AS-BDAU-202模块备件

ng控制生成器
控制生成器安装在通常连接到AC 800M的PC中
控制器通过控制网络和控制器上的CN1或CN2端口
（参见153页图53）。
或者，控制生成器可以通过COM4端口（RS-232C）连接
在AC 800M控制器上。使用工具电缆TK212和PC上的串行端口。
在冗余配置中，控制生成器连接到主CPU
COM4端口。备份CPU无法与Control Builder通信。
PM851/PM851A仅限于一个以太网（CN1）端口，因此是冗余的
以太网不可用。
标准控件生成器不支持CI862。如果要使用CI862
必须安装合适的系统扩展。
要使用FF HI功能，请使用升级CI852单元的固件
串行固件升级工具。串行固件升级工具将加载
控制器具有FF HI功能的特殊固件。手动浏览
串行固件升级工具和
选择firmware.ext。
3节控制网络的配置连接
3BSE036351-510 A 153
与控制网络的连接
控制网络是用于实时数据和通用数据的专用IP网络域
工业计算机之间的通信系统。它是可扩展的，从
具有几个节点的小型网络，到包含多个节点的大型网络
“网络区域”和数百个节点。
图53.连接到控制网络的AC 800M控制器示例
输入/输出
AC 800M
输入/输出
AC 800M
STP
AC 800M
输入/输出
转换
中心
输入/输出
AC 800M
输入/输出
AC 800M
STP
转换
输入/输出
AC 800M
输入/输出
AC 800M
STP
中心
在工业环境中，仅
在完全控制以下情况下使用STP电缆：
布线可用。
仅使用
STP内部
有
常见的
接地
工业的
环境
非工业
环境
法罗群岛
FO=光纤链路
STP=屏蔽双绞线链路
控制器安装
柜内
控制生成器操作员站
特殊情况下使用STP
一般使用FO
一般使用STP
FO或STP FO或STP并观察
大限度
电缆长度。
通信可能性3节配置
154 3BSE036351-510 A
网络可以利用不同的混合链路实现，如Fast
以太网和PPP。它提供完全冗余，以实现高网络
可利用性
AC 800M控制器始终通过STP连接到控制网络
（屏蔽双绞线）电缆。当地环境应该是工业环境吗
本质上，AC 800M/控制网络连接必须转换为
光纤（FO）电缆。这是通过安装具有以下功能的以太网交换机实现的：
光端口和电端口。参见153页图53。
有关控制网络的更多信息，请参阅控制网络文档。
通信可能性
处理器单元（PM8XX/TP830或PM891）包含以下内容：
通信端口，提供以下功能：
•CN1和CN2用于连接到控制网络。两者都是RJ45
以太网（IEEE802.3）端口和连接通常通过以下方式实现：
5类屏蔽双绞线（STP 5类）。然而，如上所述
以前，在工业环境中，建议所有STP
电缆被转换成光纤。
–对于单CPU或冗余CPU和单网络：所有CN1端口均为
连接到网络（可以使用CN2，但需要重新配置
有关CPU的通信设置）。
–对于单CPU或冗余CPU和冗余网络：所有CN1端口均为
连接到主网络，所有CN2端口连接到辅助网络
网络
附录C中提供了电缆选择、开关等的详细信息，
推荐组件。
PM851/PM851A仅限于一个以太网（CN1）端口，因此是冗余的
以太网不可用。
3节配置通信可能性
3BSE036351-510 A 155
•COM3是带有调制解调器信号的RS-232C的RJ45端口。实例
协议为Modbus、西门子3964R、COMLI或定制设计。更多
有关详细信息，请参阅协议特定文档。
•COM4是用于连接维修工具的RJ45端口（参见连接控制
152页上的生成器）。端口没有调制解调器信号。
通过向CEX总线添加通信接口
可以扩展处理器单元端口。可用的CEX总线接口数量
如156页表19所示。
COM3端口不适用于PM891。
通信可能性3节配置
156 3BSE036351-510 A
表19.CEX总线上可用的接口
界面
上的接口数
CEX总线号
端口数
界面
大值
每个
界面
大限度
总计
CEX总线（1）（2）
（1） PM851/PM851A被限制为多一个CEX模块。
CI851（现场总线DP）12 12 1
CI852（基金会现场总线H1）12 1
CI853（RS-232C）12 2
CI854/CI854A
（现场总线DP）
12 2
CI855
（用于MasterBus 300的以太网）
12 2
CI856（S100）12 1
CI857（INSUM）6 1
CI858（驱动总线）2 3
CI860（基金会现场总线HSE）12 1
CI862（三人组）ng Control Builder
The Control Builder is installed in a PC that is normally connected to the AC 800M
Controller via the Control Network and the CN1 or CN2 ports on the controller
(see Figure 53 on page 153).
