PA10T-133 PA10T133 工业自动化显示屏 CTC PARKER

型号： PA10T133　分类： foxboro

PA10T133

HIEE405053R1 UN0803B-P V1 UN0803B 模拟量PBC线路板 ABB
计算（菜单EnterWrapGain）
缠绕增益是一个比例因子，对应于腹板张力（T）和
在称重传感器测量中作用的腹板张力的分力（FR）
方向
包裹增益范围为0.5-20。如果尝试将包裹增益设置在此范围之外，则
显示屏上将显示消息“WrapGainTooLow”或“WrapGainTooHigh”。
缠绕增益可以设置为0.01的分辨率。
描述计算缠绕增益原理的示例：
关于已安装的称重传感器，参见附录（B、C、D、E、F、G或H）中的缠绕增益计算
类型
T T
T
T
T T
FR
FR
FR
FR=2T FR=T FR安装，其中FR
低于T
包角包角
缠绕增益=0.50
卷绕增益＝＝0.50
包装增益=
= = 1.00
包装增益=
（缠绕增益的小值）
包装增益=
缠绕增益=>1
（大允许值
包装增益
缠绕增益=1.00
T
FR
T
2T
T
FR
T
T
T
FR
缠绕增益为20）
张力电子PFEA113，用户手册
3.12.6节设置缠绕增益
3BSE029382R0101版本C 3-25
3.12.6.1一卷、两卷和分段卷的包裹增益菜单
按照以下顺序描述设置缠绕增益：
1.一卷。增益调度“否”
2.一卷。增益调度“是”
3.两卷。增益调度“否”
4.两卷。增益调度“是”
5.分段卷。增益调度“否”
6.分段卷。增益调度“是”
图3-14.设置一卷的缠绕增益
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
设置悬挂重量
XXXXXX。xn
EnterWrapGain
二十、 XX
悬重
[XXXXXX.X]N
EnterWrapGain
[XX.XX]
1.设置缠绕增益：一卷。增益调度“否”。
到
AO 1
EnterWrapGain enterwrappgain 1
XXXXXX。xn
EnterWrapGain 2
二十、 XX
EnterWrapGain 1
[XXXXXX.X]N
EnterWrapGain 2
[XX.XX]
到
AO 1
吊锤吊锤1
XXXXXX。xn
吊重2
二十、 XX
吊重1
[XXXXXX.X]N
吊重2
[XX.XX]
2.设置缠绕增益：一卷。增益调度“是”。
SetWrapGain
张力电子PFEA113，用户手册
三章调试
3-26 3 BSE029382R0101版本C
图3-15.设置两辊的缠绕增益
SetWrapGain
1卷
悬重
XXXXXX。xn
悬重
XXXXXX。xn
悬重
[XXXXXX.X]N
悬重
[XXXXXX.X]N
SetWrapGain
二卷
悬重
SetWrapGain
SetWrapGain
1卷
EnterWrapGain
二十、 XX
EnterWrapGain
二十、 XX
EnterWrapGain
[XX.XX]
EnterWrapGain
[XX.XX]
SetWrapGain
二卷
EnterWrapGain
到
AO 1
3.设置缠绕增益：两卷。增益调度“否”。
SetWrapGain
SetWrapGain
1卷
EnterWrapGain 1
二十、 XX
EnterWrapGain 2
二十、 XX
EnterWrapGain 1
[XX.XX]
EnterWrapGain 2
[XX.XX]
EnterWrapGain
到
AO 1
EnterWrapGain
二十、 XX
EnterWrapGain
[XX.XX]
SetWrapGain
二卷
SetWrapGain
1卷
吊重1
XXXXXX。xn
吊重2
XXXXXX。xn
吊重1
[XXXXXX.X]N
吊重2
[XXXXXX.X]N
悬重
悬重
XXXXXX。xn
悬重
[XXXXXX.X]N
SetWrapGain
二卷
4.设置缠绕增益：两卷。增益调度（仅1卷）“是”
张力电子PFEA113，用户手册
3.12.6节设置缠绕增益
3BSE029382R0101版本C 3-27
图3-16.设置分段辊的缠绕增益
设置悬挂重量
XXXXXX。xn
EnterWrapGain
二十、 XX
悬重
[XXXXXX.X]N
EnterWrapGain
[XX.XX]
5.设置缠绕增益：分段卷。增益调度“否”。
到
AO 1
SetWrapGain
EnterWrapGain enterwrappgain 1
二十、 XX
EnterWrapGain 2
二十、 XX
EnterWrapGain 1
[XX.XX]
EnterWrapGain 2
[XX.XX]
到
AO 1
吊锤吊锤1
XXXXXX。xn
吊重2
XXXXXX。xn
吊重1
[XXXXXX.X]N
吊重2
[XXXXXX.X]N
6.设置缠绕增益：分段卷。增益调度“是”。
张力电子PFEA113，用户手册
三章调试
3-28 3 BSE029382R0101版本C
3.12.7设置模拟输出（AO1-AO6）
图3-17模拟输出菜单（AO1-6）
在菜单中选择U I或OFF，使用上下键选择：
•关闭
•U（电压）
•I（电流）或
•仅限PROFIBUS
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
至AO2
AO 1
过滤器设置
[ZZ]
高压
[XXXXXX.X]N
高产量
[XX.XX]V
低输出
[XX.XX]V
低张力
[XXXXXX.X]N
低限
[XX.XX]V
上限
[XX.XX]V
过滤器设置
ZZ
高压
XXXXXX。xn
高产量
XX。XX V
低输出
XX。XX V
低张力
XXXXXX。xn
低限
XX。XX V
上限
XX。XX V
选择U、I或OFF
[ZZ]
连接信号
[ZZ]
选择U、I或OFF
ZZ
连接信号
ZZ
如果不是“关闭”
1.
