DSQC266H工控继电模块PLC库存
¥6973.00
DSQC266T工控继电模块PLC库存
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DSQC300工控继电模块PLC库存
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DSQC301工控继电模块PLC库存
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DSQC302工控继电模块PLC库存
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DSQC306工控继电模块PLC库存
¥6973.00
产品类别:模块卡件
品牌:DCS、PLC
电话:15270269218
联系人:叶经理
质保期:1年
加工定制:不可定制
产地/厂家:美国
寄存器3(范围1)/寄存器
11(范围2)-位图
个人评价状况
评价
第00位–频率
第01位——Va
第02位–Vb
第03位–Vc
第04位–未使用
第05位–未使用
第06位–未使用
第07位——电压不平衡
第08位–THD Va
第09位——THD Vb
***0位——THD Vc
***1位–Va H2
***2位–Va H3
***3位–Va H4
***4位–Va H5
***5位–Va H6
寄存器4(范围1)/寄存器
12(范围2)-位图
个人评价状况
评价
位00–Va H7
位01–Va H8
第02位–Va H9
第03位–Va H10
第04位–Va H11
第05位–Va H12
位06–Va H13
钻头07–Va H14
第08位–Va H15
钻头09–Va H16
***0位–Va H17
***1位–Va H18
***2位–Va H19
***3位–Va H20
***4位–Va H21
***5位–Va H22
表C-5:门户注册说明
门户描述大小数据
©2006施耐德电气版权所有
PowerLogic®800系列功率表63230-500-22***1
附录C-EN50160评估6/2006
238
寄存器5(范围1)/寄存器
13(范围2)-位图
个人评价状况
评价
位00–Va H23
位01–Va H24
第02位–Va H25
第03位–Vb H2
第04位–Vb H3
第05位–Vb H4
第06位–Vb H5
位07–Vb H6
第08位–Vb H7
第09位–Vb H8
***0位–Vb H9
***1位–Vb H10
***2位–Vb H11
***3位–Vb H12
***4位–Vb H13
***5位–Vb H14
寄存器6(范围1)/寄存器
14(范围2)-位图
个人评价状况
评价
位00–Vb H15
位01–Vb H16
第02位–Vb H17
第03位–Vb H18
第04位–Vb H19
第05位–Vb H20
位06–Vb H21
位07–Vb H22
第08位–Vb H23
第09位–Vb H24
***0位–Vb H25
***1位–Vc H2
***2位–Vc H3
***3位–Vc H4
***4位–Vc H5
***5位–Vc H6
表C-5:门户注册说明
门户描述大小数据
©2006施耐德电气版权所有
63230-500-22***1 PowerLogic®800系列功率表
2006年6月附录C-EN50160评估
239
寄存器7(范围1)/寄存器
15(范围2)-位图
个人评价状况
评价
位00–Vc H7
位01–Vc H8
第02位–Vc H9
第03位–Vc H10
第04位–Vc H11
第05位–Vc H12
位06–Vc H13
第07位–Vc H14
第08位–Vc H15
第09位–Vc H16
***0位–Vc H17
***1位–Vc H18
***2位–Vc H19
***3位–Vc H20
***4位–Vc H21
***5位–Vc H22
寄存器8(范围1)/寄存器
16(范围2)-位图
个人评价状况
评价
位00–Vc H23
第01位–Vc H24
第02位–Vc H25
第03位–V 3PH
第04位–KW 3PH
第05位–KVAR 3PH
第06位——Ia
第07位——Ib
第08位–Ic
第09位——Ia H3
***0位——Ib H3
***1位——Ic H3
***2位——Ia H5
***3位——Ib H5
***4位–Ic H5
***5位–Ia H7
表C-5:门户注册说明
门户描述大小数据
©2006施耐德电气版权所有
PowerLogic®800系列功率表63230-500-22***1
附录C-EN50160评估6/2006
240
寄存器9(范围1)/寄存器
17(范围2)-位图
个人评价状况
评价
位00–Ib H7
位01–Ic H7
第02位–Ia H9
第03位——Ib H9
第04位–Ic H9
第05位–Ia H11
位06–Ib H11
位07–Ic H11
第08位–Ia H13
第09位——Ib H13
***0位–Ic H13
***1位–保留
***2位–保留
***3位–保留
***4位–保留
***5位–保留
寄存器10(范围1)/寄存器
18(范围2)-位图
个人评价状况
评价
第00位–保留
第01位–保留
第02位–保留
第03位–保留
第04位–保留
第05位–保留
第06位–保留
第07位–保留
第08位–未使用
第09位–未使用
***0位–未使用
***1位–未使用
***2位–未使用
***3位–未使用
***4位–未使用
***5位–未使用
表C-5:门户注册说明
门户描述大小数据
©2006施耐德电气版权所有
63230-500-22***1 PowerLogic®800系列功率表
2006年6月附录C-EN50160评估
241
从显示器设置EN50160评估
要在功率表中设置EN50160评估,您需要
执行以下步骤:
1.启用EN50160评估。
默认情况下,EN50160评估被禁用。启用
评估,使用显示器(参见“设置EN50160评估”
第30页)。
2.选择系统的标称电压。
EN50160标准定义了低压的标称电压
系统应为230V,三线系统为线对线或230V
4线系统的线对中性点。因此,默认值为
标称电压为230。如果应用为中压
系统,或者如果您希望评估基于其他一些
标称电压,您可以使用显示器配置此值
只有SMS不允许配置标称电压
3.更改系统的标称频率,如果:
评估50Hz系统。
EN50160标准将标称频率定义为50 Hz,但
PM850和PM870还可以评估60Hz系统。它
无法评估400 Hz系统的标称频率。这个
PM850和PM870的默认标称频率为60 Hz。
要更改默认值,请从显示主菜单中选择设置
>仪表>频率。从SMS软件,请参阅联机帮助
文件
4.重置EN50160统计数据。
a、 将9999写入寄存器8001。
b、 写11100
Register 3 (Range 1)/Register
11 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Frequency
Bit 01 – Va
Bit 02 – Vb
Bit 03 – Vc
Bit 04 – Not used
Bit 05 – Not used
Bit 06 – Not used
Bit 07 – Voltage Unbalance
Bit 08 – THD Va
Bit 09 – THD Vb
Bit 10 – THD Vc
Bit 11 – Va H2
Bit 12 – Va H3
Bit 13 – Va H4
Bit 14 – Va H5
Bit 15 – Va H6
Register 4 (Range 1)/Register
12 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Va H7
Bit 01 – Va H8
Bit 02 – Va H9
Bit 03 – Va H10
