Alarm Systems SERIAL PRODUCTS Digital Alarm Annunciator ME 3011b Instruction Manual Manual ME3011b_E_v0707_Pre.doc 1/50
1 Information and Technical Data Introduction 4 Warranty 4 Installation 5 Operation Principles 6 Technical Data 7 Modularity and arrangements 9 Dimensions 10 Panel Mounting 11 Product Identification 12 Product Code 13 Front display engraving/printing 14 Signaling sequences 15 Special Options 16 2 Product Description CM-0x Master CPU s Module 17 Master CPU 2v x 4h 17 CM-04 Master CPU 4x x 2h 18 SM-02 Slave CPU Module 20 EM-0x - Expansion Modules 21 EM-02 Expansion Module 2v x 4h 21 EM-03 Expansion Module 4v x 2h 22 EM-04 Expansion Module 2v x 2h 23 Functions 24 3 - Installation Power Supply 26 Inputs 27 Alarm Inputs 27 Remote push-button 27 GPS Synchronization (Option) 28 Power consumption 32 Outputs 29 24Vdc field output 29 External Buzzer output 29 Programmable relay outputs 29 Repeater relay outputs (RRO) (Option)l 29 Repeat relays for power fault detection (Option) 30 Flashing synchronization (Option) 31 Recommendations 32 Connection diagram examples 33 Standard connections 24 Vdc without RRO or Special 33 Connections with Vdc Fault at Point 2 and Vac Fault at Point 4 35 Terminal identification 37 New arrangements 41 SM-02 module positions 42 SM-02 position on 4h enclosure 42 SM-02 position on 8h enclosure 43 SM-02 position on 12h enclosure 44 Manual ME3011b_E_v0707_Pre.doc 2/50
SM-02 position on 16h enclosure 45 Configuration modes 46 4 - e.tool ME3011 config - Configuration via serial interface 5 - Configuration via keyboard 6 Communication Protocol - Serial Modbus RTU 7- e.tool ME2011 view This manual is subject to changes without previous advice Revision Control Author Version/Rev Date mbe 0 16/07/2007 Manual ME3011b_E_v0707_Pre.doc 3/50
INTRODUCTION Dear Customer, Mauell thanks you for trusting us on choosing our products. It is a pleasure to provide you all necessary information on the newest member of its Mauell annunciator family. This manual presents all information needed to connect and power up the annunciator, as well as instructions for configuring it. Mauell hopes that this manual helps you explore totally the potential of the new ME 3011 annunciator. Please contact us, if any doubt persists about the equipment operation, after reading it. Our technical team is always available to clear any doubt you may deem necessary. Contact the nearest Mauell unit (please refer to the appendix) or send an email to mauell@mauell.com.br; visit the website www.mauell.com.br; send a fax to +55 11 2117 5354 or call +55 11 2117 5353. In order to help us on our support service have the series number and the firmware version with you, as these data are essential for clearing the doubts and for technical assistance. WARRANTY The equipment manufactured and supplied by Mauell is guaranteed against any project and manufacturing defect, when stored and used according to its technical characteristics, for a 12 (twelve)-month period from its installation or 18 (eighteen) month-period from the ex works delivery date (which is the earliest). During this period, Mauell will replace or correct, without any charges to the client, all out of technical specification equipment parts. In other words, our warranty covers materials and labor in the correction of eventual defects eligible for being covered by our warranty. These operations will be carried out in our nearest unit (as previously agreed upon) or at Helmut Mauell do Brasil to where the equipment may be sent. In case of doubt about the use of the equipment, due to the warranty and its effects, please contact our commercial and technical departments. Manual ME3011b_E_v0707_Pre.doc 4/50
INSTALLATION All annunciators have an appropriate package for air or road transportation. When receiving the equipment, the visual inspection may be carried out to check if there were damages during transportation. If so, it is necessary to contact immediately the receiving sector of your company, which may notify your insurance company and Mauell so the involved parts may adopt the necessary measures to repair the damages and to initiate the reimbursement of eventual expenses. The incorrect use and wrong handling of the equipment are not covered by Mauell general guarantee. Therefore, it is essential that the installer takes some measures, before executing the installation and powering of the equipment, as mentioned below: Avoid mechanical impacts to the equipment or falls, which cause frame arching or back terminal breaking. Avoid that water or other liquid gets into the annunciator, as the liquid may cause shortcircuit to the internal circuits and, consequently, bad contacts in the future. Avoid that external objects get into the annunciator through the vents, thus, whenever it is necessary to carry out any work involving drilling or panel plate thinning, where the annunciator is installed, the equipment may be protected with paper, plastic and other material so the debris do not get into the annunciator, causing poor operation. Check the voltage levels and the correct identification of the cables before executing the equipment connection. A wrong connection can cause short-circuit and damage to the equipment in an irreparable way. The frontal modules may be removed with the aid of a blade, which may be inserted between two modules, carefully, forcing the removal of the desired module. This operation may be carried out carefully and patiently in order to prevent damages to the front part of the modules or to the grid brackets of the module. The access to the electronic circuits of the equipment is carried out from the front part, removing the front modules, as described above, disconnecting the back pluggable terminals, without disconnecting the wires, from which the electronic part of the equipment may be removed. After the repair, the electronic part may be replaced and the terminals plugged again. When reconnecting, note with the maximum care, the proper position of each terminal. The cleaning of the front part of the annunciator may be carried out with a soft cloth, slightly wet, with neutral detergent. The equipment may not be submitted to the direct spray of liquids and care must be taken so the liquids do not get into it. Manual ME3011b_E_v0707_Pre.doc 5/50
