libra meter meter buddy handbook
TRANSCRIPT
Libra Meter –
MeterBuddy2 Handbook
ANSI_3C
MeterBuddy 2.2, The Program Tool of Libra Meter, obey
ANSI C12.18-1996 and C12.19-1997
Greta Song
2012-8-10
ANSI Meter Team, Greta Song Secret close No. CSDL-AMD-SN-022
ANSI_3C Libra Meter – MeterBuddy2 Handbook
Issue/Rev. 2.85 Date 08/10/2012
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The information contained in this document is subject to change without notice.
WASION makes no warranty of any kind with regard to this material, including, but
not limited to, the implied warranties of merchantability and fitness for a particular
purpose. WASION will not be liable for errors contained herein or incidental
consequential damages in connection with the furnishing, performance, or use of
this material.
This document contains proprietary information that is protected by copyright. All
rights are reserved. No part of this document may be photocopied or otherwise
reproduced without consent of WASION.
Copyright© 2007-2012 by WASION
Published in a limited copyright sense, and all rights, including trade secrets are
reserved.
Document Edition – First 11/2007, Last 8/2012
Oversea D&R Department
Wasion GroupLimited
Hunan Province, China
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TABLE OF CONTENTS
1.0 Foreword ............................................................................................................... 5
2.0 Reference Documents ...................................................................................... 5
3.0 Requirement ........................................................................................................ 5
4.0 Software Setup .................................................................................................... 5
5.0 Operate guidline ................................................................................................ 7
5.1 Main Window Menu ................................................................................................... 8
5.2 Toolbar........................................................................................................................... 9
5.3 Connect MeterBuddy to Meter ............................................................................ 10
5.4 Editor Window ........................................................................................................... 14 5.4.1 Editor Window Menu .......................................................................................................................................... 15 5.4.2 Meter Image file .................................................................................................................................................. 15
5.5 Meter Window ........................................................................................................... 17 5.5.1 Meter Window Right Button Popup Menu .................................................................................................... 17 5.5.2 Read and Program Meter .................................................................................................................................. 19 5.5.3 Vector Diagram ................................................................................................................................................... 20
5.6 Date and Time Dialog ............................................................................................ 21
5.7 Input Meter Identification .................................................................................... 22
5.8 About MeterBuddy Dialog .................................................................................... 23
6.0 Program Libra-3 Meter .................................................................................. 23
6.1 Meter Info ................................................................................................................... 24
6.2 Nameplate ................................................................................................................... 25
6.3 Parameters ................................................................................................................. 28
6.4 Calibration .................................................................................................................. 28
6.5 Demand ....................................................................................................................... 29 6.5.1 NORMAL MODE .................................................................................................................................................... 29
6.5.1.1 Demand setting parameters. ............................................................................................................................... 29 6.5.1.2 Program Parameters to meter .............................................................................................................................. 30 6.5.1.3 Read Current Register Data about Demand ......................................................................................................... 30
6.5.2 TEST MODE ........................................................................................................................................................... 31 6.5.3 DEMAND RESET ................................................................................................................................................... 31
6.5.3.1 Demand Reset mode .......................................................................................................................................... 31 6.5.3.2 Read Previous Demand Reset Data .................................................................................................................... 32
6.6 Security Control ....................................................................................................... 33
6.7 LCD Menu .................................................................................................................... 33 6.7.1 Read current LCD Display Control ................................................................................................................. 35 6.7.2 Setting new LCD Display Parameter .............................................................................................................. 35 6.7.3 Read the programmable value ........................................................................................................................ 37 6.7.4 Displayable Data and It’s Menu ID ................................................................................................................. 37
7.0 Time Of Use ....................................................................................................... 37
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7.1.1 Overview ................................................................................................................................................................ 37 7.1.2 Enable TOU control ............................................................................................................................................ 40 7.1.3 Change Season & SCHEDULE according to ID_MATRIX. .......................................................................... 40
7.1.3.1 Change Season .................................................................................................................................................... 40 7.1.3.1.1 Non-Recurring Calendar ................................................................................................................................ 40 7.1.3.1.2 Fixed-Recurring Calendar .............................................................................................................................. 41
7.1.3.2 SCHEDULE according to ID_MATRIX. ........................................................................................................... 42 7.1.3.2.1 Search ID_MATRIX with Season & Day_Type......................................................................................... 42 7.1.3.2.2 Set SCHEDULE Tier with D_MATRIX ...................................................................................................... 42
7.1.3.3 Setting Notes ....................................................................................................................................................... 43 7.1.4 Read Real Time Clock ........................................................................................................................................ 44
8.0 Test Mode ........................................................................................................... 44
9.0 History & Event Logs...................................................................................... 45 9.1.1 Event LogsControl ............................................................................................................................................. 45
9.1.1.1 Event logs Enable ............................................................................................................................................... 45 9.1.1.2 Event Types ........................................................................................................................................................ 46 9.1.1.3 The threshold setting ........................................................................................................................................... 47
9.1.2 Read Event Data .................................................................................................................................................. 48 9.1.2.1 Config Monitored Events .................................................................................................................................... 48 9.1.2.2 Read Event logs record ...................................................................................................................................... 48
10.0 Load Profile ........................................................................................................ 49
10.1 Operation block diagram .................................................................................. 50
10.2 LP Settings Parameters ...................................................................................... 51
10.3 Program Parameters to meter ........................................................................ 51
10.4 Reset LP Data ......................................................................................................... 52
10.5 Re-start LP Data ................................................................................................... 53
10.6 Read LP Data ......................................................................................................... 53 10.6.1 Set LP Data Source............................................................................................................................................. 53 10.6.2 LP Data Source default ...................................................................................................................................... 54 10.6.3 Manufacturer Specific LP Data Source Tables ............................................................................................. 56 10.6.4 Read Daily LP Data ............................................................................................................................................ 58 10.6.5 Daily LP Data Bar-diagram ............................................................................................................................... 59
Appendix :Error Functional cod Specifications .......................................... 60
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1.0 Foreword
MeterBuddy 2.2, The Program Tool of Libra Meter, obey ANSI C12.18-1996 ,C12.19-
1997 .
