140CPU43412U模块备件
电压表监视器规格
范围1…5 V(主电流回路必须激活)
标度(伏特)=(mA)x 0.25
输出阻抗300Ω典型值
电线长度:大1米
VOUT ILOOP
I/O模块
484840使用100 00 2004年11月
ACO02000
接线图
下图显示了140ACO02000模块的接线图。
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1.
I来源1(-)
N/C
N/C
N/C
N/C
监视器1(+)
I来源1(-)
N/C
I来源1(-)
I来源2(-)
I来源2(-)
N/C
I来源2(-)
I来源3(-)
I来源3(-)
N/C
I来源3(-)
I来源4(-)
I来源4(-)
N/C
I来源4(-)
虚拟机
N/C
N/C
N/C
我下沉1(+)
监视器2(+)
N/C
N/C
N/C
我下沉2(+)
监视器3(+)
N/C
N/C
N/C
我下沉3(+)
监视器4(+)
N/C
N/C
N/C
我下沉4(+)
- +
田野
装置
田野
装置
+ -
-
+
- +
-
+
回路供电
电流
下沉
(当前
采购)
I/O模块
840使用100 00 11/2004 485
�����
$�未使用的通道将指示断线状态,除非连接到回路
电源,如通道4所示。在本例中,回路电源必须为30 V或
较少的
%�VM是一个可选的电压表,可以连接到读取电压,即
与电流成比例。该端子的接线限制为大1米。
&�接线示例显示了通道1作为电流吸收器和通道2
用作它们各自的现场设备的电流源。
*�N/C=未连接。
� � �⏹�通电时,信道输出全部禁用(电流=0)。配置
当出现以下情况时,禁用的任何通道将导致禁用所有通道:
发生通信丢失。
I/O模块
486 840使用100 00 2004年11月
140ACO13000高密度模拟输出I/O模块
概述:140ACO13000是一个八通道模拟输出模块,用于控制和
监测4…20 mA、0…20 mA和0…25 mA回路中的电流。
规格下表显示了ACO13000模块的技术规格。
规格
频道数:8
LED激活,表示存在总线通信
F、 指示通道上的故障
1…8(绿色)-模块输出激活
1…8(红色)-指示通道上的断线
需要寻址8个字
模块范围和分辨率0…25mA,0…25000计数
0…20 mA,0…20000计数
4…20 mA,0…16000次计数
4…20mA,0…4095计数
回路电压6…30 Vdc大值
25 mA时内部电压降小为6 Vdc,大为30 Vdc
25°C下的精度误差+/-0.2%满刻度
线性+/-12μA,4…20mA,0…4095计数
+/-4μA,0…25 mA,0…25000次计数
+/-4μA,0…20 mA,0…20000计数
+/-4μA,4…20mA,0…16000计数
典型温度下的精度漂移:满刻度的0.004%/°C。
大值:满量程的0.007%/°C
隔离
频道对频道无
现场至总线1780 Vac,持续1分钟
所有8个信道的更新时间为5ms
满刻度沉降时间
阶跃变化
1.6 ms至终值的5%
3.2 ms至终值的0.1%
4…20 mA模式下的故障检测断线。
所需母线电流550 mA
功耗5.0W
外部电源:参见上面的回路电压
I/O模块
840使用100 00 11/2004 487
融合
内部的
外部的
没有一个
没有一个
电压表监视器
缩放VOUT(伏特)=ILOOP(mA)x 0.10
25°C下的精度+/-0.2%满刻度
输出阻抗300Ω
大电缆长度1米
编程软件Modsoft 2.6版或概念2.2版
规格
I/O模块
488 840使用100 00 2004年11月
接线图140ACO130接线图
接线说明
简图
1.通电时,通道输出均为零电流(0 mA)。
2.VM是一个可选电压表,可以连接到读取电压,即
与电流成比例。该端子的接线限制为大1米。
3.可使用屏蔽或非屏蔽电缆。在嘈杂的环境中,扭曲
建议使用屏蔽电缆。屏蔽电缆应具有接地屏蔽
信号源端附近接地。
4.未使用的输出可能导致F(故障)LED激活。为了避免这种情况
未使用的信道应配置在0…25 mA范围内。
5.所有标有“返回”的端子在模块内是通用的。
6.N/C=未连接
返回
输出8接收器
监视器8
输出7接收器
输出6接收器
输出5接收器
输出4接收器
输出3接收器
输出2接收器
输出1接收器
返回监视器1
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
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1.
