140CPS21400 模拟量Quantum电源模块 24VDC 8A Schneider
如果使用BC810 us,则连接到RCU链路电缆连接器的CPU标记为
“上限”将在控件生成器和运算符中定义为“上限”
火车站标记与CPU的物理位置无关。
任何CPU都可以成为主CPU。对于BC820,通过设置
将TP850切换至“低”或“高”。
如果使用BC810,两个CPU应由同一电源供电(单个或
冗余)。有关冗余电源,请参见148页的图51。
光学模块总线的连接与处理器单元的连接相同
对于S800 I/O中的FCI(169页图60)。
在冗余配置中安装PM85x/PM86x/TP830处理器单元2节
98 3BSE036351-600 A
8.CPU配有内部备用电池。当电池用完时
若要使用,请将其放在内部电池支架中(201页图68)。
当使用外部SB821/SB822电池单元时,安装它们
根据安装SB821外部电池单元中的说明:
151页/安装SB822可充电外部电池单元,页
152
在AC 800M之前,不要将内部备用电池放在电池座中
控制器已正常通电,存储器备份功能已:
已激活,即B(蓄电池)LED闪烁。如果没有正常电源
在电池就位的情况下连接到处理器单元,然后连接到CPU存储器
将立即开始消耗电池功率。
安装结束时,务必安装新的内部或外部电池
阶段由于在运行期间频繁停电,原电池被大量使用
系统安装。
2节安装:以冗余方式安装PM85x/PM86x/TP830处理器单元
3BSE036351-600 A 99
通信端口
与单一配置相同(见90页表5、91页表6和
92页的表7)。
图29.CPU冗余连接
RCU链路电缆
TK851
CEX总线分机。
TK850电缆
在冗余配置中安装PM891处理器单元2节:安装
100 3BSE036351-600 A
冗余安装PM891处理器单元
配置
在冗余配置中,两个PM891单元安装在两个独立的
DIN导轨。如果有足够的空间,可将装置安装在
铁路上的嘈杂声。
使用以下步骤沿DIN导轨安装处理器单元:
1.安装处理器单元。
2.将通信接口安装在CEX总线左侧
处理器单元。如果使用BC810,则段的配置应为
考虑过的。如果不使用BC810,则可以在
以任何优选方式提供两个CPU。
3.轻轻地将单元压在一起,确保CEX总线正确
通过单元上的连接器连接。
4.如果使用BC810,则将TK851电缆连接到两个BC810。如果使用了BC810
不使用时,将CEX总线延长电缆TK850安装到远的单元
远离处理器单元,或者如果没有安装单元,则直接连接到处理器单元上的CEXBus。CEX总线延长电缆必须连接到:
两个CPU,无论是否有任何其他CEX总线单元(图29
99页)。
5.连接RCU数据链路电缆(TK855)和RCU控制链路电缆
(TK856)连接到两个CPU。
RCU数据链路电缆(TK855)和RCU控制链路电缆(DK856)
不得用类似电缆代替。使用其他电缆将禁用
控制构建器和操作员站中CPU的标识。
CPU连接到RCU控制链路电缆(TK856)连接器,标记为
“上限”将在控件生成器和运算符中定义为“上限”
火车站标记与CPU的物理位置无关。
任何CPU都可以成为主CPU。提供电源和网络连接:
a、 将电源线连接到两个CPU的螺钉端子L+和L-,以及
来自SS8xx的电源监控信号发送到螺钉端子SA和SB。
b、 将控制网络电缆连接至CN1(单总线连接),或
CN1+CN2(冗余总线连接)。控制网络是
连接到两个CPU。
c、 使用主电源的电缆TK212将控制生成器连接到COM4
CPU(如果需要更改IP地址等)。否则,连接
控制网络的控制生成器。
7.将光学模块总线连接到处理器单元上的光学触点
(参见36页图2和140页图45)。关于
S800 I/O中提供了光缆选择和电缆长度
文档
8.通过将CPU连接到外部SB822电池提供电池备用
单位。按照安装SB822中的说明进行安装
152页的可充电外部电池单元。
两个CPU应由同一电源供电(单个或冗余)。对于
冗余电源,参见148页图51。
光学模块总线的连接与处理器单元的连接相同
对于S800 I/O中的FCI(169页图60)。 140CPS21400 模拟量Quantum电源模块 24VDC 8A Schneider
 140CPS21400 模拟量Quantum电源模块 24VDC 8A Schneider
If BC810 us used, the CPU connected to the RCU Link Cable connector marked
“UPPER” will be defined as “UPPER” in the Control Builder and Operator
Station. The marking has no relevance to the physical placement of the CPUs.
