ABB Bailey 终端数字基座I/O P-HB-DIO-40010000 PHBDIO40010000
作为I/O扫描仪模块,您可以使用这些处理器来控制/监控
这些
通过ControlNet、DeviceNet和通用远程I/O链路远程定位I/O。
SLC 500处理器是单插槽模块,您可以将其放入
1746 I/O机箱。对于远离处理器的位置的I/O,I/O适配器是
放置在I/O机箱左侧插槽中的单插槽模块。SLC 500
模块化系统提供单独的电源,必须直接安装在
1746 I/O机箱的左端。
1746 I/O机箱设计用于后面板安装,有多种尺寸可供选择
属于
4、7、10或13个模块插槽。1746 I/O模块的密度高达
一
每个模块多32个通道。
出版物1747-SG001D-EN-P-2009年1月
6.
通讯
评估需要进行哪些沟通。了解您的通信
需求将帮助您确定哪个处理器和哪些通信
应用程序可能需要的设备。
SLC处理器通过1746背板与1746 I/O模块通信
在里面
处理器所在的同一机箱。SLC的各种模型
处理器
具有用于与其他处理器通信的各种板载端口,或
计算机。
此外,单独的模块可用于提供额外的通信端口
与其他处理器、计算机和远程I/O通信。
每个处理器都有一个或两个内置端口,用于以太网/IP、DH+、DH-485或
RS-232(DF1、ASCII或DH-485协议)通信。
除了SLC处理器可用的板载端口之外,您还有
选项
通过添加
通信模块。
用于1746 I/O的适配器模块可用于ControlNet和通用远程I/O
链接。带有I/O模块的机箱中的I/O适配器模块与I/O接口
模块
通过I/O链路与另一个处理器的扫描仪端口进行通信
地方
出版物1747-SG001D-EN-P-2009年1月
7.
SLC 500普通型
规格
描述
温度
湿度
振动
规格
以下规范适用于所有SLC 500模块化组件,除非:
注意。
工作温度:0…60°C(32…140°F)
储存:-40…85°C(-40…185°F)
5…95%无冷凝
工作频率:5…2000 Hz时1.0 g
不工作:在5…2000 Hz下2.5 g
操作:30 g(3个脉冲,11 ms)-除继电器触点外的所有模块
冲击操作:10 g(3个脉冲,11 ms)-用于继电器触点模块1746 OWx和1746 IOx组合
非工作:50 g,3个脉冲,11 ms
自由下落(跌落试验)
便携式,2.268千克(5磅)或以下,0.762米(30英寸),六滴
便携式,2.268千克(5磅)或以下,0.1016米(4英寸),三个平滴
介电耐受:1500V交流(行业标准-UL 508,CSA C22.2142号)
安全
通信电路之间的隔离:500V dc
背板和I/O之间的隔离:1500V ac
易燃性和电点火:UL94V-0
UL列出的I类2类A、B、C、D组危险场所的工业控制设备
C-UL列出的I类2类A、B、C、D组危险场所的工业控制设备
CE、欧盟89/336/EEC EMC指令,符合:
EN50082-2工业免疫
EN50081-2工业排放
证明✶或
(当产品或包装有标记时)EN61000-6-2工业免疫性
EN61000-6-4工业排放
欧盟73/23/EEC LVD指令,符合以下安全相关部分:
EN61131-2可编程控制器
C-Tick,澳大利亚无线电通信法,符合:
AS/NZS 2064工业排放
✶ 请参阅产品认证链接:http://ab.com符合性声明、证书和其他认证详情。
SLC 500系统
选择清单
使用以下清单作为完成您自己系统的指南
规格步
1.选择输入/输出模块
考虑使用接口模块或预接线1492电缆
使用电子表格记录您的选择
2.选择通信模块/设备
确定您的网络通信要求并选择
必要的通信模块/设备
包括适当的通信电缆
在系统电子表格中记录您的模块/设备选择
3.选择SLC 500处理器
根据内存、I/O、性能和编程选择处理器
要求和通信选项
4.选择SLC 500机箱
确定所需机箱和任何互连电缆的数量
基于系统的物理配置
5.选择SLC 500电源
使用电源负载工作表确保有足够的电源:
你的系统
选择电源时,考虑未来的系统扩展
6.选择编程软件
为以下项目选择合适的RSLogix 500编程软件包:
你的申请
78页
64页
68页
8页 ABB Bailey 终端数字基座I/O P-HB-DIO-40010000 PHBDIO40010000
 ABB Bailey 终端数字基座I/O P-HB-DIO-40010000 PHBDIO40010000
g an I/O scanner module, you can use these processors to control/monitor
these
remotely located I/O across ControlNet, DeviceNet, and Universal Remote I/O links.