OPERATION PRINCIPLES Alarm annunciators have the main function of safely signaling critical statuses of installations, aiming at their integrity. They signal acoustically and optically equipment alarms in a standardized way, within the highest ergonomic and cognitive possible standard. It is recommended, in general, to carry out the direct connection of electric field alarm signals to the annunciator, preventing loops through digital automation and control systems. Thus, the necessary operating safety level is achieved. The maximum alarm signal cable length is 600 m (unshielded) or 1000 m (shielded). These maximum values may be strongly reduced in areas with very high electromagnetic fields, for example in the case of open air cable trays within substations. It is, also, of paramount importance to place the signal cables in trays carrying cables with homogeneous voltages. Placing high and low voltage cables in conjunction within the same cable tray may cause serious annunciator malfunctions or even hardware damages. The ME 3011 annunciator, the new member of Mauell annunciator family, keeps one of the most important characteristics of ME 3010 series, which is the modularity of the alarm windows. The processing fundament of the alarm signs is now carried out through latest generation micro controllers, with high performance RISC architecture. So, ME 3011 annunciator incorporates all the advantages of a micro processed system, such as configuration of the annunciators main functions through the front keyboard, or also via configuration software, available at www.mauell.com.br for download. This way, the ME 3011 annunciator provides all conventional functions of alarm announcing together with new and advanced communication function in local network and event recording, among others. These functions will be described in details throughout this manual. Manual ME3011b_E_v0707_Pre.doc 6/50
TECHNICAL DATA 1 - Supply Voltage 1.1 PS-05 Power Supply 24 Vdc ± 20% 1.2 PS-06 Power Supply (Option) Input: 19 to 264 Vdc and / or 90 to 264 Vac Auxiliary field output: 24Vdc / 0,75A 1.3 Special Option PSFD Power Supply Fault Detector (PSFD) for Vdc and/or Vac 1.4 Note: All power supplies are integrated into the annunciator 2 - Inputs Alarm Inputs 4 up to 252 2.1 2.2 2.3 Isolation Opto couplers Input Voltages 24, 48, 60, 110 / 125 Vdc ± 20%; 110 / 127, 220 Vac ± 20% Input Current Input Filter External Push-Button Station Isolation Functions Synchronism with GPS and/or Flashing Isolation 3 ma (typical) lower value = 5 ms, programmable in steps of 2.5 ms 24Vdc Opto couplers Sound Acknowledge (HA), Light Acknowledge (LA), Reset (RE), Light Test / Function Test, Sleep Mode (SLM), Keyboard OFF (KB OFF) 24Vdc Opto couplers 3 - Outputs 3.1 Relays 3 contact free freely programmable relays for various functions, e.g., external buzzer, voltage fault, alarm group, etc 3.2 Sound Indication 90 db / 10 cm, 4 khz 3.3 Repeat relays (Option) 1 contact for each alarm point, as option Note: Field Voltages over 125 Vdc or Vac do not support repeater relays. 3.4 Repeat relays for Power Supply Fault Detector (PSFD) (Option) Note: 1 contact for each Power Supply Fault detector (PSFD) Contact capacity for all relays is 5A / 24Vdc for resistive load. Maximal switching voltage: 125Vdc/250 Vac 4 - Interfaces 4.2 Communication RS232C (Option) 4.3 Communication (Option) RS232C bi-directional Baud rate: 9600,n,8,1 Protocol: Modbus RTU (Slave) or Modbus RTU (Slave)+TS RS 485 Bi-directional serial communication (configurable) Baud rate: 100 a 19200 Parity: even, odd or none Stop bits: 1 or 2 Protocol: Modbus RTU (Slave) Manual ME3011b_E_v0707_Pre.doc 7/50
TECHNICAL DATA 5 - Event Register (Option) 5.1 Events 1000, with Time Stamp 5.2 Resolution 1 ms, samples 2,5 ms 5.3 Interfaces RS232C or RS485 5.4 Protocols Modbus RTU (Slave) 6 - Visualization Light Indication 6.1 Back light Ultra Bright Back light Back Light Socket (Option) Available in red, yellow, green, white and blue colors Available in red, yellow, green, white and blue colors Available in red, yellow, green, white and blue colors, on sockets to allow color change at the field. Led Special Option 6.2 Flashing frequency Windows Dimension 6.3 Back light Led 5 mm visible red, yellow, and green color leds More than 1 color per annunciator Fast: approx. 1.2 Hz Slow: approx. 0.4 Hz 24 x 48 mm White translucent modules Gray RAL 7032 polycarbonate modules 7 General 7.1 7.2 Alarm sequence Environment ISA 1, 1A, 1B, 2A, 2C, 4A, 4AR; others on request Operation temperature: 0 to 55 C Storage temperature: -20 to 80 C 7.3 Protection class Relative Humidity: 0 to 95 %, without condensation Front: IP41 Enclosure: IP30 7.4 Isolation 3000 V eff : IEC 60950-1 FAZER com Lote Piloto!!! 7.5 EMC Compliance Immunity: DIN EN 61000-6-2 Emission: DIN EN 61000-6-4 7.6 ESD DIN EN 61000-4-2 7.7 Electromagnetic Field Immunity DIN EN 61000-4-3 7.8 RF Frequency Immunity DIN EN 61000-4-6 7.9 Burst DIN EN 61000-4-4 7.10 Surge DIN EN 61000-4-5 7.11 Voltage Dips DIN EN 61000-4-11 7.12 Terminals Terminal connectors (removable) for cables up to 2.5 mm² 7.13 Tropicalization Special Option Manual ME3011b_E_v0707_Pre.doc 8/50
The minimum configuration possible for the annunciator is a central module with 4 alarm points, and dimension of 2V x 4H or 4V x 2H. (see shaded portion on lower right corner of diagram below) Expansion modules can be added to this central unit, with 4 or 8 alarm points each, always in 2V x 2H or 2V x 4H modularity basis. So the subsequent configurations are: 8, 12, 16, 20, 24, 28 points and so on, up to a maximum of 252 alarm points. The module arrangement follows the diagram below. MODULARITY AND ARRANGEMENTS Number of horizontal points (h) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 y = 12 24vx8h= 188P 24vx4h= 92P 24vx2h= 44P 24 23 y = 11 22vx8h= 172P 22vx4h= 84P 22vx2h= 40P 22 21 y = 10 20vx12h= 236P 20vx8h= 156P 20vx4h= 76P 20vx2h= 36P 20 19 y = 9 18vx12h= 212P 18vx8h= 140P 18vx4h= 68P 18vx2h= 32P 18 17 Número de Módulos na Vertical y = 8 y = 7 y = 6 y = 5 16vx16h= 252P 14vx16h= 220P 12vx16h= 188P 10vx16h= 156P 16vx12h= 188P 14vx12h= 164P 12vx12h= 140P 10vx12h= 116P 16vx8h= 124P 14vx8h= 108P 12vx8h= 92P 10vx8h= 76P 16vx4h= 60P 14vx4h= 52P 12vx4h= 44P 10vx4h= 36P 16vx2h= 28P 14vx2h= 24P 12vx2h= 20P 10vx2h= 16P 16 15 14 13 12 11 10 9 Number of vertical poinsl (v) y = 4 8vx16h= 124P 8vx12h= 92P 8vx8h= 60P 8vx6h= 44P 8vx4h= 28P 8vx2h= 12P 8 7 y = 3 6vx16h= 92P 6vx12h= 68P 6vx10h= 56P 6vx8h= 44P 6vx6h= 32P 6vx4h= 20P 6vx2h= 8P 6 5 y = 2 4vx16h= 60P 4vx14h= 52P 4vx12h= 44P 4vx10h= 36P 4vx8h= 28P 4vx6h= 20P 4vx4h= 12P 4vx2h =4P 4 3 4vx2h =4P 4 y = 1 2vx16h= 28P 2vx14h= 24P 2vx12h= 20P 2vx10h= 16P 2vx8h= 12P 2vx6h= 8P 2vx4h =4P CM-0x 2 1 CM-04 4 3,5 3 2,5 2 1,5 1 0,5 Number of horizontal modules 2vx4h =4P 4 3 Min. arrangements Enclosure arrangement: Nr. of Points Arrangement Nr. of Points Arrangement Manual ME3011b_E_v0707_Pre.doc 9/50 Nr. of Points Arrangement Nr. of Points Arrangement 4v x 2h 16v x 2h 28v x 2h 108 14 v x 8 h 4 2v x 4h 8v x 4h 52 14v x 4h 116 10 v x 12 h 28 2v x 6h 4v x 8h 4v x 14h 16v x 8h 8 124 6v x 2h 2v x 16h 10v x 6h 8v x 16h 56 8v x 2h 18v x 2h 6v x 10h 18v x 8h 32 140 12 4v x 4h 6v x 6h 16v x 4h 12v x 12h 2v x 8h 20v x 2h 60 8v x 8h 20v x 8h 156 10 v x 2 h 36 10 v x 4 h 4 v x 16 h 10 v x 16 h 16 2v x 10h 4v x 10h 18v x 4h 164 14 v x 12 h 68 12 v x 2 h 40 22v x 2h 6v x 12h 172 22 v x 8 h 6v x 4h 12v x 4h 20v x 4h 24v x 8h 20 76 4v x 6h 8v x 6h 10v x 8h 188 16v x 12h 44 2v x 12h 6v x 8h 84 22 v x 4 h 12 v x 16 h 14v x 2h 4v x 12h 24v x 4h 212 18 v x 12 h 24 2v x 14h 48 26 v x 2 h 12 v x 8 h 220 14 v x 16 h 92 8v x 12h 236 20 v x 12 h 6v x 16h 252 16 v x 16 h