The software is used to debug, test, read and program the Libra Meter. This is a full
version which includes all function. When it is provided to end-user, we will publish
a simple version which incluses basic function.
This document applies to the implementation of an ANSI C12.19 Standard Sub Set
inLIBRA_WASION _Meter AMR Test tool - MeterBuddy.
(LIBRA_WASION_Meter is an upgrade version of the Libra Meter, Designed for LIBRA
IEC Meter Project, so the MeterBuddy can be used to Test LibraI , LibraII and Libra III)
2.0 Reference Documents
Proposed AEIC Guidelines for implementation of ANSI, C12.19-1997, C12.18-
1996
ANSI C12-19-1997 American National standard Utility Industry End Device Data
Table.
Refer to “LIBRAMeter C12.19 Implementation Specification.doc”
Refer to “LIBRAMeter Handbook.doc”
3.0 Requirement
Operation System:
Windows Xp SP2, Win7 or newer version
Hardware Requirements and Version:
Computer: Pentium (PC586) or better
Memory: 32M at least.
Hard disk: 100M
CD ROM: 1
17-inch color CRT or LCD: 1, 1024*768dpi
Printer: 1(no requirements for the type)
Interface: Two RS232 at least.
4.0 Software Setup
1, Click the “Setup for MeterBuddy.exe” icon to startup.
2, Select installation folder, then click Next to continue.
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3, Click [Finish] to exit the installer.
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9, On your desktop, there are one new icon:
MeterBuddy, Libra AMR tools.
5.0 Operate guidline
When the software startup firstly, it will spend some time to load all module into RAM.
Figure 5.1 is the main window of MeterBuddy. This is a muti-window software,
MeterBuddy has 2 sub windows:
1)Editor Window : Edit the program file.
2)Communication Window: Connect to meter via optical port.
The tool is designed as a classical windows software.
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Figure 5.1, The main window of MeterBuddy
5.1 Main Window Menu
[Editor] Open program Editor window.
[Start Communication] Startup communication with meter.
Menu
Toolbar
Multi window
Status Bar
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[Stop Communication] Stop communication with meter.
[Exit] Exit MeterBuddy
Click [Start Communication] will open Communication dialog.
This dialog is used to set the communication parameters.
Figure 5.2, The dialog of communication parameters
After you complete the parameter setting and password inputing, Click [Start
Communication] button to continue.
The menu [Meter] will be enabled.
[Meter] Open a meter image file and connect, then open Meter Window.
Help and about dialog.
5.2 Toolbar
The toolbar list some shortcut key of menu. Refer to 5.1 Section.
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5.3 Connect MeterBuddy to Meter
MeterBuddy is a software tool developped for general debugging, meter reading and
configuration of the meter through far IR comm port of meter as well as UART port
of AMR module, see the figure below.
Refer to “LIBRA_WASION_Meter Handbook.doc”, use the Wasion Multi-Function
Communicate Cable (Type: WH109-1) to Link MeterBuddy and Meter.
MeterBuddy RS232-TTLMeter
RS232-Optical Port
Optical Port
UART Port
Figure 5.3, Link Diagram
Click [Start Communication] will open Communication dialog.
This dialog is used to select communication type and set the communication
parameters.
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Click [Settings…] to open extend settings view below:
Figure 5.4, Setting dialog of Optical Communication
Click [TCPIP Setting | Discoverer] to open TCPIP discoverer extend view below:
In the extend view, click [Discover] button to discover sub-net and list all of the
device.
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Figure 5.5, Setting dialog of TCP/IP
If you select [Zigbee] mode and [Ethernet+Zigbee] checkbox, Click [TCPIP Setting |
Discoverer] to open TCPIP discoverer extend view below:
Figure 5.6,Setting dialog of Zigbee
In the extend view, click [Discover] button to discover sub-net (include Zigbee Mesh
network) and list all of the device.
When the [Discover] button is clicked, this application will transmit a broadcast UDP
packet containing the message –“Discovery: Who is out there?” on the local network
to port 30303. Any Libra meters which include LibraDigiEth module and connect to
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the network, they will respond with a UDP packet containing their host name and
MAC address.
Double click a IP Address then copy it to IP input box. Caution: this function can
only discover the Libra device in the same subnet of computer.
Click [Read Meter ID] button to read the meter’s Identification according to the IP
Address.
After you complete the parameter setting and password inputing, Click [Start]
button to continue.
The menu [Meter] will be enabled.
Because the BaudRate of two kinds of ports are different, so you should make some
changes as below.
1) Remote or Local IR
2) PLC Port (UART port of AMR/AMI module)
Other Settings:
Libra-1,3 seris can only support Local Optical Port, Libra-2 seris can support
both Local and Remote Optical port. You should select the optical type before
you connect MeterBuddy to meter.
