UC112P/C UC112P/C-06-08-3355 用于控制处理器模块 Technifor
UC112P/C UC112P/C-06-08-3355 用于控制处理器模块 Technifor
高速计数器
该模块提供单个双向计数通道,支持
正交、脉冲/方向或上/下计数器输入。四个车载开路集电器
输出允许模块控制独立于SLC处理器扫描。模块
具有三种操作模式:范围、速率和序列器。
提示:1747-ASB模块与1746-HSCE不兼容
单元
1746-HSCE2多通道高速计数器
多通道高速计数器提供两组±A、±B和±Z输入
信道,允许多两个正交、差分线路驱动器或增量
需要监控的编码器。A和B输入通道也可配置为计数
来自多四个输入设备的单端脉冲输入。
模块支持三种操作模式,提供两个、三个或四个通道
活动模块接受控制的能力增强了系统性能
在其主动计数脉冲时进行调整。可以使用Z/门输入通道
用于存储、保持和重置计数器数据。
高速计数器规格
猫不
输入数
1746-HSCE1746-HSCE2
1套±A、±B、±Z差分或单端2套±A、±B、±Z、2个正交编码器,
输入,5V dc、12V dc或24V dcor 4脉冲差分或单端输入
差分:0…5V直流
单端:±5V直流
5V直流:3.8…5.5V直流
12V直流电:9.4…16.5V直流电
24V直流:16.5…30V直流
范围为50 kHz
速率为32 kHz
定序器50 kHz
16位,±32768
定序器模式:1.8毫秒
范围模式:3.9毫秒
4个集电极开路输出:5、12或24V直流
4.5V直流电时16 mA
10伏直流电时40毫安
30V直流下的125 mA
320毫安
0毫安
在1500V下测试
输入电压范围5V dc:4.2…12V dc
24V直流:10…30V直流
频率
大计数
吞吐量
产出数量
大输出电流
5V时的底板电流(mA)
24V时的底板电流(mA)
隔离电压
250 kHz@X4
500 kHz@X2
所有其他频率为1MHz
4类中的24位,±8388607
1类中的16位,±32768
700μs(典型)
4个输出:5…30V直流电源
电子保护
1A
250毫安
0毫安
在1000V下测试
出版物1747-SG001D-EN-P-2009年1月
28
过程控制
模块
吹塑模组
该模块具有四个独立的PID控制轴和一个离散I/O对
用于信道同步的每个信道。1746-BLM模块提供256个点
具有插值的每个型坯通道的分辨率,并具有循环更新时间
100微秒。配置包括蓄能器推出控制和三个
型坯轴和两个蓄能器推出件和两个型坯轴。
该模块设计用于多种应用,包括蓄电池
机器、连续挤压机和往复式螺杆机。这个
模块独立于处理器执行其伺服控制任务,但接收
其配置和来自处理器的运行时信息。
吹塑模组规格
猫不
通用规格
5V时的底板电流(mA)
决议
隔离电压
转换率
输入数
产出数量
模拟输入
差分输入范围
共模输入范围
差分阻抗
共模阻抗
过电压保护
模拟输出
输出电压范围
大连续电流
短路电流
数字输入
类型
输入电压范围
小导通状态电压
小关断状态电压
大输入电流(30V直流)
保护
数字输出
类型
大关断状态电压
激励输出
输出电压47-SG001D-EN-P-2009年1月
29
桶温度模块
该模块提供四个自动调谐PID加热/冷却温度控制区域。
每个输入用作PID回路的过程变量(PV)。PID算法
以及调谐辅助过程(TAP)算法,对每个模块执行
循环。每个回路的控制变量(CV)输出(模拟或时间比例输出(TPO))从模块发送到SLC数据表。你的
应用逻辑必须访问数据表中的CV值,并发送模拟或
TPO数据至输出模块以关闭 UC112P/C UC112P/C-06-08-3355 用于控制处理器模块 Technifor
 UC112P/C UC112P/C-06-08-3355 用于控制处理器模块 Technifor
HSCE High Speed Counter
This module offers a single bi-directional counting channel, which supports
quadrature, pulse/direction, or up/down counter input. Four on-board open collector
outputs allow module control independent of the SLC processor scan. The module
features three modes of operation: Range, Rate, and Sequencer.
