Siemens SICAM Manual

Earth fault indicator

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SICAM

Earth Fault Indicator

V01.00

Manual

E50417-H8940-C600-A3

Preface

Table of Contents

Delivery

Overview

Installation and Commissioning

Product Specifications

Device Functions

Troubleshooting

SICAM EFI Variant wise Terminal Details

and DIP Switch Settings

Index

Table of Contents

Troubleshooting

Summary of Contents for Siemens SICAM

Page 1 Preface Table of Contents Delivery SICAM Overview Earth Fault Indicator Installation and Commissioning Product Specifications V01.00 Device Functions Manual Troubleshooting SICAM EFI Variant wise Terminal Details and DIP Switch Settings Index E50417-H8940-C600-A3...
Page 2 NOTE For your own safety, observe the warnings and safety instructions contained in this document, if available. Disclaimer of Liability Copyright Subject to changes and errors. The information given in Copyright © Siemens 2022. All rights reserved. this document only contains general descriptions and/or The disclosure, duplication, distribution and editing of this performance features which may not always specifically document, or utilization and communication of the content reflect those described, or which may undergo modifica- are not permitted, unless authorized in writing. All rights, tion in the course of further development of the products. including rights created by patent grant or registration of a The requested performance features are binding only when utility model or a design, are reserved. they are expressly agreed upon in the concluded contract. Document version: E50417-H8940-C600-A3.00 Trademarks Edition: 12.2022 SIPROTEC, DIGSI, SIGRA, SIGUARD, SIMEAS, SAFIR, SICAM, Version of the product described: V01.00 and MindSphere are trademarks of Siemens. Any unauthor- ized use is prohibited.
Page 3: Preface
Preface Purpose of the Manual This manual describes the application, functions, installation, technical data, and operation of the SICAM Earth Fault Indicator (EFI). Target Audience Protection system engineers, commissioning engineers, persons entrusted with the setting, testing and maintenance of automation, selective protection and control equipment, and operational crew in electrical installations and power plants. Scope This manual applies to SICAM Earth Fault Indicator (EFI) 6MD2311. Indication of Conformity This product complies with the directive of the Council of the European Communities on the harmonization of the laws of the Member States relating to electromagnetic compatibility (EMC Directive 2014/30/EU) and concerning electrical equipment for use within specified voltage limits (Low Voltage Directive 2014/35/EU) as well as restriction on usage of hazardous substances in electrical and electronic equipment (RoHS Direc- tive 2011/65/EU). This conformity has been proved by tests performed according to the Council Directive and in accordance with the generic standard IEC/EN 61326-1 and IEC/EN 61000-6-2 (for EMC directive) and with the standards IEC/EN 61010-1 and IEC/EN 61010-2-30 (for Low Voltage Directive) by Siemens AG. The device is designed and manufactured for application in an industrial environment. RoHS directive 2011/65/EU is met using the standard IEC/EN 63000. Standards IEC 62689-1 Customer Support Center Our Customer Support Center provides a 24-hour service. Siemens AG Smart Infrastructure ‒ Digital Grid Phone: +49 911 2155 4466 Customer Support Center E-mail: energy.automation@siemens.com Additional Support For questions about the system, contact your Siemens sales partner. Training Courses Inquiries regarding individual training courses should be addressed to our Training Center: SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 4 Phone: +49 911 9582 7100 Humboldtstraße 59 E-mail: poweracademy@siemens.com 90459 Nuremberg Internet: www.siemens.com/poweracademy Germany Notes on Safety This document is not a complete index of all safety measures required for operation of the equipment (module or device). However, it comprises important information that must be followed for personal safety, as well as to avoid material damage. Information is highlighted and illustrated as follows according to the degree of danger: DANGER DANGER means that death or severe injury will result if the measures specified are not taken. Comply with all instructions, in order to avoid death or severe injuries. ² WARNING WARNING means that death or severe injury may result if the measures specified are not taken. Comply with all instructions, in order to avoid death or severe injuries. ² CAUTION CAUTION means that medium-severe or slight injuries can occur if the specified measures are not taken. Comply with all instructions, in order to avoid moderate or minor injuries. ² NOTICE NOTICE means that property damage can result if the measures specified are not taken. Comply with all instructions, in order to avoid property damage. ² NOTE Important information about the product, product handling or a certain section of the documentation which must be given attention. Qualified Electrical Engineering Personnel Only qualified electrical engineering personnel may commission and operate the equipment (module, device) described in this document. Qualified electrical engineering personnel in the sense of this document are people who can demonstrate technical qualifications as electrical technicians. These persons may commission, isolate, ground and label devices, systems and circuits according to the standards of safety engineering. