注:每组:3 A,0…60°C。每个模块:6 A,0
电感内部二极管保护,无限制
电感
输出响应(开-关、开-关)1.0 ms,电阻
开关频率:大50 Hz
输出保护(内部)组变阻器和单个点过电流
感觉
隔离
现场至总线2500 Vac,持续1分钟
组对组1200 Vac持续1分钟
故障检测过电流(见下文注释)
所需母线电流
375 mA上的6个点
650 mA上的12个点
功耗1.0 W+0.77 W x上的点数
外部电源:无
融合
内部4 A(零件号043511382或等效件)见下文
保险丝的位置。
此模块不需要外部。
规格
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30 35 45 50 55 60 40
0.75
0.625
0.5
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I/O模块
840使用100 00 11/2004 611
保险丝位置下图显示了DDO88500模块的保险丝位置。
� � �∆�每个输出点由过电流检测电路保护。当
检测到过电流情况,该点关闭,其LED故障指示灯为
并在模块故障寄存器中设置适当的位。
检测到短路后,输出点将关闭。大于
9.4.A将保证该点关闭,并锁定输出点
处于关闭状态。要清除故障,必须在用户逻辑中命令关闭该点。
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关闭模块电源,拆下现场接线端子板,以获得:
接近保险丝。
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至少,Modsoft V2.40、ProWorX NxT V2.0或Concept V2.0是
配置此模块所需。
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直流输出
十、
熔断器位置
要点
1-6
要点
7.
I/O模块
612 840使用100 00 2004年11月
接线图下图显示了DDO885接线图。
注:N/C=未连接。
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该模块不受反极性保护。如果你想防止
极性接线错误,与每组电源线串联的外部二极管为
推荐。该二极管必须能够支持组负载电流。
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– +
产出9
产出10
田野
装置
+ –
A组返回
产出1
N/C
输出2
产出3
产出4
N/C
产出5
产出6
产出7
N/C
N/C
产出8
B组返回
N/C
产出11
产出12
N/C N/C
B组供应
A组供应
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
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2.
10
4.
6.
8.
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40 39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7.
5.
3.
1.
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I/O模块
840使用100 00 11/2004 613
140DRA84000量子I/O继电器输出16x1常开模块
概述:继电器输出16x1常开模块用于切换电压源
使用16个常开触点继电器。
规格下表显示了继电器输出模块的规格。
规格
输出点数量:16常开
LED激活
1…16(绿色)-表示点状态
所需寻址1字输出
电压
工作20…250 Vac
5…30 Vdc
30…150 Vdc(减少的负载电流)
大负载电流
在250 Vac或30 Vdc环境温度为60°C时,电阻负载下,每个点的大电流为2 A
1.钨灯负载
1 A@功率因数为0.4
125/250 Vac时的1/8马力
每个点(30…150 Vdc)300 mA(电阻负载)
100mA(L/R=10毫秒)
小负载电流50 mA
注:触点在额定值下使用时的小负载电流
5…150 Vdc或20…250 Vac的负载
60°C环境电阻负载下250 Vac或30 Vdc时,每个点的大电流为2 A
浪涌电流大值
每个点10 A电容性负载@τ=10 ms
500 VA电阻负载的开关能力
回答
关闭-打开,大10毫秒
开-关大20毫秒
关态泄漏<100μA
继电器接触寿命
机械操作10000000
电气操作200000(大电压和电流下的电阻负载)
I/O模块
614 840使用100 00 2004年11月
电气操作
(30…150 Vdc)
(见下文注释)
100000、300 mA(电阻负载)
50000、500 mA(电阻负载)
100000,100 mA(L/R=10毫秒)
100000插入式继电器(西屋606B型,
西屋SG型,Struthers Dunn 219 x 13 XP)
继电器类型表A
接触保护变阻器,275 V(内部)
隔离
通道至通道1780 Vac rms持续一分钟
现场至总线1780 Vac rms持续一分钟
2500 Vdc持续一分钟
所需母线电流1100 mA
功耗:5.5 W+0.5 x N=瓦(其中N=打开的点数)
此模块不需要外部电源
融合
内部无
外部用户自由裁量权
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%➣使用以下方法可以显著增加感应负载的继电器触点寿命:
外部接触保护,例如负载两端的箝位二极管。
规格
I/O模块
840使用100 00 11/2004 615
接线图下图显示了DRA84000接线图。
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&�用于125 Vdc感应OTE: Each group: 3 A, 0 ... 60° C. Per module: 6 A, 0 ... 60° C
Inductance Internal diode protected, no limit on
inductance
Output Response (OFF - ON, ON - OFF) 1.0 ms, resistive
Switching Frequency 50 Hz maximum
Output Protection (internal) Group varistor and individual point over current
sense
Isolation
Field to Bus 2500 Vac for 1 minute
Group-to-Group 1200 Vac for 1 minute
Fault Detection Over current (see note below)
Bus Current Required
6 points ON 375 mA
12 points ON 650 mA
Power Dissipation 1.0 W + 0.77 W x number of points ON
External Power None
Fusing
Internal 4 A (Part # 043511382 or equivalent) See below for
the location of the fuses.