DIMENSIONS Points Cutout table [height (h) x width (v)] mm h (x) 2 4 6 8 10 12 14 16 v (y) 2 65 x 209 65 x 401 65 x 593 65 x 785 4 113 x 113 113 x 209 113 x 305 113 x 401 113 x 497 113 x 593 113 x 689 113 x 785 6 161 x 113 161 x 209 161 x 305 161 x 401 161 x 497 161 x 593 161 x 785 8 209 x 113 209 x 209 209 x 305 209 x 401 209 x 593 209 x 785 10 257 x 113 257 x 209 257 x 305 257 x 401 257 x 593 257 x 785 12 305 x 113 305 x 209 305 x 401 305 x 593 305 x 785 14 353 x 113 353 x 209 353 x 401 353 x 593 353 x 785 16 401 x 113 401 x 209 401 x 401 401 x 593 401 x 785 18 449 x 113 449 x 209 449 x 401 449 x 593 20 497 x 113 497 x 209 497 x 401 497 x 593 22 545 x 113 545 x 209 545 x 401 545 x 593 24 593 x 113 593 x 209 593 x 401 Manual ME3011b_E_v0707_Pre.doc 10/50
PANEL MOUNTING Each ME 3011 is shipped with a certain amount of panel clamps according the annunciator s size. 1 Locate the panel clamps inside the packing box and prepare the mounting 2 Insert the annunciator into the cutout 3 Insert the panel clamps into the lateral orifice, selecting the sides that provides the best mounting 4 - Srew, pressing lightly onto panel front plate Panel clamp Manual ME3011b_E_v0707_Pre.doc 11/50
PRODUCT IDENTIFICATION 1 Identification Label ME3011b Alarm Annunciator Code: 004424D11612000 Serial #: 07/b1001 FW: 70515300 Field: 24 Vdc Power Supply: 19-264 Vdc / 90-264 Vac Helmut Mauell do Brasil www.mauell.com.br Indústria Brasileira / Made in Brazil / Fabriqué au Brésil 1.1 Code Product code with 15 digits 1.2 Serial# Product serial number YY/9999, where YY is the year and 9999 is a sequential number 1.3 FW: Identifies the firmware version from the annunciator YYMMDD999 = year, month, day and firmware version 1.4 Power Supply: Power supply voltages Standard: 19-264Vdc/90-264Vac With Power Supply Fault Detector (PSFD) are specified the requested voltages. Example: Digit 7 = E, indicates this option and the voltages specified by the customer was 125Vdc and 220Vac: 125Vdc/220Vac 1.5 Field: Indicates the field voltage of the annunciator Manual ME3011b_E_v0707_Pre.doc 12/50
PRODUCT CODE Go to the ME3011b Codification: ME3011b - Code 012 28 FE 44 512 00 1 ME3011b BL Alarm Annunciator - 12 Alarm Points - 2V x 8H: Power Supply 19-264 Vdc / 90-264 Vac - PSFD at Keyboard, BL 5 Colors, 110/125 Vdc Field Voltage with RRO, RS232C (R) + RS485 + ER + GPS Sync, Modbus RTU (Slave) + ER, with Engraving and Special Options. 012 28 F E 44 51 2 00 1 ME3011b QTY = PC Code: 012 28 FE 4 4 5 1 2 00 1 Dígito > 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1 Nr. of Points 012 Enclosure 012P - 2V x 8H Field Voltage RRO (Repeater Relays) 110/125 Vdc 110/125 Vdc 12 0 Power Supply 19-264 Vdc / 90-264 Vac - PSFD at Keyboard Power Supply Fail Detector 110 Vdc 220 Vac PSFD Vdc Vac Set the PSFDs Voltages!! Tropicalization no (Standard) Light Indication Only for more that one color BL 5 Colors R 7 Y 2 G 1 B 1 W 1 TOT= 12 = Nr. of Points B and W only for Back Light Set Quantity for each color! Interface RS485 Protocol Engraving RS232C (R) + RS485 + ER + GPS Sync Modbus RTU (Slave) + ER Low relief 2 Lines ISA Sequence ISA 2C / (M) - Standard Complementar Informations Special Options w/ SO w/ SO Cable Cable CS-02 - RS232C - 5 m QTY Softwares QTY 1 PÇ e.tool ME3011b -view 1 PÇ Return to Manual Manual ME3011b_E_v0707_Pre.doc 13/50
FRONT DISPLAY INSCRIPTIONS 1 Low Relief Engraving 1.1 Back Light Display LB 24 x 48 White Translucent - Code: 83.53.002 Character height = 3 mm Maximum number of characters per line = 19 Maximum number of lines = 4 23 24 ABCDEFGHJKLMNOPRSTU ABCDEFGHJKLM ABCDEFGH EFGH 5 5 5 4 23 24 ABCDEFGHJKLMNOPRSTU ABCDEFGHJKLM ABCDEFGH 5,5 6 6 47 48 47 48 1.2 LED Display MK 24 x 48 - RAL 7032 color - Code: 83.52.003 Character height = 3 mm Maximum number of characters per line = 15 Maximum number of lines = 4 23,5 24 ABCDEFGHJKLMNOP ABCDEFGH ABCDEFGHJKLMNOP ABCDEFGH 5 5 5 4 23,5 24 ABCDEFGHJKLMNOP ABCDEFGH ABCDEFGHJKLMNOP 6 6 6 47,5 48 47,5 48 Manual ME3011b_E_v0707_Pre.doc 14/50
SIGNALING SEQUENCES The ME 3011 can be configured in order to comply with 16 signaling sequence. Among them the most important are the following: ISA-RP 18.1/(ISA-S18.1): ISA1/(A), ISA-1A/(A-5), ISA-1B/(A-4), ISA-2A/(R-8), ISA-2C/(M), ISA-4A/(F1A), ISA-4AR/(F1M) etc. Other sequences can be implemented on request. ALARM SEQUENCE REF ISA ALARM NORMAL ABNORMAL BACK TO ACKNOWLEDGE ACKNOWLEDGE BACK TO NORMAL NORMAL BEFORE SOUND LIGHT ACKNOWL. SOUND LIGHT RESET ISA 1 (A) Light Sound ISA 1A (A-5) Light Sound ISA 1B (A-4) ISA 2A (R-8) ISA 2C (M) (default) Light Sound Light Sound Light Sound F F S F F S PRIMARY ALARM SEQUENCE (1st. EVENT) REF ISA ALARM NORMAL ABNORMAL ACKNOWLEDGE BACK TO NORMAL BACK TO NORMAL BEFORE ACKNOWL. ACKNOWLEDGE INITIAL SUBSEQ. INITIAL SUBSEQ. INITIAL SUBSEQ. INITIAL SUBSEQ. INITIAL SUBSEQ. RESET ISA 4A (F1A) ISA 4R (F1M) Light Sound Light Sound LEGEND F Fast Led off Buzzer off S Slow Led on Buzzer on Led intermittent Manual ME3011b_E_v0707_Pre.doc 15/50
SPECIAL OPTIONS 1 Light display with more than one color In this case, the quantity and position for each color must be request by the costumer. For LED Display up to 3 colors (red / yellow / green) For Back Light Display up to 5 colors (red / yellow / green / white / blue) 2 - Back Light Socket In this option, the SMD Led is socket mounted and plugged on the annunciators PCB. It allows changing the indicating light color for the individual alarm points. The socket BL must be specified at ordering the annunciator, as a special factory option. Manual ME3011b_E_v0707_Pre.doc 16/50
PRODUCT DESCRIPTION - CM-0x MODULES 1 - CM-0x - Central Module - Master CPU Module with 4 alarm points Master CPU module is responsible for slave module management, man-machine interface for alarm acknowledge, annunciator configuration, sound signaling, light signaling and its own operating status. Annunciator has a RS 485 interface with Modbus RTU protocol as option, allowing interconnection of several annunciator assemblies, as well as PLC s, RUT s and supervisory software. Each microcontroller keeps input status stored under its processing and annunciator configuration, allowing to retrieve the operational situation in case of a power failure. Master CPU is able to control up to 60 alarm points and up to 3 Slave CPUs directly, covering a total of 252 points; communication among them is performed serially, through a two-way internal bus, in compliance with asynchronous standard. Equipment configuration is made through 5 buttons on CPUs keyboard or via the e.tool ME3011 config software. Central Module with arrangement 2v x 4h Central Module with arrangement 2v x 4h CM-04 Central Module with arrangement 4v x 2h 1.1 PRODUCT DESCRIPTION - MODULE Vdc Fault Vac Fault b RS 485 balancing: Front view Extract the tile of alarm point number 3 and set the jumpers as follows: JP1 and JP2 closed for the last annunciator on the network. JP1 and JP2 open for all intermediary annunciators on the network. Note: Rear view OPTIONS The Modbus cable shield must be grounded. Manual ME3011b_E_v0707_Pre.doc 17/50