Bit 04 – Va H11
Bit 05 – Va H12
Bit 06 – Va H13
Bit 07 – Va H14
Bit 08 – Va H15
Bit 09 – Va H16
Bit 10 – Va H17
Bit 11 – Va H18
Bit 12 – Va H19
Bit 13 – Va H20
Bit 14 – Va H21
Bit 15 – Va H22
Table C–5: Portal Register Descriptions
Portal Description Size Data
© 2006 Schneider Electric All Rights Reserved
PowerLogic® Series 800 Power Meter 63230-500-22***1
Appendix C—EN50160 Evaluation 6/2006
238
Register 5 (Range 1)/Register
13 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Va H23
Bit 01 – Va H24
Bit 02 – Va H25
Bit 03 – Vb H2
Bit 04 – Vb H3
Bit 05 – Vb H4
Bit 06 – Vb H5
Bit 07 – Vb H6
Bit 08 – Vb H7
Bit 09 – Vb H8
Bit 10 – Vb H9
Bit 11 – Vb H10
Bit 12 – Vb H11
Bit 13 – Vb H12
Bit 14 – Vb H13
Bit 15 – Vb H14
Register 6 (Range 1)/Register
14 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Vb H15
Bit 01 – Vb H16
Bit 02 – Vb H17
Bit 03 – Vb H18
Bit 04 – Vb H19
Bit 05 – Vb H20
Bit 06 – Vb H21
Bit 07 – Vb H22
Bit 08 – Vb H23
Bit 09 – Vb H24
Bit 10 – Vb H25
Bit 11 – Vc H2
Bit 12 – Vc H3
Bit 13 – Vc H4
Bit 14 – Vc H5
Bit 15 – Vc H6
Table C–5: Portal Register Descriptions
Portal Description Size Data
© 2006 Schneider Electric All Rights Reserved
63230-500-22***1 PowerLogic® Series 800 Power Meter
6/2006 Appendix C—EN50160 Evaluation
239
Register 7 (Range 1)/Register
15 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Vc H7
Bit 01 – Vc H8
Bit 02 – Vc H9
Bit 03 – Vc H10
Bit 04 – Vc H11
Bit 05 – Vc H12
Bit 06 – Vc H13
Bit 07 – Vc H14
Bit 08 – Vc H15
Bit 09 – Vc H16
Bit 10 – Vc H17
Bit 11 – Vc H18
Bit 12 – Vc H19
Bit 13 – Vc H20
Bit 14 – Vc H21
Bit 15 – Vc H22
Register 8 (Range 1)/Register
16 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Vc H23
Bit 01 – Vc H24
Bit 02 – Vc H25
Bit 03 – V 3PH
Bit 04 – KW 3PH
Bit 05 – KVAR 3PH
Bit 06 – Ia
Bit 07 – Ib
Bit 08 – Ic
Bit 09 – Ia H3
Bit 10 – Ib H3
Bit 11 – Ic H3
Bit 12 – Ia H5
Bit 13 – Ib H5
Bit 14 – Ic H5
Bit 15 – Ia H7
Table C–5: Portal Register Descriptions
Portal Description Size Data
© 2006 Schneider Electric All Rights Reserved
PowerLogic® Series 800 Power Meter 63230-500-22***1
Appendix C—EN50160 Evaluation 6/2006
240
Register 9 (Range 1)/Register
17 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Ib H7
Bit 01 – Ic H7
Bit 02 – Ia H9
Bit 03 – Ib H9
Bit 04 – Ic H9
Bit 05 – Ia H11
Bit 06 – Ib H11
Bit 07 – Ic H11
Bit 08 – Ia H13
Bit 09 – Ib H13
Bit 10 – Ic H13
Bit 11 – Reserved
Bit 12 – Reserved
Bit 13 – Reserved
Bit 14 – Reserved
Bit 15 – Reserved
Register 10 (Range 1)/Register
18 (Range 2) – Bitmap of
evaluation status of individual
evaluations
Bit 00 – Reserved
Bit 01 – Reserved
Bit 02 – Reserved
Bit 03 – Reserved
Bit 04 – Reserved
Bit 05 – Reserved
Bit 06 – Reserved
Bit 07 – Reserved
Bit 08 – Not used
Bit 09 – Not used
Bit 10 – Not used
Bit 11 – Not used
Bit 12 – Not used
Bit 13 – Not used
Bit 14 – Not used
Bit 15 – Not used
Table C–5: Portal Register Descriptions
Portal Description Size Data
© 2006 Schneider Electric All Rights Reserved
63230-500-22***1 PowerLogic® Series 800 Power Meter
6/2006 Appendix C—EN50160 Evaluation
241
Setting Up EN50160 Evaluation from the Display
To set up the EN50160 evaluation in the power meter, you need to
perform these steps:
1. Enable the EN50160 evaluation.
By default, the EN50160 evaluation is disabled. To enable the
evaluation, use the display (see “Set Up the EN50160 Evaluation”
on page 30).
2. Select the nominal voltage of your system.
The EN50160 standard defines nominal voltage for low-voltage
