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3701/55   Bently  过程变量监测器模块 289761-01

型号:3701/55

联系人:周忆
公司名称:厦门雄霸电子商务有限公司
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289761-01   3701/55   Bently  过程变量监测器模块
289761-01   3701/55   Bently  过程变量监测器模块

3701/55   Bently  过程变量监测器模块  289761-01 3701/55   Bently  过程变量监测器模块  289761-01 3701/55   Bently  过程变量监测器模块  289761-01 3701/55   Bently  过程变量监测器模块  289761-01 3701/55   Bently  过程变量监测器模块  289761-01

模块和程序控制P
应用程序描述输入、输出,
信号调节
的输入模块
模拟信号
5倍,0/4。。。20毫安

3BSE056767R  ABB 用于PROCONTROL站总线的标准接口 CI871K01
带变送器的输入模块:
2010年1月81日
无校正功能
-双线转换器,4。。。20 mA,由模块供电
-4线转换器,0/4。。。20 mA,由模块供电
-4线转换器,0/4。。。20 mA,带外部电源
81EA01-E/R1111年
具有校正功能,但没有未校正的输出
价值(原始价值)
-双线转换器,4。。。20 mA,由模块供电
-4线转换器,0/4。。。20 mA,由模块供电
-4线转换器,0/4。。。20 mA,带外部电源
81EA01-E/R1112年第81季度
具有校正功能和未校正值的输出
(原始值)
-双线转换器,4。。。20 mA,由模块供电
-4线转换器,0/4。。。20 mA,由模块供电
-4线转换器,0/4。。。20 mA,带外部电源
该模块共包含5个功能单元。每个
功能单元可以用于任何类型的输入模式。任何
组合是可能的。分配以及设置
可以使用
配置列表。编程值存储在
EEPROM,以确保在发生故障时不会丢失
电源故障。它们可以随时更改。
每个模拟信号多可分配4个极限值。
在输入模块中,多5个独立的校正或滤波器
可以进行计算。编程由完成
构建功能块。与此相关的条件
申请将被考虑在内。
特征
该模块可以插入任何PROCONTROL工作站
带有外部电源单元。它配备了一个用于PROCONTROL站总线的标准接口。
模块以以下形式发送转换后的输入信号
通过车站总线向PROCONTROL总线发送电报
系统电报在发送前经过检查
标有测试标志。这确保了接收模块可以检查它们是否有无错误传输。
通过站总线接收的电报,例如用于校正计算的电报,由模块检查是否无错误
基于其测试标志的传输。
提供了消除模块功能单元和站总线之间的干扰的措施。
防短路和监控变送器电源
适用于每个功能单元,适用于各种
应用。
内部监控电路或输入的响应
信号监测功能以前方的干扰警报ST(一般干扰)的形式表示
模块的面板。
模拟变送器应用
变送器类型
模块的功能单元可用于
-2线传感器,4。。。20 mA,由输入供电
单元
-4线传感器,0。。。20毫安和4。。。20 mA,带电源
来自输入模块
-4线转换器,0。。。20毫安和4。。。20 mA,带外部
转换器的电源
有关适用的连接类型,请参阅连接图。
有关应用程序特定设置的编程,请参阅
添加到配置列表。
传感器电源
来自输入模块的换能器电源来自相应的电源输出USn是防短路的,
并且在输入模块内部被监控。
在换能器的外部电源的情况下
相关功能单元的电源触点保持空闲。
必须考虑不同参考电势之间的大电势差
外部电源的情况。
不允许在
平行的
模拟信号输入电路和监控
在高精度测量电阻器处,输入电流信号被转换为测量电压,连接到
经由多路复用器的输入仪器放大器,
通过a/D转换器转换为数字12位模拟信号。
输入仪表放大器和A/D转换器
在参考电压的帮助下进行监测。
监控模拟信号内部的合理性
单元监测功能在
违反上限(OG)或下限(UG)。
这些限制可以在配置列表中进行修改。他们的
上限的默认设置为118.75%,上限为-6.25%
下限。
可针对每种情况单独抑制合理性监测
功能单元。为此
需要在配置列表中输入上限和下限。
数字12位信号由正确的符号和
由输入模块作为电报发送到车站总线。
一旦模拟信号监测响应
将发送带有扰动位设置的值电报。
如果输入由于例如故障电路而过载,
相关的功能单元被立即关闭。这个
诊断寄存器中的“处理通道故障”信息,以及
数据电报中设置的干扰位指示
相关功能单元出现故障。每30
秒时,将有新的尝试来重新激活断开连接的功能单元。
校正和滤波计算的应用
当用于模拟信号输入时,模块上提供了以下功能块,用于校正流量和液位测量值,以及过滤测量值
值:
-流量KOR1的校正功能
水/蒸汽测量
-流量修正函数KOR3
可变参考压力气体的测量
-液位测量NIV的校正功能
-非线性滤波器FIL
每个功能单元可以使用一个功能块。
功能块KOR1、KOR3和NIV包含FIL功能。
功能块包括用于指定正确数量和基本计算值以及用于发布的输入
通过
输出。校正值的功能块的输出被分配给相关功能单元的模拟值电报。
为了能够进行校正
功能块必须分配模块输入、信号
从车站总线和固定值。这些定义如下
用户。
该程序称为结构化。结构列表
包括所有信息。此列表存储在
模块的EEPROM。
构建功能块的确切过程是
在功能块描述中描述。
对于结构化,模块的以下极限值具有
应考虑:
-功能块的大数量5
-来自总线的大信号数20
-每个功能单元的大功能块数量
当使用功能块时,各个模块
循环时间增加指定的计算时间
功能块。
计算结构处理所需的循环时间
由模块自动生成并存储在模块注册表中。PDDS可以在那里读取。
校正后的模拟值被发送到PROCONTROL
电报形式的总线系统。
此外,还可以输出未校正的原始值作为电报。
3701/55   Bently  过程变量监测器模块  289761-01
3701/55   Bently  过程变量监测器模块  289761-01
从总线接收的功能块电报可以
受到干扰并携带干扰比特。该模块使用
此电报中用于计算和转发的值
计算值作为具有扰动位的电报。
该模块包含一个m
3701/55   Bently  过程变量监测器模块  289761-01 3701/55   Bently  过程变量监测器模块  289761-01
Module and PROCONTROL P
Application Description Input,Output,
Signal Conditioning
Input Module for
Analog Signals
5-fold,0/4...20 mA
81EU01-E/R3210
Application
The input module is used as a substitute for the following
input modules with transmitters:
81EA01-E/R1010
without correcting function
-2-wire transducer,4...20 mA,with supply from the module
-4-wire transducer,0/4...20 mA,with supply from the module
-4-wire transducer,0/4...20 mA,with external power supply