N/C
监视器2
N/C
监视器3
监视器4
监视器5
监视器6
监视器7
N/C
返回
N/C
返回
返回
N/C
返回
返回
N/C
返回
领域
装置
领域
装置
领域
装置
领域
装置
领域
装置
领域
装置
领域
装置
领域
装置
虚拟机
24伏直流电
环
供给
+
–
虚拟机
I/O模块
840使用100 00 11/2004 489
140AVO02000量子I/O模拟电压输出模块
概述模拟输出4通道模块在混合模式和电平下的输出电压。
使用现场接线连接器上的跳线选择这些。oltmeter Monitor Specifications
Range 1 ... 5 V (Main current loop must be active)
Scaling (Volts) = (mA) x 0.25
Output Impedance 300Ω Typical
Wire Length 1 m max
VOUT ILOOP
I/O Modules
484 840 USE 100 00 11/2004
ACO02000
Wiring Diagram
The following figure shows the wiring diagram for the 140ACO02000 module.
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1
I SOURCE 1(-)
N/C
N/C
N/C
N/C
MONITOR 1(+)
I SOURCE 1(-)
N/C
I SOURCE 1(-)
I SOURCE 2(-)
I SOURCE 2(-)
N/C
I SOURCE 2(-)
I SOURCE 3(-)
I SOURCE 3(-)
N/C
I SOURCE 3(-)
I SOURCE 4(-)
I SOURCE 4(-)
N/C
I SOURCE 4(-)
VM
N/C
N/C
N/C
I SINK 1(+)
MONITOR 2(+)
N/C
N/C
N/C
I SINK 2(+)
MONITOR 3(+)
N/C
N/C
N/C
I SINK 3(+)
MONITOR 4(+)
N/C
N/C
N/C
I SINK 4(+)
- +
FIELD
DEVICE
FIELD
DEVICE
+ -
-
+
- +
-
+
LOOP SUPPLY
CURRENT
SINKING
(CURRENT
SOURCING)
I/O Modules
840 USE 100 00 11/2004 485
�����
$� Unused channels will indicate broken wire status unless wired to the loop
supply, as shown on Channel 4. In this example, loop supply must be 30 V or
less.
%� VM is an optional voltmeter that can be connected to read voltage that is
proportional to the current. Wiring to this terminal is limited to 1 meter maximum.
&� The wiring example shows Channel 1 acting as a current sink and Channel 2
acting as a current source for their respective field devices.
*� N / C = Not Connected.
�����At power up, the channel outputs are all disabled (current = 0). Configuring
any channel as disabled will cause all channels to be disabled when a
communication loss occurs.
I/O Modules
486 840 USE 100 00 11/2004
140ACO13000 High Density Analog Out I/O Module
Overview The 140ACO13000 is an eight channel analog output module used to control and
monitor current in 4 ... 20 mA, 0 ... 20 mA, and 0 ... 25 mA loops.
Specifications The following table shows the technical specifications for the ACO13000 module.
Specifications
Number of Channels 8
LEDs Active, indicates bus communication present
F, indicates a fault on a channel
1 ... 8 (Green) - Module outputs active
1 ... 8 (Red) - Broken wire on indicated channels
Required Addressing 8 Words Out
Module Ranges and Resolution 0 ... 25 mA, 0 ... 25,000 counts
0 ... 20 mA, 0 ... 20,000 counts
4 ... 20 mA, 0 ...16,000 counts
4 ... 20 mA, 0 ...4,095 counts
Loop Voltage 6 ... 30 Vdc maximum
Internal Voltage Drop 6 Vdc min, 30 Vdc max @ 25 mA
Accuracy Error @ 25 ° C +/- 0.2% of full scale
Linearity +/-12 μA, 4 ... 20 mA, 0 ... 4,095 counts
+/-4 μA, 0 ... 25 mA, 0 ... 25,000 counts
+/-4 μA, 0 ... 20 mA, 0 ... 20,000 counts
+/-4 μA, 4 ... 20 mA, 0 ... 16,000 counts
Accuracy Drift w/Temperature Typical: 0.004% of full scale / °C.
Maximum: 0.007% of full scale / °C
Isolation
Channel to Channel none
Field to Bus 1780 Vac for 1 minute
Update Time 5 ms for all 8 channels
Settling Time Full Scale
Step Change
1.6 ms to 5% of the final value
3.2 ms to 0.1% of the final value
Fault Detection Broken wire in 4 ... 20 mA mode.
Bus Current Required 550 mA
Power Dissipation 5.0 W
External Power Supply See Loop Voltage above
I/O Modules
840 USE 100 00 11/2004 487
Fusing
Internal
External
None
None
Voltmeter Monitor
Scaling VOUT (Volts) = ILOOP (mA) x 0.10
Accuracy @ 25° C +/- 0.2% of full scale
Output Impedance 300 Ω
Maximum Cable Length 1 meter
Programming Software Modsoft Ver 2.6 or Concept 2.2
Specifications
I/O Modules
488 840 USE 100 00 11/2004
Wiring Diagram 140ACO130 Wiring Diagram
Notes on Wiring
Diagram
1. At power up, channel outputs are all at zero current (0 mA).
2. VM is an optional voltmeter that can be connected to read voltage that is
proportional to the current. Wiring to this terminal is limited to 1 meter maximum.
