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Electrex x3m-D Installation Manual

Energy data manager and electric energy analyzer
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X3M-D
FLASH-D
Energy data manager
&
Electric Energy Analyzer
Installation Manual
Unless specifically itemized, this instructions manual is common
to both the instruments type X3M-D and Flash-D.
Version 5 dated June 20th 2005
(PRELIMINARY VERSION)
The document can be modified without prior information.
1

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Summary of Contents for Electrex x3m-D

  • Page 1 Energy data manager & Electric Energy Analyzer Installation Manual Unless specifically itemized, this instructions manual is common to both the instruments type X3M-D and Flash-D. Version 5 dated June 20th 2005 (PRELIMINARY VERSION) The document can be modified without prior information.

  • Page 2: Table Of Contents

    Voltage and Frequency readings ............... 31 5.2.1.2 Current readings ....................31 5.2.1.3 Powers ....................... 32 5.2.1.4 Power Factor...................... 34 5.2.1.5 Energies ......................34 5.2.1.6 Tariff Energies and Tariff Maximum Demand (for X3M-D only) ......35 5.2.1.7 Calendar Clock (for X3M-D only) and Life Time..........36...

  • Page 3: Introduction

    Detailed description of the fault and of the operating condition when the fault occurred • The Electrex repair lab will send the authorization number to the customer directly or to the distributor as per applicable case. The RMA authorization number shall be clearly marked on the packaging and on the return transport document.

  • Page 4: Return Material Authorization (Rma Form)

    Space reserved to ELECTREX R.M.A. No. The RMA number shall be clearly indicated on the external packaging and on the shipping document:. Failure to observe this requirement will entitle the ELECTREX warehouse to refuse the delivery.

  • Page 5: Safety

    3) After lengthy storage in unfavorable conditions. 4) After serious damage occurred during transport The instruments X3M-D and Flash-D must be installed in respect of all the local regulations. 2.1 Operator safety Failure to observe the following instructions may lead to a serious danger of death.

  • Page 6: Mounting

    3 Mounting 3.1 Instruments size (mm) 6 DIN rail modules 3.2 Optional modules size (mm) 2 DIN rail modules. 3.3 Fixing and blocking The instrument (as well as the optional modules) are fixed to the DIN rail by means of the spring clip located on the rear side of the unit...

  • Page 7: Wiring Diagrams

    4 Wiring diagrams 4.1 Power supply The instrument is fitted with a separate power supply with extended operating range. The power supply terminals are numbered (10) and (11). Use cables with max cross-section of 2,5 mm 4.2 Measurement connections 4.2.1 Voltage connection Use cables with max cross-section of 2,5 mm and connect them to the terminals marked VOLTAGE INPUT on the instrument according to the applicable diagrams that follow.

  • Page 8: Star Connection (4 Wire)

    4.2.3 4W Star connection (4 wire) Low voltage 3 CTs High voltage 3 PTs 3 CTs Configuration 3P 4W Configuration 3P 4W Low Voltage 1 CT (symmetrical and balanced load) Configuration 3P-b 4W...

  • Page 9: Delta Connection (3 Wire)

    4.2.4 3W Delta connection (3 wire) Connection with 3 CTs Connection with 1 CT Low Voltage 3 CTs (unbalanced load) Low Voltage 1 CT (symmetrical and balanced load) Configuration 3P 3W Configuration 3P-b 3W 4.2.4.1 Connection with 2 CTs on L1 and L3 Low Voltage 2 CTs High Voltage...

  • Page 10: Connection With 2 Cts On L1 And L2

    4.2.4.2 Connection with 2 CTs on L1 and L2 Low Voltage 2 CTs High Voltage 2 PTs 2 CTs Configuration 3P 3W Configuration 3P 3W 4.2.5 2 Wire connection (single phase) Low Voltage (phase-neutral) 1 CT Configuration 1P 2W...

  • Page 11: Wire Connection (Bi-Phase)

    4.2.6 2 Wire connection (bi-phase) Low Voltage (phase-phase) 1 CT Configuration 2P 2W 4.3 Outputs connection The instrument is equipped with two opto-isolated transistor outputs rated 27 Vdc, 27 mA (DIN 43864 standards). The outputs working mode is set by default to operate as pulse output proportional to the Active energy (output 1) and to the Reactive energy (output 2).

  • Page 12: Optional Modules Connection

    4.4 Optional modules connection The optional modules shall be placed beside of the instrument and shall be connected to the same by means of the cable supplied with. The optional modules are self-supplied; the instrument recognises the type of option(s) connected and the applicable programming menu will automatically appear when necessary.