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When you use Remote Optical Port or RS485 connect to meter, you should set
the meters Address here.
The Address is the last two digits of the meter ID which is printed on the
Nameplate of meter.
When you connect to a meter (include LibraDigiEth card) via Ethernet (or Ethernet
+ Zigbee Mesh Network), you should input the meter’s IP Address and TCP port.
ANSI C12.18-1996, Type2 Optical Port standard. The protocol is used for Local
or Remote optical port, and can be used for Ethernet communication too when
LibraDigiEth works as a Ethernet Extender.
ANSI C12.22-2007, Network Data Communication Protocol.
5.4 Editor Window
This window is used to edit the program files which can be download to meter in
Meter Window.
Click the Main Window Menu [File | Editor] to open the Editor Window.
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Figure 5.7, Editor Window
5.4.1 Editor Window Menu
[Open]Open the file and edit.
[Save as…] Save the file as other name.
[Close] Close Editor Window.
5.4.2 Meter Image file
After click the [Meter] menu, Automatic testing will execute orderly: Reading Meter
Type, Reading Meter ID,Reading FORM,Reading Hardware Version,Reading Firmware
Version.
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When Reading Status table, Open image file dialog will display.
The image file name format: Type + Version .txt. e.g: Libra-3cV1.0 FW2.0.txt.
Note:select“Libra-3cV1.0 FW2.0.txt”for Ecuador
Caution:
1) Please confirm the type is same with the meter which you want to connect.
2) You can use Notepad or similar application to re-edit them base on the
document “Libra meter c12.19 implementation”.
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3) The file can be used to save the datas which are read from meter. Please use
“Save as …” command.
5.5 Meter Window
Click the Main Window Menu [Meter] to switch or open the Meter Window. Refer to
“LIBRAMeter Handbook.doc”.
Meter Window supports to edit parameters, read meter and program meter.
Figure 5.8, Meter Window
5.5.1 Meter Window Right Button Popup Menu
Click Right Button on Root, then active a popup menu, click [Read Current Decade].
Basic Information
Decade
Table
Caution and Error
Meter Window
Cell
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Click Right Button on Node, then active a popup menu, click [Read Current Table].
Click Right Button on Cell, then active a popup menu, click [Read Current Cell].
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5.5.2 Read and Program Meter
At the Meter Window, you can Read or Program a Meter with Cell, Table Decade or
All Tables.
The above figure is an example of Libra-3 meter.
Current Cell is [Libra-3cV1.0 | Program | Meter Info | Meter ID | Current Settings].
Current Table is [Libra-3c V1.0 | Program | Meter Info].
Current Decade is [Libra-3c V1.0 | Program].
All Tables is [Libra-3c V1.0].
Double click a Cell, if the the Cell is writable, there will be a textbox to receive your
typewriting.
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Change the value then Click Enter Keyboad to confirm. And send [Program Current
Cell] to download the value to meter immediately.
You can use the menu [File | Save as…] to save the image file to harddisk, then use
the menu [File | Open] to read back.if you want to program several meters on
different computer, this feathure is very useful.
Use the same method, you can read parameters from one meter, then program the
same parameters to other meter.
5.5.3 Vector Diagram (Only for Libra-3 Polyphase type)
Click the menu [Tool | Vector Diagram] to open the Vector Diagram window.
Then Click Menu [Read | Start Timer Reading] to click refresh automatically.
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You can read [Instantaneous Data] and Vector Diagram synchronous.
Click [Yes] to read synchronous.
5.6 Date and Time Dialog
Click the menu [Program| Date and Time] or the toolbar [Date] to open
the Date and Time dialog. User can use the dialog to modify the date of meter.
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Figure 5.9, Date and Time Dialog
5.7 Input Meter Identification
Click the toolbar [Ident] to open the dialog.
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Figure 5.10, ID Dialog
An identical way :Click menu [Program| Meter ID ] to open the dialog.
5.8 About MeterBuddy Dialog
Click the toolbar [Help] to open the dialog.
Figure 5.11 About Dialog
6.0 Program Libra-3 Meter
MeterBuddy supports to program meter such as LCD Menu, Meter Info, Demand,
TOU etc.This chapter takes several examples to discribe that how to program a
meter.
At the Meter Window, there is a node which named as “Program” at the treeview.
Click the node to expande, then there are several tables for program a meter.
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Note: the below is the example of Libra-3cV1.0 type meter. The operation method is
samed on other types.
6.1 Meter Info
Meter Information table [Table 01 – General Manufacturer Identification] dictated by
ANSI C12.19.
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6.2 Nameplate
Meter Nameplate table[Table 02 - Device Nameplate] dictated by ANSI C12.19.
Note: the setting values on “Elements” and “Volts” obey ANSI C12.19-2008.Following
chapter describe Data parsing details .
Elements:
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Volts:
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6.3 Parameters
Parts of Meter running parameters table[Table 03 – Meter Parameters Table]
dictated by ANSI C12.19.
6.4 Calibration
This table is used to calibrate meter, don’t change without Wasion permission.
Parts of Meter calibration parameters table. This table is used to calibrate the meter.
[Table 06 – Utility information Table] dictated by ANSI C12.19.
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6.5 Demand
Demand operation includes setting parameter, reading Demand data and Deman-
reset which can be executed in Normal Mode or Test Mode.
