140CPU11303C模块备件
背板位置模块编码端子排编码
1 123 456
2 124 356
3 125 346
4 126 345
5 134 256
6 135 246
7 136 245
8 145 236
9 146 235
10 156 234
11 234 156
12 235 146
13 236 145
14 245 136
15 246 135
16 256 134
I/O模块
840使用100 00 11/2004 441
离散I/O真
高/真低
环行
描述
下图说明了离散I/O模块的真高和真低逻辑
电路。
当前下沉描述了I/O硬件的物理实现,其中
当处于真实状态时,从外部负载吸收电流。
当前来源描述了I/O硬件的物理实现,其中
当处于真实状态时,向外部负载提供电流。
L
O
G
我
C
权力
供给
负载
现在的
常见的
输入
功率电流
供给
电流吸收输入/电流源输出
输出
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现在的
输入
L
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G
我
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负载
常见的
电流源输入/电流汇输出
权力
供给
现在的
输出
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I/O模块
442 840使用100 00 11/2004
I/O映射状态字节
概述:此量子I/O映射菜单项允许您分配定义的3x寄存器
I/O映射模块状态可用的表的开始。你可以
输入3x值或值0(表示无选择)。输入的值为:
显示在量子I/O映射顶部的摘要信息中。模块
因此,在8位字节中的背板报告状态(和故障)信息中
表中的字表示两个模块的状态信息。
下图显示了量程报告状态和故障的示例
信息
如果选择使用这些值显示或开发程序,则表/模块
以下示例给出了关系:
输入状态注册(0):300001
退出
F5关闭F9
量子Re
x100 ms模块状态注册:
输出数量:
:1可用:
300001-300002
32
189
参考输出参考说明
I/O模块
840使用100 00 11/2004 443
表/模块
配置
下图显示了表/模块配置。
给定上述示例配置,如果选择300001作为起始地址
并且前两个位置中没有I/O模块,一个
I/O模块状态在二个字(即。,
位置3)。该表将一直填充,直到找到后一个I/O映射模块。
� � � �每个状态/错误字节中报告的位模式取决于模块
类型
输入/输出
A.
输入/输出
B
输入/输出
C
插槽2插槽1
I/O B I/O A
300001
300003
插槽4插槽3
插槽6插槽5
插槽1 23 4 5 6
300002
I/O C
I/O模块
444840使用100 00 2004年11月
18.2模拟输入模块
一瞥
概述本节提供有关量子模拟输入模块的信息。
这是什么
部分
本节包含以下主题:
主题页
模拟输入模块445的I/O配置
140ACI03000输入/输出模拟输入模块461
140ACI04000高密度模拟输入/输出模块464
140ARI03010 I/O RTD输入8通道模块467
140ATI03000输入/输出热电偶输入8通道模块470
140AVI03000输入/输出模拟输入8通道双极模块473
I/O模块
840使用100 00 11/2004 445
模拟输入模块的I/O配置
概述本节提供了有关模拟输入模块配置的信息。这些
模块包括:
140ACI03000
140ACI04000
140ARI03010
140ATI03000
140AVI03000
140ACI03000以下信息与140ACI00000模拟输入的配置有关
瞬间
I/O模块
446 840使用100 00 11/2004
I/O图和
登记
分配
ACI03000八通道单极输入模块需要九个连续输入
(3x)寄存器,分配如下。
寄存器1通道1数据(0…4095=1…5 VDC或4…20
寄存器2
寄存器3
寄存器4
通道2数据(0…4095=1…5 VDC或4…20
通道3数据(0…4095=1…5 VDC或4…20
通道4数据(0…4095=1…5 VDC或4…20
寄存器5通道5数据(0…4095=1…5 VDC或4…20
寄存器6
寄存器7
寄存器8
通道6数据(0…4095=1…5 VDC或4…20
通道7数据(0…4095=1…5 VDC或4…20
通道8数据(0…4095=1…5 VDC或4…20
输入状态字
1234567 8 9 10 11 12 13 14 15 16
1=断线(仅4…20 mA)或通道8上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道7上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道6上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道5上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道4上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道3上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道2上的电压过低(仅1…5 V)
1=断线(仅4…20 mA)或通道1上的电压过低(仅1…5 V)
寄存器9
�:计数在4095停止
�:该模块的欠电压为0.5-0.7 V
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为v配置时Backplane Position Module Coding Terminal Strip Coding
1 123 456
2 124 356
3 125 346
4 126 345
5 134 256
6 135 246
7 136 245
8 145 236
9 146 235
10 156 234
11 234 156
12 235 146
13 236 145
14 245 136
15 246 135
16 256 134
I/O Modules
840 USE 100 00 11/2004 441
Discrete I/O True
High/True Low
Circuit
Descriptions
The following figures illustrate discrete I/O module true high and true low logic
circuits.
Current Sinking describes a physical implementation of the I/O hardware, which
when in the true state, sinks current from the external load.
Current Sourcing describes a physical implementation of the I/O hardware, which
when in the true state, sources current to the external load.
L
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I
C
Power
Supply
Load
Current
Common
Input
Power Current
Supply
Current Sink Input/Current Source Output
Output
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Current
Input
L
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I
C
Load
Common
Current Source Input/Current Sink Output
Power
Supply
Current
Output
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I/O Modules
442 840 USE 100 00 11/2004
I/O Map Status Byte
Overview This Quantum I/O map menu entry allows you to assign the 3x register that defines
the start of a table in which I/O-mapped module status is available. You may either
enter the 3x value, or the value 0 (indicating no choice). The value entered is
displayed in the summary information on the top of the Quantum I/O Map. Modules
in a backplane report status (and fault) information in an 8-bit byte—therefore, one
word of the table conveys the status information for two modules.