Tip: The 1747-ASB module is not compatible with the 1746-HSCE
module.
1746-HSCE2 Multi-Channel High Speed Counter
The Multi-Channel High Speed Counter provides two sets of ±A, ±B, and ±Z input
channels, allowing up to two quadrature, differential line driver, or incremental
encoders to be monitored. A and B input channels can also be configured to count
single-ended pulse inputs from up to four input devices.
The module supports three operating modes that provide two, three, or four-channel
operation. System performance is enhanced with the module’s ability to accept control
adjustments while it is actively counting pulses. The Z/gate input channel can be used
for storing, holding, and resetting counter data.
High Speed Counter Specifications
Cat. No.
Number of Inputs
1746-HSCE1746-HSCE2
1 set ±A, ±B, ±Z differential or single-ended 2 sets ±A, ±B, ±Z, 2 quadrature encoders,
inputs, 5V dc, 12V dc, or 24V dcor 4 pulse differential or single-ended inputs
differential: 0…5V dc
single-ended: ±5V dc
5V dc: 3.8…5.5V dc
12V dc: 9.4…16.5V dc
24V dc: 16.5…30V dc
50 kHz for range
32 kHz for rate
50 kHz for sequencer
16-bit, ±32,768
sequencer mode: 1.8 ms
range mode: 3.9 ms
4 open-collector outputs: 5, 12, or 24V dc
16 mA at 4.5V dc
40 mA at 10V dc
125 mA at 30V dc
320 mA
0 mA
Tested at 1500V
Input Voltage Range 5V dc: 4.2…12V dc
24V dc: 10…30V dc
Frequency
Max. Counts
Throughput
Number of Outputs
Maximum Output Current
Backplane Current (mA) at 5V
Backplane Current (mA) at 24V
Isolation Voltage
250 kHz @ X4
500 kHz @ X2
1 MHz for all other
24-bit, ±8,388,607 in Class 4
16-bit, ±32,768 in Class 1
700 μs (typical)
4 outputs: 5…30V dc sourcing with
electronic protection
1A
250 mA
0 mA
Tested at 1000V
Publication 1747-SG001D-EN-P — January 2009
28
Process Control
Modules
Blow Molding Module
This module features four independent axes of PID control plus one discrete I/O pair
per channel for channel synchronization. The 1746-BLM module provides 256 points
of resolution for each parison channel with interpolation, and has loop update times
of 100 microseconds. Configurations include accumulator push-out control and three
parison axis, and two accumulator push-outs and two parison axis.
The module is designed to work in a variety of applications, including accumulator
machines, continuous extrusion machines, and reciprocating screw machines. The
module performs its servo control task independently from the processor, but receives
its configuration and run-time information from the processor.
Blow Molding Module Specifications
Cat. No.
Common Specifications
Backplane Current (mA) at 5V
Resolution
Isolation Voltage
Conversion Rate
Number of Inputs
Number of Outputs
Analog Inputs
Differential Input Range
Common Mode Input Range
Differential Impedance
Common Mode Impedance
Overvoltage Protection
Analog Output
Output Voltage Range
Maximum Continuous Current
Short Circuit Current
Digital Input
Type
Input Voltage Range
Minimum ON State Voltage
Minimum OFF State Voltage
Maximum Input Current (at 30V dc)
Protection
Digital Output
Type
Maximum OFF State Voltage
Excitation Output
Output Voltage47-SG001D-EN-P — January 2009
29
Barrel Temperature Module
This module provides four zones of Autotuned PID heat/cool temperature control.
Each input functions as the process variable (PV) for a PID loop. The PID algorithm
and tuning-assisted process (TAP) algorithm are performed on the module for each of
the loops. The control variable (CV) output of each loop, either analog or timeproportioned output (TPO), is sent from the module to the SLC data table. Your
application logic must access the CV value in the data table and send the analog or
TPO data to an output module to close | | | |