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 5 Siemens. Problem-free and safe operation of the product depends on the following: • Proper transport • Proper storage, setup and installation • Proper operation and maintenance When electrical equipment is operated, hazardous voltages are inevitably present in certain parts. If proper action is not taken, death, severe injury or property damage can result: • The equipment must be grounded at the grounding terminal before any connections are made. • All circuit components connected to the power supply may be subject to dangerous voltage. • Hazardous voltages may be present in equipment even after the supply voltage has been disconnected (capacitors can still be charged). • Operation of equipment with exposed current-transformer circuits is prohibited. Before disconnecting the equipment, ensure that the current-transformer circuits are short-circuited. • The limiting values stated in the document must not be exceeded. This must also be considered during testing and commissioning. Selection of Used Symbols on the Device Symbol Description Direct current, IEC 60417, 5031 Alternating current, IEC 60417, 5032 Direct and alternating current, IEC 60417, 5033 Earth (ground) terminal, IEC 60417, 5017 Protective conductor terminal, IEC 60417, 5019 Caution, risk of electric shock Caution, risk of danger, ISO 7000, 0434 Protective Insulation, IEC 60417, 5172, Safety Class II devices Guideline 2002/96/EC for electrical and electronic devices Guideline for the Eurasian Market Mandatory Conformity Mark for Electronics and Electrotechnical Products in Morocco SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 6 Preface OpenSSL This product includes software developed by the OpenSSL Project for use in OpenSSL Toolkit (http:// www.openssl.org/). This product includes software written by Tim Hudson (tjh@cryptsoft.com). This product includes cryptographic software written by Eric Young (eay@cryptsoft.com). SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 7: Table Of Contents
Table of Contents Preface................................3 Delivery.................................9 Delivery..........................10 Overview..............................11 Device Description......................12 Hardware Components..................... 13 Features........................... 14 Applications........................15 Ordering Information (MLFB Details)................. 16 SICAM EFI Variants......................19 SICAM EFI Terminal Details....................23 Installation and Commissioning......................... 25 Dimensional drawings.......................26 Device Installation and Commissioning................27 Installation of Ground Sensor (Three-Core Cables)............. 31 Installation of Ground Sensor (Single-Core Cables).............33 Mounting of the Ground Sensor on Single-Core Cables: Use Cases........35 Mounting of the Ground Sensor on a Shielded Cable............36 Replacing the SICAM EFI Battery..................38 Signal Lamp Dimensions and Procedures................40 3.8.1 Signal Lamp Dimensions....................40 3.8.2...
Page 8 DIP Switch.........................65 5.4.1 DIP Switch Overview ....................65 5.4.2 Ground Fault Current Setting ..................66 5.4.3 Ground Current-Based Reset Setting ................66 5.4.4 Auxiliary AC Recovery Reset Setting ................66 5.4.5 Response Time ......................67 5.4.6 Fault Auto-Reset Time ....................67 5.4.7 Auto Reclosure Time Setting ..................68 5.4.8 Ground-current Inrush ....................68 5.4.9 BO Type Configuration (for Ground Fault)..............68 5.4.10 Frequency Selector ..................... 69 Binary Outputs........................70 Built-in Restraints......................71 Troubleshooting............................73 Troubleshooting....................... 74 SICAM EFI Variant wise Terminal Details and DIP Switch Settings.............77 Index................................79 SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 9: Delivery
Delivery Delivery SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 10: Delivery
Delivery 1.1 Delivery Delivery Delivery Note SICAM Earth Fault Indicator (EFI) is delivered in a cardboard box. Contents of Delivery • 1 SICAM EFI device • 1 ground sensor with cable tie • 1 quick reference guide (QRG) • 1 mounting screw kit WARNING Danger of explosion of the battery. Noncompliance with the safety instructions means that death, severe injuries, or considerable mate- rial damages can occur. Do not throw the SICAM EFI device containing a battery into a fire. ² WARNING Warning about battery disposal. Noncompliance with the safety instructions means that severe injuries or considerable material damages can occur. When discharged or when properly secured against short circuit, lithium batteries can be disposed ² of through retailers or at depots run by competent organizations (for example, in Germany GRS collection points). NOTE SICAM EFI with 1 contained lithium metal cell (0.69 g lithium content) meeting the preconditions of Special Provision SP188 of the UN Recommendations on the Transport of Dangerous Goods, 17th revised edition and is classified according to: • ADR/RID/ADN/IMDG-Code: UN 3091 lithium metal batteries contained in equipment, 9, preconditions of SP188 met • ICAO-TI/IATA-DGR: UN 3091 lithium metal batteries contained in equipment, 9, preconditions of Section II PI 970 met SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 11: Overview
Overview Device Description Hardware Components Features Applications Ordering Information (MLFB Details) SICAM EFI Variants SICAM EFI Terminal Details SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 12: Device Description
Overview 2.1 Device Description Device Description The SICAM Earth Fault Indicator (EFI) is a device that is used for detection and signaling of ground fault on medium-voltage underground distribution cable networks. In this manual, SICAM EFI is also referred to as the Device. SICAM EFI uses an external current sensor to detect ground faults. The device together with the current sensor detects the unbalance current in the underground cables and indicates it as a ground fault. These indications are based on the ground-fault current threshold set in SICAM EFI. The current sensor continuously provides the corresponding secondary voltage signal to the SICAM EFI module via an electrical cable. This signal is continuously validated at SICAM EFI. If the current value exceeds the set threshold level and persists until the expiry of the response time, SICAM EFI considers it as a valid fault and starts flashing the fault LED (red). Depending on the SICAM EFI variant, the ground-fault current threshold can be set from 25 A to 100 A or 25 A to 240 A. SICAM EFI helps in detecting and localizing the faults, thereby decreasing the outage times and maintaining the medium-voltage feeder availability. This device is used in the distribution automation systems having voltage ratings up to 36 kV (+10 %). Figure 2-1 represents the 6MD2311-1DC10-0AB6 variant of SICAM EFI and the block diagram varies for other variants. [dw̲efiblkdg, 1, en̲US] Figure 2-1 SICAM EFI Block Diagram SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 13: Hardware Components
