140EIA92100模块备件

140EIA92100

.使用防静电现场服务真空。除尘
如有必要，从卡上取下。
7.使用接地腕带。将腕带连接到
适当的接地插头。
8.不要使用铅铅笔设置双列直插开关。避
开关触点污染可能导致不必要的电路板故障，请勿使用铅笔设置
双列直插开关。
开箱检查
1.立即检查硬件，以验证其是否已
运输途中损坏。
2.通知近的ABB自动化销售办事处
损坏
3.向处理货物的运输公司提出任何损坏索赔。
4.使用原包装材料和容器储存
硬件
5.将硬件存储在空气质量良好的环境中，
无温度和湿度。
设置和安装
注：有关将IMASI03模块替换为IMASI23模块的信息，请参阅附录C或附录B。
向ASI模块通电前，进行以下检查：
1.检查模块地址设置是否正确。
2.检查模块上的跳线设置是否正确。
3.确保模块安装单元的I/O中的DIP分路
扩展器总线安装正确。
4.检查终端装置上的跳线是否已设置
正确地
5.验证I/O电缆连接。
设置和安装
WBPEEUI240774A0 3-3
6.验证模块安装单元中的模块有足够的逻辑和现场电源。
地址选择开关（S1）
ASI模块必须具有与之通信的地址
控制器。ASI模块可以具有64个
I/O扩展器总线上的地址（地址0至63）。这
地址标识控制器的ASI模块，并且必须是
与控制器配置数据中设置的地址相同
（FCs 215和216，规范S1）。
使用八位地址双列直插开关S1设置地址
（图3-1）。以下六个右开关位置（三到八个）：
S1设置六位地址。一和二位必须保留
正常运行时关闭（设置为零）（图3-2）。
地址以二进制格式设置。表3-1显示了一些
开关S1的地址设置示例。请参阅6节
诊断设置。记录I/O扩展器总线地址
在所提供的空间中的ASI模块。
图3-1.模块布局
P1
P3
P2
M O D U L E S TAT U S
发光二极管
S1地址
转换
边缘
连接器
模拟输入
在IO N JU M P E R的C O N F IG U R
BLO CKS，J1-J16
U29 S 1
J1、J2、J3、J4、J5、J6、J7、J8、J9、J10、J11、J12、J13、J14、J15
J16
T01063C
3-4 WBPEEUI240774A0
设置和安装
配置输入
通过在FCs中设置规范来配置ASI模块
215和216，并将输入跳线设置为on
ASI模块和终端单元两者。提到
有关配置和校准的更多信息，请参见4节。
ASI模块上的每个输入都有一个跳线块。跳伞者
块有不同的配置方式：毫伏、热电偶、RTD、电压和电流。跳线块J1匹配
通道1，跳线块J5与通道5，跳线匹配
块J16匹配信道16等。每个信道可以独立配置。ASI模块可以有任何编号
配置为电阻、低电平电压或高电平的输入
电平电压。
图3-2.S1开关
表3-1地址开关设置示例（S1）
住址
实例
开关位置1,2
（二进制值）
3.
(32)
4.
(16)
5.
(8)
6.
(4)
7.
(2)
8.
(1)
08 0 0 1 0 0 0
32 1 0 0 0 0 0
63 1 1 1 1 1 1
用户设置
笔记：
1.开关位置1和2必须闭合。
2.0=关闭或打开，1=打开或关闭。
1 2 3 4 5 6 7 8
打开
必须
雷姆
关闭
输入/输出
地址
MSB LSB
N OT E:OP E N PO状态=逻辑1 T01800A
设置和安装
WBPEEUI240774A0 3-5
跳线块配置参见图3-3。
终端单元配置
NTAI06终端单元将现场设备接线连接到：
交响乐系统。接线板位于
终端单元。设置终端单元以接受
发送至IMASI23模块的模拟现场输入。提到
终端设备信息见附录A。
物理安装
注：本节提供了模拟的物理安装数据
仅输入模块。对于完整的电缆和终端模块信息，
参见附录A。
IMASI23模块占用标准模块中的一个插槽
安装单元（MMU）。要安装模块：
1.验证模块的插槽位置。
2.验证输入/输出扩展器总线插座中是否存在双极分流
模拟输入模块和之间的MMU背板
控制器。
3.从终端连接电缆的带帽端
单元至MMU背板。为此，请插入接头
在与分配给的插槽相同的插槽中插入背板插槽
模拟输入模块。插销应牢固地卡扣
就位。
图3-3六引脚跳线块配置
mV/TC V/mA电阻式温度检测器
T04355A
警告
在MMU上安装双列直插分流器之前，断开电源
背板。未能做到