81EA01-E/R1111
with correcting function and without output of the uncorrected
value(raw value)
-2-wire transducer,4...20 mA,with supply from the module
-4-wire transducer,0/4...20 mA,with supply from the module
-4-wire transducer,0/4...20 mA,with external power supply
81EA01-E/R1112
with correcting function and output of the uncorrected value
(raw value)
-2-wire transducer,4...20 mA,with supply from the module
-4-wire transducer,0/4...20 mA,with supply from the module
-4-wire transducer,0/4...20 mA,with external power supply
The module incorporates a total of 5 function units.Each
function unit may be used for any type of input mode.Any
combination is possible.The allocation as well as the settings
of all the parameters can be programmed easily using the
configuration list.The programmed values are stored in an
EEPROM to ensure that they are not lost in the event of a
power failure.They can be changed any time.
Every analog signal can be assigned up to 4 limit values.
In an input module,up to 5 independent correction or filter
calcuations can be carried out.Programming is done by
structuring function blocks.The conditions relevant to this
application are to be taken into consideration.
Features
The module can be plugged into any PROCONTROL station
with an external power supply unit.It is equipped with a standard interface for the PROCONTROL station bus.
The module sends the converted input signals in the form of
telegrams over the station bus to the PROCONTROL bus
system.The telegrams are checked before they are sent and
marked with test flags.This ensures that the receiving module can check them for error-free transmission.
The telegrams received over the station bus,e.g.for correction calculations,are checked by the module for error-free
transmission based on their test flags.
Provision is made to eliminate interference among the function units of the module and the station bus.
A short-circuit-proof and monitored transmitter power supply
is available for each function unit,suitable for the various
applications.
A response of the internal monitoring circuits or of the input
signal monitoring function is indicated in the form of a disturbance annunciation ST(general disturbance)on the front
panel of the module.
Application with analog transmitters
Types of transmitters
The function units of the module can be used for
-2-wire transducers,4...20 mA,with supply from the input
module
-4-wire transducers,0...20 mA and 4...20 mA,with supply
from the input module
-4-wire transducer,0...20 mA and 4...20 mA,with external
power supply of the transducer
For the applicable type of connection please refer to the connection diagrams.
For programming the application-specific settings please refer
to the configuration list.
Transducer power supply
The transducer power supply from the input module is shortcircuit-proof,coming from the respective supply output USn,
and is monitored inside the input module.
In the case of an external power supply for a transducer,the
supply contact of the function unit concerned remains free.
The maximum potential difference between the different reference potentials has to be taken into consideration in the
case of external power supply.
It is not admissible to connect several USn supply outputs in
parallel.