systems to be 230V line-to-line for 3-wire systems or 230V
line-to-neutral for 4-wire systems. Therefore, the default value for
Nominal Voltage is 230. If the application is a medium-voltage
system or if you want the evaluations to be based on some other
nominal voltage, you can configure this value using the display
only. SMS does not allow configuration of nominal voltage
3. Change the nominal frequency of your system if you are
evaluating a 50 Hz system.
The EN50160 standard defines nominal frequency as 50 Hz, but
the PM850 and the PM870 can also evaluate 60 Hz systems. It
cannot evaluate nominal frequency for 400 Hz systems. The
default nominal frequency in the PM850 and the PM870 is 60 Hz.
To change the default, from the display Main Menu, select Setup
> Meter > Frequency. From SMS software, see the online help
file.
4. Reset the EN50160 Statistics.
a. Write 9999 in register 8001.
b. Write 11100 in register 8000.
Refer to “Resetting Statistics” on page 230.
© 2006 Schneider Electric All Rights Reserved
PowerLogic® Series 800 Power Meter 63230-500-22***1
Appendix C—EN50160 Evaluation 6/2006
242
© 2006 Schneider Electric All Rights Reserved
63230-500-22***1 PowerLogic® Series 800 Power Meter
6/2006 Appendix D—Glossary
243
APPENDIX D—GLOSSARY
Terms
accumulated energy—energy can
accumulates in either signed or unsigned
(absolute) mode. In signed mode, the
direction of power flow is considered and
the accumulated energy magnitude may
increase and decrease. In absolute mode,
energy accumulates as a positive
regardless of the power flow direction.
active alarm – an alarm that has been set
up to trigger, when certain conditions are
met, the execution of a task or notification.
An icon in the upper-right corner of the
meter indicates that an alarm is active (!).
See also enabled alarm and disabled
alarm.
baud rate—specifies how fast data is
transmitted across a network port.
block interval demand— power demand
calculation method for a block of time and
includes three ways to apply calculating to
that block of time using the sliding block,
fixed block, or rolling block method.
communications link—a chain of
devices connected by a communications
cable to a communications port.
current transformer (CT)—current
transformer for current inputs.
demand—average value of a quantity,
such as power, over a specified interval of
time.
device address—defines where the
power meter resides in the power
monitoring system.
disabled alarm – an alarm which has
been configured but which is currently
“turned off”; i.e, the alarm will not execute
its associated task even when its
conditions are met. See also enabled
alarm and active alarm.
enabled alarm – an alarm that has been
configured and “turned on” and will
execute its associated task when its
conditions are met. See also disabled
alarm and active alarm.
event—the occurrence of an alarm
condition, such as Undervoltage Phase A,
configured in the power meter.
firmware—operating system within the
power meter
fixed block—an interval selected from 1
to 60 minutes (in 1-minute increments).
The power meter calculates and updates
the demand at the end of each interval.
float—a 32-bit floating point value
returned by a register (see Appendix A—
Power Meter Register List on page 121).
The upper 16-bits are in the lowestnumbered register pair. For example, in
the register 4010/11, 4010 contains the
upper 16-bits while 4011 contains the
lower 16-bits.
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