1.
1.
1.
电压为1V，电流为mA
张力电子PFEA113，用户手册
3.12.7节设置模拟输出（AO1-AO6）
3BSE029382R0101版本C 3-29
可以在中选择以下选项：
1.菜单系统定义
–OneRoll
–两卷
-分段滚压
2.菜单对象类型
–Roll1（标准ROLL、单侧A或单侧B
–辊2（标准辊、单面C或单面
-分段滚动（单输入、双输入、三输入、四输入）
根据在SystemDefinition和ObjectType中选择的内容，如下所示
替代品
HIEE405053R1 UN0803B-P V1 UN0803B 模拟量PBC线路板 ABB
PA10T-133 PA10T133 工业自动化显示屏 CTC PARKER

HIEE405053R1 UN0803B-P V1 UN0803B 模拟量PBC线路板 ABB
calculation (Menu EnterWrapGain)
Wrap Gain is a scaling factor which corresponds to the ratio between Web Tension (T) and
the force component (FR) from web tension that is acting in the load cell measuring
direction.
The Wrap Gain range is 0.5 - 20. If you try to set the wrap gain outside this range, the
message “WrapGainTooLow” or “WrapGainTooHigh” will be shown on the display.
The wrap gain can be set with a resolution of 0.01.
Examples describing the principle of calculating Wrap Gain:
See calculation of Wrap Gain in Appendix (B, C, D, E, F, G or H) for installed load cell
type.
T T
T
T
T T
FR
FR
FR
FR = 2T FR = T FR < T
Installations where FR
is lower than T
Wrap angle Wrap angle
Wrap gain = 0.50
Wrap gain = = 0.50
Wrap gain =
= = 1.00
Wrap gain =
(Min. value of Wrap Gain)
Wrap gain =
Wrap gain = > 1
(Max. permitted value
Wrap gain
Wrap gain = 1.00
T
FR
T
2T
T
FR
T
T
T
FR
of Wrap Gain is 20)
Tension Electronics PFEA113, User Manual
Section 3.12.6 Set Wrap Gain
3BSE029382R0101 Rev C 3-25
3.12.6.1 Wrap Gain Menus for One Roll, Two Rolls and Segmented Roll
Setting Wrap Gain is described in the following order:
1. One roll. Gain scheduling “No”
2. One roll. Gain scheduling “Yes”
3. Two rolls. Gain scheduling “No”
4. Two rolls. Gain scheduling “Yes”
5. Segmented roll. Gain scheduling “No”
6. Segmented roll. Gain scheduling “Yes”
Figure 3-14. Setting Wrap Gain for One Roll
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
SetWrapGain HangWeight
XXXXXX.X N
EnterWrapGain
XX.XX
HangWeight
[XXXXXX.X] N
EnterWrapGain
[XX.XX]
1. Setting Wrap Gain: One Roll. Gain Scheduling “No”.
To
AO 1
EnterWrapGain EnterWrapGain 1
XXXXXX.X N
EnterWrapGain 2
XX.XX
EnterWrapGain 1
[XXXXXX.X] N
EnterWrapGain 2
[XX.XX]
To
AO 1
HangWeight HangWeight 1
XXXXXX.X N
HangWeight 2
XX.XX
HangWeight 1
[XXXXXX.X] N
HangWeight 2
[XX.XX]