Indicates the health of the battery on pressing of the push-button ‒ Auxiliary LED (Green) Indicates that the device is operating on the auxiliary voltage • Flag indicator - The device consists of 1 flag indicator for indicating the ground-fault. • Binary output (BO) The device consists of the following binary outputs: ‒ Ground-fault BO The device has 2 binary output contacts (1 changeover (CO) type + 1 normally open (NO) type spare) for indicating the ground-fault status remotely to SCADA via FRTU/RTU. ‒ Battery Health BO The device also has 1 dedicated binary output (NO type) for indicating battery health state remotely to SCADA via FRTU/RTU. ‒ Signal Lamp BO The device comes with a signal lamp BO for connecting to Siemens signal lamp accessory for ground-fault indication. For more information on device binary outputs, refer to 5.5 Binary Outputs. • DIP switch - The DIP switch is used for configuring the response time, auto reset time, and other settings. For more information about DIP the switch, refer to 5.4.1 DIP Switch Overview . • Fault reset inputs - The device consists of fault reset inputs for resetting the fault indication in the device via the push-button, AC/DC BI reset, and remote reset. For more information on the various fault reset options, refer to 5.2 Fault Reset . • Push button - The push-button is used for resetting the fault indication by the device manually, for executing the function check (Fn Chk) and battery check (Batt Chk). For more information on push- button, refer to 5.3 Push Button. Only available in dual-powered SICAM EFI variants. Only available in 6MD2311-1BB00-0AA3, 6MD2311-1BE00-0AB6, and 6MD2311-2BB10-0AA5 MLFB device variants Not available in 6MD2311-1BB00-0AA3 and 6MD2311-1BE00-0AB6 MLFB device variants. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 14: Features
Overview 2.3 Features Features The salient features of SICAM EFI are mentioned as follows: Power ON options • Self-sustained using internal Li-SOCl battery • Dual-powered using auxiliary (AC/DC) power supply Safety • The device complies with the IEC 61010-1 safety standards Simple • Supports easy device configuration using DIP switch based settings Configurable and changeover type binary outputs • Configurable ground-fault binary output as latch/wipe type • Providing remote indications of ground fault and battery health via FRTU/RTU Self-test diagnostic • Supports self-test locally using the push-button and remotely using the Low-Voltage Reset (LVR) contact. Local indication • 1 red LED and 1 red mechanical flag for indicating ground fault. • 1 green LED for AC/DC auxiliary power status • 1 amber LED for battery health status • 1 signal lamp output for local ground-fault indication Multiple fault reset functionality • Remote reset/Low-voltage reset (LVR), push-button reset, AC/DC voltage reset via binary input, Auxiliary AC recovery reset, ground current-based reset, auto reset using timer. Extended battery life •...
Page 15: Applications
Overview 2.4 Applications Applications • SICAM EFI is used in 50 Hz/60 Hz networks. • The device is primarily intended for radial or open ring medium-voltage cable networks. • Supports application on solidly grounded or low-resistive grounded networks. • SICAM EFI and signal lamp material is UV stabilized, flame retardant grade, and weatherproof polymeric material. • Split core encapsulated low-power sensor with insulation for outdoor applications ‒ UV stabilized, flame retardant grade, corrosion-resistant, and weatherproof polymeric material. • Optional external signal lamp available for outdoor installation and better fault indication visibility. • SICAM EFI fault LED visibility up to 20 m during day time (under bright sunlight) and 200 m during night time. Distance measured in line of sight vision under clear weather conditions. • Siemens signal lamp visibility up to 70 m during day time (under bright sunlight) and 300 m during night time. Distance measured in line of sight vision under clear weather conditions. [sc̲device̲sensor̲lamp, 1, --̲--] Figure 2-2 SICAM EFI with sensor and signal lamp SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 16: Ordering Information (Mlfb Details)
Overview 2.5 Ordering Information (MLFB Details) Ordering Information (MLFB Details) Table 2-1 SICAM EFI Selection and Ordering Data Description Order No. 1 2 3 4 5 6 7 15 16 SICAM Earth Fault Indicator 6 M D 2 3 1 1 - □ □ □ □ 0 - 0 A □ □ ▲ ▲ ▲ ▲ ▲ ▲...
Page 17 Ground-fault trip current range: 25 A to 240 A • Sensor ∅: 280 mm • Type 3 Sensor secondary wire length: 16 m Sensor • Used for 3 single-core cable • Supports cable pitch range: 220 mm to 340 mm (10 % Accuracy) • Ground-fault trip current range: 25 A to 240 A • Sensor ∅: 120 mm • Type 4 Sensor secondary wire length: 16 m Sensor • To be used for three-core cable • Supports cable ∅ range: 60 mm to 120 mm (10 % Accuracy) Sensor Connecting Wire Length (Refer description before ordering │ │ sensor wire length) 3.5 m wire length is only available for 3.5 m 6MD2311-1BB00-0AA3 MLFB variant 5 m wire length is only available for 5 m 6MD2311-2BB10-0AA5 MLFB variant 16 m wire length is available for the remaining MLFB 16 m variants. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 18 Overview 2.5 Ordering Information (MLFB Details) SICAM EFI - Spares and Accessories MLFB Description • 6MD2301-1BA00-0AA3 Ground-fault trip current range: 25 A to 100 A • Type 1 Sensor Sensor ∅: 150 mm • Sensor secondary wire length: 3.5 m • Used for three-core cable • Supports cable ∅ range: 60 mm to 150 mm (10 % Accuracy) • 6MD2301-1BA00-0AA5 Ground-fault trip current range: 25 A to 100 A • Type 1 Sensor Sensor ∅: 150 mm • Sensor secondary wire length: 5 m • Used for three-core cable • Supports cable ∅ range: 60 mm to 150 mm (10 % Accuracy) • 6MD2301-1CA00-0AB6 Ground-fault trip current range: 25 A to 240 A • Type 2 Sensor Sensor ∅: 140 mm • Sensor secondary wire length: 16 m • To be used for three-core cable •...
Page 19: Sicam Efi Variants
Overview 2.6 SICAM EFI Variants SICAM EFI Variants This section describes the different SICAM EFI variants and the available functionalities as per the ordering information: • Battery-Powered SICAM EFI with LED: 6MD2311-1BB00-0AA3 and 6MD2311-1BE00-0AB6 • Battery-Powered SICAM EFI with LED and Flag: 6MD2311-2BB10-0AA5 • Dual-Powered SICAM EFI with LED: 6MD2311-1DC00-0AB6, 6MD2311-1DD00-0AB6 and 6MD2311-1DE00-0AB6 • Dual-Powered SICAM EFI with LED and Flag: 6MD2311-1DC10-0AB6 Battery-Powered SICAM EFI Dual-Powered SICAM EFI Function Block Functional Elements with LED with LED and with LED with LED and Flag Flag Internal battery AA battery ● ● ● ● Auxiliary power AC 110 V to 230 V, ● ● supply ± 20 % tolerance DC 12 V to 24 V, ± 20 % ● ● tolerance Binary output...
