83SR09E 83SR09D-E GJR2366500R1010 控制单元 ABB
连接到一个、两个或
三个张力电子元件PFEA113。
每个PFEA113必须设置为:
•一个输入(称重传感器连接到A)
•两个输入(称重传感器连接到A和B)
•三个输入(连接到A、B和C的称重传感器)或
•四个输入(连接到A、B、C和D的称重传感器)
图3-8.设置分段辊的对象类型
使用上下键从列表中选择对象类型[ZZ]。
•OneInput
•两个输入
•三输入或
•四个输入
分段轧辊比例系数(SRSF)用于补偿总测量张力,以及
当不是所有轧辊都由分段式称重传感器支撑时,给出总张力的估计值
滚动应用程序。有关SRSF的计算,请参考附录A.3.1分段辊秤
因子(SRSF)。
图3-9.连接到一个PFEA113的分段辊
快速安装
网张力
展示菜单
设定标称负载
服务菜单
零集
SetWrapGain
>5秒
AO 1-AO 6
混杂的
四个输入
分段辊(三个或四个称重传感器连接到一个PFEA113)
A B C A B C D
张力电子PFEA113,用户手册
第三章调试
3-20 3 BSE029382R0101版本C
图3-10.三个PFEA113连接到带12个(大)称重传感器的分段辊
连接多个电子设备(两个或三个PFEA113连接在一起)
模拟输入AI1和AI2(见图3-10)用于连接两个或三个PFEA113
电子产品在一起。以下配置示例基于图3-10。
如果选择N/m、kN/m、kg/m或pli作为表示单位,则必须输入总幅宽
所有三个电子设备。
必须在所有三个电子设备中输入相同的缠绕增益值。
如果使用比例因子SRSF,则必须分别计算和设置每个比例因子的SRSF
电子装置,参见附录A.3张力电子装置PFEA113的技术数据。
1.PFEA113(1)和PFEA113(2)上模拟输出(AO)的配置规则
连接到PFEA113(3)上的AI1和AI2:
–选择电压输出,因为AI1和AI2只能连接到电压信号。
–使用可连接信号替代方案,包括要连接到输出的称重传感器信号,见第3.12.7节。
–将过滤器设置设置为5毫秒(短可选择时间)。
–设置高张力(N、kN、kg、lbs、N/m、kN/m、kg/m或pli)和高输出(V)。
2.PFEA113上AI1和AI2的配置规则(3)
-将高张力(N、kN、kg、lbs、N/m、kN/m、kg/m或pli)设为AI1=高张力
PFEA113(1)。
–将AI1的高输入(V)设置为PFEA113(1)的高输出(V)。
-设定AI2的高张力(N、kN、kg、lbs、N/m、kN/m、kg/m或pli)为
PFEA113(2)。
–将AI2的高输入(V)设置为PFEA113(2)的高输出(V)。
3.PFEA113(3)上输出(用于求和)的配置规则
–选择电压输出或电流输出。
–使用ConnectSignals替代方案,包括您想要连接到求和输出的所有信号,见第3.12.7节。
–设置所需的过滤器设置。
笔记如果阶跃响应时间设置为5ms,并且模拟输入(AI1和/或AI2)包含在求和输出中,则滤波器设置将增加到6ms。
分段辊(11个辊段),大数量的称重传感器(12个)连接输出
(电压或
电流输出)
必须使用
电压输出
必须使用
(用于求和)
未使用
未使用
未使用
未使用
张力电子PFEA113,用户手册
第3.12.4节标称荷载
3BSE029382R0101版本C 3-21
3.12.4标称负载
本节介绍了如何为以下各项设置标称负载:
•一卷和分段卷
•两卷
图3-11.标称负载菜单
标称负载从以下列表中选择,并且必须与上的标称负载相同
称重传感器铭牌。称重传感器标称载荷以kN和lbs显示在同一行。
可选择以下标称负载:
表3-1.标称荷载
[kN][lbs]
零点一二二
零点二四五
零点五一一二
一点零二二五
二点零四五零
五点零一一二五
10 2250
20 4500
50 11250
100 22500
200 45000
快速安装
网张力
展示菜单
设定标称负载
服务菜单
零集
SetWrapGain
>5秒
AO 1-AO 6
混杂的
菜单
系统定义
对象类型
做1-做4
AI 1-AI 2
迪
名义负载
ZZ kN,ZZ磅
名义负载
[ZZ kN,ZZ lbs]
设置标称lo
83SR09E 83SR09D-E GJR2366500R1010 控制单元 ABB
83SR09E 83SR09D-E GJR2366500R1010 控制单元 ABB
cells that are connected to one, two or
three Tension Electronics PFEA113.