2. Setting Wrap Gain: One Roll. Gain Scheduling “Yes”.
SetWrapGain
Tension Electronics PFEA113, User Manual
Chapter 3 Commissioning
3-26 3BSE029382R0101 Rev C
Figure 3-15. Setting Wrap Gain for Two Rolls
SetWrapGain
Roll 1
HangWeight
XXXXXX.X N
HangWeight
XXXXXX.X N
HangWeight
[XXXXXX.X] N
HangWeight
[XXXXXX.X] N
SetWrapGain
Roll 2
HangWeight
SetWrapGain
SetWrapGain
Roll 1
EnterWrapGain
XX.XX
EnterWrapGain
XX.XX
EnterWrapGain
[XX.XX]
EnterWrapGain
[XX.XX]
SetWrapGain
Roll 2
EnterWrapGain
To
AO 1
3. Setting Wrap Gain: Two Rolls. Gain Scheduling “No”.
SetWrapGain
SetWrapGain
Roll 1
EnterWrapGain 1
XX.XX
EnterWrapGain 2
XX.XX
EnterWrapGain 1
[XX.XX]
EnterWrapGain 2
[XX.XX]
EnterWrapGain
To
AO 1
EnterWrapGain
XX.XX
EnterWrapGain
[XX.XX]
SetWrapGain
Roll 2
SetWrapGain
Roll 1
HangWeight 1
XXXXXX.X N
HangWeight 2
XXXXXX.X N
HangWeight 1
[XXXXXX.X] N
HangWeight 2
[XXXXXX.X] N
HangWeight
HangWeight
XXXXXX.X N
HangWeight
[XXXXXX.X] N
SetWrapGain
Roll 2
4. Setting Wrap Gain: Two Rolls. Gain Scheduling (only Roll 1) “Yes”
Tension Electronics PFEA113, User Manual
Section 3.12.6 Set Wrap Gain
3BSE029382R0101 Rev C 3-27
Figure 3-16. Setting Wrap Gain for Segmented Roll
SetWrapGain HangWeight
XXXXXX.X N
EnterWrapGain
XX.XX
HangWeight
[XXXXXX.X] N
EnterWrapGain
[XX.XX]
5. Setting Wrap Gain: Segmented Roll. Gain Scheduling “No”.
To
AO 1
SetWrapGain
EnterWrapGain EnterWrapGain 1
XX.XX
EnterWrapGain 2
XX.XX
EnterWrapGain 1
[XX.XX]
EnterWrapGain 2
[XX.XX]
To
AO 1
HangWeight HangWeight 1
XXXXXX.X N
HangWeight 2
XXXXXX.X N
HangWeight 1
[XXXXXX.X] N
HangWeight 2
[XXXXXX.X] N
6. Setting Wrap Gain: Segmented Roll. Gain Scheduling “Yes”.
Tension Electronics PFEA113, User Manual
Chapter 3 Commissioning
3-28 3BSE029382R0101 Rev C
3.12.7 Setting Analog Outputs (AO1-AO6)
Figure 3-17. Menus for Analog Outputs (AO1-6)
In menu Choose U I or OFF, use up and down keys to select:
• Off
• U (voltage)
• I (current) or
• PROFIBUS only
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
To AO 2
AO 1
FilterSettings
[ZZ]
HighTension
[XXXXXX.X] N
HighOutput
[XX.XX] V
LowOutput
[XX.XX] V
LowTension
[XXXXXX.X] N
LowLimit
[XX.XX] V
HighLimit
[XX.XX] V
FilterSettings
ZZ
HighTension
XXXXXX.X N
HighOutput
XX.XX V
LowOutput
XX.XX V
LowTension
XXXXXX.X N
LowLimit
XX.XX V
HighLimit
XX.XX V
Choose U I or OFF
[ZZ]
ConnectSignals
[ZZ]
Choose U I or OFF
ZZ
ConnectSignals
ZZ
If not “Off”
1
1
1
1
1 V for voltage or mA for current is shown
Tension Electronics PFEA113, User Manual
Section 3.12.7 Setting Analog Outputs (AO1-AO6)
3BSE029382R0101 Rev C 3-29
The following can be selected in:
1. Menu SystemDefinition
– OneRoll
– TwoRolls
– SegmentedRoll
2. Menu ObjectType
– Roll1 (StandardRoll, SingleSideA or SingleSideB
– Roll2 (StandardRoll, SingleSideC or SingleSideD
– Segmented roll (OneInput, TwoInputs, ThreeInputs, FourInputs)
Based on what has been selected in SystemDefinition and ObjectType, the following
alternatives of “ConnectSignals” can be used:
System definition Object Type AO1 - AO6 can be connected to ....
