Siemens
СРЕДСТВА ПРОМЫШЛЕННОЙ АВТОМАТИЗАЦИИ
официальный партнер Сименс
Каталог СА01 2015
архивный
(4872) 700-366
skenergo@mail.ru

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All bus analyzer functions are controlled by the Bus Analyzer Scope program that ships with the product. This Windows application is connected to the bus analyzer sys module via an Ethernet connection. This is possible via a direct connection, via a network or via a VPN tunnel.

The four analysis ports can be used by all function modules but not at the same time. They need to be enabled and assigned to the module being used.

On completion of the parameter assignment and after starting the relevant analysis function, the connection between Bus Analyzer and Bus Analyzer Scope can be terminated, in other words, the module then works alone.

The frame recording provides a comfortable option of recording communication on Ethernet connections at speeds from Fast Ethernet to gigabit Ethernet.
The FPGA technology design of the Bus Analyzer throughout allows error-free, gapless recording of all data with 10 ns time stamping. Even bad frames are not automatically discarded but can be saved and evaluated.
The four recording ports can be used independently for recording. If a Test Access Point (TAP) is used to decouple the frames instead of a hub or a switch mirror port, it is possible to interconnect ports; in other words, to bundle their data streams and to save and evaluate them together.
To allow the recording to be controlled effectively, freely programmable filters and triggers are available. Apart from standards such as addresses, protocols and patterns, there are also special functions that can trigger on frame timeouts and bad frames (CRC error, undersize error etc.). The integrated hardware inputs can also be used to fire triggers using external binary signals.
The data is saved in the internal RAM (2 GB capacity) that can also be set as a ring buffer. At the end of the recording, the data is loaded and saved either on the PC via the Ethernet host connection or on an external storage medium connected via USB.
If it is necessary to record larger volumes of data, the data can also be streamed to the PC during the recording and saved there.
All frames are saved in a file in "pcap" format that can, for example, be read by Wireshark.

PROFINET analysis automatically detects all important parameters of a PROFINET system. The Bus Analyzer analyzes the frame traffic in real time in terms of frame type, cycle times and many other important characteristics of the network.
During the analysis, all PROFINET nodes are listed in table. The following information is displayed and updated cyclically for each node:
PROFINET class, number of sent/received packets, desired cycle time, min/max cycle time, min/max cycle time deviation.

The number of frames sent by each node per time unit can be visualized in a cycle time diagram. These are displayed graphically in a distribution curve. At a glance, it is possible to see how well the PROFINET component keeps to the cycle.

During the analysis of PROFINET IRT, not only the degree to which individual components adhere to the cycle is important, but also the offset of the time of sending within the cycle; in other words, its behavior in conjunction with the other communications partners in the network. The offset diagram can display the distribution curves of all nodes in the cycle to allow a statement to be made regarding the quality within the entire network and the time slice distribution of its nodes.

Based on intuitively structured filter menus, the online value tracking provides a simple and uncomplicated means of extracting data from the frame traffic. In contrast to the frame recording, complete frames are not saved here but rather individual values of the relevant communications partners transferred via PROFINET.
This means, for example, that the setpoint of a controller, the speed of a motor etc. can be read directly from PROFINET and saved with a time stamp (resolution 10 ns). This is displayed in a table or graphically in the form of a curve that represents the values over time online and in real time.

To be able to select the values, the address of the node, the byte position of the value within the frame and the number of bytes to be read must be specified in the filter. The size of the values is limited to 8 bytes. All available formats can be interpreted (binary, integer, analog, ...).
Up to four values can be recorded simultaneously. There is no limit to the recording time.

The packet generator allows any Ethernet frames to be injected into the network. To allow this, all four analysis ports are available and are independent of each other. As an alternative, the ports can also be coupled together in pairs as sender/receiver to be able to read in sent frames and to verify the read frames with the sent frames.
The frames to be sent are transferred to the module as input in the form of "pcap" files. These inputs can either be generated by recording or can be created as new frames using the integrated pcap editor.
Each port has its own menu for setting the relevant send options. Among other things, the packets can be sent as follows:

  • Cyclically (with breaks)
  • As a fixed percentage of bus load
  • With a specified number of repetitions
  • For a specified time etc.

At the end of the action, all important parameters (bus load, duration etc.) are output as statistics.

The packet generator only executes with the Bus Analyzer without TAP.

All the modules listed above can also be remotely controlled by a script. To allow this, each action taken by the user is logged in the integrated script window. The log can be saved, edited and transferred later to Bus Analyzer Scope when this is called. All the instructions in the script are then executed. This allows automated test sequences, for example for setting up test automats. The manual contains an overview of all the script commands that can be used.
As an alternative, the script commands can also be transferred using a remote interface (via TCP/IP) from another application to Bus Analyzer Scope. When TCP is used as the transfer interface, the application does not need to be located on the same computer as Bus Analyzer Scope, only in the same network. A sample program in C# ships with the product.

















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Арматура DENDOR

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Датчики и измерители

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Регуляторы и регистраторы

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Пневматическое оборудование

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Краны и Клапаны

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Измерительные приборы

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Системы беспроводного управления «умный дом»

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Бесконтактные выключатели Конечные выключатели Оптические датчики Энкодеры

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SKW-FS - Установка умягчения

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SKW-FK - Установка обезжелезивания
Каталог оборудования 2015
Каталог продуктов Siemens Industry Приводная техника Техника автоматизации Системы автоматизации Системы визуализации SIMATIC HMI Системы идентификации Промышленные коммуникации SIMATIC NET Введение Industrial Ethernet PROFINET Введение Привода Контроллеры Система управления процессами SIMATIC PCS 7 Распределенная периферия Система управления перемещениями SIMOTION Системы ЧПУ SINUMERIK Устройства отображения и контроля Активные сетевые компоненты Промышленные ПК Коммутационные и защитные приборы для распределения энергии Обзор системы Измерительные приборы SENTRON Конфигурирование, визуализация и управление с SIMATIC Конфигурирование, визуализация и управление с SENTRON Производственные датчики Пассивные сетевые компоненты Аппаратура управления Блоки питания SITOP Датчики Инжиниринговые пакеты SIMATIC iMap SINEMA сервер TeleService PN IO Bus Analyzer Engineering / Network management / Diagnostics Технологические компоненты PROFINET Системный интерфейс к SIMATIC HMI PROFIBUS AS-интерфейс IO-Link Промышленная беспроводная связь SINAUT ST7 Информационная безопасность в промышленности Сетевые переходы ECOFAST Промышленные аппараты управления SIRIUS Промышленные информационные технологии Управление на базе РС Системы управления процессом Датчики Блоки питания Продукты для специальных требований Автоматизация и безопасность зданий Низковольтная коммутационная техника Технология безопасности Системные решения и продукты для отраслей Сервис ... и все, что Вам еще необходимо

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