Alternatively, the Control Builder may be connected via the COM4 port (RS-232C)
on the AC 800M Controller. Use the tool cable TK212 and a serial port on the PC.
In redundant configuration, the Control Builder is connected to the Primary CPU
COM4 port. The Backup CPU cannot communicate with Control Builder.
PM851/PM851A is restricted to one Ethernet (CN1) port, thus redundant
Ethernet is not available.
Control Builder as standard does not support CI862. If CI862 is to be used
suitable system extension must be installed.
To use the FF HI functionality, upgrade the firmware of CI852 unit by using
Serial Firmware Upgrade Tool. The Serial Firmware Upgrade Tool loads the
special firmware with FF HI functionality to the Controller. Manually browse the
folder, ..\FirmwareFiles\SC860rFFHI in the Serial Firmware Upgrade Tool and
select firmware.ext.
Section 3 Configuration Connection to a Control Network
3BSE036351-510 A 153
Connection to a Control Network
Control Network is a private IP network domain for both real time data and general
system communication between industrial computers. It is scalable, from a very
small network with a few nodes, to a large network containing a number of
“Network Areas” and many hundreds of nodes.
Figure 53. Example of AC 800M Controllers Connected to a Control Network
I/O
AC 800M
I/O
AC 800M
STP
AC 800M
I/O
Switch
Hub
I/O
AC 800M
I/O
AC 800M
STP
Switch
I/O
AC 800M
I/O
AC 800M
STP
Hub
Within industrial environments, only
use STP cable where full control of
the cabling is available.
Use only
STP inside
areas with
common
grounding
INDUSTRIAL
ENVIRONMENT
NON-INDUSTRIAL
ENVIRONMENT
FO
FO = Fiber Optic link
STP = Shielded Twisted Pair Link
Controllers mounted
in cabinets
Control Builder Operator Station
USE STP EXCEPTIONALLY
USE FO GENERALLY
USE STP GENERALLY
FO or STP FO or STP and observe
maximum
cable length.
Communication Possibilities Section 3 Configuration
154 3BSE036351-510 A
The network can utilize different and mixed link implementations such as Fast
Ethernet and PPP. It provides for full redundancy, in order to achieve high network
availability.
The AC 800M controller is always connected to the Control Network via an STP
(Shielded Twisted Pair) cable. Should the local environment be of an industrial
nature, the AC 800M / Control Network connection must be converted over to a
Fiber Optic (FO) cable. This is achieved by installing an Ethernet Switch having
both optical and electrical ports. See Figure 53 on page 153.
For more information on Control Network, see Control Network documentation.
Communication Possibilities
The processor unit (PM8XX/TP830 or PM891) contains the following
communication ports, offering the following functions:
• CN1 and CN2 are used for connection to the Control Network. Both are RJ45
ports for Ethernet (IEEE802.3) and connection is normally achieved using
category 5 shielded twisted pair cable (STP class 5). However, as mentioned
previously, within industrial environments it is recommended that all STP
cables are converted to optical fiber.