Demand data is transported in the format dictated by ANSI C12.19.
Meter can be measured maximum active demand and date and time of EVENT,
Cumulative demand, maximum demand of 4 rates and data and time, sub-
interval time, etc.
Demand data support rewritable
The meter can be recalculated in accordance with the new set of parameters
automatically
Demand and the clock synchronization
6.5.1 NORMAL MODE
6.5.1.1 Demand setting parameters.
This table is used to set demand working parameters. The meaning of parameter
dictated by ANSI C12.19 Table 13- Demand Control Table. Demand Control, is used
to specify information affecting demand, such as interval size, reset exclusion, etc.
Notes: If no special requirements , the above four parameters, generally do not need
to set. If the meter to detect the error about parameters of the demand , it will
initialize the parameters to default values. the default value is 0.
Sub_Int, for Sliding demand, the value of minutes in the sub-interval. The value
is set from 1 to 15.
Int_Multiplier, for Sliding demand, minutes of multiplier.
Valid Demand Interval Length/Interval Multiplier Combinations
The valid interval lengths appear in the first column; interval multipliers are
listed across the top row. The intersection of any row/column will show a valid
subinterval size or '√' to indicate that the combination is supported.
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1 2 3 4 5 6 10 15 20 30 60
1(block demand) √ √ √ √ √ √ √ √ √ √ √
2 √ √ √ √ √ √ √ √
3 √ √ √ √ √ √
4 √ √ √ √
5 √ √ √ √
6 √ √ √ √
10 √ √ √ √
12 √ √
15 √ √ √
6.5.1.2 Program Parameters to meter
The reader/programmer inputs 1 to Interval Length value,then clock [Progam
Current Cell].
This dialog is used to indicate set successfully.
6.5.1.3 Read Current Register Data about Demand
After clock [Read Current Table],then the data is fllowing:
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This table is used to read [Current Register Data ]about Demand that can be
described in [Table 23 – Current Register Data] dictated by ANSI C12.19.
.
6.5.2 TEST MODE
Operation on Test mode of to be extended
6.5.3 DEMAND RESET
Meter record maximum demand automatically ,and Demand reset need be taken
automatically or manually to ensure measure demand correctly.
After Demand Reset completely, the number plus one automatically. If the
number exceeds 255 , the number value of demand reset will be restart at 0 to
ccumulate again.
Each of reset takes the amount of energy and demand data are automatically
saved .
6.5.3.1 Demand Reset mode
Demand Reset can be romote, local and TOU. Execution will be described as follows:
Local, Long keys demand reset button more than 3s , LCD full screen flash once , the demand will be reset .
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Romote, demand reset cab be executed by MeterBuddy.
Clock[Y],demand reset will occur.This dialog is used to indicate reset successfully.
The value[Number of Demand Rsets] of Current Register Data will plus one.
TOU , TOU settings can make the demand reset automatically which occurs at a
specific time ..
6.5.3.2 Read Previous Demand Reset Data
If the NBR_DEMAND_RESETS field in Table 23 is 0, the data in this table is not valid.
Data in this table is a snapshot of the current data table (Table 23) at the time of the
demand reset, with the exception of the CUM_DEMAND and rate data, which is
updated before the data is saved. Data items is samed with [Current Register Data ]
The form of [Previous Demand Reset Data] refer to [Table 25- Previous Demand
Reset Data Table] dictated by ANSI C12.19.
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6.6 Security Control
This table is used to set password of meter, only Master can set password. [Table 08
– Security Table] dictated by ANSI C12.19.
Note:This table can be edited-only with password, ReadDecade, ReadTable and
ReadCell are disable.
6.7 LCD Menu
Libra3C support display control , display source index and display table dictated in
ANSIC1219. Libra-3 meter can support 64 items of LCD display Screen. Libra-3
meter can support 78 ID.
Display mode , Display order ,Display format can be set separately . Which all
support the display format of the following form:
Alpha Display (MENU ID) DISP_FORMAT
Character Code Number (ASC II
Equivalent) Value Description Value Description
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fig All are support
(0 – 9)
0x01 Scale by 0.01
Format by xxxxx.x
0x10 Scale by 1
Format by xxxxxx
Capital All are support
(ABCD……XYZ)
0x02 Scale by 0.01
Format by xxxx.xx
0x11 Scale by 10
Format by xxxxx.x
lowercase Only support
a,b,c
0x03 Scale by 0.001
Format by xxxxxx
0x12 Date: YY MM DD
0x04 Scale by 1
Format by xxx.xxx 0x13
Time: HH MM SS
0x05 Scale by 10
Format by xxxxxx 0x14
Meter id : Char[6]
0x06 Scale by 1
Format by xxxx.xx 0x15
Time: HH MM
0x16 Date: MM DD YY
0x17 Date: DD MM YY
0xFF Means Format be
fixed
[Tables 30 & 31- Dimension Limiting & Actual Display ] give a detailed description on LCD display dictated in ANSI C 12.19.
[Table 32 – Display Source],This table contains manufacturer-defined display
sources. The size of this table is limited by memory availability; therefore, it
must be programmed with the subset (maximum of 64 sources) of display
sources actually referenced in Table 33, rather than the complete set of defined
sources.
Notes: See Chapter 6.7.3 of ’Libra3C handbook.doc’ for a complete list of items
available for display (MENU_ID).
LCD Menu can be programmed by Meterbuddy, there are 2 tables which are used for
display program duty.