  • Page 13: Rs232 Option

    4.4.2 RS232 Option RS232 pin out DSR (Handshake to DTE) CTS (Handshake to DTE) RD (Data to DTE) TD (Data from DTE) RTS (Handshake from DTE) 4.4.3 Dual 4-20 mA analog output option 4-20 mA pin out CH1 Channel 1 CH2 Channel 2 Source Common + NB.

  • Page 14: Instrument Use

    Instrument use 5.1 Instrument set up The set up procedure allows to program the instrument operating parameters. Entry in the programming procedure is obtained by pressing the PROGRAM button that is located on the upper right side of the instrument. Program button key allows to scroll the various entry fields within a set up page as well as to pass to the next page upon scrolling all the fields of one page.

  • Page 15: Set Up Sequence

    5.1.1 Set up sequence Within the first page of the instrument set up menu, the following functions are available too. - a pressure of the key opens the energy counters reset page. - a pressure of the key opens the reset page of the average and maximum demand. Here below the set up page formats and the programming flow diagram NOTE: all new setting and/or alteration of the instrument programming parameters become effective only upon exit from the programming session by pressing the...

  • Page 16: Configuration Procedure

    5.1.2 Configuration procedure 5.1.2.1 Electrical system configuration The first programming page shows the configuration of the type of electrical system. The first selection sets the type of electrical system and the type of wiring used: Ph/4W 3 phase 4 wire Star system [3 Ph/3W 3 phase 3 wire Delta system [3 Ph-b/4W...
  • Page 17 Ph/2W bi-phase system [2 The second selection sets whether the operating mode is: Import (2Q)] Import only [ Imp/Exp (4Q) Import-Export [ Ph/4W Import (2Q) The instrument is set by default to [3 ] and Import [ ] mode. This configuration automatically compensates all possible CT output reversal.

  • Page 18: Communication Characteristics Configuration

    5.1.2.2 Communication characteristics configuration This menu appear only upon connection to the instrument of an RS-485 or an RS-232 optional module. The setting of the RS485 communication characteristics requires to scroll the programming pages with two keys; key advances to the next page, the key returns to the previous page The first page is the following: This page enables the setting of respectively:...

  • Page 19: Pulse Characteristics Configuration

    (3) Mode of operation: PULSE (default setting) for operation as pulse output ALARM for operation as alarm contact output Remote for operation as remote output device controlled via Modbus The procedure for programming the digital output 2 is identical. 5.1.2.4 Pulse characteristics configuration If the PULSE selection is operated, the following page is shown allowing the configuration of the pulse characteristics: Where:...

  • Page 20: Alarm Configuration

    5.1.2.5 Alarm configuration The Instrument is equipped with two alarms that are triggered by a programmable threshold on anyone of the measured parameters. The types of alarm available are: maximum, minimum and 1-of-3. A minimum alarm is triggered when the selected parameter is lower than the alarm threshold. A maximum alarm is triggered when the selected parameter exceeds the alarm threshold.
  • Page 21 Phase 1 value. Phase 2 value. Phase 3 value. L1-L2 Phase-phase (L1-L2) value (applicable to system voltages and THD only) L2-L3 Phase-phase (L2-L3) value (applicable to system voltages and THD only) L3-L1 Phase-phase (L3-L1) value applicable to system voltages and THD only) 1÷3 LL Value applicable to all the three phase-phase readings of voltage or THD.

  • Page 22: Ma Analog Outputs Configuration

    5.1.2.6 4-20 mA Analog Outputs configuration. The instrument supports two 4-20 mA or 0-20 mA analog outputs with 500 ohms maximum load. Each output is to one of the parameters handled by the instrument. The output is updated every 10 cycles of the network frequency (i.e. every 200mSec with 50 Hz mains) with a maximum delay of 50 mSec from the actual measurement.

  • Page 23: Alarms And 4-20 Ma Output Configuration For The Average (Avg) Parameters

    L1-L2 Phase-phase (L1-L2) value (applicable to system voltages and THD only) L2-L3 Phase-phase (L2-L3) value (applicable to system voltages and THD only) L3-L1 Phase-phase (L3-L1) value applicable to system voltages and THD only) Average value (applicable to average powers - demand - only). (3) Value to be associated to the 20 mA full scale signal;...

  • Page 24: Clock Calendar Configuration (For X3M-D Only)

    5.1.2.7 Clock calendar configuration (for X3M-D only) The X3M-D is equipped with a clock/calendar with internal battery having a 20 years life time. The clock/calendar supports the time zone handling functions and the automatic change from Standard Time to Daylight Saving Time and vice versa.

  • Page 25: Contrast Adjustment

    (1) Time zone = Time zone set up page. (2) Time zone index. The default setting is 334 = Europe/Rome that is valid all over central Europe. See the enclosed tables for identification of the pertinent time zone. Clock: calendar clock set up page. --:-- (4) Time setting in hours and minutes.