External Not required for this module.
Specifications
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0.75
0.625
0.5
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I/O Modules
840 USE 100 00 11/2004 611
Fuse Locations The following figure shows the fuse locations for the DDO88500 module.
�����Each output point is protected by an over current sense circuit. When an
over current condition is detected, the point is turned OFF, its LED fault indicator is
turned ON, and the appropriate bit is set in the module fault register.
The output point will be turned OFF after a short is detected. A fault greater than
9.4 A will guarantee that the point will be turned OFF and will latch the output point
in the OFF state. To clear a fault, the point must be commanded OFF in user logic.
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Turn off power to the module and remove the field wiring terminal strip to gain
access to fuses.
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vdc out
X
Fuse Locations
Points
1-6
Points
7
I/O Modules
612 840 USE 100 00 11/2004
Wiring Diagram The following figure shows the DDO885 wiring diagram.
Note: N / C = Not Connected.
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This module is not protected against reverse polarity. If you want to protect against
polarity miswiring, an external diode in series with each group supply line is
recommended. This diode must be able to support the group load current.
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– +
OUTPUT 9
OUTPUT 10
FIELD
DEVICE
+ –
GROUP A RETURN
OUTPUT 1
N/C
OUTPUT2
OUTPUT 3
OUTPUT 4
N/C
OUTPUT 5
OUTPUT 6
OUTPUT 7
N/C
N/C
OUTPUT 8
GROUP B RETURN
N/C
OUTPUT 11
OUTPUT 12
N/C N/C
GROUP B SUPPLY
GROUP A SUPPLY
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
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2
10
4
6
8
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40 39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
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I/O Modules
840 USE 100 00 11/2004 613
140DRA84000 Quantum I/O Relay Output 16x1 Normally Open Module
Overview The Relay Output 16x1 Normally Open module is used to switch a voltage source
using 16 relays with normally open contacts.
Specifications The following table shows the specifications for the RELAY OUT module.
Specifications
Number of Output Points 16 normally open
LEDs Active
1 ... 16 (Green) - Indicates point status
Required Addressing 1 word out
Voltage
Working 20 ... 250 Vac
5 ... 30 Vdc
30 ... 150 Vdc (reduced load current)
Maximum Load Current
Each Point 2 A max, at 250 Vac or 30 Vdc @ 60° C ambient, resistive load
1 A Tungsten lamp load
1 A @ a power factor of 0.4
1/8 hp @ 125/250 Vac
Each Point (30 ... 150 Vdc) 300 mA (resistive load)
100 mA (L/R = 10 msec)
Minimum Load Current 50 mA
Note: Minimum load current if the contact is used at rated
loads of 5 ... 150 Vdc or 20 ... 250 Vac
Each Point 2 A max, at 250 Vac or 30 Vdc @ 60° C ambient resistive load
Surge Current Maximum
Each Point 10 A capacitive load @ τ = 10 ms
Switching Capability 500 VA resistive load
Response
OFF - ON 10 ms max
ON - OFF 20 ms max
Off State Leakage < 100 μA
Relay Contact Life
Mechanical Operations 10,000,000
Electrical Operations 200,000 (resistive load @ max voltage and current)
I/O Modules
614 840 USE 100 00 11/2004
Electrical Operations
(30 ... 150 Vdc)
(see note below)
100,000, 300 mA (resistive load)
50,000, 500 mA (resistive load)
100,000, 100 mA (L/R = 10 msec)
100,000 Interposing Relay (Westinghouse Style 606B,
Westinghouse type SG, Struthers Dunn 219 x 13 XP)
Relay Type Form A
Contact Protection Varistor, 275 V (internal)
Isolation
Channel to Channel 1780 Vac rms for one minute
Field to Bus 1780 Vac rms for one minute
2500 Vdc for one minute
Bus Current Required 1100 mA
Power Dissipation 5.5 W + 0.5 x N = Watts (where N = the number of points on)
External Power Not required for this module
Fusing
Internal None
External User discretion
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external contact protection such as a clamping diode across the load.