SLC 500 processors are single-slot modules that you place into the left-most slot of a
1746 I/O chassis. For I/O in a location remote from the processor, the I/O adapter is
a single-slot module that you place in the left-most slot of the I/O chassis. SLC 500
modular systems provide separate power supplies which must be mounted directly on
the left end of the 1746 I/O chassis.
The 1746 I/O chassis are designed for back-panel mounting and available in sizes
of
4, 7, 10, or 13 module slots. The 1746 I/O modules are available in densities up to
a
maximum of 32 channels per module.
Publication 1747-SG001D-EN-P — January 2009
6
Communications
Evaluate what communications need to occur. Knowing your communications
requirements will help you determine which processor and which communications
devices your application might require.
An SLC processor communicates across the 1746 backplane to 1746 I/O modules
in
the same chassis in which the processor resides. Various models of SLC
processors
have various on-board ports for communication with other processors or
computers.
Also, separate modules are available to provide additional communication ports for
communication with other processors, computers, and remotely located I/O.
Each processor has one or two built-in ports for either EtherNet/IP, DH+, DH-485, or
RS-232 (DF1, ASCII, or DH-485 protocol) communication.
In addition to the on-board ports available with SLC processors, you have the
option
of providing another communication port for an SLC processor by adding a
communication module.
Adapter modules for 1746 I/O are available for ControlNet and Universal Remote I/O
links. An I/O adapter module in a chassis with I/O modules interfaces the I/O
modules
with the I/O link for communication with a scanner port for a processor at another
location.
Publication 1747-SG001D-EN-P — January 2009
7
SLC 500 Common
Specifications
Description
Temperature
Humidity
Vibration
Specification
The following specifications apply to all SLC 500 modular components unless
noted.
Operating: 0…60 °C (32…140 °F)
Storage: -40…85 °C (-40…185 °F)
5…95% without condensation
Operating: 1.0 g at 5…2000 Hz
Non-operating: 2.5 g at 5…2000 Hz
Operating: 30 g (3 pulses, 11 ms) - for all modules except relay contact
Shock Operating: 10 g (3 pulses, 11 ms) - for relay contact modules 1746-OWx and 1746-IOx combo
Non-operating: 50 g, 3 pulses, 11 ms
Free fall (drop test)
Portable, 2.268 kg (5 lb) or less at 0.762 m (30 in.), six drops
Portable, 2.268 kg (5 lb) or less at 0.1016 m (4 in.), three flat drops
Dielectric Withstand: 1500V ac (Industry Standard - UL 508, CSA C22.2 No. 142)
Safety
Isolation between Communication Circuits: 500V dc
Isolation between Backplane and I/O: 1500V ac
Flammability and Electrical Ignition: UL94V-0
UL Listed Industrial Control Equipment for Class I, Division 2, Groups A, B, C, D Hazardous Locations
C-UL Listed Industrial Control Equipment for Class I, Division 2, Groups A, B, C, D Hazardous Locations
CE, European Union 89/336/EEC EMC Directive, compliant with:
EN50082-2 Industrial Immunity
EN50081-2 Industrial Emissions
Certification✶or
(when product or packaging is marked) EN61000-6-2 Industrial Immunity
EN61000-6-4 Industrial Emissions
European Union 73/23/EEC LVD Directive, compliant with safety-related portions of:
EN61131-2 Programmable Controllers
C-Tick, Australian Radio Communications Act, compliant with:
AS/NZS 2064 Industrial Emissions
✶ See the Product Certification link at http://ab.com for Declarations of Conformity, Certificates, and other certification details.
SLC 500 System
Selection Checklist
Use the following Checklist as a guide to completing your own system
specification. Step
1 Select I/O Modules
consider using an interface module or pre-wired 1492 cables
use a spreadsheet to record your selections
2 Select Communication Modules/Devices
determine your network communication requirements and select the
necessary communication modules/devices
include appropriate communication cables
record your module/device selections on the system spreadsheet
3 Select an SLC 500 Processor
choose a processor based on memory, I/O, performance, programming
requirements, and communication options
4 Select an SLC 500 Chassis
determine the number of chassis and any interconnect cables required
based on the physical configuration of your system
5 Select an SLC 500 Power Supply
use the power supply loading worksheet to ensure sufficient power for
your system
consider future system expansion when selecting a power supply
6 Select Programming Software
select the appropriate package of RSLogix 500 Programming Software for
your application
page 78
page 64
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