LCD Display
LCD Display Control
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6.7.1 Read current LCD Display Control
This table is used to define 3 display modes of LCD.
Normal Mode
ALT Mode
Test Mode
Refer to “Libra-3cV1.0 Mutifunction Meter Handbook.pdf” chapter 2.3.2.
On Time (Sec), LCD on time is programmabel in Libra-3.
Number of Screen, display the number of screen corresponding to different
modes. The value is current actual number of screen in meter.
6.7.2 Setting new LCD Display Parameter
LCD Display Screen, LCD on time is programmabel in Libra-3. the prameter is
used to set the number of screen with each display mode, which will define the
mode position of Primary Display List Table.
ID, Refer to “Libra-3cV1.0 Mutifunction Meter Handbook.pdf” chapter 2.3.4.
Items,Refer to “Libra-3cV1.0 Mutifunction Meter Handbook.pdf” chapter 2.3.4.
Format, It is used to define the display format of quantity.
Mode, Normal Mode,Alternate Mode,Test Mode can be set one by one. Either of
the two modes which are Normal Mode and Alternate Mode must be given.
For example,user need to set 3 screens of Normal Mode, 5 screens of Alternate
Mode, And 2 screens of Test Mode. All Form are [03].Values of ID &Items are be
from 0 to 12.
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After set successfully, the imageis used to program the setting value download
to meter.
Notes: the 64 -screen all to be compiled Only when program ‘Mode’to meter.
The dialog is to describe program successfully.
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6.7.3 Read the programmable value
The image can be given the information about progamable parameter.
6.7.4 Displayable Data and It’s Menu ID
Note: The selection and delay value are the default setting in factory.
The table gives parts of Display Data. The remaining data refer to the
manual’Libra3C handbook.doc’.
7.0 Time Of Use
7.1.1 Overview
MeterBuddy supports to program Time Of Use(TOU), such as Real Time Clock,TOU
Control,Non-Recurring Calendar, Fixed-Recurring Calendar and Schedule. This
chapter takes several examples to discribe that how to program TOU.
The maximum total number of dates supported is 32, distributed between
recurring and non-recurring dates as desired. The meter require that the dates
be sorted(Small to large)
Tier switches must be sorted. Tiers must be grouped by daily schedule ID's and
sorted by time within each ID group.
TOU support maximum : 8 non-recurring dates, 32 recurring dates, 64 tier
switches( each DAILY_SCHEDULE_ID_MATRIX include 4 schedule tiers ),4
changed seasons, 4 day-type, 1 special schedule, 4 schedule
tiers(PEAK,BASE,REDUCE,VALLEY).
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Season changed can be permitted one time per day ,and data in accordance
with changed season save automatically.
This table [Table 50- Dimension Time of Use Table]will only be present when
the meter is in TOU or Demand/LP mode.
Field Name Description Size/Units Value Default Progr’m’ble Readable
TIME_FUNC_FLAG1
TOU_SELF_READ_FLAG Indicates whether
device is using TOU-
triggered self-reads.
(0 = False, 1 = True)
1 bit 1 1 No Yes
SEASON_SELF_READ_FLAG Indicates whether
device is performing
a self-read at season
change. (0 = False, 1
= True)
1 bit 0 or 1 0 Yes Yes
SEASON_DEMAND_RESET_FLA
G
Indicates whether
device is performing
an automatic
demand reset at
season change. (0 =
False, 1 = True)
1 bit 0 or 1 0 Yes Yes
SEASON_CHNG_ARMED_FLAG Indicates whether
device is configured
to arm season
changes, which then
occur on the next
demand reset. (0 =
False, 1 = True)
1 bit 0 0 No Yes
SORT_DATES_FLAG Indicates whether
device presorting of
non-recurring dates
has been done. (0 =
False, 1 = True)
1 bit 0 0 No Yes
ANCHOR_DATE_FLAG Indicates whether
device is using
anchor dates. (0 =
False, 1 = True)
1 bit 0 0 No Yes
FILLER 2 bits 0 0 No Yes
TIME_FUNC_FLAG2
CAP_DST_AUTO_FLAG Indicates whether
device is handling
daylight savings time
changes
independent of dates
1 bit 0 0 No Yes
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supplied in the
CALENDAR_TBL. (0
= False, 1 = True)
SEPARATE_WEEKDAYS_FLAG Indicates whether
device is supporting
a different schedule
for each of the 5
weekdays. (0 =
False, 1 = True)
1 bit 0 0 No Yes
SEPARATE_SUM_DEMANDS_F
LAG
Indicates if device is
of switching
summation and
demands
independently. (0 =
False, 1 = True)
1 bit 0 0 No Yes
SORT_TIER_SWITCHES_FLAG Indicates if device
requires tier switches
to be presorted. (0 =
False, 1 = True)
1 bit 1 1 No Yes
CAP_TM_ZN_OFFSET_FLAG Indicates whether
device supports time
zone offsets. (0 =
False, 1 = True)
1 bit 0 0 No Yes
FILLER 3 bits 0 0 No Yes
CALENDAR_BFLD
NBR_SEASONS Number of seasons
in use in the device.
4 bits 4 4 No Yes
NBR_SPECIAL_SCHED Number of special
schedules in use in
the device.
4 bits 1 1 No Yes
NBR_NON_RECURR_DATES Number of non-
recurring dates in
use in the device.
1 byte 8 8 No Yes
NBR_RECURR_DATES Number of recurring
dates in use in the
device.