Specifications
I/O Modules
840 USE 100 00 11/2004 615
Wiring Diagram The following figure shows the DRA84000 wiring diagram.
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contact life. (1N 4004 or equivalent).
'� N/C = Not Connected. N.O. = Normally Open. N.C. = Normally Closed.
2
10
4
6
8
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40 39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1 OUTPUT 1 N.O.
OUTPUT 2 N.O.
OUTPUT 3 N.O.
OUTPUT 4 N.O.
N/C
RELAY 1 COMMON
RELAY 2 COMMON
RELAY 3 COMMON
RELAY 4 COMMON
N/C
RELAY 5 COMMON
RELAY 6 COMMON
RELAY 7 COMMON
RELAY 8 COMMON
N/C
N/C
N/C
N/C
N/C
N/C
OUTPUT 5 N.O.
OUTPUT 6 N.O.
OUTPUT 7 N.O.
OUTPUT 8 N.O.
RELAY 9 COMMON
RELAY 10 COMMON
RELAY 11 COMMON
RELAY 12 COMMON
RELAY 13 COMMON
RELAY 14 COMMON
RELAY 15 COMMON
RELAY 16 COMMON
OUTPUT 9 N.O.
OUTPUT 10 N.O.
OUTPUT 11 N.O.
OUTPUT 12 N.O.
OUTPUT 13 N.O.
OUTPUT 14 N.O.
OUTPUT 15 N.O.
OUTPUT 16 N.O.
VOLTAGE
SOURCE
+
–
See Note 1.
N.O.
N.C.
OUTPUT X
N.O.
RELAY X
COMMON
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I/O Modules
616 840 USE 100 00 11/2004
140DRC83000 Quantum I/O Relay Output 8x1 Normally Open/Normally Closed
Module
Overview The Relay Output 8x1 Normally Open/Normally Closed module is used to switch
voltage sources using eight relays with normally open and normally closed contacts.
Specifications The following table shows the specifications for the DRC83000 RELAY OUT
module.
Specifications
Number of Output Points 8 normally open / normally closed pairs
LEDs Active
1 ... 8 (Green) - Indicates point status
Required Addressing 0.5 word out
Voltage
Working 20 ... 250 Vac
5 ... 30 Vdc
30 ... 150 Vdc (reduced load current)
Maximum Load Current
Each Point 5 A max at 250 Vac, 30 Vdc @ 60° C ambient, resistive load
2 A Tungsten lamp load
3 A @ power factor 0.4
1/4 hp @ 125/250 Vac
Each Point (30 ... 150 Vdc) 300 mA resistive
100 mA (L/R = 10 msec)
Maximum Module Current 40 A (see the derating curve below)
The following figure shows the relay derating curve.
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20
30
40
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I/O Modules
840 USE 100 00 11/2004 617
Minimum Load Current 50 mA
Note: Minimum load current if the contact is used at rated
loads of 5 ... 150 Vdc or 20 ... 250 Vac
Maximum Frequency (F) 30 Hz resistive loads, or:
where:
L = Load Inductance (Henry)
I = Load Current (A)
Surge Current Maximum
Each Point 20 A capacitive load @ τ = 10 ms
Switching Capability 1250 VA resistive load
Response (Resistive Loads)
OFF - ON 10 ms max
ON - OFF 20 ms max
Off State Leakage < 100 μA
Relay Contact Life
Mechanical Operations 10,000,000
Electrical Operations 100,000 (Resistive load @ max voltage and current)
Electrical Operations
(30 ... 150 Vdc)
(see note)
100,000, 300 mA (resistive load)
50,000, 500 mA (resistive load)
100,000, 100 mA (L/R = 10 msec)
100,000 Interposing Relay (Westinghouse Style 606B,
Westinghouse type SG, Struthers Dunn 219 x 13 XP)
Relay Type Form C, NO / NC contacts
Contact Protection Varistor, 275 V (internal)
Isolation
Channel to Channel 1780 Vac rms for one minute
Field to Bus 1780 Vac rms for one minute, 2500 Vdc for one minute
Bus Current Required 560 mA
Power Dissipation 2.75 W + 0.5 x N = Watts (where N is the number of points on)
External Power Not required for this module
Fusing
Internal None
External User discretion
Specifications
F = 0.5
I
2 L
I/O Modules
618 840 USE 100 00 11/2004
Wiring Diagram The following figure shows the DRC83000 wiring diagram.
�� ��Relay contact life for inductive loads may be significantly increased by using external
contact protection such as a clamping diode across the load.