Analog signal input circuit and monitoring
At a high-accuracy measuring resistor,the input current signal is converted into a measuring voltage,connected to the
input instrument amplifier via a multiplexer and,after that,
converted into a digital 12-bit analog signal by an A/D converter.
The input instrument amplifier and the A/D converter are
monitored with the help of reference voltages.
The analog signals are monitored for plausibility inside the
module.The monitoring function responds as soon as an
upper limit(OG)or a lower limit(UG)is violated.
These limits can be modified in the configuration list.Their
default setting is 118.75%for the upper limit and-6.25%for
the lower limit.
Plausibility monitoring can be suppressed separately for each
function unit.For this purpose,the maximum values for the
upper and lower limits need to be entered into the configuration list.
The digital 12-bit signal is completed by the correct sign and
is sent by the input module as a telegram to the station bus.
As soon as the analog signal monitoring responds,the analog
value telegram will be sent with the disturbance bit set.
If an input is overloaded due to faulty circuitry,for instance,
the function unit concerned is switched off immediately.The
’Process channel fault’message in the diagnosis register and
the disturbance bit set in the data telegram indicate that a
fault has occurred in the function unit concerned.Every 30
seconds,there will be a new attempt to reactivate the disconnected function unit.
Application for correction and filter calculations
When being used for analog signal input,the following function blocks are provided on the module for correcting flowrate and level measurements,and for filtering measured
values:
-Correcting function for flow-rate KOR1
measurement for water/steam
-Correcting function for flow-rate KOR3
measurement for gases with variable reference pressure
-Correcting function for level measurement NIV
-Non-linear filter FIL
One function block can be used per function unit.
Function blocks KOR1,KOR3 and NIV contain the FIL function.
The function blocks include inputs for specifying the correcting quantity and the basic calculation values,and for issuing
the corrected value and the internal status messages via
outputs.The outputs of the function blocks for corrected values are assigned to the analog-value telegrams of the associated function unit.
In order to be able to carry out the correction,the inputs of
the function blocks must be assigned module inputs,signals
from the station bus,and fixed values.These are defined by
the user.
This procedure is referred to as structuring.The structure list
includes all of the information.This list is stored in the
EEPROM of the module.
The exact procedure of structuring the function blocks is
described in the function block descriptions.
For structuring,the following limit values of the module have
to be considered:
-Max.number of the function blocks 5
-Max.number of the signals from the bus 20
-Max.no.of function blocks per function unit 1
When function blocks are being used,the respective module
cycle time is increased by the specified computation time of
the function block.
The cycle time required for structure processing is calculated
automatically by the module and stored in the module register.It can be read there by the PDDS.
The corrected analog values are sent to the PROCONTROL
bus system in the form of a telegram.
In addition,it is possible to output the uncorrected raw values
as a telegram as well.
Telegrams for the function blocks,received from the bus,may
be disturbed and carrying a disturbance bit.The module uses
the value in this telegram for calculating and forwards the
calculated value as a telegram with a disturbance bit.
The module incorporates a monitoring function for cyclic
renewal of the telegrams to be received from the bus.If a
signal has not been renewed for a certain time(e.g.due to a
failure of the sending module),the receive monitoring function
in the module will repond.This function sets the disturbance
bit in the receive register allocated to the telegram.The module then uses the value transferred last with this telegram for
calculating and forwards the calculated value together with a
disturbance bit.
Application with analog transmitters
Types of transmitters
The function units of the module can be used for
-2-wire transducers,4...20 mA,with supply from the input
module
-4-wire transducers,0...20 mA and 4...20 mA,with supply
from the input module
-4-wire transducer,0...20 mA and 4...20 mA,with external
power supply of the transducer
For the applicable type of connection please refer to the connection diagrams.
For programming the application-specific settings please refer
to the configuration list.
Transducer power supply
The transducer power supply from the input module is shortcircuit-proof,coming from the respective supply output USn,
and is monitored inside the input module.
In the case of an external power supply for a transducer,the
supply contact of the function unit concerned remains free.
The maximum potential difference between the different reference potentials has to be taken into consideration in the
case of external power supply.
It is not admissible to connect several USn supply outputs in
parallel.
Analog signal input circuit and monitoring
At a high-accuracy measuring resistor,the input current signal is converted into a measuring voltage,connected to the
input instrument amplifier via a multiplexer and,after that,
converted into a digital 12-bit analog signal by an A/D converter.
The input instrument amplifier and the A/D converter are
monitored with the help of reference voltages.
The analog signals are monitored for plausibility inside the
module.The monitoring function responds as soon as an
upper limit(OG)or a lower limit(UG)is violated.
These limits can be modified in the configuration list.Their
default setting is 118.75%for the upper limit and-6.25%for
the lower limit.
Plausibility monitoring can be suppressed separately for each
function unit.For this purpose,the maximum values for the
upper and lower limits need to be entered into the configuration list.