Page 20 Overview 2.6 SICAM EFI Variants Battery-Powered SICAM EFI Dual-Powered SICAM EFI Function Block Functional Elements with LED with LED and with LED with LED and Flag Flag Fault current 25 A ● ● ● ● setting 40 A ● ● ● ● 50 A ● ● ● ● 80 A ● ● ● ● 100 A ● ● ● ● 120 A ●...
Page 21 Overview 2.6 SICAM EFI Variants SICAM EFI Variants [dw̲efivariant2, 1, en̲US] Figure 2-3 SICAM EFI Variants SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 22 Overview 2.6 SICAM EFI Variants SICAM EFI Device Labels [dw̲efi̲devicelabels, 1, en̲US] Figure 2-4 SICAM EFI Device Labels Device Label QR Code Details On scanning the QR code present on the device label, a text will be generated having device details. Sharing below an example text output along with description: SIEMENS;SICAM EFI;Delay time:100ms;Trip current:40A;GF2110506022;10/16/2021 Text Parameter Description SIEMENS;SICAM EFI Manufacturer details and type Delay time:100ms Default delay time set in the device Trip current:40A Default fault current setting in the device GF2110506022 Device serial number 10/16/2021 Date of manufacturing in (MM/DD/YYYY) SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 23: Sicam Efi Terminal Details
Overview 2.7 SICAM EFI Terminal Details SICAM EFI Terminal Details The following figure shows the terminal blocks along with device sectional view of SICAM EFI. [dw̲efiterminaldiagram, 1, en̲US] Figure 2-5 SICAM EFI Terminal Details Table 2-2 Terminal Specifications along with Recommended Cable and Lug Specifications Termin Pin No. Description Cable Cross- Lug (Tubular al Block section Terminal) 1, 2 Auxiliary supply input (AC) 1.5/2.5 mm 1.5/2.5 mm Terminal connector for functional ground. This needs to be connected irrespective of whether the device is powered using AC/DC supply or battery. Sensor input terminal 1 (S1) 0.5 mm 0.5 mm Sensor input terminal 2 (S2) 6 (+) Auxiliary supply input (DC) 1.5/2.5 mm 1.5/2.5 mm 7 (‒) 8, 9 Remote reset/Low voltage reset (LVR) input Remote function check (self-test) input. During fault occurrence, this terminal operates as remote reset input. During no fault condition, this terminal operates as remote function check input.
Page 24 Overview 2.7 SICAM EFI Terminal Details Termin Pin No. Description Cable Cross- Lug (Tubular al Block section Terminal) 12 (C) NO type binary output for ground fault (spare) 1.5/2.5 mm 1.5/2.5 mm 13 (NO) For 6MD2311-1BB00-0AA3 and 6MD2311-1BE00-0AB6 MLFB device variants, this terminal can be used for connecting signal lamp. Refer Figure 2-6. 14 (NO) Changeover type binary output for ground fault (main) 15 (C) 16 (NC) 17 (NO) NO type binary output for battery health 18 (C) 19 (+) DC BI reset input 20 (‒) 21, 22 AC BI reset input NOTE The terminal details mentioned in Figure 2-5 corresponds to the complete device. Depending upon the variant, the terminals present on the PCBA will vary. Refer SICAM EFI Variant Wise Terminal Details, Page 24 for variant wise terminal details. SICAM EFI Variant Wise Terminal Details [dw̲efi̲terminal details, 1, en̲US] Figure 2-6 Terminal Details for SICAM EFI Variants SICAM, Earth Fault Indicator, Manual...
Page 25: Installation And Commissioning
Installation and Commissioning Dimensional drawings Device Installation and Commissioning Installation of Ground Sensor (Three-Core Cables) Installation of Ground Sensor (Single-Core Cables) Mounting of the Ground Sensor on Single-Core Cables: Use Cases Mounting of the Ground Sensor on a Shielded Cable Replacing the SICAM EFI Battery Signal Lamp Dimensions and Procedures Flush Mounting Bracket (L-clamp) Dimensions and Procedures 3.10 Environmental Protection Hints SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 26: Dimensional Drawings
Installation and Commissioning 3.1 Dimensional drawings Dimensional drawings Device Dimensions The following figure shows the dimensional drawings and different views of SICAM EFI. [dw̲efifrontviewsideview, 1, en̲US] Figure 3-1 Front View and Side View Recommended Mechanical Tools Table 3-1 Recommended Mechanical Tools Mechanical Components Tools Specifications Manufacturer/Part number Screws for device front cover Cross-head screwdriver Taparia P3 859 or equivalent Screws for signal lamp front cover DIP switch positions and terminal Flat screwdriver Taparia 933 or equivalent blocks Gland nut 19 mm spanner/wrench Standard manufacturer Sensor lock screw Flat screwdriver Taparia 825 SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 27: Device Installation And Commissioning
Installation and Commissioning 3.2 Device Installation and Commissioning Device Installation and Commissioning The SICAM EFI device is intended for surface-mounted installation on a Ring Main Unit (RMU) panel/protection panel/wall. You must make note of the device dimensions mentioned in Device Dimensions, Page 26 before proceeding with the device installation. Mount the device on an RMU/protection panel/wall by executing the following procedure: WARNING Exercise caution when installing the device. Non-observance of the following specified measures will result in death, severe injury, or consider- able material damage. The printed circuit board (PCB) is an electrostatic sensitive device. Follow the ESD measures. ² Prepare the working area and provide grounded mat for protecting components from electrostatic ² discharges (ESDs) damage. Wear ESD gloves and handle the device PCBA. Place it on the prepared mat suitable for preventing ² ESD. Do not place the PCBA on a conductive surface. Ensure AC/DC auxiliary power supply, AC BI signal, primary input to sensor and sensor output cable are ² electrically isolated when device is under installation or maintenance. Remove the device front cover by unscrewing the screws at the 4 corners as seen from the front side. ² Refer Figure 3-2. [dw̲efiremovefrontcover, 1, en̲US] Figure 3-2 Removing Device Front Cover Create mounting holes as per the dimensions shown in Figure 3-3 to mount the SICAM EFI on the RMU/ ² protection panel/wall. Fasten the SICAM EFI body containing the PCBA and glands to the RMU/protection panel using screws through the mounting holes as shown in Figure 3-3. Mounting-hole diameter is 4.3 mm. