PPD512 A10-15000 3BHE040375R1023模块备件

PPD512 A10-15000 3BHE040375R1023

y将返回的“整数”除以1000以返回
根据需要将当前值设置为实数或整数。
可信TMR 24Vdc数字输出模块–40信道3.应用
罗克韦尔自动化出版物ICSTT-RM280N-EN-P14和19期
IEC 61131工具集转换表可用于将值转换为工程值
单位，在这种情况下为电流。该数字格式的满标度范围为十进制±32，
对应于物理范围–32000到+32000。
3.2.5.机架5:LINE_ FLT
频道描述
1现场输出通道1线路故障
2现场输出通道2线路故障
40现场输出通道40线路故障
表10机架5：LINE_ FLT说明
线路故障输入状态被报告为线路故障条件（开路，
短路和无励磁电源电压）。逻辑状态是多数表决值。
3.2.6.机架6：离散
频道描述
1.差异状态输出1至16
（输出1为LSB）
2.差异状态输出17至32
（输出17为LSB）
3.差异状态输出33至40
（输出33为LSB）
表11机架6：离散位描述
每个字报告16个输出通道的差异状态。相应的
当在该输出上检测到差异条件时，字内的位被设置为“1”
通道的输出状态（机架2）。
3.可信TMR 24Vdc数字输出模块的应用–40信道
14期罗克韦尔自动化出版物ICSTT-RM280N-EN-P
3.2.7.机架7:HKEEPING
频道
描述
FCR单位（满量程）
1.A
2 B 24V2输出电压-32768 32767 mV
3.C
4.A
5 B内部电源电压（后稳压器）-32768 32767 mV
6.C
7.A
8 B内部电源电流（后稳压器）-32768 32767 mA
9.C
10 A
11 B输出电压（隔离后）-32768 32767 mV
12 C
13 A
14 B 24V1输出电压-32768 32767 mV
15 C
16 A
HIU板温度
（注：温度，°C=输入值/256）
17 B-32768 32767-
18 C
19 A
20 B前面板负载电流-32768 32767 mA
21 C
22 A
23 B智能插槽链路电压-32768 32767 mV
24 C
25 A
26 B FIU输出组1磁场电源电压-32768 32767 mV
27 C
28 A
FIU板温度，输出组1
（注：温度，°C=输入值/256）
29 B-32768 32767-
30摄氏度
可信TMR 24Vdc数字输出模块–40信道3.应用
罗克韦尔自动化出版物ICSTT-RM280N-EN-P14和21期
频道
描述
FCR单位（满量程）
31 A
32 B FIU输出组2现场电源电压-32768 32767 mV
33 C
34 A
FIU板温度，输出组2
（注：温度，°C=输入值/256）
35 B-32768 32767-
36 C
37 A
38 B FIU输出组3现场电源电压-32768 32767 mV
39 C
40 A
FIU板温度，输出组3
（注：温度，°C=输入值/256）
41 B-32768 32767-
42 C
43 A
44 B FIU输出组4现场电源电压-32768 32767 mV
45摄氏度
46 A
FIU板温度，输出组4
（注：温度，°C=输入值/256）
47 B-32768 32767-
48摄氏度
49 A
50 B FIU输出组5现场电源电压-32768 32767 mV
51 C
52 A
FIU板温度，输出组5
（注：温度，°C=输入值/256）
53 B-32768 32767-
54 C
55 A
56 B诊断错误代码
57 C
表12机架7：客房管理说明
内务机架内的每个输入都报告为整数。一般来说
应用工程师通常不需要这些输入。它们是用来帮助故障诊断的
3.可信TMR 24Vdc数字输出模块的应用–40信道
2214期罗克韦尔自动化出版物ICSTT-RM280N-EN-P
并可用于报告和显示目的。如果切片是致命的，
则将所有报告的内务管理输入设置为零。
3.2.8.机架8：信息
频道描述
1主动模块机箱编号
2活动模块插槽编号
3.主动模块健康
4主动模块模式
5备用模块机箱号
6备用模块插槽号
7.备用模块正常
8待机模块模式
9 FCR状态
10主模块激活
11.对有源模块进行了仿真
表13机架8：信息说明
活动模块机箱和插槽编号指示当前活动模块的位置
单元这些值将改变以匹配主要或次要模块位置，
根据其活动状态，即活动/备用切换将“交换”以下值：
活动模块机箱和插槽编号通道与备用模块中的通道
机箱和插槽编号通道。如果出现以下情况，机箱和插槽编号将设置为零：
模块不存在。
主备模块健康通道作为整数返回，但是只有
使用低有效位。值为0表示已检测到故障，非零
值表示模块正常。
主动和备用模块模式是一个整数，指示模块的当前操作模式
相关模块。该值表示发动机的当前内部工作模式
单元