140EIA92100

140EIA92100

. Use an Antistatic Field Service Vacuum. Remove dust
from the cards if necessary.
7. Use a Grounded Wrist Strap. Connect the wrist strap to
the appropriate grounding plug.
8. Do Not Use Lead Pencils to Set Dipswitches. To avoid
contamination of switch contacts that can result in unnecessary circuit board malfunction, do not use a lead pencil to set a
dipswitch.
Unpacking and Inspection
1. Examine the hardware immediately to verify it has not been
damaged in transit.
2. Notify the nearest ABB Automation sales office of any such
damage.
3. File a claim for any damage with the transportation company that handled the shipment.
4. Use the original packing material and container to store the
hardware.
5. Store the hardware in an environment of good air quality,
free from temperature and moisture extremes.
Setup and Installation
NOTE: Refer to Appendix C for information about replacing an IMASI03 module or Appendix B for an IMASI13 with an IMASI23 module.
Before applying power to the ASI module, make these checks:
1. Check that the module address is set correctly.
2. Check that the jumpers on the module are set correctly.
3. Be sure the dipshunts in the module mounting unit's I/O
expander bus are installed correctly.
4. Check that the jumpers on the termination units are set
correctly.
5. Verify I/O cabling connections.
Setup and Installation
WBPEEUI240774A0 3 - 3
6. Verify there is sufficient logic and field power for the modules in the module mounting unit.
Address Selection Switch (S1)
The ASI module must have an address to communicate with
the controller. The ASI module can have any one of 64
addresses (address 0 to 63) on the I/O expander bus. This
address identifies the ASI module to the controller and must be
the same as the address set in the controller configuration data
(FCs 215 and 216, specification S1).
Set the address with the eight position address dipswitch S1
(Fig. 3-1). The six right switch positions (three through eight) of
S1 set the six-bit address. Positions one and two must remain
closed (set to zero) for normal operation (Fig. 3-2).
The address is set in binary format. Table 3-1 shows some
example address settings for switch S1. Refer to Section 6 for
the diagnostic settings. Record the I/O expander bus address
of the ASI module in the space provided.
Figure 3-1. Module Layout
P 1
P 3
P 2
M O D U L E S TAT U S
LEDS
S1 ADDRESS
SWITCH
EDGE
CONNECTORS
ANALOG INPUT
C O N F IG U R AT IO N JU M P E R
BLO CKS, J1-J16
U29 S 1
J1 J2 J3 J4 J5 J6 J7 J8 J9 J10 J11 J12 J13 J14 J15
J16
T01063C
3 - 4 WBPEEUI240774A0
Setup and Installation
Configuring Inputs
Configure the ASI module by setting the specifications in FCs
215 and 216 in the controller and setting the input jumpers on
both the ASI module and the termination unit. Refer to
Section 4 for more information on configuration and calibration.
Each input on the ASI module has a jumper block. The jumper
block has different ways it can be configured: millivolt, thermocouple, RTD, voltage and current. Jumper block J1 matches
channel one, jumper block J5 matches channel five, jumper
block J16 matches channel 16, etc. Each channel can be configured independently. The ASI module can have any number
of inputs configured as resistance, low level voltage, or high
level voltage.
Figure 3-2. S1 Switch
Table 3-1. Sample Address Switch Settings (S1)
Address
Example
Switch Position1,2
(Binary Value)
3
(32)
4
(16)
5
(8)
6
(4)
7
(2)
8
(1)
08 0 0 1 0 0 0
32 1 0 0 0 0 0
63 1 1 1 1 1 1
User setting
NOTES:
1. Switch positions 1 and 2 must be closed.
2. 0 = closed or on, 1 = open or off.
1 2 3 4 5 6 7 8
OPEN
MUST
REM AIN
CLOSED
I/O
ADDRESS
MSB LSB
N OT E: OP E N PO S ITION = LOGIC 1 T01800A
Setup and Installation
WBPEEUI240774A0 3 - 5
Refer to figure 3-3 for the jumper block configurations.
Termination Unit Configuration
An NTAI06 termination unit connects the field device wiring to
the Symphony system. The terminal blocks are located on the
termination unit. Set up the termination unit to accept the
analog field inputs sent to the IMASI23 module. Refer to
Appendix A for the termination unit information.
Physical Installation
NOTE: This section provides data on the physical installation of the analog
input module only. For complete cable and termination module information,
refer to Appendix A.
The IMASI23 module occupies one slot in a standard module
mounting unit (MMU). To install the module:
1. Verify the slot placement of the module.
2. Verify that a dipshunt is in the I/O expander bus socket on
the MMU backplane between the analog input module and
controller.
3. Connect the hooded end of the cable from the termination
unit to the MMU backplane. To do this, insert the connector
into the backplane slot in the same slot as the one assigned to
the analog input module. The latches should snap securely
into place.
Figure 3-3. Six Pin Jumper Block Configurations
mV/TC V/mA RTD
T04355A
WARNING
Disconnect power before installing dipshunts on the MMU
backplane. Failure to do so will result in contact with cabinet
areas that could cause severe or fatal shock.
3 - 6 WBPEEUI240774A0
Wiring Connections and Cabling
4. Align the module with the guide rails in the module mounting unit. Carefully slide the module in until the front panel is
flush with the top and bottom of the MMU frame.
5. Push and turn the two captive latches on the module faceplate one half turn to the latched position. It is latched when
the slots on the latches are vertical and the open ends face the
center of the module. Refer to Figure 3-4.
Wiring Connections and Cabling
The IMASI23 module has three card edge connectors to supply
power (P1), connect I/O expander bus communication (P2),
and provide analog inputs (P3).
Wiring
Install the analog input module in the module mounting unit
to connect the module to the +5 VDC voltages needed to power
the circuits. The module mounting unit also connects P2 to the
I/O expander bus for communication with the controller. P1
and P2 connection require no additional wiring or cabling.
NOTE: A dipshunt on the backplane of the module mounting unit connects the
I/O expander bus between the ASI module and the controller. Locate the module so the bus can connect to them or they will not communicate.
Figure 3-4. Latched and Un-Latched Positions of Captive Latches
FRONT