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 28 Installation and Commissioning 3.2 Device Installation and Commissioning [dw̲efimountingholesdimension, 1, en̲US] Figure 3-3 Distance between Mounting Holes and Mounting-Hole Diameter NOTE Maintain a minimum clearance of 300 mm from the bottom of the device as shown in Figure 3-3 to ensure safety and to avoid accidental damage to the electric cables that are inserted through the glands. Unscrew the glands of SICAM EFI and execute the wiring process. For more details on the terminal ² connector diagram, refer to Figure 2-5. Refer to Table 2-2 for terminal specifications, recommended terminal lugs, and cable specifications. In dual-powered variants, you can choose to connect AC/DC auxiliary power supply as per requirements. Ensure that AC auxiliary power supply is connected via an external fuse/MCB having a rating of maximum 1 A. NOTE Once the wiring process is completed, ensure that all the glands are properly tightened including unused glands (if any). This is done to prevent any unwanted water or dust particles entering the device through the gland opening which can lead to damage to the device. For unused glands, ensure to keep it closed using dust caps. To use SICAM EFI for the first time, pull out the battery isolation tab to activate the device as shown in ² Figure 3-4. Ensure that the battery is inserted as per the correct polarity. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 29 Installation and Commissioning 3.2 Device Installation and Commissioning [dw̲efipullbatterytab, 1, en̲US] Figure 3-4 SICAM EFI Battery Isolation Tab Removal The DIP switch is located on the PCBA as shown in Figure 3-5. To change default DIP switch settings, use ² the recommended tools (Table 3-1) and refer to the configuration label available on the inner side of the device front cover. This label is MLFB-specific. For the detailed DIP switch settings across MLFBs, refer to 5.4.1 DIP Switch Overview section. [dw̲efiDIPswitch̲jumper, 1, en̲US] Figure 3-5 DIP Switch and Jumper Location on the PCBA DIP Switch (S3) DIP Switch (S4) Jumper (X12) The jumper is only present in device variants with flag (MLFB: 6MD2311-2BB10-0AA5 and 6MD2311-1DC10-0AB6). It is not appli- cable in other device variants. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 30 Installation and Commissioning 3.2 Device Installation and Commissioning [le̲efi̲hlcboard-off-on, 1, --̲--] Figure 3-6 Jumper (X12) Pin on Device PCBA ON position marking on PCBA Jumper pin in OFF position OFF position marking on PCBA Jumper pin in ON position NOTE For 6MD2311-2BB10-0AA5 and 6MD2311-1DC10-0AB6 MLFB device variants, there is a jumper located on PCBA as shown in Figure 3-5. Place the jumper in ON position before reinserting the device front cover. The jumper is in default OFF position. The jumper is not applicable for other variants. Complete the installation by reinserting the device front cover and fastening the front cover with 4 ² screws. Perform a battery check by pressing the push-button on the front cover for more than 3 s and releasing it. ² The battery LED is turned ON for 2 s and turned OFF indicating the battery is healthy. Perform a function check (also referred to as self-test) by pressing the push-button on the front cover for 1 s and releasing it. The BOs and the flag will latch and reset. The fault LED and battery LED blink 5 times to indicate that the device is functioning properly and is ready to use. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 31: Installation Of Ground Sensor (Three-Core Cables)
Installation and Commissioning 3.3 Installation of Ground Sensor (Three-Core Cables) Installation of Ground Sensor (Three-Core Cables) NOTE Before installing the sensors on the underground cables, disconnect the power to all the cables, depending upon the cable mount type. To install the Three-core cable ground sensor, follow the procedure: Loosen the fixing bolt and unmount the belt from one side of the housing. For more information about ² mounting of ground sensor on shielded cable, refer to 3.6 Mounting of the Ground Sensor on a Shielded Cable. Place the belt around the Three-core cables. ² Connect the ground-sensor housing with the belt. Insert the belt up to the stopper and tighten the fixing ² bolt. Fix the sensor in the right position using the provided plastic cable tie. ² Loosen the glands in the device and insert the electrical cable from the ground sensor. Connect the ² sensor output cables (red and black) to the respective sensor input terminals (S1 and S2) which is displayed on PCBA. The red color cable is to be connected to S1 terminal and black color cable to S2 terminal respectively. [dw̲efigroundsensorinstallation̲3corecable, 1, en̲US] Figure 3-7 Ground Sensor (Three-Core Cable) Installation SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 32 Installation and Commissioning 3.3 Installation of Ground Sensor (Three-Core Cables) The following figure shows how SICAM EFI is connected to a ground sensor via the electrical cable. [dw̲efigroundsensorconnectiontodevice̲3core, 1, en̲US] Figure 3-8 SICAM EFI connected with Ground Sensor (Three-Core Cable) SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 33: Installation Of Ground Sensor (Single-Core Cables)
Installation and Commissioning 3.4 Installation of Ground Sensor (Single-Core Cables) Installation of Ground Sensor (Single-Core Cables) NOTE Before installing the sensors on the underground cables, disconnect the power to all the cables, depending upon the cable mount type. To install the single core cable ground sensor, follow the procedure: Loosen the fixing bolt and unmount the belt from one side of the housing. ² Keep the 3 single-core cables together in parallel as per the required end-to-end cable distance (220 mm ² to 340 mm). Place the belt around them. Connect the ground-sensor housing with the belt. Insert the belt up to the stopper and tighten the fixing ² bolt. Ensure that the cable tie is fastened only on the middle cable for firm stability and better accuracy as ² shown in Figure 3-10. For single-core cables in vertical direction, the sensor mounting must be such that the arrow on the sensor is always in the upwards direction for better stability. Loosen the glands in the device and insert the electrical cable from the ground sensor. Connect the ² sensor output cables (red and black) to the respective sensor input terminals (S1 and S2) which is displayed on PCBA. The red color cable is to be connected to S1 terminal and black color cable to S2 terminal respectively. [dw̲efigroundsensorinstallation̲1core, 1, en̲US] Figure 3-9 Ground Sensor (3 Single-Core Cable) Installation SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 34 Installation and Commissioning 3.4 Installation of Ground Sensor (Single-Core Cables) The following figure shows how SICAM EFI is connected to the ground sensor (single-core cable) via the electrical cable. [dw̲efigroundsensorconnectiontodevice̲singlecore, 1, en̲US] Figure 3-10 SICAM EFI Connected to the Ground Sensor (3 Single-Core Cable) SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 35: Mounting Of The Ground Sensor On Single-Core Cables: Use Cases