3. Either shielded or unshielded cables may be used. In noisy environments, twisted
shielded cable is recommended. Shielded cable should have a shield tied to earth
ground near the signal source end.
4. Unused outputs may cause the activation of the F (fault) LED. To avoid this
occurrence the unused channels should be configured in the 0 ... 25 mA range.
5. All terminals labeled ‘RETURN" are common inside the module.
6. N/C = Not connected
RETURN
OUTPUT 8 SINK
MONITOR 8
OUTPUT 7 SINK
OUTPUT 6 SINK
OUTPUT 5 SINK
OUTPUT 4 SINK
OUTPUT 3 SINK
OUTPUT 2 SINK
OUTPUT 1 SINK
RETURN MONITOR 1
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
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1
N/C
MONITOR 2
N/C
MONITOR 3
MONITOR 4
MONITOR 5
MONITOR 6
MONITOR 7
N/C
RETURN
N/C
RETURN
RETURN
N/C
RETURN
RETURN
N/C
RETURN
Field
Device
Field
Device
Field
Device
Field
Device
Field
Device
Field
Device
Field
Device
Field
Device
VM
24 Vdc
loop
supply
+
–
VM
I/O Modules
840 USE 100 00 11/2004 489
140AVO02000 Quantum I/O Analog Voltage Out Module
Overview The Analog Out 4 Channel module outputs voltages in mixed modes and levels.
These are selected using jumpers on the field-wiring connector.
Specifications The following table shows the specifications for the AVO02000 Analog Out 4
channel module.
Specifications
Number of Channels 4
LEDs Active
1 ... 4 (Green) - Indicates module outputs switched on
NOTE: When the green channel status LEDs are off, the
module is not generating outputs, however, an output may still
be present if the master override signal is used.
Required Addressing 4 words out
Voltage Output Ranges
Bipolar +/- 10 Vdc (Min load resistance = 1 kΩ) (Jumper between
Reference - Control terminals)
+/- 5 Vdc (Min load resistance = 500Ω) (Jumper between
Reference - Control and Output - R terminals)
Unipolar 0 ... 10 Vdc (Min load resistance = 1 kΩ) (Jumper between
Output - R terminals)
0 ... 5 Vdc (Min load resistance = 500Ω) (Jumper between
Output - R and Control - R terminals)
Output Current +/- 10 mA max any range (outputs are short-circuit proof)
Source Resistance 0.1 Ω
Resolution 12 bits
Accuracy Error @ 25
degrees
+/- 0.15% of full scale
Accuracy Drift w/Temperature
Unipolar Ranges 0.003% of full scale / °C typical
0.005% of full scale / °C max
Bipolar Ranges 0.004% of full scale / °C typical
0.007% of full scale / °C max
Linearity +/- 1 LSB
Isolation
Channel to Channel 500 Vac @ 47 ... 63 Hz for 1 minute
I/O Modules
490 840 USE 100 00 11/2004
Channel to Bus 1780 Vac @ 47 ... 63 Hz for 1 minute
Maximum Settling Time 700 μs to +/- 0.1% of the final value
Update Time 3 ms for all channels
Fault Detection None
Wire Length 400 m max
Bus Current Required 700 mA
Power Dissipation 4.5 W max
External Power Not required for this module
Fusing
Internal None
External An external fuse is required on the master override signal
when it is connected to an external source. The required fuse
is 1/16 A or 0.063 A fuse.
Fuse Type: 3AG Fast Acting 1/16 A, 250 V
Fuse Holder: 3AG Fuse Type
The external fuse is not required if master override is
connected to common.
������
��
������ ������������ �
Before removing the connector, ensure that it is safe to have field wiring in an open circuit
condition.
��������������������������� ��� �������� ��������������
��
����������� ��
�������
����� ��� ���������� �
Master override must be connected to an external source through 1/16 A in line fuse, or
strapped to common to avoid erroneous outputs in this module.
��������������������������� ��� �������� ��������������
��
����������� ��
�������
Specifications
,�-".
,�-"
I/O Modules
840 USE 100 00 11/2004 491
During normal operation, the front panel Active and 1 ... 4 green LEDs are ON. If bus
communication to the module stops for any reason, the Active LED will go off and,
depending on panel software configuration:
when LEDs 1 ... 4 are ON, the channel output levels will be as predetermined and
held by the module.
when LEDs 1 ... 4 are OFF, the master override levels are output on each
channel.
If module power is lost or the module fails, the master override levels will be output.
The master override inputs must be from an external supply with a source
impedance of <200Ω or tied to system common. These inputs for channels that are
in use should not be allowed to float and may be unique for ea
规格下表显示了
毫伏