1.2 PRODUCT DESCRIPTION - CM-04 MODULE Vdc Fault RS 485 balancing: Extract the tile of alarm point number 3 and set the jumpers as follows: JP1 and JP2 closed for the last annunciator on the network. JP1 and JP2 open for all intermediary annunciators on the network. Vac Fault b Front view Note: The Modbus cable shield must be grounded. OPTIONS Rear view Manual ME3011b_E_v0707_Pre.doc 18/50
PRODUCT DESCRIPTION - CM-0x MODULES and CM-04 Module Connector Identification Line CM-04 X11 X11 X12 Connector Term. Desc. Function 1 Vac Vac Power Supply X11 - CX1-1 X11 - CX1-1 2 Vac Vac Power Supply X11 - CX1-2 X11 - CX1-2 CX1 3 Shield Shield X11 - CX1-3 X11 - CX1-3 4 + Vdc + Vdc Power Supply X11 - CX1-4 X11 - CX1-4 5 - Vdc - Vdc Power Supply X11 - CX1-5 X11 - CX1-5 CX2 1 V + 24 Vdc X11 - CX2-1 X11 - CX2-1 Auxiliary Field Output 2 OUT. - 24 Vdc X11 - CX2-2 X11 - CX2-2 1 SLM Sleep Mode X11 - CX3-1 X11 - CX3-1 2 HA (QS) Sound Acknowladge X11 - CX3-2 X11 - CX3-2 CX3 3 LA (QL) Light Acknowladge X11 - CX3-3 X11 - CX3-3 4 RE Reset X11 - CX3-4 X11 - CX3-4 5 LT/FT Light Test/Fubctional Test X11 - CX3-5 X11 - CX3-5 6 KSLM Keyboard Sleep Mode X11 - CX3-6 X11 - CX3-6 CX4 CX5 CX6 1 X11 - CX4-1 X11 - CX4-1 Relay RCX4 [1] Potential-free contact 2 X11 - CX4-2 X11 - CX4-2 1 X11 - CX6-1 X11 - CX6-1 Relay RCX6 [3] Potential-free contact 2 X11 - CX6-2 X11 - CX6-2 1 Relay RCX5 [2] Potential-free contact X11 - CX5-1 X11 - CX5-1 2 X11 - CX5-2 X11 - CX5-2 CX7 1234 INTERF. RS232C Serial Interface RS232C X11 - CX7 - IS X11 - CX7 - IS CX8 CX9 1 1 Data + INTERF. SINC RS 485 Interface SincOut X11 - CX8-1 GPS syncrhonization and/or Flashing X12 - CX8-1 X11 - CX9-1 X12 - CX9-1 2 2 Data - (3) SincIn/GPS X11 - CX8-2 synchonization X12 - CX8-2 X11 - CX9-2 X12 - CX9-2 1 Input + Alarm Input 1 X11 - C1-1 X12 - C1-1 2 Input + Alarm Input 2 X11 - C1-2 X12 - C1-2 C1 3 Alarm Inputs Input + Alarm Input 3 X11 - C1-3 X12 - C1-3 4 Input + Alarm Input 4 X11 - C1-4 X12 - C1-4 5 Common - Alarm Input Common (-) X11 - C1-5 X12 - C1-5 1 Relay Input 1 repeat relay (+) X11 - C2-1 X12 - C2-1 2 Relay Input 2 repeat relay (+) X11 - C2-2 X12 - C2-2 C2 3 RRO (4) Relay Input 3 repeat relay (+) X11 - C2-3 X12 - C2-3 4 Relay Input 4 repeat relay (+) X11 - C2-4 X12 - C2-4 5 (+) CV Contact Voltage for all repeater relays(+) X11 - C2-5 X12 - C2-5 C3 1 PSFD Relay Vdc Fault repeat relay (+) X11 - C3-1 X12 - C3-1 2 (5) Relay Vac Fault repeat relay (+) X11 - C3-2 X12 - C3-2 Power Supply (1) Remote Push-Button (24Vdc) Programable Relays (2) Identification CM-04 (1) As standard, only 24 Vdc, other voltages must be specified at order (2) As standard, CX4 for external Buzzer Option, when CX9 is used for GPS synchronism, the flashing (3) synchronization is performed internaly. (4) Option (5) Option, the selection is performed at the power supply specification Manual ME3011b_E_v0707_Pre.doc 19/50
2 - SM-02 - Slave Module - CPU Slave Module with 8 alarm points Each Slave CPU Module is able to control up to 64 alarm points, and is used if number of alarm points exceeds 60. For configurations from 62 to 128 points one Slave CPU Module is used, from 130 to 188 two Modules, and from 190 to 252 three Modules. Front view OPTIONS SM-02 Module Connector Identification Line Connector Term. Den. Function Identificacion X.. CX1 CX2 C1 C2 1 Vac Vac Power Supply X.. - CX1-1 2 Vac Vac Power Supply X.. - CX1-2 3 NC Not Connected 4 + Vdc + Vdc Power Supply X.. - CX1-4 5 - Vdc - Vdc Power Supply X.. - CX1-5 1 + 24 Vdc X.. - CX2-1 Auxiliary Field Output 2-24 Vdc X.. - CX2-2 1 Input + Alarm Input 1 X.. - C1-1 2 Input + Alarm Input 2 X.. - C1-2 3 Input + Alarm Input 3 X.. - C1-3 4 Input + Alarm Input 4 X.. - C1-4 5 Input + Alarm Input 5 X.. - C1-5 6 Input + Alarm Input 6 X.. - C1 6 7 Input + Alarm Input 7 X.. - C1 7 8 Input + Alarm Input 8 X.. - C1 8 9 Common - Alarm Input Common (-) X.. - C1 9 1 Relay Input 1 repeat relay (+) X.. - C2-1 2 Relay Input 2 repeat relay (+) X.. - C2-2 3 Relay Input 3 repeat relay (+) X.. - C2-3 4 Relay Input 4 repeat relay (+) X.. - C2-4 5 Relay Input 5 repeat relay (+) X.. - C2-5 6 Relay Input 6 repeat relay (+) X.. - C2 6 7 Relay Input 7 repeat relay (+) X.. - C2 7 8 Relay Input 8 repeat relay (+) X.. - C2 8 9 (+) CV Contact Voltage for all repeater relays(+) X.. - C2 9 Power Supply IN (1) OUT Alarm Inputs RRO (2) (1) (2) The power supply for the Slave Module SM-02 must be the same as for the CM-0x module, otherwise, the alarm annunciator can be damaged. Option Manual ME3011b_E_v0707_Pre.doc 20/50
PRODUCT DESCRIPTION - EM-0x EXPANSION MODULES 3 - EM-0x - Expansion Module. 3.1 - EM-02 - Expansion Module with 8 alarm points, arrangement 2v x 4h. Each expansion modules provides 8 alarm points, used together with CPUs. Front view OPTIONS Rear view EM-02 - Expansionn Module Connectors Identification Line Connector Term. Des. Function Identificacion X.. C1 C2 1 Input + Alarm Input 1 X.. - C1-1 2 Input + Alarm Input 2 X.. - C1-2 3 Input + Alarm Input 3 X.. - C1-3 RRO (1) Alarm Inpurs 4 Input + Alarm Input 4 X.. - C1-4 5 Input + Alarm Input 5 X.. - C1-5 6 Input + Alarm Input 6 X.. - C1-6 7 Input + Alarm Input 7 X.. - C1-7 8 Input + Alarm Input 8 X.. - C1-8 9 Common - Alarm Input Common (-) X.. - C1-9 1 Relay Input 1 repeat relay (+) X.. - C2-1 2 Relay Input 2 repeat relay (+) X.. - C2-2 3 Relay Input 3 repeat relay (+) X.. - C2-3 4 Relay Input 4 repeat relay (+) X.. - C2-4 5 Relay Input 5 repeat relay (+) X.. - C2-5 6 Relay Input 6 repeat relay (+) X.. - C2-6 7 Relay Input 7 repeat relay (+) X.. - C2-7 8 Relay Input 8 repeat relay (+) X.. - C2-8 9 (+) CV Contact Voltage for all repeater relays(+) X.. - C2-9 (1) Option Manual ME3011b_E_v0707_Pre.doc 21/50
PRODUCT DESCRIPTION - EM-0x EXPANSION MODULES 3.2 - EM-03 Expansion Module with 8 alarm points, arrangement 4v x 2h Front view OPTIONS Rear view EM-03 - Expansion Module Connectors Identification Line Connector Term. Obs. Function Identificacion X.. X..+1 C1 C2 C3 C4 1 Input + Alarm Input 1 X.. - C1-1 2 Input + Alarm Input 2 X.. - C1-2 3 Input + Alarm Input 3 X.. - C1-3 4 Input + Alarm Input 4 X.. - C1-4 5 Common - Alarm Input Common (-) X.. - C1-5 1 Relay Input 1 repeat relay (+) X.. - C2-1 2 Relay Input 2 repeat relay (+) X.. - C2-2 3 Relay Input 3 repeat relay (+) X.. - C2-3 4 Relay Input 4 repeat relay (+) X.. - C2-4 5 (+) CV Contact Voltage for 4 repeaters 1 to 4 (+) X.. - C2-5 1 Input + Alarm Input 5 X.. - C3-1 2 Input + Alarm Input 6 X.. - C3-2 3 Input + Alarm Input 7 X.. - C3-3 4 Input + Alarm Input 8 X.. - C3-4 5 Common - Alarm Input Common (-) X.. - C3-5 1 Relay Input 5 repeat relay (+) X.. - C4-1 2 Relay Input 6 repeat relay (+) X.. - C4-2 3 Relay Input 7 repeat relay (+) X.. - C4-3 4 Relay Input 8 repeat relay (+) X.. - C4-4 5 (+) CV Contact Voltage for 4 repeaters 5 to 8 (+) X.. - C4-5 Alarm Inputs 1-4 RRO 1-4 (1) Alarm Inputs 5-8 RRO (1) 5-8 (1) Option Manual ME3011b_E_v0707_Pre.doc 22/50