Each PFEA113 must be set up for:
• one input (load cell connected to A)
• two inputs (load cells connected to A and B)
• three inputs (load cells connected to A, B and C) or
• four inputs (load cells connected to A, B, C and D)
Figure 3-8. Setting Object Types for Segmented Roll
Use up and down keys to select type of object [ZZ] from list.
• OneInput
• TwoInputs
• ThreeInputs or
• FourInputs
Segmented Roll Scale Factor (SRSF) is used to compensate the total measured tension and
present an estimate of total tension when not all rolls are supported by load cells in a segmented
roll application. For calculations of SRSF, refer to. Appendix A.3.1 Segmented Roll Scale
Factor (SRSF).
Figure 3-9. Segmented Roll Connected to One PFEA113
FastSetUp
WebTension
PresentationMenu
SetNominalLoad
ServiceMenu
ZeroSet
SetWrapGain
> 5 s
AO 1 - AO 6
Miscellaneous
Four inputs
Segmented Roll (three or four load cells connected to one PFEA113)
A B C A B C D
Tension Electronics PFEA113, User Manual
Chapter 3 Commissioning
3-20 3BSE029382R0101 Rev C
Figure 3-10. Three PFEA113 Connected to Segmented Roll with 12 (max.) Load Cells
Connecting Multiple Electronics (two or three PFEA113 connected together)
Analog inputs AI1 and AI2, see Figure 3-10, are used for connecting two or three PFEA113
electronics together. The configuration example below is based on Figure 3-10.
If N/m, kN/m, kg/m or pli is chosen as presentation unit, the total web width must be entered in
all three electronics.
The same wrap gain value must be entered in all three electronics.
If the scale factor SRSF is used, the SRSF must be calculated and set separately for each
electronic unit, see also Appendix A.3 Technical Data for Tension Electronics PFEA113.
1. Configuration rules for analog outputs(AO) on PFEA113 (1) and PFEA113 (2) to be
connected to AI1 and AI2 on PFEA113 (3):
– Choose voltage output, since AI1 and AI2 can only be connected to voltage signals.
– Use the ConnectSignals alternative that includes the load cell signals you want to connect to the output, see Section 3.12.7.
– Set the filter settings to 5 ms (the shortest selectable time).
– Set HighTension (N, kN, kg, lbs, N/m, kN/m, kg/m or pli) and HighOutput (V).
2. Configuration rules for the AI1 and AI2 on PFEA113 (3)
– Set HighTension (N, kN, kg, lbs, N/m, kN/m, kg/m or pli) of AI1 = HighTension of
PFEA113 (1).
– Set HighInput (V) of AI1 = HighOutput (V) of PFEA113 (1).
– Set HighTension (N, kN, kg, lbs, N/m, kN/m, kg/m or pli) of AI2 = HighTension of
PFEA113 (2).
– Set HighInput (V) of AI2 = HighOutput (V) of PFEA113 (2).
3. Configuration rules for the output (used for summation) on PFEA113 (3)
– Choose voltage output or current output.
– Use the ConnectSignals alternative that includes all signals you want to connect to the summation output, see Section 3.12.7.
– Set the desired filter settings.
Note! If the Step Response time is set to 5 ms and analog inputs (AI1 and/or AI2) are included in the summation output the filter settings will increase to 6 ms.
Segmented Roll (11 roll segments) with the maximum number of load cells (12) connectede output
(voltage or
current output)
must be used
Voltage output
must be used
(used for summation)
Not used
Not used
Not used
Not used
Tension Electronics PFEA113, User Manual
Section 3.12.4 Nominal Load
3BSE029382R0101 Rev C 3-21
3.12.4 Nominal Load
This section describes how to set nominal load for:
• One roll and Segmented roll
• Two rolls
Figure 3-11. Nominal Load Menus
The nominal load is selected from the list below and must be the same as the nominal load on
the load cell name plate. The load cell nominal load is displayed in kN and lbs on the same row.
The following nominal loads can be selected:
Table 3-1. Nominal Loads
[kN] [lbs]
0.1 22
0.2 45
0.5 112
1.0 225
2.0 450
5.0 1125
10 2250
20 4500
50 11250
100 22500
200 45000
FastSetUp
WebTension
PresentationMenu
SetNominalLoad
ServiceMenu
ZeroSet
SetWrapGain
> 5 s
AO 1 - AO 6
Miscellaneous
Menu
SystemDefinition
ObjectType
DO 1 - DO 4
AI 1 - AI 2
DI
NominalLoad
ZZ kN ZZ lbs
NominalLoad
[ZZ kN ZZ lbs]
Setting nominal lo
83SR09E 83SR09D-E GJR2366500R1010 控制单元 ABB