Installation and Commissioning 3.5 Mounting of the Ground Sensor on Single-Core Cables: Use Cases Mounting of the Ground Sensor on Single-Core Cables: Use Cases For accurate mounting of ground sensor on single-core cables, ensure that the ground sensor is mounted as per the following mounting methods: • Mounting Method 1: For end-to-end cable distance of 220 mm, the sensor is mounted such that the belt is inserted up to the stopper. Refer to Figure 3-11. • Mounting Method 2: For end-to-end cable distance of 340 mm, the sensor is mounted such that the belt is inserted up to the marker line on the belt. Refer to Figure 3-11. The stopper position is displaced by approximately 30 mm in this case. NOTE Whenever the end-to-end cable distance is between 220 mm to 340 mm, you can tighten the sensor belt to an appropriate location between the stopper and the marker line. [dw̲efisinglecore?usecases, 1, en̲US] Figure 3-11 Ground Sensor Mounting on Single-Core Cable Depending on End-to-End Cable Distance End-to-end cable distance (220 mm to 340 mm) Line marker for 340-mm end-to-end cable distance Stopper position for 220-mm end-to-end cable distance SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 36: Mounting Of The Ground Sensor On A Shielded Cable
Installation and Commissioning 3.6 Mounting of the Ground Sensor on a Shielded Cable Mounting of the Ground Sensor on a Shielded Cable NOTE Before installing the sensors on the underground cables, disconnect the power to all the cables, depending upon the cable mount type. The ground sensor is used to measure the current unbalance between the 3 phases. For the proper measure- ment of the ground current, ignore the current flowing through the shield and that is achieved by using the following mounting methods: • Mounting Method A: The sensor is mounted on the shielded part of the cable. To neutralize the current flowing through the shield, expose the shield and mount a conductive clamp with an insulated wire and pass the wire back through the sensor and connect it to ground. Refer to Figure 3-12 • Mounting Method B : The sensor is mounted on the unshielded cable. Refer to Figure 3-12 [dw̲efigroundshield̲3core, 1, en̲US] Figure 3-12 Three-Core Cable Ground Sensor Mounted on Shielding (Mounting Method A) and Ground Sensor Mounted on Insulated Conductor (Mounting Method B) Insulation Ground shield Conductive clamp Braided wire NOTE Always ensure that the exposed shield area is sealed to avoid any damage and stress. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 37 Installation and Commissioning 3.6 Mounting of the Ground Sensor on a Shielded Cable [dw̲efiearsenshield̲singlecore, 1, en̲US] Figure 3-13 Single-Core Cable Ground Sensor Mounted on Shielding (Mounting Method A) and Ground Sensor Mounted on Insulated Conductor (Mounting Method B) SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 38: Replacing The Sicam Efi Battery
Installation and Commissioning 3.7 Replacing the SICAM EFI Battery Replacing the SICAM EFI Battery SICAM EFI uses a 3.6 V 2700 mAh LiSoCl battery. NOTE When the battery is replaced, it is necessary to use the battery type: ER14505 3.6 V 2700-mAh AA LiSoCl2 to claim the required battery life. You can replace the SICAM EFI battery when it is damaged or exhausted. To replace the battery, proceed as follows: WARNING Exercise caution when replacing the device battery. Non-observance of the following specified measures will result in death, severe injury, or consider- able material damage. Ensure AC/DC auxiliary power supply, AC BI signal, primary input to sensor and sensor output cable are ² electrically isolated when device battery is removed or replaced. Do not reverse the polarity of the battery. ² Do not attempt to open the battery. Dispose of used battery promptly. ² Remove the SICAM EFI front cover with the help of a screwdriver as shown in Figure 3-2. ² Remove the discharged battery from the battery clip carefully. ² [dw̲efibatteryremoval, 1, en̲US] Figure 3-14 Removal of Battery Insert the new battery in the battery clip, with the correct polarity. The polarity is indicated on the device ² PCBA. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 39 Installation and Commissioning 3.7 Replacing the SICAM EFI Battery [dw̲efibatteryreinsert, 1, en̲US] Figure 3-15 Inserting the New Battery Fit the device front cover again and screw it to the housing. ² Perform battery check by pressing the push-button on the device front cover for more than 12 s and ² releasing it. The battery LED is turned ON for 2 s and turned OFF indicating the battery is healthy and the device is ready to use. NOTE Refer to Table 5-1 for more information on using battery check function in different scenarios. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 40: Signal Lamp Dimensions And Procedures
Installation and Commissioning 3.8 Signal Lamp Dimensions and Procedures Signal Lamp Dimensions and Procedures Signal Lamp Dimensions 3.8.1 The following figure shows the dimensional drawings and different views of SICAM EFI signal lamp. [dw̲efisignallampfrontviewsideview, 1, en̲US] Figure 3-16 Signal Lamp Front View and Side View SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 41: Removing Signal Lamp Front Cover