– For single or redundant CPUs and single networks: All CN1 ports are
connected to the network (CN2 can be used, but requires reconfiguration
of the communication set-up for the concerned CPU).
– For single or redundant CPUs and redundant networks: All CN1 ports are
connected to the primary network and all CN2 ports to the secondary
network.
Details on cable selection, switches and so forth, are provided in Appendix C,
Recommended Components.
PM851/PM851A is restricted to one Ethernet (CN1) port, thus redundant
Ethernet is not available.
Section 3 Configuration Communication Possibilities
3BSE036351-510 A 155
• COM3 is an RJ45 port for RS-232C with modem signals. Examples of
protocols are Modbus, Siemens 3964R, COMLI or custom-design. For more
details, see protocol-specific documentation.
• COM4 is an RJ45 port for connection of service tools (see Connecting Control
Builder on page 152). The port has no modem signals.
By adding communication interfaces to the CEX-Bus, the number of protocols and
processor unit ports can be expanded. The available CEX-Bus interface quantities
are shown in Table 19 on page 156.
COM3 port is not available for PM891.
Communication Possibilities Section 3 Configuration
156 3BSE036351-510 A
Table 19. Interfaces Available on the CEX-Bus
Interface
Number of Interfaces on
CEX-Bus Number of
ports per
Interface
Maximum of
each
interface
Maximum
total on
CEX-Bus(1)(2)
(1) PM851/PM851A is restricted to a maximum of one CEX module.
CI851 (PROFIBUS DP) 12 12 1
CI852 (FOUNDATION Fieldbus H1) 12 1
CI853 (RS-232C) 12 2
CI854/CI854A
(PROFIBUS DP)
12 2
CI855
(Ethernet for MasterBus 300)
12 2
CI856 (S100) 12 1
CI857 (INSUM) 6 1
CI858 (DriveBus) 2 3
CI860 (FOUNDATION Fieldbus HSE) 12 1
CI862 (TRIO) 4 1
CI865 (Satt I/O) 4 1
CI867 (Modbus TCP) 12 2
CI868 (IEC 61850) 4 1(3)
CI869 (AF100) 12 2
CI871 (PROFINET IO) 12 2(3)
CI872 (MOD5) 4 8 3
CI873 (EtherNet/IP) 4 12 2(3)
Section 3 Configuration Controller IP Addresses
3BSE036351-510 A 157
For information on available serial protocols for the CI853 interface, see COM3
above.
Controller IP Addresses
Single CPU Configurations
The IP address of the CN1 port on the controller is set using the IPConfig tool (this
tool is installed together with the 800xA system). See IPConfig online help.
If network redundancy is used, make sure that the CN1 port is connected to the
primary network, and the CN2 port is connected to the secondary network. In this
case, you also have to set the IP address for the CN2 port. See IPConfig online help.
Redundant CPU Configurations
In configurations with redundant CPU, the IP address must be set as follows:
1. Switch off the backup CPU (power down).
2. Connect the IPConfig tool to the primary CPU and set the IP address of the
CN1 port on the primary CPU. See IPConfig online help.
(2) The maximum total limit on CEX-Bus is the electrical one, there might be further limitations due
to performance for a particular unit.
(3) Only one port (CH1) is used in the interfaces CI868, CI871 and CI873.
If redundant controllers (PM8XX) are used along with redundant communication
interfaces, it ensures full redundancy and supports the online upgrade of
firmware.
It is recommended to make a practice of always starting an IPConfig session with
a “Restore factory settings” command before assigning the intended IP addresses.
This will erase previously stored alternative MAC and IP addresses if any. See
MAC and IP Address Handling in Redundant Configuration on page 49.
When setting the IP address of the primary CPU in Control Builder, the
backup CPU must be turned off (powered down). Otherwise the backup CPU
will take over and you get disconnected.
At the first power-up, the primary processor is always the one connected to the
RCU Link connector marked “UPPER”.