PRODUCT DESCRIPTION - EM-0x EXPANSION MODULES 3.3- EM-04 Expansion Module with 4 alarm points, arrangement 2v x 2h OPTIONS EM-04 - Expansion Module Connectors Identification Line Connector Term. Obs. Function Identificacion X.. C1 C2 1 Input + Alarm Input 1 X.. - C1-1 RRO (1) Alarm Inputs 2 Input + Alarm Input 2 X.. - C1-2 3 Input + Alarm Input 3 X.. - C1-3 4 Input + Alarm Input 4 X.. - C1-4 5 Common - Alarm Input Common (-) X.. - C1-5 1 Relay Input 1 repeat relay (+) X.. - C2-1 2 Relay Input 2 repeat relay (+) X.. - C2-2 3 Relay Input 3 repeat relay (+) X.. - C2-3 4 Relay Input 4 repeat relay (+) X.. C2-4 5 (+) CV Contact Voltage for this 4 repeater relays(+) X.. - C2-5 (1) Option Manual ME3011b_E_v0707_Pre.doc 23/50
KEYBOARD FUNCTION DESCRIPTION 1 Keyboard Functions FA Red LED on, indicates system failure RUN Green LED continuously on indicates system operative Blinking Green LED indicates system operative in Sleep Mode (SLM) Vdc Fault Vac Fault b PSFD Yellow LED for Vdc power supply fault and Orange LED for Vac power supply fault indication, if requested. Enter Used only in keyboard configuration mode. HA Sound acknowledge LA Light acknowledge RE Reset LT/FT Light Test or Functional Test, selectable via configuration modes. 1.1 Horn/Buzzer Acknowledge (HA) Sound Acknowledge is performed through CPU front button. Its activation stops the buzzer. 1.2 Light Acknowledge (LA) Light acknowledge is performed through CPU front button, which makes intermittent light signaling (blinking) turn permanently on or off when activated, depending on selected sequence. Note About Sound and Light Acknowledge: Sound and Light Acknowledge functions can be activated manually, as described above, or automatically, with adjustable time periods from 5 s to 45 hours. Sound and light acknowledge buttons can be configured for simultaneous activation or in a way to interlock them, i.e., light acknowledge function is only accepted after acknowledging sound. See details on annunciator configuration chapter. 1.3 - Reset (RE) Reset sequence is performed through CPU module, which resets alarm sequence when activated. Depending on selected sequence, Reset button is disabled. 1.4 Light Test (LT) Light test is performed through button on CPU module front panel, which turns all equipment LED s on when activated. Manual ME3011b_E_v0707_Pre.doc 24/50
1.5 Functional Test (FT) KEYBOARD FUNCTION DESCRIPTION Functional test is performed through TL button on CPU module front panel, which simulates an alarm condition in all points when activated, according to pre-configured sequence in equipment. Note About Light and Functional Tests: Light test button (TL) must be configured according to desired Function: either Light test, or Function test. See details on annunciator configuration chapter. 1.6 - Enter The enter is button is used to reset the annunciator and for configuration via keyboard. 1.7 - RUN Led Green Led continuously ON indicates that the system is operative. Green Led blinking indicates that the system is operative in sleep mode (SLM) 1.8 FA Led Red Led blinking in other sequence that the alarm windows, means that the annunciator is faulty, for this function the buzzer signalization is programmable. The internal fault detected are: Watsh dog Communication between Master and Slave CPUs Live Signal 1.9 PSFD The Power Supply Fail detection is improved via Firmware and the voltage value to be detected must be informed at the annunciators order., for Vdc and/or Vac. There are two ways to visualize these indication: Standard: o Vdc Fault is indicated at the keyboard yellow led o Vac Fault is indicated at the keyboard orange led Option: o Vdc Fault is indicated at the alarm point 2 window o Vac Fault is indicated at the alarm point 4 window Manual ME3011b_E_v0707_Pre.doc 25/50
GENERAL FUNCTION DESCRIPTION 2 General functions 2.1 Sound Signal Annunciator has a buzzer, which can be configured to generate different sounds (continuous, intermittent and two-tone) and disabled. For connecting external buzzer, potential-free terminals are available on the rear panel for external buzzer, with 30W of capacity. 2.2 Alarm Group Alarm group function is used to group inputs in certain combinations for a better operating visualization. Thus, a certain alarm group can have its light indication in a different color from the rest of annunciator and a differentiated sound signaling. Annunciator has 3 relays, which can be programmed to activate if an alarm occurs in up to 3 alarm groups. 2.3 - Sleep Mode - SLM Sleep Mode function is used to deactivate internal light and/or sound signaling. When active, front panel RUN led (Green) starts blinking, indicating that device is operative in sleep mode. This Function can be enabled/disabled through front buttons or external button. 2.4 Input Temporization Inputs have filters with individually adjustable times from 5 ms to 600 ms. 2.5 Automatic Storage of Last Status of Annunciator CPU module will store the last status of equipment in case of power failure, retrieving this data when power returns. 2.6 Flashing Light signaling has two flashing frequencies: fast flashing = 1.2 Hz and slow flashing = 0.4 Hz 2.7 Keyboard OFF Allows turn off the annunciators keybord trough an external key, maintaining the keyboard functions only at the remote push-button station. Manual ME3011b_E_v0707_Pre.doc 26/50
INSTALLATION ANNUNCIATOR POWER SUPPLY 1 ME3011b power supply 1.1 Annunciator standard supply voltage is 24 Vdc For other voltages, the following power supplies can be incorporated into the annunciator: 2 Redundant voltage supply with 19 to 264 Vdc and/or 90 to 264 Vac The quantity is the same as of Master and Slave CPUs used in annunciator configuration. 2.1 Vac power supply The fuses must be dimensioned according the consumption table In case with supply only with one phase, only one fuse is needed 2.2 Vdc power supply It is advisable to use fast fuse at terminal 4 (+) The fuses must be dimensioned according the consumption table at page 26. Note: For annunciators with more than 60 points, the power supply of the Slave Module(s) SM-02 must be the same as the Central Module, otherwise, the annunciator can be damaged. Manual ME3011b_E_v0707_Pre.doc 27/50
INSTALLATION - INPUTS 1 Field Inputs Field inputs are galvanically isolated by opto couplers and protected against surges, with a common signal per alarm group (4 points for Cm-0x Module, 8 points for EM-02, EM-03 and SM-02, 4 points for EM-04), and can be provided optionally with repeat relays. As option, inputs can be isolated each other and, in this case, the field signal input terminal is not relevant. Each Input had one individual filter, and can be configured from 5 ms to 600 ms, in steps of 2.5 ms via keyboard, or via software e.tool ME3011 config. The field voltage are indicated at the product label 2 Remote Push-Button Station The central Modules CM-0x have a opto isolated terminal block (CX3) to connect following functions to a remote push-button station: 1. Sleep Mode 2. Sound Acknowledge 3. Light Acknowledge 4. Reset 5. Light Test/Functional Test 6. Keyboard OFF Mode Functions on terminals 1, 2, 3 and 5 are programmable via e.tool ME3011b- config or Keyboard, according necessity. Terminal 6 (KSLM) is only a hardware switch, to turn off the Keyboard push-buttons. Manual ME3011b_E_v0707_Pre.doc 28/50