  • Page 26: Time Zones

    The pertinent time zone is entered to the instrument by a numeric index (time zone index). The time zone index and the standard time zone names are shown in the charts below: X3M-D X3M-D Standard Timezone Name (FW > 1.06) Standard Timezone Name (FW >...
  • Page 27 X3M-D X3M-D Standard Timezone Name (FW > 1.06) Standard Timezone Name (FW > 1.06) Timezone Index Timezone Index America/Glace_Bay America/Rankin_Inlet America/Godthab America/Recife America/Goose_Bay America/Regina America/Grand_Turk America/Rio_Branco America/Grenada America/Santiago America/Guadeloupe America/Santo_Domingo America/Guatemala America/Sao_Paulo America/Guayaquil America/Scoresbysund America/Guyana America/St_Johns America/Halifax America/St_Kitts America/Havana America/St_Lucia...
  • Page 28 X3M-D X3M-D Standard Timezone Name (FW > 1.06) Standard Timezone Name (FW > 1.06) Timezone Index Timezone Index Asia/Dhaka Asia/Yakutsk Asia/Dili Asia/Yekaterinburg Asia/Dubai Asia/Yerevan Asia/Dushanbe Atlantic/Azores Asia/Gaza Atlantic/Bermuda Asia/Harbin Atlantic/Canary Asia/Hong_Kong Atlantic/Cape_Verde Asia/Hovd Atlantic/Faeroe Asia/Irkutsk Atlantic/Madeira Asia/Jakarta Atlantic/Reykjavik Asia/Jayapura Atlantic/South_Georgia...
  • Page 29 X3M-D X3M-D Standard Timezone Name (FW > 1.06) Standard Timezone Name (FW > 1.06) Timezone Index Timezone Index Etc/UTC Indian/Mayotte Europe/Amsterdam Indian/Reunion Europe/Andorra Europe/Athens Pacific/Apia Europe/Belfast Pacific/Auckland Europe/Belgrade Pacific/Chatham Europe/Berlin Pacific/Easter Europe/Brussels Pacific/Efate Europe/Bucharest Pacific/Enderbury Europe/Budapest Pacific/Fakaofo Europe/Chisinau Pacific/Fiji Europe/Copenhagen...

  • Page 30: Reset Procedure

    The X3M-D features a built-in database including all the information (time zone rules) which allow to calculate the GMT and DST offsets at any time in each time zones listed in the charts. By knowing the GMT and the DST offset, the instrument is able to convert from universal time to local time and vice versa.

  • Page 31: Readings

    Readings 5.2.1 Readings selection keys The selection of the readings and of the reading pages is made by means of the following keys: Voltage and frequency key Currents key Powers key Power factor key Energies key Life time indicator key Move the selection up and down in the readings pages This key is disabled in the readings pages.

  • Page 32: Powers

    5.2.1.3 Powers By pressing the key the power reading pages for P Active power, Q Reactive power and S Apparent power are scrolled in sequence. By pressing the keys the average and the maximum powers (Demand and Maximum Demand readings) are displayed. The displayed parameters are : Active power of each phase and three phase IMP AVG...
  • Page 33 EXP MD Max Demand on apparent power with export active power Pag. 33 di 37...

  • Page 34: Power Factor

    5.2.1.4 Power Factor By pressing the key, the power factor readings page is prompted showing the PF of each phase as well as the 3-phase reading. Only one page is displayed. The – sign ahead of the value identifies a capacitive (leading) reading. 5.2.1.5 Energies By pressing repeatedly the key, the several energy readings will be displayed consecutively on the...

  • Page 35: Tariff Energies And Tariff Maximum Demand (For X3M-D Only)

    5.2.1.6 Tariff Energies and Tariff Maximum Demand (for X3M-D only) By pressing the key for 2 seconds from any page, it is possible to display the Energy counters and the Max Demand of each tariff. The top left symbol identifies the parameter being displayed and the Maximum Demand reading is shown next to it.

  • Page 36: Calendar Clock (For X3M-D Only) And Life Time

    5.2.1.7 Calendar Clock (for X3M-D only) and Life Time By pressing the key the instrument calendar clock (for X3M-D only) and the life time reading are displayed. The life time is the instrument operating time (when powered on) since it was manufactured.
  • Page 37 Edition 5 dated June 20 2005 The document is subject to modification without prior notice. This document belongs to ELECTREX; all rights are reserved. Via Claudia, 96 41056 Savignano sul Panaro (MO) ITALY Telephone: +39 059 796372 Fax: +39 059 796378 E-mail: info@electrex.it...

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Flash-d

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