1 byte 32 32 No Yes
NBR_TIER_SWITCHES Number of tier
switches in use in
the device.
2 bytes 64 64 Yes
CALENDAR_TBL_SIZE Size in bytes of the
CALENDAR_TBL
(Table 54)
2 bytes 328
max
- No Yes
TOTAL SIZE 9 bytes 2 bytes -
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7.1.2 Enable TOU control
The Table give parameters to enable TOU control. Other parameters can be
referred [Table 51- Actual Time of Use Table].
Field Name Description Size/Units Value Default Progr’m’ble Readable
TIME_FUNC_FLAG1
TOU_SELF_READ_FLAG Indicates whether
device is using TOU-
triggered self-reads.
(0 = False, 1 = True)
1 bit 1 1 No Yes
SEASON_SELF_READ_FLAG Indicates whether
device is performing
a self-read at season
change. (0 = False,
1 = True)
1 bit 0 or 1 0 Yes Yes
SEASON_DEMAND_RESET_FL
AG
Indicates whether
device is performing
an automatic
demand reset at
season change. (0 =
False, 1 = True)
1 bit 0 or 1 0 Yes Yes
This dialog in MeterBuddy2 is used to define TOU features of Libra meter.
7.1.3 Change Season & SCHEDULE according to ID_MATRIX.
After enable TOU Control, Setting parameters must be taken to ensure self-read
and demand-reset correctly connected to TOU.
7.1.3.1 Change Season
7.1.3.1.1 Non-Recurring Calendar
This dialog is used to change season with Non-Recurring Calendar working
parameters.
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Notes:The Date type dictated in ANSI C12.19 as follows:
7.1.3.1.2 Fixed-Recurring Calendar
This dialog is used to change season with Fixed-Recurring Calendar working
parameters.
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7.1.3.2 SCHEDULE according to ID_MATRIX.
7.1.3.2.1 Search ID_MATRIX with Season & Day_Type
If select 2012-09-03 to change season, set [Season1] on 2012-9-3, and search Day_type that be according to Calendar is[Monday] .
the value of DAILY_SCHEDULE_ID_MATRIX is [21].
Day_type Season
Season 1 Season 2 Season 3 Season 4
0 (Saturday) 01h 02h 03h 04h
1 (Sunday)
11h 12h 13h 14h
2 (Monday to Friday)
21h 22h 23h 24h
3 (holiday)
31h 32h 33h 34h
7.1.3.2.2 Set SCHEDULE Tier with D_MATRIX
Set 15:00 to self-read or/and demand reset.
So user can determine [hh-mm-tier-day_sch_cum] which correspond to
DAILY_SCHEDULE_ID_MATRIX[21].
This dialog is used to set Schedule tier switch working parameters.
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7.1.3.3 Setting Notes
1. TOU-refresh occur 5 seconds after each set time or TOU parameters
automatically , meter operate TOU based on the latest rate parameters .
2. If month is set to be 13 in Non-Recurring Calendar, The entry parameter is
invalid. And the following data in this entry data will not be identified.
3. If month is set to be 14 in Recurring Calendar, The entry parameter is invalid. And the following data in this entry data will not be identified.
4. If month is set to be 13 in Recurring Calendar, then each month will cycle at the
same method.
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5. If the date table coincide with schedule of rates ,meter will be set latter as the
criterion.for example, tier_switch[10] will be operated.
7.1.4 Read Real Time Clock
Meter Information table.
8.0 Test Mode
Libra-3 meter can support 3 display modes .
Normal Mode
ALT Mode
Test Mode
Test mode to test meter operation and site characteristics without effect on billing
quantities data.
This table is used to set working parameters of Test Mode.
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9.0 History & Event Logs
MeterBuddy supports to read History & Event Logs, such Power Down, Power Up,
Time Changed(old time), Time Changed(new time), Event log cleared,Demand Reset
Occurred,etc. This chapter takes several examples to discribe that how to operate
History & Event Logs.
Libra3C supported event can be individually set whether or not to save the
event _log , users can configure record the types of events according to their
needs.
Libra3C can take fault detection and save fault data automatically which help users to analyze .
To detect loss of voltage , phase loss , the reverse power such as the LCD will be the appropriate instructions . indication details, refer to ’Libra3c handbook.doc’ .
To save the data format dictated by ANSI C12.19
The fault detection threshold can be set with meterbuddy2 .
9.1.1 Event LogsControl
9.1.1.1 Event logs Enable
This table will be present only if the Event Log upgrade has been enabled. which can
be referred [Table 72- Events Identification Table]dictated by ANSI C12.19.
Field Name
Description
Size/
Units
Valu
e
Default
Prog
r’m’
ble
Readab
le
EVENTS_SUPPORTED_R
CD
STD_EVENTS_SUPPORT
ED[6]
Set variable
indicating
which standard
events are
supported.
One bit is
provided for
each standard
event (bit 0 =
6byte
s
0x000000 Yes Yes
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standard event
0, etc.) with 0
indicating that
the event is not
supported, 1
indicating the
event is
supported.
MFG_EVENTS_SUPPORT
ED[4]
Set variable
indicating
which
manufacturer
events are
supported.
One bit is
provided for
each
manufacturer
event. (0 = not
supported, 1 =
supported)
4
bytes
0x000000 Yes Yes
TOTAL SIZE 10byt
es
9.1.1.2 Event Types
The Event Logs can be referred AppendixB dictated by ANSI C12.19.
