216NG63A HESG441635R1 HESG216877K 模拟量控制器 ABB
FF定义了两个通信配置文件H1和HSE。H1配置文件允许
传输速率为31.25kbit/s。它好用于直接通信
在一个链路(H1链路)中的现场设备之间。HSE简介基于标准
以太网首先是H1之间链路的强大主干
部分。典型的传输速率为:10Mbit/s或100Mbit/s。一
市场上已有的支持HSE配置文件的设备为FF
连接装置(例如LD 800HSE)。它们是连接
H1段和HSE主干上的现场设备。
基金会现场总线通过高性能网络连接至AC 800M
HSE总线采用FF连接装置。
有关HSE概况的更多详细信息,请参见FF规范。
在FF规范中解释了HSE背后的基本概念
系统架构(FF-581)和HSE概况(FF-941)。
FF子系统由FF链接设备组成(例如LD 800HSE,参见
附录C,推荐组件)相互通信
使用HSE协议。FF链接设备通常提供多个
基金会现场总线H1段(H1链路)。FF将设备与设备链接
42c类允许处理子公司周期性发布的数据
H1段将在HSE段上“重新发布”。通过使用HSE重新发布,
可以配置不同网络上现场设备之间的循环通信
H1段和HSE段上的装置。基金会现场总线HSE
H1网络和设备使用现场总线生成器进行配置
基金会现场总线。
FF子系统通过接口连接至IEC 61131控制器(AC 800M)
AC 800M中的FF HSE装置CI860,参见43页图7
在FF中,FF HSE单元是一个参与HSE的HSE装置
表达
I/O系统3节配置
174 3BSE036351-600 A
FF链接设备作为AC 800M和现场设备之间的网关运行
对于现场设备的配置数据和
在AC 800M和现场设备之间循环交换的过程数据。
图63基金会现场总线HSE系统结构示例
TRIO/Genius远程输入/输出
TRIO是Genius远程I/O产品,提供离散、模拟和高速
用于连接AC 800M的计数器块。I/O块单元的配置
而CI862是使用控制构建器M完成的。
3节驱动系统的配置
3BSE036351-600 A 175
驱动系统
ABB标准(Std)和工程(Eng)驱动器可连接至AC 800M
通过以下任何方式:
•光学模块总线
•CI801和PROFIBUS DP
•NPBA-12、RPBA-01或FPBA-01 PROFIBUS DP适配器模块以及
使用CI854
•RETA-02或FENA-01/-11以太网适配器模块以及CI871
(PROFINET IO)
•CI858驱动总线接口。
模块总线
在单CPU配置中,ABB驱动器可以通过
光学模块总线。参见178页图64。ABB驱动器的数量
可连接到光学模块总线的光学模块总线可以由
下式:
(ABB驱动器数量)<84-(12个(TB820s数量))
也就是说,每个驱动器使用12个连续的模块总线位置。
PROFIBUS DP和CI801
在单CPU和冗余CPU配置中,ABB驱动器可以通过
PROFIBUS DP和CI801。参见178页的图64。只有标准驱动器可以
连接到CI801。九(9)个标准驱动器可以连接到每个CI801,如果
没有连接I/O单元。可连接到的驱动器数量
当I/O单元(TB820)和标准驱动器都连接时,
请参阅有关现场总线DP的FCI文件。
有关ABB驱动器及其类型(Std和Eng)的更多信息,请参阅
S800输入/输出文件。
有关分支装置的信息(178页图64),请参阅ABB驱动器
系统文档。
驱动系统3节配置
176 3BSE036351-600 A
ABB驱动器也可以通过PROFIBUS DP(CI854/CI854A/CI854B)连接,
直接连接到PROFIBUS DP从模块NPBA-12、RPBA-01和
FPBA-01。
PROFINET IO和CI871
RETA-02以太网适配器模块和FENA-01/-11以太网适配器
模块是ABB驱动器的可选设备,可连接
驱动到PROFINET IO(PNIO) 216NG63A HESG441635R1 HESG216877K 模拟量控制器 ABB
216NG63A HESG441635R1 HESG216877K 模拟量控制器FF defines two communication profiles, H1 and HSE. The H1 profile allows a
transmission rate of 31.25 kbit/s. It is preferably used for direct communication
between field devices in one link (H1 link). The HSE profile is based on standard
ethernet serves first and foremost as a powerful backbone for the link between H1
segments. Typically transmission rates are: 10 Mbit/s or 100 Mbit/s. The first
devices that are already available on the market and support the HSE profile are FF
linking devices (for example LD 800HSE). They serve as a gateway between the
field devices on the H1 segments and the HSE backbone.
