AS-BDAP-250模块备件

要获得冗余电源，请将外部连接器连接到
SS82x投票设备。有关SS82x连接的详细信息，请参阅安装
136页上的SS823/SS832表决单元。另请参见外部供电
资料来源：176页。
在AC 800M高完整性控制器中，要求外部电源：
BC810的输入端已连接，且电源已严格配置
根据图33或图34，也不允许：
例如，通过单个断路器更改配置
模块之间。
2节CEX总线互连单元BC810/TP857的安装
3BSE036351-510 A 99
位于主或单个控制器CPU旁边的BC810的热插拔，
否则称为“直接BC810”，可能危及整个控制器和
除非CEX总线上的每个模块都处于非工作状态，否则不应执行。注：在AC 800M HI控制器中，这是无条件的
故意导致控制器关闭。
BC810的热插拔不位于主或单个控制器CPU旁边，
否则称为“间接BC810”，将关闭任何非冗余接口
位于CEX总线段上，除非：
接口已经处于非操作状态，或者其功能对于
控制器。
安装CEX总线互连单元BC810/TP8572节安装
100 3BSE036351-510 A
图31.冗余通信接口单元和控制器
BC810 PM861A/PM864A/PM865/PM866
PM861A/PM864A/PM865/PM866
TK851
电缆
（1） 仅适用于高完整性系统，且仅与PM865一起使用
SM810/SM811（1）
SM810/SM811 BC810（1）
2节CEX总线互连单元BC810/TP857的安装
3BSE036351-510 A 101
图32.冗余通信接口单元和单个控制器
SM810/SM811（1）BC810 PM861A/PM864A/PM865/PM866
SM810（1）BC810
RCU链路
缆绳
CI854A
CI854A
（1） 仅适用于高完整性系统，且仅与PM865一起使用
安装CEX总线互连单元BC810/TP8572节安装
102 3BSE036351-510 A
图33.连接到同一PM864/BC810段的电源，请参见
安装97页的CEX总线互连单元BC810/TP857和电源
173页供应系统。
CEX总线单元
SD8xx/SS8xx
BC810 CPU
CEX总线单元BC810 CPU
2节CEX总线互连单元BC810/TP857的安装
3BSE036351-510 A 103
图34.连接到不同PM865/BC810段的电源，请参见
安装97页的CEX总线互连单元BC810/TP857和电源
173页供应系统。
CEX总线单元
SD8xx/SS8xx
BC810 CPU
CEX总线单元BC810 CPU
SD8xx/SS8xx
SM810/SM811
SM810/
SM811
安装SM810/TP8552节安装
104 3BSE036351-510 A
安装SM810/TP855
SM810直接安装在处理器单元基板上的CEX总线上，或
至CEX总线互连单元BC810。通信接口为：
然后安装到SM810上的CEX总线。参见100页的图31和
配置示例参见101页的图32。
数字I/O连接
SM810有一个带有两个数字输入和三个数字输出的连接器，可以：
用于与高完整性相关的数字I/O（非进程I/O）。见表10。
输入信号用于系统功能，参见AC 800M高完整性
文档
在冗余配置中
SM810必须连接到公共数字输入开关。
例如，两个SM810的I2必须连接到公共开关。如果
使用单独的源，将源连接到公共交换机，然后
从交换机导出到两个SM810的连接。
表10.SM810数字I/O连接器
引脚名称描述
1上公共I/O电源
2 I1数字输入1（重置所有力）
3 I2数字输入2（访问启用）
4 I3数字输入3
5 O1数字输出1（任何力激活）
6氧气数字输出2（系统报警）
7 ZP通用I/O回路
2节SM810/TP855的安装
3BSE036351-510 A 105
输入信号与SM810的连接
图35.输入信号与冗余SM810的连接。
0V B 0V A
24V A
24V B
I1：重置所有力
I2：访问启用
安装SM810/TP8552节安装
106 3BSE036351-510 A
输出信号与SM810的连接
图36冗余SM810的输出信号连接。
24V B 24V A
O1：任何有效力
O2：系统报警
0V
2节安装和安装SM811/TP868
3BSE036351-510 A 107
安装SM811/TP868
SM811直接安装在处理器单元基板上的CEX总线上，或
至CEX总线互连单元BC810。通信接口为：
然后安装到SM811上的CEX总线。参见100页的图31和
配置示例参见101页的图32。使用封闭电缆
TK852V010用于在冗余情况下连接两个SM811的SM链路
配置
数字I/O连接
SM811有一个带th的接头For obtaining redundant power supply, connect the external connector to the
SS82x voting device. For details of SS82x connections, see Installing the
SS823/SS832 Voting Unit on page 136. See also Powering from an External
Source on page 176.
In AC 800M High Integrity Controllers it is required that the external supply
input of BC810 is connected and that the power supply is strictly configured
either according to Figure 33 or according to Figure 34 and nor is it allowed to
change the configuration by way of for instance individual circuit breakers
between modules.