INSTALLATION - INPUTS 3 GPS synchronization (Option) Via connector CX9 from the CM-0x CPUs In this case, the blink synchronism is performed internally via Modbus. Manual ME3011b_E_v0707_Pre.doc 29/50
INSTALLATION - OUTPUTS 3 Field Voltage Supply 24 Vdc Annunciator has, regardless main voltage supply or field voltage, one 24 Vdc / 1A output for field contacts in CM-0x and SM-02 modules. It is recommended the use of a fast 1A fuse at +24Vdc 4 External Buzzer Relay with 1 potential-free NO contact, in CM-0x modules. As standard, the relay on terminals CX4 is used for the external buzzer. 5 Programmable relays outputs Annunciator provides 3 potential-free contacts for other functions, such as: external buzzer, alarm group, triggering a second buzzer, etc. F1 Correspondent connectors: CX4, CX5 and CX6. Manual ME3011b_E_v0707_Pre.doc 30/50
INSTALLATION - OUTPUTS 6 Repeater Relays output (Option) Relay with 1 potential-free NO contact per alarm input, where the relays coil is actuated due the input voltage. That means, if the annunciator fail, the alarms continues to be repeated. For field voltages over 125Vdc and Vac voltages, this option is not available. ME3011b relays capacity Manual ME3011b_E_v0707_Pre.doc 31/50
7 Repeater relays for power fault detection (Option) The Vdc fault detection can be indicated at the alarm point 2 or at the yellow led from the keyboard. The Vac fault detection can be indicated at the alarm point 4 or at the orange led from the keyboard. If the PSFD indication are the alarm points 2 and 4, there are no relay on the connector C2-2 and C2-4. The nominal voltages to be detected and the indication position must be defined at the product order. Manual ME3011b_E_v0707_Pre.doc 32/50
INSTALLATION - OUTPUTS 8 Flashing Synchronization Option This function is performed due the CPUs CM-0x CX9 connector. The tcx9 terminal 1 of the synchronizing annunciator must be connected to the CX9-terminal 1 from the other annunciators. The CX2 terminal 2 (-24Vdc) from all annunciators must be connected. Manual ME3011b_E_v0707_Pre.doc 33/50
RECOMMENDATIONS Recommendations: Control and load cables must be ad equally separated, if possible in separated cable trays. If there are crossing lines, try to mount it on perpendicular crossing. It is recommended that power line filters be installed at the cabinet input to achieving successful filtering of electromagnetic interference, this filter acts as a barrier between polluted energy and clean energy goes into the cabinet. The filter must be connected to an effective ground plane and where proximity does not couple radiated noise to the clean lines. POWER CONSUMPTION Nr. of Points X Power Consumption (W) Annunciators without repeater relays (RRO) Annunciators with repeater relays (RRO) Points 24Vdc 48Vdc 60Vdc 125Vdc 127Vac 220Vac Points 24Vdc 48Vdc 60Vdc 125Vdc 4 1,9 3,3 4,1 3,9 3,9 6,8 4 2,7 4,1 4,9 6,3 12 3,7 5,5 5,7 9,1 7,9 11,5 12 6,1 7,8 8,2 16,4 20 5,6 7,2 8,0 11,8 11,9 16,3 20 9,6 11,1 12,1 23,9 28 7,4 9,4 10,2 15,7 14,7 23,2 28 13,0 14,9 16,0 32,7 36 9,2 11,1 11,8 19,7 18,7 28,0 36 16,4 18,2 19,2 41,6 44 11,0 12,9 14,0 23,6 22,7 34,9 44 19,8 21,5 23,1 50,4 52 11,9 14,6 16,2 27,6 26,7 39,7 52 22,3 24,8 27,0 59,2 60 13,5 16,3 17,9 31,5 29,5 46,6 60 25,5 28,1 30,3 68,0 Manual ME3011b_E_v0707_Pre.doc 34/50
INPUT LEVELS Manual ME3011b_E_v0707_Pre.doc 35/50
CONNECTION DIAGRAM EXAMPLES 1 Standard, Front view I - X25-C1-1 I - X25-C1-2 I - X25-C1-3 I - X25-C1-4 I - X15-C1-1 I - X15-C1-2 I - X15-C1-3 I - X15-C1-4 Connector Identification I - X..-C_-N I - X25-C1-5 I - X25-C1-6 I - X25-C1-7 I - X25-C1-8 I - X15-C1-5 I - X15-C1-6 I - X15-C1-7 I - X15-C1-8 I - Alarm Input I - X24-C1-1 I - X24-C1-2 I - X24-C1-3 I - X24-C1-4 I - X14-C1-1 I - X14-C1-2 I - X14-C1-3 I - X14-C1-4 X.. - Connector line I - X24-C1-5 I - X24-C1-6 I - X24-C1-7 I - X24-C1-8 I - X14-C1-5 I - X14-C1-6 I - X14-C1-7 I - X14-C1-8 C_ - Connector I - X23-C1-1 I - X23-C1-2 I - X23-C1-3 I - X23-C1-4 I - X13-C1-1 I - X13-C1-2 I - X13-C1-3 I - X13-C1-4 N - Connector terminal cooresponding to the Alarm Point I - X23-C1-5 I - X23-C1-6 I - X23-C1-7 I - X23-C1-8 I - X13-C1-5 I - X13-C1-6 I - X13-C1-7 I - X13-C1-8 I - X22-C1-1 I - X22-C1-2 I - X22-C1-3 I - X22-C1-4 I - X12-C1-1 I - X12-C1-2 I - X12-C1-3 I - X12-C1-4 I - X22-C1-5 I - X22-C1-6 I - X22-C1-7 I - X22-C1-8 I - X12-C1-5 I - X12-C1-6 I - X12-C1-7 I - X12-C1-8 I - X21-C1-1 I - X21-C1-2 I - X21-C1-3 I - X21-C1-4 I - X11-C1-1 I - X11-C1-2 I - X21-C1-5 I - X21-C1-6 I - X21-C1-7 I - X21-C1-8 I - X11-C1-3 I - X11-C1-4 Manual ME3011b_E_v0707_Pre.doc 36/50
2 Standard, rear view CONNECTION DIAGRAM EXAMPLES Manual ME3011b_E_v0707_Pre.doc 37/50
2 - Connection diagram with RRO and power fault indication, Vdc at alarm point 2 or yellow led on the keyboard end/or Vac fault at alarm point 4 or orange led on the keyboard Front view CONNECTION DIAGRAM EXAMPLES Connector Identification I1- X25-C1-1 R1 - X25-C2-1 I2 - X25-C1-2 R2 - X25-C2-2 I3 - X25-C1-3 R3 - X25-C2-3 I4- X25-C1-4 R4 - X25-C2-4 I1- X15-C1-1 R1 - X15-C2-1 I2 - X15-C1-2 R2 - X15-C2-2 I3 - X15-C1-3 R3 - X15-C2-3 I4- X15-C1-4 R4 - X15-C2-4 IN - X..-C_-N I5 - X25-C1-5 R5 - X25-C2-5 I6 - X25-C1-6 R6 - X25-C2-6 I7 - X25-C1-7 R7 - X25-C2-7 I8 - X25-C1-8 R8 - X25-C2-8 I5 - X15-C1-5 R5 - X15-C2-5 I6 - X15-C1-6 R6 - X15-C2-6 I7 - X15-C1-7 R7 - X15-C2-7 I8 - X15-C1-8 R8 - X15-C2-8 I - Alarm Input I1- X24-C1-1 R1 - X24-C2-1 I2 - X24-C1-2 R2 - X24-C2-2 I3 - X24-C1-3 R3 - X24-C2-3 I4- X24-C1-4 R4 - X24-C2-4 I1- X14-C1-1 R1 - X14-C2-1 I2 - X14-C1-2 R2 - X14-C2-2 I3 - X14-C1-3 R3 - X14-C2-3 I4- X14-C1-4 R4 - X14-C2-4 R - Alarm repeater relay (RRO) I5 - X24-C1-5 R5 - X24-C2-5 I6 - X24-C1-6 R6 - X24-C2-6 I7 - X24-C1-7 R7 - X24-C2-7 I8 - X24-C1-8 R8 - X24-C2-8 I5 - X14-C1-5 R5 - X14-C2-5 I6 - X14-C1-6 R6 - X14-C2-6 I7 - X14-C1-7 R7 - X14-C2-7 I8 - X14-C1-8 R8 - X14-C2-8 X.. - Connector line I1- X23-C1-1 R1 - X23-C2-1 I2 - X23-C1-2 R2 - X23-C2-2 I3 - X23-C1-3 R3 - X23-C2-3 I4- X23-C1-4 R4 - X23-C2-4 I1- X13-C1-1 R1 - X13-C2-1 I2 - X13-C1-2 R2 - X13-C2-2 I3 - X13-C1-3 R3 - X13-C2-3 I4- X13-C1-4 R4 - X13-C2-4 C - Connector I5 - X23-C1-5 R5 - X23-C2-5 I6 - X23-C1-6 R6 - X23-C2-6 I7 - X23-C1-7 R7 - X23-C2-7 I8 - X23-C1-8 R8 - X23-C2-8 I5 - X13-C1-5 R5 - X13-C2-5 I6 - X13-C1-6 R6 - X13-C2-6 I7 - X13-C1-7 R7 - X13-C2-7 I8 - X13-C1-8 R8 - X13-C2-8 N - Connector terminal cooresponding to the Alarm Point I1- X22-C1-1 R1 - X22-C2-1 I2 - X22-C1-2 R2 - X22-C2-2 I3 - X22-C1-3 R3 - X22-C2-3 I4- X22-C1-4 R4 - X22-C2-4 I1- X12-C1-1 R1 - X12-C2-1 I2 - X12-C1-2 R2 - X12-C2-2 I3 - X12-C1-3 R3 - X12-C2-3 I4- X12-C1-4 R4 - X12-C2-4 I5 - X22-C1-5 R5 - X22-C2-5 I6 - X22-C1-6 R6 - X22-C2-6 I7 - X22-C1-7 R7 - X22-C2-7 I8 - X22-C1-8 R8 - X22-C2-8 I5 - X12-C1-5 R5 - X12-C2-5 I6 - X12-C1-6 R6 - X12-C2-6 I7 - X12-C1-7 R7 - X12-C2-7 I8 - X12-C1-8 R8 - X12-C2-8 I1- X21-C1-1 R1 - X21-C2-1 I5 - X21-C1-5 R5 - X21-C2-5 I2 - X21-C1-2 R2 - X21-C2-2 I6 - X21-C1-6 R6 - X21-C2-6 I3 - X21-C1-3 R3 - X21-C2-3 I7 - X21-C1-7 R7 - X21-C2-7 I4- X21-C1-4 R4 - X21-C2-4 I8 - X21-C1-8 R8 - X21-C2-8 I1- X11-C1-1 R1 - X11-C2-1 I3 - X11-C1-3 R3 - X11-C2-3 I2 - X11-C1-2 R2 - X11-C2-1 Vdc Fault (*) RD - X11-C3-2(*) I4 - X11-C1-4 R4 - X11-C2-4 Vac Fault (*) RA - X11-C3-1(*) Vdc Fault Vac Fault (*)If the Alarm points 2 an 4 are used for Power Suply Fault detector, the correspondent repeaters are on connector C3 repeaters Manual ME3011b_E_v0707_Pre.doc 38/50