The FOUNDATION Fieldbus is linked to the AC 800M via the high-performance
HSE bus using FF linking devices.
More detailed information on the HSE profile can be found in the FF specifications.
The fundamental concepts behind HSE are explained in the FF specifications
System Architecture (FF-581) and HSE Profiles (FF-941).
The FF subsystem consists of FF linking devices (for example LD 800HSE, see
Appendix C, Recommended Components) which communicate with one another
using the HSE protocol. An FF linking device usually provides more than one
FOUNDATION Fieldbus H1 segments (H1 link). FF linking devices with a device
class of 42c allow process data that have been published cyclically on the subsidiary
H1 segments to be “republished” on the HSE segment. By using HSE republishing,
it is possible to configure cyclical communication between field devices on different
H1 segments and devices on the HSE segment.The FOUNDATION Fieldbus HSE
and H1network and the devices are configured with the Fieldbus Builder
FOUNDATION Fieldbus.
The FF subsystem is interfaced to the IEC 61131 controller (AC 800M) using a
FF HSE unit CI860 in the AC 800M, see Figure 7 on page 43. From the perspective
of FF the FF HSE unit is an HSE device which participates in the HSE
communication.
I/O Systems Section 3 Configuration
174 3BSE036351-600 A
FF linking devices operate as gateways between the AC 800M and the field devices
on the H1segments both for the configuration data of the field devices and for the
process data which is exchanged cyclically between AC 800M and the field devices.
Figure 63. Example of system structure for FOUNDATION Fieldbus HSE
TRIO/Genius Remote I/O
TRIO is a Genius remote I/O product that provides discrete, analog and high-speed
counter blocks for connection to the AC 800M. Configuration of the I/O block units
and the CI862 is done using Control Builder M.
Section 3 Configuration Drive System
3BSE036351-600 A 175
Drive System
ABB Standard (Std) and Engineered (Eng) Drives can be connected to AC 800M
through any of the following:
• The optical ModuleBus
• CI801 and PROFIBUS DP
• NPBA-12, RPBA-01, or FPBA-01 PROFIBUS DP Adaptor modules along
with CI854
• RETA-02 or FENA-01/-11 Ethernet Adapter modules along with CI871
(PROFINET IO)
• CI858 DriveBus Interface.
ModuleBus
In single CPU configuration, ABB Drives can be connected to the processor unit via
the optical ModuleBus. See Figure 64 on page 178. The number of ABB Drives
which can be connected to the optical ModuleBus, can be described by the
following equation:
(No. of ABB Drives) < 84 - (12 x (No. of TB820s))
that is, each Drive uses 12 consecutive ModuleBus positions.
PROFIBUS DP and CI801
In single and redundant CPU configuration, ABB Drives can be connected via
PROFIBUS DP and CI801. See Figure 64 on page 178. Only Standard Drives can
be connected to CI801. Nine (9) Standard Drives can be connected to each CI801 if
there are no I/O units connected. For the number of Drives that can be connected to
the same CI801, when both I/O units (TB820) and Standard Drives are connected,
refer to documentation about FCI for PROFIBUS DP.
For more information about ABB Drives and its types (Std and Eng) refer to
S800 I/O documentation.
For information about Branching Unit (Figure 64 on page 178) see ABB Drive
System documentation.
Drive System Section 3 Configuration
176 3BSE036351-600 A
ABB drives can also be connected via PROFIBUS DP (CI854/CI854A/CI854B),
with direct connection to PROFIBUS DP slave modules NPBA-12, RPBA-01, and
FPBA-01.
PROFINET IO and CI871
The RETA-02 Ethernet Adapter module and FENA-01/-11 Ethernet Adapter
module are optional devices for ABB drives, which enables the connection of the
drive to a PROFINET IO (PNIO) ABB
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