Section 2 Installation Installing the CEX-Bus Interconnection Unit BC810/TP857
3BSE036351-510 A 99
Hot swap of the BC810 located next to a primary or single controller CPU,
otherwise called “direct BC810”, might jeopardize the whole controller and
should not be performed unless every module on the CEX-Bus are in a nonoperating state. Note: In an AC 800M HI controller this is unconditionally and
intentionally leading to a shutdown of the controller.
Hot swap of the BC810 not located next to a primary or single controller CPU,
otherwise called “indirect BC810”, will shut down any non-redundant interface
located on that CEX-Bus segment and should not be performed unless such
interfaces already are in a non-operating state or their function is dispensable for
the controller.
Installing the CEX-Bus Interconnection Unit BC810/TP857 Section 2 Installation
100 3BSE036351-510 A
Figure 31. Redundant Communication Interface Units and Controllers
BC810 PM861A/PM864A/PM865/PM866
PM861A/PM864A/PM865/PM866
TK851
Cables
(1) Only for High Integrity Systems and only together with PM865
SM810/SM811(1)
SM810/SM811 BC810 (1)
Section 2 Installation Installing the CEX-Bus Interconnection Unit BC810/TP857
3BSE036351-510 A 101
Figure 32. Redundant Communication Interface Units and Single Controller
SM810/SM811(1) BC810 PM861A/PM864A/PM865/PM866
SM810(1) BC810
RCU Link
Cable
CI854A
CI854A
(1) Only for High Integrity Systems and only together with PM865
Installing the CEX-Bus Interconnection Unit BC810/TP857 Section 2 Installation
102 3BSE036351-510 A
Figure 33. The Power Source Connected to the Same PM864/BC810 Segment, see
Installing the CEX-Bus Interconnection Unit BC810/TP857 on page 97 and Power
Supply System on page 173.
CEX-Bus Units
SD8xx/SS8xx
BC810 CPU
CEX-Bus Units BC810 CPU 
Section 2 Installation Installing the CEX-Bus Interconnection Unit BC810/TP857
3BSE036351-510 A 103
Figure 34. The Power Source Connected to a Different PM865/BC810 Segment, see
Installing the CEX-Bus Interconnection Unit BC810/TP857 on page 97 and Power
Supply System on page 173.
CEX-Bus Units
SD8xx/SS8xx
BC810 CPU
CEX-Bus Units BC810 CPU
SD8xx/SS8xx
SM810/SM811
SM810/
SM811
Installing SM810/TP855 Section 2 Installation
104 3BSE036351-510 A
Installing SM810/TP855
The SM810 is mounted directly to the CEX-Bus on the processor unit base plate or
to the CEX-Bus interconnection unit BC810. The communication interfaces are
then mounted to the CEX-Bus on the SM810. See Figure 31 on page 100 and
Figure 32 on page 101 for configuration examples.
Digital I/O Connection
The SM810 has a connector with two digital inputs and three digital outputs that can
be used for High Integrity related digital I/O (not process I/O). See Table 10.
The input signals are used for system function, see AC 800M High Integrity
documentation.
In a redundant configuration, the corresponding digital inputs to both the
SM810’s must be connected to common digital input switches.
For example, the I2’s of both SM810’s must be connected to a common switch. If
separate sources are used, connect the sources to a common switch, and then
derive connections from the switch to both the SM810’s.
Table 10. SM810 Digital I/O Connector
PIN Designation Description
1 UP Common I/O power
2 I1 Digital input 1 (Reset all forces)
3 I2 Digital input 2 (Access enable)
4 I3 Digital input 3
5 O1 Digital output 1 (Any force active)
6 O2 Digital output 2 (System alarm)
7 ZP Common I/O return
Section 2 Installation Installing SM810/TP855
3BSE036351-510 A 105
Connection of Input Signals to SM810
Figure 35. Connection of input signals to redundant SM810.
0V B 0V A
24V A
24V B
I1: Reset all forces
I2: Access enable
Installing SM810/TP855 Section 2 Installation
106 3BSE036351-510 A
Connection of Output Signals to SM810
Figure 36. Connection of output signals from redundant SM810.
24V B 24V A
O1: Any force active
O2: System alarm
0V
Section 2 Installation Installing SM811/TP868
3BSE036351-510 A 107
Installing SM811/TP868
The SM811 is mounted directly to the CEX-Bus on the processor unit base plate or
to the CEX-Bus interconnection unit BC810. The communication interfaces are
then mounted to the CEX-Bus on the SM811. See Figure 31 on page 100 and
Figure 32 on page 101 for configuration examples. Use the enclosed cable
TK852V010 to connect the SM Link of the two SM811s in case of redundant
configuration.
Digital I/O Connection
The SM811 has a connector with three digital inputs and two digital outputs that can
be used for High Integrity related digital I/O (not process I/O). See Table 11.
The Access Enable input (I2) must be connected to a key switch in the operator’s
panel. The Reset all Forces input (I1) and Hot-insert input (I3) must be connected to
impulse type panel if they are used.
The input signals are used for system function, see AC 800M High Integrity
documentation.
In a redundant configuration, the corresponding digital inputs to both the
SM811’s must be connected to common digital input switches.
For example, the I3’s of both SM811’s must be connected to a common switch. If
separate sources are used, connect the sources to a common switch, and then
derive connections from the switch to both the SM811’s