CONNECTION DIAGRAM EXAMPLES Rear view Manual ME3011b_E_v0707_Pre.doc 39/50
TERMINAL IDENTIFICATION FOR ENCLOSURES WITH MODULE REAR VIEW Number of horizontal points (h) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 y = 12 4 3 X1C 2 1 4 3 X2C 2 1 24 8 7 6 5 8 7 6 5 23 y = 11 4 3 X1B 2 1 4 3 X2B 2 1 22 8 7 6 5 8 7 6 5 21 y = 10 4 3 X1A 2 1 4 3 X2A 2 1 4 3 X3A 2 1 20 8 7 6 5 8 7 6 5 8 7 6 5 19 y = 9 4 3 X19 2 1 4 3 X29 2 1 4 3 X39 2 1 18 8 7 6 5 8 7 6 5 8 7 6 5 17 Number of vertical modules y = 8 y = 7 y = 6 y = 5 4 3 X18 2 1 4 3 X28 2 1 4 3 X38 2 1 4 3 X48 2 1 16 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 15 4 3 X17 2 1 4 3 X27 2 1 4 3 X37 2 1 4 3 X47 2 1 14 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 13 4 3 X16 2 1 4 3 X26 2 1 4 3 X36 2 1 4 3 X46 2 1 12 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 11 4 3 X15 2 1 4 3 X25 2 1 4 3 X35 2 1 4 3 X45 2 1 10 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 9 Number of vertical points (v) y = 4 4 3 X14 2 1 4 3 X24 2 1 4 3 X34 2 1 4 3 X44 2 1 8 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 7 y = 3 4 3 X13 2 1 4 3 X23 2 1 4 3 X33 2 1 4 3 X43 2 1 6 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 5 y = 2 4 3 X12 2 1 4 3 X22 2 1 4 3 X32 2 1 4 3 X42 2 1 4 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5 3 y = 1 X11 2 1 4 3 X21 2 1 4 3 X31 2 1 4 3 X41 2 1 2 4 3 8 7 6 5 8 7 6 5 8 7 6 5 1 1 2 3 4 Number of horizontal modules Manual ME3011b_E_v0707_Pre.doc 40/50
TERMINAL IDENTIFICATION FOR ENCLOSURES WITH MODULE FRONT VIEW Number of horizontal points (h) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 y = 12 1 2 X2C 3 4 1 2 X1C 3 4 24 5 6 7 8 5 6 7 8 23 y = 11 1 2 X2B 3 4 1 2 X1B 3 4 22 5 6 7 8 5 6 7 8 21 y = 10 1 2 X2A 3 4 1 2 X2A 3 4 1 2 X1A 3 4 20 5 6 7 8 5 6 7 8 5 6 7 8 19 y = 9 1 2 X39 3 4 1 2 X29 3 4 1 2 X19 3 4 18 5 6 7 8 5 6 7 8 5 6 7 8 17 Number of vertical Modules y = 8 y = 7 y = 6 y = 5 1 2 X48 3 4 1 2 X38 3 4 1 2 X28 3 4 1 2 X18 3 4 16 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 15 1 2 X47 3 4 1 2 X37 3 4 1 2 X27 3 4 1 2 X17 3 4 14 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 13 1 2 X46 3 4 1 2 X36 3 4 1 2 X26 3 4 1 2 X16 3 4 12 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 11 1 2 X45 3 4 1 2 X35 3 4 1 2 X25 3 4 1 2 X15 3 4 10 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 9 Number of vertical Points (v) y = 4 1 2 X44 3 4 1 2 X34 3 4 1 2 X24 3 4 1 2 X14 3 4 8 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 7 y = 3 1 2 X43 3 4 1 2 X33 3 4 1 2 X23 3 4 1 2 X13 3 4 6 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 5 y = 2 1 2 X42 3 4 1 2 X32 3 4 1 2 X22 3 4 1 2 X12 3 4 4 5 6 7 8 5 6 7 8 5 6 7 8 5 6 7 8 3 y = 1 1 2 X41 3 4 1 2 X31 3 4 1 2 X21 3 4 1 2 2 X11 5 6 7 8 5 6 7 8 5 6 7 8 3 4 1 4 3 2 1 Number of horizontal Modules Manual ME3011b_E_v0707_Pre.doc 41/50
TERMINAL IDENTIFICATION FOR ENCLOSURES WITH CM-04 MODULE REAR VIEW Number of horizontal Points 1 2 3 4 5 6 7 8 9 10 11 12 13 14 y = 12 6 X22 5 24 8 7 23 y = 11 2 X21 1 22 4 3 21 y = 10 6 X20 5 20 8 7 19 y = 9 2 X19 1 18 4 3 17 Number of vertical Modules y = 8 y = 7 y = 6 y = 5 6 X18 5 16 8 7 15 2 X17 1 14 4 3 13 6 X16 5 12 8 7 11 2 X15 1 4 3 X25 2 1 10 4 3 8 7 6 5 9 Number of vertical Points (v) y = 4 6 X14 5 4 3 X24 2 1 8 8 7 8 7 6 5 7 y = 3 2 X13 1 4 3 X23 2 1 4 3 X33 2 1 6 4 3 8 7 6 5 8 7 6 5 5 y = 2 2 X12 1 4 3 X22 2 1 4 3 X32 2 1 4 3 X42 2 1 4 4 3 8 7 6 5 8 7 6 5 8 7 6 5 3 y = 1 X11 CM-04 4 3 X21 2 1 1 2 X31 3 4 1 2 X41 3 4 2 8 7 6 5 5 6 7 8 5 6 7 8 1 0,5 1,5 2,5 3,5 Number of horizontal Modules Manual ME3011b_E_v0707_Pre.doc 42/50
TERMINAL IDENTIFICATION FOR ENCLOSURES WITH CM-04 MODULE FRONT VIEW Number of horizontal Points 14 13 12 11 10 9 8 7 6 5 4 3 2 1 y = 12 5 X22 6 24 7 8 23 y = 11 1 X21 2 22 3 4 21 y = 10 5 X20 6 20 7 8 19 y = 9 1 X19 2 18 3 4 17 Number of vertical Modules y = 8 y = 7 y = 6 y = 5 5 X18 6 16 7 8 15 1 X17 2 14 3 4 13 5 X16 6 12 7 8 11 1 2 X25 3 4 1 X15 2 10 5 6 7 8 3 4 9 Number of vertical Points (v) y = 4 1 2 X24 3 4 5 X14 6 8 5 6 7 8 7 8 7 y = 3 1 2 X33 3 4 1 2 X23 3 4 1 X13 2 6 5 6 7 8 5 6 7 8 3 4 5 y = 2 1 2 X42 3 4 1 2 X32 3 4 1 2 X22 3 4 1 X12 2 4 5 6 7 8 5 6 7 8 5 6 7 8 3 4 3 y = 1 1 2 X41 3 4 1 2 X31 3 4 1 2 X21 3 4 X11 2 5 6 7 8 5 6 7 8 5 6 7 8 CM-04 1 3,5 2,5 1,5 0,5 Number of horizontal Modules Manual ME3011b_E_v0707_Pre.doc 43/50
NEW ARRANGEMENTS REAR VIEW 20v x 2h 4 36 18v x 2h 4 4 32 EM-03 32 EM-04 16v x 2h 4 4 4 28 28 28 14v x 2h 4 4 4 4 24 EM-03 24 EM-03 24 EM-03 24 EM-04 12v x 2h 4 4 4 4 4 20 20 20 20 20 10v x 2h 4 4 4 4 4 4 16 EM-03 16 EM-03 16 EM-03 16 EM-03 16 EM-03 16 EM-04 8v x 2h 4 4 4 4 4 4 4 12 12 12 12 12 12 12 6v x 2h 4 4 4 4 4 4 4 4 8 EM-03 8 EM-03 8 EM-03 8 EM-03 8 EM-03 8 EM-03 8 EM-03 8 EM-04 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4v x 2h CM-04 CM-04 CM-04 CM-04 CM-04 CM-04 CM-04 CM-04 CM-04 10v x 6h 8 4 4v x 6h 52 EM-02 56 EM-04 8v x 6h 8 4 8 4 8 4 20 EM-02 12 44 EM-02 36 44 EM-02 36 6v x 6h 4 4 8 4 8 4 8 4 4 8 EM-03 28 EM-02 32 EM-03 28 EM-02 32 EM-03 28 EM-02 32 EM-04 8 4 8 4 8 4 20 EM-02 12 20 EM-02 12 20 EM-02 12 2v x 6h 4 4 4 4 4 4 4 4 4 8 EM-03 4 8 EM-03 4 8 EM-03 4 8 EM-04 6v x 10h 4v x 10 8 8 4 8 8 4 44 EM-02 52 EM-02 56 EM-04 36 EM-02 28 EM-02 20 8 8 4 4 8 4 36 EM-02 28 EM-02 20 4 12 EM-02 16 EM-03 4 8 4 4 12 EM-02 16 EM-03 2v x 10h 4v x 14h 4 8 4 4 12 EM-02 16 EM-04 8 8 8 4 52 EM-02 44 EM-02 36 EM-02 28 EM-04 2v x 14h 4 8 8 4 4 8 8 4 4 12 EM-02 20 EM-02 24 EM-04 4 12 EM-02 20 EM-02 24 EM-04 Manual ME3011b_E_v0707_Pre.doc 44/50
SM-02 MODULE POSITION ON 4h ENCLOSURE REAR VIEW 24v x 4h 8 92 EM-02 22v x 4h 8 8 84 EM-02 84 EM-02 20v x 4h 8 8 8 76 EM-02 76 EM-02 76 EM-02 8 8 8 8 68 SM-02 68 SM-02 68 SM-02 68 18v x 4h SM-02 16v x 4h 8 8 8 8 8 60 EM-02 60 EM-02 60 EM-02 60 EM-02 60 EM-02 14v x 4h 8 8 8 8 8 8 52 EM-02 52 EM-02 52 EM-02 52 EM-02 52 EM-02 52 EM-02 8 8 8 8 8 8 44 EM-02 44 EM-02 44 EM-02 44 EM-02 44 EM-02 44 EM-02 8 8 8 8 8 8 36 EM-02 36 EM-02 36 EM-02 36 EM-02 36 EM-02 36 EM-02 8 8 8 8 8 8 28 EM-02 28 EM-02 28 EM-02 28 EM-02 28 EM-02 28 EM-02 8 8 8 8 8 8 20 EM-02 20 EM-02 20 EM-02 20 EM-02 20 EM-02 20 EM-02 8 8 8 8 8 8 12 EM-02 12 EM-02 12 EM-02 12 EM-02 12 EM-02 12 EM-02 4 4 4 4 4 4 4 4 4 4 4 4 12v x 4h 8 44 EM-02 10v x 4h 8 8 36 EM-02 36 EM-02 8v x 4h 8 8 8 28 EM-02 28 EM-02 28 EM-02 6v x 4h 8 8 8 8 20 EM-02 20 EM-02 20 EM-02 20 EM-02 4v x 4h 8 8 8 8 8 12 EM-02 12 EM-02 12 EM-02 12 EM-02 12 EM-02 2v x 4h 4 4 4 4 4 4 4 4 4 4 4 4 Manual ME3011b_E_v0707_Pre.doc 45/50