PPD512 A10-15000 3BHE040375R1023

PPD512 A10-15000 3BHE040375R1023

y divide the returned ‘integer’ by 1000 to return the current as either a REAL or INTEGER as required. Trusted TMR 24Vdc Digital Output Module – 40 Channel 3. Application Rockwell Automation Publication ICSTT-RM280N-EN-P Issue 14 19 The IEC 61131 TOOLSET conversion tables may be used to convert the value to engineering units, in this case current. The full-scale range for this number format is decimal ±32, corresponding to physical range –32000 to +32000. 3.2.5. Rack 5: LINE_FLT Channel Description 1 Field output channel 1 line fault 2 Field output channel 2 line fault 40 Field output channel 40 line fault Table 10 Rack 5: LINE_FLT Descriptions The line fault input state is reported as true (logic ‘1’) for a line fault condition (open circuit, short circuit, and no field supply voltage). The logic state is the majority voted value. 3.2.6. Rack 6: DISCREP Channel Description 1 Discrepancy status outputs 1 to 16 (output 1 is LSB) 2 Discrepancy status outputs 17 to 32 (output 17 is LSB) 3 Discrepancy status outputs 33 to 40 (output 33 is LSB) Table 11 Rack 6: DISCREP bit Descriptions Each of the words reports the discrepancy status of 16 output channels. The corresponding bit within the word is set to ‘1’ when a discrepancy condition is detected on that output channel’s output state (Rack 2). 3. Application Trusted TMR 24Vdc Digital Output Module – 40 Channel 20 Issue 14 Rockwell Automation Publication ICSTT-RM280N-EN-P 3.2.7. Rack 7: HKEEPING Channel Description FCR Units (Full Scale Range) 1 A 2 B 24V2 Output Voltage -32768 32767 mV 3 C 4 A 5 B Internal supply voltage (post regulator) -32768 32767 mV 6 C 7 A 8 B Internal supply current (post regulator) -32768 32767 mA 9 C 10 A 11 B Output voltage (post isolation) -32768 32767 mV 12 C 13 A 14 B 24V1 Output Voltage -32768 32767 mV 15 C 16 A HIU Board Temperature (Note: Temperature, °C = input value / 256) 17 B -32768 32767 - 18 C 19 A 20 B Front Panel Load Current -32768 32767 mA 21 C 22 A 23 B SmartSlot Link Voltage -32768 32767 mV 24 C 25 A 26 B FIU Output Group 1 Field Supply Voltage -32768 32767 mV 27 C 28 A FIU Board Temperature, Output Group 1 (Note: Temperature, °C = input value / 256) 29 B -32768 32767 - 30 C Trusted TMR 24Vdc Digital Output Module – 40 Channel 3. Application Rockwell Automation Publication ICSTT-RM280N-EN-P Issue 14 21 Channel Description FCR Units (Full Scale Range) 31 A 32 B FIU Output Group 2 Field Supply Voltage -32768 32767 mV 33 C 34 A FIU Board Temperature, Output Group 2 (Note: Temperature, °C = input value / 256) 35 B -32768 32767 - 36 C 37 A 38 B FIU Output Group 3 Field Supply Voltage -32768 32767 mV 39 C 40 A FIU Board Temperature, Output Group 3 (Note: Temperature, °C = input value / 256) 41 B -32768 32767 - 42 C 43 A 44 B FIU Output Group 4 Field Supply Voltage -32768 32767 mV 45 C 46 A FIU Board Temperature, Output Group 4 (Note: Temperature, °C = input value / 256) 47 B -32768 32767 - 48 C 49 A 50 B FIU Output Group 5 Field Supply Voltage -32768 32767 mV 51 C 52 A FIU Board Temperature, Output Group 5 (Note: Temperature, °C = input value / 256) 53 B -32768 32767 - 54 C 55 A 56 B Diagnostic error code 57 C Table 12 Rack 7: Housekeeping Descriptions Each input within the housekeeping rack is reported as an integer. In general, the application engineer will not normally require these inputs. They are provided to aid fault 3. Application Trusted TMR 24Vdc Digital Output Module – 40 Channel 22 Issue 14 Rockwell Automation Publication ICSTT-RM280N-EN-P finding and diagnosis and may be used for reporting and display purposes. If a slice is Fatal, then all reported housekeeping inputs are set to zero. 3.2.8. Rack 8: INFO Channel Description 1 Active Module chassis number 2 Active Module slot number 3 Active Module healthy 4 Active Module mode 5 Standby Module chassis number 6 Standby Module Slot number 7 Standby Module healthy 8 Standby Module mode 9 FCR status 10 Primary Module is active 11 Active Module is simulated Table 13 Rack 8: INFO Descriptions The Active Module chassis and slot numbers indicate the position of the currently Active Module. These values will change to match the primary or secondary Module position, depending on their Active status, i.e. Active/Standby changeover will “swap” the values for the Active Module chassis and slot number channels with those in the Standby Module chassis and slot number channels. The chassis and slot numbers are set to zero if the Module is not present. The Active and Standby Module healthy channel is returned as an integer, however only the least significant bit is used. A value of 0 indicates that a fault has been detected, a non-zero value indicates that the Module is healthy. The Active and Standby Module Mode is an integer indicating the current operating mode of the associated Module. The value indicates the current internal operating mode of the Module