces of the chromatograph