The following figure shows an example of the Quantum report status and fault
information.
If you choose to display or develop a program using these values, the table/module
relationship is given in the following example:
Enter status reg( 0): 300001
Tme AS Quit
F5 OFF F9
QUANTUM Re
x100 ms Module Status Reg:
Number of Outputs:
: 1 Available:
300001-300002
32
189
Ref Output Ref Description
I/O Modules
840 USE 100 00 11/2004 443
Table/Module
Configuration
The following figure shows the table/module configuration.
Given the above sample configuration, if you select 300001 as the starting address
of the status table and there are no I/O modules in the first two locations, the first
I/O module status is found in the least significant byte of the second word (i.e.,
position 3). The table fills until the last I/O mapped module is found.
�����The bit pattern reported in each status/error byte is dependent on the module
type.
I/O
A
I/O
B
I/O
C
Slot 2 Slot 1
I/O B I/O A
300001
300003
Slot 4 Slot 3
Slot 6 Slot 5
Slot 1 23 4 5 6
300002
I/O C
I/O Modules
444 840 USE 100 00 11/2004
18.2 Analog Input Modules
At a Glance
Overview This section provides information on Quantum Analog Input Modules.
What’s in this
Section?
This section contains the following topics:
Topic Page
I/O Configuration for Analog Input Modules 445
140ACI03000 I/O Analog In Module 461
140ACI04000 High Density Analog in I/O Module 464
140ARI03010 I/O RTD Input 8 Channel Module 467
140ATI03000 I/O Thermocouple Input 8 Channel Module 470
140AVI03000 I/O Analog IN 8 Channel Bipolar Module 473
I/O Modules
840 USE 100 00 11/2004 445
I/O Configuration for Analog Input Modules
Overview This section provides information on configuration of Analog Input modules. These
modules include:
140ACI03000
140ACI04000
140ARI03010
140ATI03000
140AVI03000
140ACI03000 The following information pertains to configuration of the 140ACI03000 Analog Input
mo
I/O Modules
446 840 USE 100 00 11/2004
I/O Map and
Register
Assignment
The ACI03000 eight-channel unipolar input module requires nine contiguous input
(3x) registers, assigned as follows.
Register 1 Channel 1 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Register 2
Register 3
Register 4
Channel 2 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Channel 3 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Channel 4 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Register 5 Channel 5 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Register 6
Register 7
Register 8
Channel 6 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Channel 7 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Channel 8 data (0 ... 4,095 = 1 ... 5 VDC or 4 ... 20
Input status word
1234567 8 9 10 11 12 13 14 15 16
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 8 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 7 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 6 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 5 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 4 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 3 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 2 (1 ... 5 V only)
1 = Broken Wire (4 ... 20 mA only) or Under Voltage on Channel 1 (1 .. ... 5 V only)
Register 9
�: Count stops at 4095
�: The undervoltage for this module is 0.5 - 0.7 V
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When configured for voltage measurement (no jumper installed between INPUT(+) and I
SENSE terminals), if a broken field wire occurs, readings will be non-zero and not predictable.
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I/O Modules
840 USE 100 00 11/2004 447
I/O Map Status
Byte
The most significant bit in the I/O map status byte is used for the 140ACI03000 Input
module.The following figure shows the MSB register.
Module Zoom
Selections
There are no Module Zoom selections required for this module.
140ACI04000 The following information pertains to the 140ACI04000 Analog Input module.
I/O Map Register
Assignment
This module requires 17 contiguous input (3x) registers which are assigned as
follows:
1 = Broken wire/under voltage on one or more input channels
12345678
MSB
Register 1 Channel 1 data
Register 2
Register 3
Channel 2 data
Channel 3 data
Register 14
Register 15
Register 16
Channel 14 data
Channel 15 data
Channel 16 data
Registers 4 ... 13
I/O Modules
448 840 USE 100 00 11/2004
I/O Map Register
AssignmentsRegister 17
The following figure shows the status warnings for register 17.
I/O Map Status
Byte
I/O map status byte is used as follows:
Modsoft Module
Zoom Selections
Push <Enter> to display and select the channel range.
140ARI03010 The following information pertains to configuration of the 140ARI03010 Analog Input
module.
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1 = Broken wire (4 ... 20 mA only) on channel 13
1 = Broken wire (4 ... 20 mA only) on channel 14
1 = Broken wire (4 ... 20 mA only) on channel 15
1 = Broken wire (4 ... 20 mA only) on channel 16
1234567 8 9 10 11 12 13 14 15 16
1 = Broken wire (4 ... 20 mA only) on channel 8
1 = Broken wire (4 ... 20 mA only) on channel 7
1 = Broken wire (4 ... 20 mA only) on channel 6
1 = Broken wire (4 ... 20 mA only) on channel 5
1 = Broken wire (4 ... 20 mA only) on channel 9
1 = Broken wire (4 ... 20 mA only) on channel 10
1 = Broken wire (4 ... 20 mA only) on channel 11
1 = Broken wire (4 ... 20 mA only) on channel 12
1 = Broken wire (4 ... 20 mA only) on channel 4
1 = Broken wire (4 ... 20 mA only) on channel 3
1 = Broken wire (4 ... 20 mA only) on channel 2
1 = Broken wire (4 ... 20 mA only) on channel 1
�� The broken wire detect is set at 2.0 m