STD_EVENTS:
Event_index Event_type
01 PRIMARY_POWER_DOWN
02 PRIMARY_POWER_UP
03 TIME_CHANGED_OLD_1
04 TIME_CHANGED_NEW_1
18 EVENT_LOG_CLEARED
20 DEMAND_RESET_OCCURRED
32 TEST_MODE_STARTED
33 TEST_MODE_STOPPED
MFG_EVENTS:
Event_index Event_type
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07 OVER_VOLTAGE_START
08 LOW_VOLTAGE _START
09 OVER_CURRENT _START
16 OVER _VOLTAGE_STOP
17 LOW_VOLTAGE_STOP
18 OVER_CURRENT _STOP
19 LOSS_PHASE_START
20 LOSS_PHASE_STOP
21 MIN_POWER_FACTOR_START
22 MIN_POWER_FACTOR_STOP
23 REVERSE_POWER_START
24 REVERSE_POWER_STOP
25 CLEAR_DATA
26 COLD_START
27 WARM_START
28 CLEAR_SLEF_READ
29 RESET_LOAD_PROFILE
30 LOAD_PROFILE_START
31 LOAD_PROFILE_STOP
9.1.1.3 The threshold setting
This table is used to set threshold of Event_log. [Table 03 – Meter Parameters
Table] dictated by ANSI C12.19.
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9.1.2 Read Event Data
9.1.2.1 Config Monitored Events
This dialog is used to select Events that you want to monitor.
9.1.2.2 Read Event logs record
Libra-3 meter can support read previous and all of valid event records. This dialog
is used to set Event Log Status and how many items of Event records.
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This table is used to describe the date and trigger of Event Logs specification.
10.0 Load Profile
The reader/programmer will be able to initialize load profile memory or disable load
profile recording completely. On the Libra-3L meter the Load profile is stored on the
main board.
support 4MB Card which value can not be modified.
LP data is transported in the format dictated by ANSI C12.19.
Number of Data Blocks and Sectors can be set
Days in accordance with the order as a unit of data sub- blocks , each block
contains a block header and many sectors . The maximum number of sectors
can be set in which the block header contains a time data and a block read data
LP Data stores by the day , every day is stored as a data block. 0:00 daily
branch for block storage. The size of the data stored in each block is generated
automatically based on setting parameters .
The relationship between capacity and load profile interval length can be
calculated with Load Profile Data Set1 Table which can be referred Table 64
dictated by ANSI C12.19.
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Field Name Description Size/Units
Programa
ble
Readable
LP_DATA_SET1_RCD
LP_DATA_SETS1[NBR_BL
KS_SET1]
BLK_END_TIME End data/time of last interval in the
block.
5 bytes No Yes
END_READINGS[NBR_CHNS_S
ET1]
Array of readings taken at the end
time of the last interval in the block;
one reading per channel.
4bytes/chan No Yes
LP_INT[NBR_BLK_INTS_SET1]
INT_DATA[NBR_CHNS_SET1] Interval data. 2 bytes/chan No Yes
TOTAL SIZE **
** Table size must be computed based on NBR_BLKS_SET1, NBR_CHNS_SET1 and
NBR_BLK_INTS_SET1. Formula is
( ( ((NBR_CHNS_SET1 * 2)) * NBR_BLK_INTS_SET1) + 5 + 4(NBR_CHNS_SET1)) *
NBR_BLKS_SET1
Data Blocks not support rewritable, write operations can only be empty or
erased unit
Blocks should be cleared fistly when LP setting parameters program to meter
successfully, then LP Data can be read correctly
10.1 Operation block diagram
Block diagram describes the working process from written to read out.
END
Input setting parameter
YES
START
NO
Program Parameter to meter
Reset LP Data
YES
NO
Re-start LP Data
YES
NO
Read out LP Record
Set LP data source successfully
NO
YES
Read out LP data from meter
successfully
YES
NO
Export data as tables/FILE
Discribe as curve or
bar diagram
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10.2 LP Settings Parameters
This table is used to set Load Profile .
Memory Card Length(Bytes), Libra-3 meter support 4MB Card which value can
not be modified.
Number of Days, the value is calculated automatically .
Libra-3L meter optional recorder is capable of handling 42 days of 15 minute
load profile data on four channels with 32K or 42 days of 15-minute load profile
data on 15 channels with 128K bytes of memory. The number of days of
capacity is dependent upon the interval length duration and the number of
channels used.
Number of Intervals per day , max intervals based on interval length, the
value is calculated automatically .
Number of Channels, 1~16channels can be set.
Interval lengths , Load Profile interval lengths include, 1, 5, 15, 30 and 60
minutes. Each interval consists of two bytes.
The register records up to 15 channels of load profile data. The number of
channels is programmable. The available memory is distributed equally among
each channel.
10.3 Program Parameters to meter
The reader/programmer inputs 15 to Interval Length value,then clock [Progam
Current Cell].
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This dialog is used to indicate set successfully.
10.4 Reset LP Data
Reset LP Data to clear blocks that ensure write new data correctly
This dialog is used to whether or not to clear LP data
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After clock [Y], the LCD will display [CLR] for 15 seconds. When LCD display in
Normal Mode, clock [确定] in this dialog .
10.5 Re-start LP Data
This dialog is used to re-start LP data.
Clock[Y], wait for several seconds , Pop-up this dialog box to describe re-start
completely.