The digital 12-bit signal is completed by the correct sign and
is sent by the input module as a telegram to the station bus.
As soon as the analog signal monitoring responds,the analog
value telegram will be sent with the disturbance bit set.
If an input is overloaded due to faulty circuitry,for instance,
the function unit concerned is switched off immediately.The
’Process channel fault’message in the diagnosis register and
the disturbance bit set in the data telegram indicate that a
fault has occurred in the function unit concerned.Every 30
seconds,there will be a new attempt to reactivate the disconnected function unit.
Application for correction and filter calculations
When being used for analog signal input,the following function blocks are provided on the module for correcting flowrate and level measurements,and for filtering measured
values:
-Correcting function for flow-rate KOR1
measurement for water/steam
-Correcting function for flow-rate KOR3
measurement for gases with variable reference pressure
-Correcting function for level measurement NIV
-Non-linear filter FIL
One function block can be used per function unit.
Function blocks KOR1,KOR3 and NIV contain the FIL function.
The function blocks include inputs for specifying the correcting quantity and the basic calculation values,and for issuing
the corrected value and the internal status messages via
outputs.The outputs of the function blocks for corrected values are assigned to the analog-value telegrams of the associated function unit.
In order to be able to carry out the correction,the inputs of
the function blocks must be assigned module inputs,signals
from the station bus,and fixed values.These are defined by
the user.
This procedure is referred to as structuring.The structure list
includes all of the information.This list is stored in the
EEPROM of the module.
The exact procedure of structuring the function blocks is
described in the function block descriptions.
For structuring,the following limit values of the module have
to be considered:
-Max.number of the function blocks 5
-Max.number of the signals from the bus 20
-Max.no.of function blocks per function unit 1
When function blocks are being used,the respective module
cycle time is increased by the specified computation time of
the function block.
The cycle time required for structure processing is calculated
automatically by the module and stored in the module register.It can be read there by the PDDS.
The corrected analog values are sent to the PROCONTROL
bus system in the form of a telegram.
In addition,it is possible to output the uncorrected raw values
as a telegram as well.
Telegrams for the function blocks,received from the bus,may
be disturbed and carrying a disturbance bit.The module uses
the value in this telegram for calculating and forwards the
calculated value as a telegram with a disturbance bit.
The module incorporates a monitoring function for cyclic
renewal of the telegrams to be received from the bus.If a
signal has not been renewed for a certain time(e.g.due to a
failure of the sending module),the receive monitoring function
in the module will repond.This function sets the disturbance
bit in the receive register allocated to the telegram.The module then uses the value transferred last with this telegram for
calculating and forwards the calculated value together with a
disturbance bit.

其他相关型号:
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ABB KUC755 ABB UAC318AE HIEE300744R1
ABB CI773F 3BDH000395R0001 ABB UAC326AE HIEE401481R1/UAC326AE01
ABB CI867K01  3BSE043660R1 ABB UAD142A01 3BHE012551 R0001
ABB CI861 3BSE058590R1 ABB UAD149 3BHE014135R0011/UAD149A00-0-11
ABB PFSA140 3BSE006503R1 ABB UAD149A0011 3BHE014135R0011
ABB PM866AK01 ABB UAD154A 3BHE026866R0101
ABB CI871K01 ABB UAD155A0111 3BHE029110R011
ABB 5SDF0860H0003 ABB UAD206A101 3BHE019958R0101/3BHE019959P201
ABB ACU-01B 3HNA024871-001 ABB UBC717BE101 3BHE021887R0101
ABB ABB SPHSS13 ABB UCD208A101 3BHE020018R0101
ABB HIEE200130R0002 ABB UCD224A102 3BHE023681R0102
AMAT 0190-09379 ABB UCD224A103 3BHE023681R0103/3BHE023682P201
BACHMANN MX213 ABB UCD240A101
Bently 289761-01   3701/55 ABB UDD406A 3BHE041465P201
Bently 3500/22M A-B 80026-044-06
EMERSON EMERSON 2350A B&R 3IF661.9
EMERSON CE4006P2 KJ3241X1-BA1 12P2506X062 VIBRO-METER 200-510-070-113200-510-111-034
EMERSON MVME6100 BENTLY 146031-01
EMERSON VE3006 BENTLY 3500/15 127610-01
ENI GHW-12Z ABB DSSR122 48990001-NK
ENTERASYS A2H124-24FX   T8300
ENTERASYS A4H124-24FX   T8231
EPRO MMS3120/022-000   T8193
EPRO PR6424/010-040+CON021   T8191
EPRO PR6423/010-130   T8160
FOXBORO FBM232 p0926gw   T8151B
GALIL DMC-4143   T8110C
GE DS200DCFBG1B   T8110B
GE TPMC815-11   T8100
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