Installation and Commissioning 3.8 Signal Lamp Dimensions and Procedures Removing Signal Lamp Front Cover 3.8.2 Remove the signal lamp front cover by unscrewing the screws at the 4 corners as seen from the front side using a cross-head screwdriver. [dw̲efiremovefrontcoversignallamp, 1, en̲US] Figure 3-17 Removing Signal Lamp Front Cover Signal Lamp Mounting and Connection to SICAM EFI 3.8.3 Mounting and Commissioning • Create 2 mounting holes as per the distance shown in Figure 3-16 to mount the SICAM EFI signal lamp on the RMU/protection panel/wall. • Fasten the SICAM EFI signal lamp to the RMU/protection panel using screws through the mounting holes. • Unscrew the gland of the signal lamp and execute the wiring process. Connect the signal lamp output from the device to the terminal present in the signal lamp via the glands. Refer to 2.7 SICAM EFI Terminal Details and 5.5 Binary Outputs for terminal details of the signal lamp output in the device. • Place the jumper in ON position before reinserting the device front cover. The jumper is in default OFF position. The ON and OFF position is mentioned on the PCBA. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 42 Installation and Commissioning 3.8 Signal Lamp Dimensions and Procedures [dw̲efipcbaview̲signallamp, 1, en̲US] Figure 3-18 Position of Terminal in Signal Lamp for Connection to SICAM EFI NOTE Siemens signal lamp mounting kit is provided with 4 screws. However, only 2 screws are required for performing the mounting operation. Battery Activation during Commissioning • Pull out the battery isolation tab as shown in Figure 3-18. Ensure that the battery is inserted as per the correct polarity. • On removing the tab, the signal lamp gives 5 blinks (red LED) to indicate that the battery is healthy and activated. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 43: Signal Lamp Battery Check
Installation and Commissioning 3.8 Signal Lamp Dimensions and Procedures [dw̲efisignallamp̲installationbatterycheck, 1, en̲US] Figure 3-19 Battery Activation During Installation Signal Lamp Battery Check 3.8.4 • Remove the signal lamp front cover as shown in Figure 3-17. • To perform signal lamp battery check, press the push-button for 2 s and release it. • The amber LED is turned ON for 2 s and turned OFF indicating the battery is healthy. • In low battery condition, amber LED shows 5 blinks (1 blink/s). • Reinsert the signal lamp front cover after performing the battery check operation. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 44 Installation and Commissioning 3.8 Signal Lamp Dimensions and Procedures [dw̲efisignallamp̲batterycheck, 1, en̲US] Figure 3-20 Battery Check in Signal Lamp SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 45: Flush Mounting Bracket (L-Clamp) Dimensions And Procedures
Installation and Commissioning 3.9 Flush Mounting Bracket (L-clamp) Dimensions and Procedures Flush Mounting Bracket (L-clamp) Dimensions and Procedures L-clamp Dimensions 3.9.1 For specific requirements, SICAM EFI is also provided with a flush mounting option on an RMU/protection panel. This is done using a flush mounting bracket (L-clamp) (MLFB: 6MD2301-0AB00-0AA0). The following figure shows the dimensional drawings and different views of Flush mounting bracket (L- clamp). [dw̲efilclampfrontviewsideview, 1, en̲US] Figure 3-21 L-Clamp Front View and Side View Device Assembly using Flush Mounting Bracket (L-clamp) 3.9.2 WARNING Exercise caution when installing the device. Non-observance of the following specified measures will result in death, severe injury, or consider- able material damage. Ensure AC/DC auxiliary power supply, AC BI signal, primary input to sensor and sensor output cable are ² electrically isolated when device is under installation or maintenance. Create an RMU panel cut-out slot of dimensions (as per Figure 3-22) and drill mounting holes at the top ² side of the panel cut-out as per the dimensions in Figure 3-22. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 46 Installation and Commissioning 3.9 Flush Mounting Bracket (L-clamp) Dimensions and Procedures [dw̲efiflushmounting̲cutout, 1, en̲US] Figure 3-22 Recommended Panel Cut-out Size Remove the device front cover by unscrewing the screws at the 4 corners as seen from the front side. ² Refer Figure 3-2. Fasten the SICAM EFI body containing the PCBA and glands to the flush mounting bracket using screws ² and nuts through the mounting holes as shown in Figure 3-23. The device mounting holes are specified in Figure 3-3. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 47 Installation and Commissioning 3.9 Flush Mounting Bracket (L-clamp) Dimensions and Procedures [dw̲efiflushmounting̲step1, 1, en̲US] Figure 3-23 Mounting EFI Body to Flush Mounting Bracket using Mounting Holes Once the device body is mounted on the bracket, reinsert and fasten the device front cover on to the ² device using the 4 front cover screws. Now mount the L-clamp bracket containing the device into the RMU panel cut-out using 2 screws and ² nuts as shown in Figure 3-24. The L-clamp bracket is provided with 2 mounting holes at the top for fastening the bracket to the RMU panel. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 48 Installation and Commissioning 3.9 Flush Mounting Bracket (L-clamp) Dimensions and Procedures [dw̲efiflushmounting̲step2, 1, en̲US] Figure 3-24 Fixing Device Mounted Bracket on to the RMU Panel Cut-Out The device front cover projects out of the RMU panel cut-out as shown in Figure 3-25. ² [dw̲efiflushmounting̲step3, 1, en̲US] Figure 3-25 Flush Mounted SICAM EFI on RMU/protection panel NOTE Once the SICAM EFI flush mounting is complete, refer to 3.2 Device Installation and Commissioning for performing the remaining installation procedure. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 49: Environmental Protection Hints
Installation and Commissioning 3.10 Environmental Protection Hints 3.10 Environmental Protection Hints Disposal of Old Equipment and Batteries (Applicable only for European Union and Countries with a Recycling System) The disposal of our products and possible recycling of their components after decommissioning has to be carried out by an accredited recycling company, or the products/components must be taken to applicable collection points. Such disposal activities must comply with all local laws, guidelines and environmental specifications of the country in which the disposal is done. For the European Union the sustainable disposal of electronic scrap is defined in the respective regulation for "waste electrical and electronic equipment" (WEEE). The crossed-out wheelie bin on the products, packaging and/or accompanying documents means that used electrical and electronic products and batteries must not be mixed with normal house- hold waste. According to national legislation, penalties may be charged for