SM-02 MODULE POSITION ON 8h ENCLOSURE REAR VIEW 24v x 8h 8 8 188 EM-02 180 EM-02 22v x 8h 8 8 8 8 164 EM-02 172 EM-02 164 EM-02 172 EM-02 20v x 8h 8 8 8 8 8 8 156 EM-02 148 EM-02 156 EM-02 148 EM-02 156 EM-02 148 EM-02 18v x 8h 8 8 8 8 8 8 8 8 132 SM-02 140 EM-02 132 SM-02 140 EM-02 132 SM-02 140 EM-02 132 SM-02 140 EM-02 8 8 8 8 8 8 8 8 124 EM-02 116 EM-02 124 EM-02 116 EM-02 124 EM-02 116 EM-02 124 EM-02 116 EM-02 8 8 8 8 8 8 8 8 100 EM-02 108 EM-02 100 EM-02 108 EM-02 100 EM-02 108 EM-02 100 EM-02 108 EM-02 8 8 8 8 8 8 8 8 92 EM-02 84 EM-02 92 EM-02 84 EM-02 92 EM-02 84 EM-02 92 EM-02 84 EM-02 8 8 8 8 8 8 8 8 68 SM-02 76 EM-02 68 SM-02 76 EM-02 68 SM-02 76 EM-02 68 SM-02 76 EM-02 8 8 8 8 8 8 8 8 60 EM-02 52 EM-02 60 EM-02 52 EM-02 60 EM-02 52 EM-02 60 EM-02 52 EM-02 8 8 8 8 8 8 8 8 36 EM-02 44 EM-02 36 EM-02 44 EM-02 36 EM-02 44 EM-02 36 EM-02 44 EM-02 8 8 8 8 8 8 8 8 28 EM-02 20 EM-02 28 EM-02 20 EM-02 28 EM-02 20 EM-02 28 EM-02 20 EM-02 4 8 4 8 4 8 4 8 4 12 EM-02 4 12 EM-02 4 12 EM-02 4 12 EM-02 16v x 8h 8 8 124 EM-02 116 EM-02 14v x 8h 8 8 8 8 100 EM-02 108 EM-02 100 EM-02 108 EM-02 12v x 8h 8 8 8 8 8 8 92 EM-02 84 EM-02 92 EM-02 84 EM-02 92 EM-02 84 EM-02 10v x 8h 8 8 8 8 8 8 8 8 68 SM-02 76 EM-02 68 SM-02 76 EM-02 68 SM-02 76 EM-02 68 SM-02 76 EM-02 8 8 8 8 8 8 8 8 60 EM-02 52 EM-02 60 EM-02 52 EM-02 60 EM-02 52 EM-02 60 EM-02 52 EM-02 8 8 8 8 8 8 8 8 36 EM-02 44 EM-02 36 EM-02 44 EM-02 36 EM-02 44 EM-02 36 EM-02 44 EM-02 8 8 8 8 8 8 8 8 28 EM-02 20 EM-02 28 EM-02 20 EM-02 28 EM-02 20 EM-02 28 EM-02 20 EM-02 4 8 4 8 4 8 4 8 4 12 EM-02 4 12 EM-02 4 12 EM-02 4 12 EM-02 8v x 8h 8 8 60 EM-02 52 EM-02 6v x 8h 8 8 8 8 36 EM-02 44 EM-02 36 EM-02 44 EM-02 4v x 8h 8 8 8 8 8 8 28 EM-02 20 EM-02 28 EM-02 20 EM-02 28 EM-02 20 EM-02 2v x 8h 4 8 4 8 4 8 4 8 4 12 EM-02 4 12 EM-02 4 12 EM-02 4 12 EM-02 Manual ME3011b_E_v0707_Pre.doc 46/50
SM-02 MODULE POSITION ON 12h ENCLOSURE REAR VIEW 20v x 12h 8 8 8 236 EM-02 228 EM-02 220 EM-02 8 8 8 8 8 8 196 SM-02 204 EM-02 212 EM-02 196 SM-02 204 EM-02 212 EM-02 8 8 8 8 8 8 8 8 8 188 EM-02 180 EM-02 172 EM-02 188 EM-02 180 EM-02 172 EM-02 188 EM-02 180 EM-02 172 EM-02 8 8 8 8 8 8 8 8 8 148 EM-02 156 EM-02 164 EM-02 148 EM-02 156 EM-02 164 EM-02 148 EM-02 156 EM-02 164 EM-02 8 8 8 8 8 8 8 8 8 140 EM-02 132 SM-02 124 EM-02 140 EM-02 132 SM-02 124 EM-02 140 EM-02 132 SM-02 124 EM-02 8 8 8 8 8 8 8 8 8 100 EM-02 108 EM-02 116 EM-02 100 EM-02 108 EM-02 116 EM-02 100 EM-02 108 EM-02 116 EM-02 8 8 8 8 8 8 8 8 8 92 EM-02 84 EM-02 76 EM-02 92 EM-02 84 EM-02 76 EM-02 92 EM-02 84 EM-02 76 EM-02 8 8 8 8 8 8 8 8 8 52 EM-02 60 EM-02 68 SM-02 52 EM-02 60 EM-02 68 SM-02 52 EM-02 60 EM-02 68 SM-02 8 8 8 8 8 8 8 8 8 44 EM-02 36 EM-02 28 EM-02 44 EM-02 36 EM-02 28 EM-02 44 EM-02 36 EM-02 28 EM-02 4 8 8 4 8 8 4 8 8 4 12 EM-02 20 EM-02 4 12 EM-02 20 EM-02 4 12 EM-02 20 EM-02 14 x 12h 8 8 8 148 EM-02 156 EM-02 164 EM-02 8 8 8 8 8 8 140 EM-02 132 SM-02 124 EM-02 140 EM-02 132 SM-02 124 EM-02 8 8 8 8 8 8 8 8 8 100 EM-02 108 EM-02 116 EM-02 100 EM-02 108 EM-02 116 EM-02 100 EM-02 108 EM-02 116 EM-02 8 8 8 8 8 8 8 8 8 92 EM-02 84 EM-02 76 EM-02 92 EM-02 84 EM-02 76 EM-02 92 EM-02 84 EM-02 76 EM-02 8 8 8 8 8 8 8 8 8 52 EM-02 60 EM-02 68 SM-02 52 EM-02 60 EM-02 68 SM-02 52 EM-02 60 EM-02 68 SM-02 8 8 8 8 8 8 8 8 8 44 EM-02 36 EM-02 28 EM-02 44 EM-02 36 EM-02 28 EM-02 44 EM-02 36 EM-02 28 EM-02 4 8 8 4 8 8 4 8 8 4 12 EM-02 20 EM-02 4 12 EM-02 20 EM-02 4 12 EM-02 20 EM-02 8v x 12h 8 8 8 92 EM-02 84 EM-02 76 EM-02 18v x 12h 12 x 12h 6v x 12h 8 8 8 8 8 8 52 EM-02 60 EM-02 68 SM-02 52 EM-02 60 EM-02 68 8 8 8 8 8 8 8 8 8 44 EM-02 36 EM-02 28 EM-02 44 EM-02 36 EM-02 28 EM-02 44 EM-02 36 EM-02 28 EM-02 4 8 8 4 8 8 4 8 8 4 12 EM-02 20 EM-02 4 12 EM-02 20 EM-02 4 12 EM-02 20 EM-02 SM-02 16 x 12h 10 x 12h 4v x 12h Manual ME3011b_E_v0707_Pre.doc 47/50
SM-02 MODULE POSITION ON 16h ENCLOSURE REAR VIEW 16v x 16h 8 8 8 8 252 EM-02 244 EM-02 236 EM-02 228 EM-02 14v x 16h 8 8 8 8 8 8 8 8 196 SM-02 204 EM-02 212 EM-02 220 EM-02 196 SM-02 204 EM-02 212 EM-02 220 EM-02 8 8 8 8 8 8 8 8 188 EM-02 180 EM-02 172 EM-02 164 EM-02 188 EM-02 180 EM-02 172 EM-02 164 EM-02 8 8 8 8 8 8 8 8 132 SM-02 140 EM-02 148 EM-02 156 EM-02 132 SM-02 140 EM-02 148 EM-02 156 EM-02 8 8 8 8 8 8 8 8 124 EM-02 116 EM-02 108 EM-02 100 EM-02 124 EM-02 116 EM-02 108 EM-02 100 EM-02 8 8 8 8 8 8 8 8 68 SM-02 76 EM-02 84 EM-02 92 EM-02 68 SM-02 76 EM-02 84 EM-02 92 EM-02 8 8 8 8 8 8 8 8 60 EM-02 52 EM-02 44 EM-02 36 EM-02 60 EM-02 52 EM-02 44 EM-02 36 EM-02 4 8 8 8 4 8 8 8 4 12 EM-02 20 EM-02 28 EM-02 4 12 EM-02 20 EM-02 28 EM-02 12v x 16h 8 8 8 8 188 EM-02 180 EM-02 172 EM-02 164 EM-02 10v x 16h 8 8 8 8 8 8 8 8 132 SM-02 140 EM-02 148 EM-02 156 EM-02 132 SM-02 140 EM-02 148 EM-02 156 EM-02 8 8 8 8 8 8 8 8 124 EM-02 116 EM-02 108 EM-02 100 EM-02 124 EM-02 116 EM-02 108 EM-02 100 EM-02 8 8 8 8 8 8 8 8 68 SM-02 76 EM-02 84 EM-02 92 EM-02 68 SM-02 76 EM-02 84 EM-02 92 EM-02 8 8 8 8 8 8 8 8 60 EM-02 52 EM-02 44 EM-02 36 EM-02 60 EM-02 52 EM-02 44 EM-02 36 EM-02 4 8 8 8 4 8 8 8 4 12 EM-02 20 EM-02 28 EM-02 4 12 EM-02 20 EM-02 28 EM-02 8v x 16h 8 8 8 8 124 EM-02 116 EM-02 108 EM-02 100 EM-02 8 8 8 8 8 8 8 8 68 SM-02 76 EM-02 84 EM-02 92 EM-02 68 SM-02 76 EM-02 84 EM-02 92 EM-02 8 8 8 8 8 8 8 8 60 EM-02 52 EM-02 44 EM-02 36 EM-02 60 EM-02 52 EM-02 44 EM-02 36 EM-02 4 8 8 8 4 8 8 8 4 12 EM-02 20 EM-02 28 EM-02 4 12 EM-02 20 EM-02 28 EM-02 6v x 16h 8 8 8 8 60 EM-02 52 EM-02 44 EM-02 36 EM-02 4v x 16h 4 8 8 8 4 8 8 8 4 12 EM-02 20 EM-02 28 EM-02 4 12 EM-02 20 EM-02 28 EM-02 2v x 16h Manual ME3011b_E_v0707_Pre.doc 48/50
CONFIGURATION MODES The ME 3011b Annunciator provides two ways for parameter configuration. 1 Via Serial Interface By means of RS232C serial interface, using e.tool ME3011- config program. Detailed instructions you find at Configuration via serial interface - e.tool ME3011 config Manual Interface RS232C - Cable C S-02-5, 10 or 15m The latest e.tool ME3011- config software can be downloaded from our site: http://www.mauell.com.br/br/central_downloads.php The manual of e.tool ME3011 config can be downloaded from our site: http://www.mauell.com.br/br/central_downloads.php 3 Via KEYBOARD By means of central module, using buttons and LED s from keyboard in order to set programming phase and the 4 alarm LED s of central module for indicating selected parameter. NOTE: For detailed instructions for the keyboard configuration, please contact our service department: service@mauell.com.br COMMUNICATION PROTOCOL SERIAL MODBUS RTU (SLAVE) e.tool ME3011- view Visualization via serial interface Manual ME3011b_E_v0707_Pre.doc
Brazil Representatives and branches Worldwide Helmut Mauell do Brasil Est. Estadual Salvador de Leone, 2998 Abu Dhabi E.A.U. Korea 06850-000 Itapecerica da Serra - SP Argentina Malaysia Tel.: +55 (0) 11 2117 5353 Belgium Netherlands Fax.: +55 (0) 11 2117 5354 Czech Republic Norway www.mauell.com.br Denmark Poland mauell@mauell.com.br Finland Singapore France Spain Great Britain Sweden Germany Hungary Switzerland Iran Turkey Helmut Mauell GmbH Kuwait USA Am Rosenhügel 1 7 D-42553 Velbert Tel.:+49 (0)20 53/1 30 Fax.:+49 (0)20 53/1 36 53 www.mauell.com info@mauell.com Manual ME3011b_E_v0707_Pre.doc