Any CPU can become the Primary CPU. For BC820 this is handled by setting the
switch on TP850 to either "Lo" or "Up”.
If BC810 is used, both CPUs should be powered from the same supply (single or
redundant). For redundant power supply, see Figure 51 on page 148.
Connection to the optical ModuleBus is identical to that for the processor unit
and for the FCI in S800 I/O (Figure 60 on page 169).
Installing the PM85x/PM86x/TP830 Processor Unit in Redundant Configuration Section 2
98 3BSE036351-600 A
8. The CPUs are supplied with internal back-up batteries. When the batteries are
to be used, place them in the Internal Battery Holder (Figure 68 on page 201).
When the external SB821/SB822 battery units are to be used, install them
according to the instructions in Installing the SB821 External Battery Unit on
page 151 / Installing the SB822 Rechargeable External Battery Unit on page
152.
Do not place the internal back-up battery in the battery holder until the AC 800M
Controller has been powered-up normally and the memory back-up function has
been activated, that is, the B(attery) LED flashes. If no normal power supply is
connected to the processor unit with the battery in place, then the CPU memory
will immediately start to consume battery power.
Always install a fresh internal or external battery at the end of the installation
phase. The original battery is heavily utilized due to frequent blackouts during
system installation.
Section 2 Installation Installing the PM85x/PM86x/TP830 Processor Unit in Redundant
3BSE036351-600 A 99
Communication Ports
Same as for single configuration (see Table 5 on page 90, Table 6 on page 91 and
Table 7 on page 92).
Figure 29. Connection of CPU redundancy
RCU Link cable
TK851
CEX-Bus ext.
cable TK850
Installing the PM891 Processor Unit in Redundant Configuration Section 2 Installation
100 3BSE036351-600 A
Installing the PM891 Processor Unit in Redundant
Configuration
In redundant configuration, two PM891 units are mounted on two separate
DIN-rails. If sufficient space is available, the units can be mounted on the same
DIN-rail.
Use the following procedure to install the processor units along the DIN-rail:
1. Mount the processor units.
2. Mount the communication interfaces on the CEX-Bus to the left of the
processor unit. If BC810 are used, the configuration of the segments should be
considered. If BC810 are not used, the interfaces can be divided between the
two CPUs in any preferred way.
3. Press the units gently together and ensure that the CEX-Bus is correctly
connected, through the connector on the unit.
4. If BC810 are used, connect the TK851 cable to the two BC810. If BC810 are
not used, mount the CEX-Bus extension cable TK850 to the units at farthest
away from the processor units or, if no units are mounted, directly to the CEXBus on the processor unit. The CEX-Bus extension cable must be connected to
both CPUs whether or not there are any other CEX-Bus units (Figure 29 on
page 99).
5. Connect the RCU Data Link Cable (TK855) and the RCU Control Link Cable
(TK856) to both CPUs.
The RCU Data Link Cable (TK855) and the RCU Control Link Cable (TK856)
must not be replaced by similar cables. Using another cable will disable the
identification of the CPUs in the Control Builder and Operator Station.
The CPU connected to the RCU Control Link Cable (TK856) connector marked
“UPPER” will be defined as “UPPER” in the Control Builder and Operator
Station. The marking has no relevance to the physical placement of the CPUs.
Any CPU can become the Primary CPU. Provide connections for power supply and network:
a. Connect the power leads to screw terminals L+ and L- of both CPUs, and
the power supervision signals from SS8xx to screw terminals SA and SB.
b. Connect the Control Network cables to CN1 (single bus connection) or
CN1 + CN2 (redundant bus connection). The Control Network is
connected to both CPUs.
c. Connect the Control Builder to COM4 with cable TK212 of the Primary
CPU (if required for changing an IP address etc.). Otherwise connect the
Control Builder to the Control Network.
7. Connect the optical ModuleBus to the optical contacts on the processor units
(see Figure 2 on page 36 and Figure 45 on page 140). Information regarding
optical cable selection and cable length is provided in the S800 I/O
documentation.
8. Provide battery backup by connecting the CPUs to the external SB822 battery
units. Install them according to the instructions in Installing the SB822
Rechargeable External Battery Unit on page 152.
Both CPUs should be powered from the same supply (single or redundant). For
redundant power supply, see Figure 51 on page 148.
Connection to the optical ModuleBus is identical to that for the processor unit
and for the FCI in S800 I/O (Figure 60 on page 169).
Installing the PM891 | 140CPS21400 模拟量Quantum电源模块 24VDC 8A Schneider | | | |