10.6 Read LP Data
10.6.1 Set LP Data Source
This dialog is used to set Load Profile Data Source.
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After set successfully, the table is used to describe Data Source specification which
include “Interval Data Source “and “End Read Data Source”.
10.6.2 LP Data Source default
The meter Maximum support 16 channels , source and scalars (1,100 or 1000) can
be individually set in each channel .
This table is the source for seting the INT_DATA and
END_BLOCK_READING_DATA.This Tabe is only for description. Can not be read
or programmed.
Size/Units of End Read Data Source is 4bytes/chan
Size/Units of Interval Data Source is 2bytes/chan, so scalars can be used to
Prevent from data overflow
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10.6.3 Manufacturer Specific LP Data Source Tables
Table 62 – LP Data Source Table can bedictated by ANSI C12.19.
Source
Index
End Read Data
Source information
NOTE
S
Source
Index
Interval Data
Source information
NOTES
0 Total active energy 54 Total active energy Only for Interval Data
Source
1 Active energy of
Phase A
55 Active energy of
Phase A
Only for Interval Data
Source
2 Active energy of
Phase B
56 Active energy of
Phase B
Only for Interval Data
Source
3 Active energy of
Phase C
57 Active energy of
Phase C
Only for Interval Data
Source
4 Total reactive energy 58 Total reactive
energy
Only for Interval Data
Source
5 Reactive energy of
Phase A
59 Reactive energy of
Phase A
Only for Interval Data
Source
6 Reactive energy of
Phase B
60 Reactive energy of
Phase B
Only for Interval Data
Source
7 Reactive energy of 61 Reactive energy of Only for Interval Data
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Phase C Phase C Source
8 Total Delivered active
energy
62 Total Delivered
active energy
Only for Interval Data
Source
9 Delivered active
energy of Phase A
63 Delivered active
energy of Phase A
Only for Interval Data
Source
10 Delivered active
energy of Phase B
64 Delivered active
energy of Phase B
Only for Interval Data
Source
11 Delivered active
energy of Phase C
65 Delivered active
energy of Phase C
Only for Interval Data
Source
12 Total Delivered
reactive energy
66 Total Delivered
reactive energy
Only for Interval Data
Source
13 Delivered reactive
energy of Phase A
67 Delivered reactive
energy of Phase A
Only for Interval Data
Source
14 Delivered reactive
energy of Phase B
68 Delivered reactive
energy of Phase B
Only for Interval Data
Source
15 Delivered reactive
energy of Phase C
69 Delivered reactive
energy of Phase C
Only for Interval Data
Source
16 Total apparent energy 70 Total apparent
energy
Only for Interval Data
Source
17 Apparent energy of
phase A
71 Apparent energy of
phase A
Only for Interval Data
Source
18 Apparent energy of
phase B
72 Apparent energy of
phase B
Only for Interval Data
Source
19 Apparent energy of
phase C
73 Apparent energy of
phase C
Only for Interval Data
Source
20 Total Reveiced active
energy
74 Total Reveiced
active energy
Only for Interval Data
Source
21 Reveiced active
energy of Phase A
75 Reveiced active
energy of Phase A
Only for Interval Data
Source
22 Reveiced active
energy of Phase B
76 Reveiced active
energy of Phase B
Only for Interval Data
Source
23 Reveiced active
energy of Phase C
77 Reveiced active
energy of Phase C
Only for Interval Data
Source
24 Total Reveiced
reactive energy
78 Total Reveiced
reactive energy
Only for Interval Data
Source
25 Reveiced reactive
energy of Phase A
79 Reveiced reactive
energy of Phase A
Only for Interval Data
Source
26 Reveiced reactive
energy of Phase B
80 Reveiced reactive
energy of Phase B
Only for Interval Data
Source
27 Reveiced reactive
energy of Phase C
81 Reveiced reactive
energy of Phase C
Only for Interval Data
Source
28 Total Active net
energy
82 Total Active net
energy
Only for Interval Data
Source
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29 Active net energy of
Phase A
83 Active net energy
of Phase A
Only for Interval Data
Source
30 Active net energy of
Phase B
84 Active net energy
of Phase B
Only for Interval Data
Source
31 Active net energy of
Phase C
85 Active net energy
of Phase C
Only for Interval Data
Source
32 Total Reactive net
energy
86 Total Reactive net
energy
Only for Interval Data
Source
33 Reactive net energy of
Phase A
87 Reactive net energy
of Phase A
Only for Interval Data
Source
34 Reactive net energy of
Phase B
88 Reactive net energy
of Phase B
Only for Interval Data
Source
35 Reactive net energy of
Phase C
89 Reactive net energy
of Phase C
Only for Interval Data
Source
36 Ua
37 Ub
38 Uc
39 Ia
40 Ib
41 Ic
42 Total active power
43 A active power
44 B active power
45 C active power
46 Total reactive power
47 A reactive power
48 B reactive power
49 C reactive power
50 A power fatcor
51 B power fatcor
52 C power fatcor
53 frequency
10.6.4 Read Daily LP Data
This table is used to describe LP Data which record the time of Daily Reading
Occurrence.
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10.6.5 Daily LP Data Bar-diagram
This chapter takes another example to discribe that how to handle Load Profile data
analysis and reporting. Export current table of LP Records and save as excel table.
The excel table can shown through curve or bar diagram obviously.
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Appendix :Error Functional cod Specifications
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