One roll Standard roll A, B, A+B, A-B
Single side TensionRoll 1
Two rolls Roll 1: standard roll
Roll 2: standard roll
A, B, A+B, A-B
C, D, C+D, C-D
Roll 1: single side
Roll 2: single side
TensionRoll 1
TensionRoll 2
Roll 1: standard roll
Roll 2: single side
A, B, A+B, A-B
TensionRoll 2
Roll 1: single side
Roll 2: standard roll
TensionRoll 1
C, D, C+D, C-D
Segmented roll One input A
A+AI1
A+AI1+AI2
A-AI2
AI1-AI2
Two inputs A, B
A+B
A-B
A+B+AI1
A+B+AI1+AI2
B-AI2
AI1-AI2
Three inputs A, B, C
A+B+C
A-C
A+B+C+AI1
A+B+C+AI1+AI2
C-AI2
AI1-AI2
Four inputs A, B, C, D
A+B+C+D
A-D
A+B+C+D+AI1
A to D+AI1+AI2 (A+B+C+D+AI1+AI2)
D-AI2
AI1-AI2
Tension Electronics PFEA113, User Manual
Chapter 3 Commissioning
3-30 3BSE029382R0101 Rev C
The following parameters can be set:
• Filter settings
See Table 3-2.
• High Tension (N, kN, kg, lbs, N/m, kN/m, kg/m, pli), (factory default = 2000 N)
• High Output, (factory default = +10 V or 20 mA)
• Low Tension (N, kN, kg, lbs, N/m, kN/m, kg/m, pli), (factory default = 0 N)
• Low Output, (factory default = 0 V or 4 mA)
• High Limit, (factory default = +11 V or 21 mA)
• Low Limit, (factory default = -5 V or 0 mA)
Figure 3-18. Parameter Definitions
Filtering may be used if the voltage or current output signal is too fast or if roll imbalance needs
to be compensated.
The filters are of type linear phase, maximum flat, 20 dB/decade.
Table 3-2. Filter settings
Step Response time 0 - 90% Cut-off frequency –3dB
15 ms 35 Hz
30 ms 15 Hz
75 ms 5 Hz
250 ms 1.5 Hz
750 ms 0.5 Hz
1500 ms 0.25 Hz
Web Tension
N, kN, kg, lbs,
Analog Output 1-6 [V or mA]
High Limit
High Output
Low Output
Low Limit
Low Tension High Tension
N/m, kN/m, kg/m, pli
Tension Electronics PFEA113, User Manual
Section 3.12.8 Setting Digital Outputs (DO1-DO4)
3BSE029382R0101 Rev C 3-31
3.12.8 Setting Digital Outputs (DO1-DO4)
There are four digital outputs, which can be used as:
• Indication outputs for level detectors that can be connected to any of AO1-AO6
• “Status OK” to indicate that the system is running normally
The following parameters can be set for any of the outputs to be used as a level detectors:
1. Connect Signals (AO1 to AO6 can be connected)
2. Define Function by selecting one of the following functions:
– Off (The digital output is not used)
– HiActive
(Level detector: High level detection set to Active)
– LoActive
(Level detector: Low level detection set to Active)
– HiAndLoActive
(Level detector: High And Low level detection set to Active)
– Status
The digital output indicates “Status OK”, when the system is running normally.
States when a digital output is set up for status indication:
When the system is running normally (no warnings or errors)
DO is set to high (state "1").
When a warning or error is detected (level detectors will also affect the status signal),
DO is set to low (state "0").
If the digital output is set to Off or set to Status the parameters in steps 3 and 4 are not shown:
3. Enter level detector value (N, kN, kg, lbs, N/m, kN/m, kg/m, pli) for:
– High level, if HiActive is set
– Low level, if LoActive is set
– High Level and Low level, if HiAndLoActive is set
4. Enter Hysteresis value (N, kN, kg, lbs, N/m, kN/m, kg/m, pli)
If HiAndLoActive is set, the hysteresis value is the same for High level and Low level.
NOTE
Menus for DO1 are described in the following examples. Use menus for
DO2-DO4 in the same way
HIEE405053R1 UN0803B-P V1 UN0803B 模拟量PBC线路板 ABB

PA10T-133 PA10T133 工业自动化显示屏 CTC PARKER

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