incorrect disposal of such waste. By disposing of these products correctly you will help to save valuable resources and prevent any potential negative effects on human health and the environment. NOTE Our products and batteries must not be disposed of as household waste. For disposing batteries it is necessary to observe the local national/international directives. Disposal of Mobile Storage Devices (e.g. USB Sticks and Memory Cards) When disposing of/transferring mobile storage devices, using the format or delete functions only changes the file management information and does not completely delete the data from your mobile storage device. When disposing of or transferring a mobile storage device, Siemens strongly recommends physically destroying it or completely deleting data from the mobile storage device by using a commercially available computer data erasing software. REACH/RoHS Declaration You can find our current REACH/RoHS declarations at: https://www.siemens.com/global/en/home/products/energy/ecotransparency/ecotransparency-down- loads.html NOTE You can find more information about activities and programs to protect the climate at the EcoTransparency website: https://www.siemens.com/global/en/home/products/energy/ecotransparency.html SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 50 SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 51: Product Specifications
Product Specifications Technical Data Type Testing SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 52: Technical Data
Medium-voltage distribution Up to 36 kV (+10%) Highest withstandable voltage Up to 40.5 kV System frequency 50 Hz/60 Hz networks, ± 10 % tolerance Internal battery Field replaceable Lithium thionyl chloride battery (Li- SOCl ) type AA cell size/3.6 V/2700 mAh • Either up to 15 years expected operational life • Or up to 2000 h of fault indication flashing (single blink/second) under standard operating temperature of 25 °C Auxiliary power supply AC 110 V to 230 V, ± 20 % tolerance Power rating: 6 VA DC 12 V to 24 V, ± 20 % tolerance Power rating: 0.5 W Operating range: 9 V to 38 V (Safety extra low voltage - SELV) Sensor input interface Ground sensor input: S1 and S2 (via an electrical cable) NOTE When operating a SICAM EFI with an external DC power supply, make sure that the external DC power supply meets the safety criteria for the environment where the SICAM EFI is operated. The external DC power supply must be able to supply a safety extra low voltage (SELV) power to the SICAM EFI under the conditions at the place of operation. Binary Output Table 4-2 Binary Output Maximum switching voltage AC 250 V/DC 220 V Maximum switching power 62.5 VA/30 W SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 53 Signal Lamp • -30 ° C to +75° C Mechanical Data Table 4-4 Mechanical Data Dimensions (W x H x D) 140 mm x 150 mm x 41 mm (with glands) Weight 447 g Mounting position Surface-mounting position (on RMU panel or wall) Ground-Fault Current Range (for all sensors) Table 4-5 Ground-Fault Current Range for all sensors Ground-Fault current range 25 A to 100 A (For Type 1 sensor) 25 A to 240 A (For Type 2, Type 3 and Type 4 sensor) Typical accuracy ±10% of the selected setting Type 1 Sensor (for three-core cable) Table 4-6 Type 1 Sensor Sensor ∅ 150 mm Sensor Wire Length 3.5 m, 5 m Current cable ∅ supported 60 mm to 150 mm Material Flexible insulated and UV stabilized material Type 2 Sensor (for three-core cable) Table 4-7 Type 2 Sensor Sensor ∅ 140 mm Sensor Wire Length 16 m SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 54 Sensor ∅ 280 mm Sensor Wire Length 16 m Current cable ∅ + pitch ∅ supported 220 mm - 340 mm Material Flexible insulated and UV stabilized material Type 4 Sensor (for three-core cable) Table 4-9 Type 4 Sensor Sensor ∅ 120 mm Sensor Wire Length 16 m Current cable ∅ supported 60 mm to 120 mm Material Flexible insulated and UV stabilized material Ground Fault Current Setting across SICAM EFI Variants Table 4-10 Ground Fault Current Setting MLFB Ground Fault Current Setting 6MD2311-1BB00-0AA3 25 A (default), 40 A, 50 A, 80 A, 100 A 6MD2311-1BE00-0AB6 25 A (default), 40 A, 50 A, 80 A, 100 A, 120 A, 160 A, 240 A 6MD2311-2BB10-0AA5 25 A (default), 40 A, 50 A, 80 A, 100 A 6MD2311-1DC00-0AB6 25 A, 40 A, 50 A, 80 A, 100 A, 120 A (default), 160 A, 240 A 6MD2311-1DD00-0AB6 25 A, 40 A, 50 A, 80 A, 100 A, 120 A (default), 160 A, 240 A 6MD2311-1DE00-0AB6 25 A (default), 40 A, 50 A, 80 A, 100 A, 120 A, 160 A, 240 A 6MD2311-1DC10-0AB6 25 A (default), 40 A, 50 A, 80 A, 100 A, 120 A, 160 A, 240 A Response Time Setting across SICAM EFI Variants...
Page 55 Fault Reset Push-button reset Manual press of push-button for 1 s on the device Remote reset Low-voltage reset (LVR) for 1 s AC BI reset AC BI (110 V to 230 V, ± 20 % tolerance) input signal for 2 s DC BI reset DC BI (DC 9 V to 38 V) input signal reset for 2 s Auxiliary AC recovery reset Automatic fault reset when auxiliary AC voltage restores to (110 V to 230 V, ± 20 % tolerance) level for 15 s. Ground current-based reset Automatic fault reset on recovery of zero sequence current in the range of 5 A ± 3 A for 15 s. Auto reset using timer Auto reset timer setting. Up to 4 settings are available in each MLFB variant. These settings are MLFB-specific. 1 h, 2 h, 4 h, 8 h, 10 h, 16 h, and 32 h Auto Reset Timer Setting across SICAM EFI Variants Table 4-13 Auto Reset Timer Setting MLFB Auto Reset Timer Setting 6MD2311-1BB00-0AA3 1 h (default), 2 h, 4 h, and 8 h 6MD2311-1BE00-0AB6 1 h (default), 2 h, 4 h, and 8 h 6MD2311-2BB10-0AA5 1 h (default), 2 h, 4 h, and 8 h 6MD2311-1DC00-0AB6 4 h (default), 8 h, 16 h, and 32 h 6MD2311-1DD00-0AB6 4 h (default), 8 h, 16 h, and 32 h 6MD2311-1DE00-0AB6 4 h (default), 8 h, 16 h, and 32 h 6MD2311-1DC10-0AB6 4 h (default), 8 h, 10 h (default), and 16 h Addtional Device Data Table 4-14...
Page 56 Product Specifications 4.1 Technical Data Contact Rating (Resistive Load) 2 A, DC 30 V 3 A, DC 30 V 0.5 A, AC 125 V Maximum switching voltage AC 277 V/DC 220 V Maximum switching power 62.5 VA/90 W Maximum switching current 4 A NOTE Signal lamp output is only tested with respect to signal lamp accessory provided by Siemens. Signal lamp output connection with any external lamp is not tested for operation. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 57: Type Testing
Product Specifications 4.2 Type Testing Type Testing This section describes the type testing performed on SICAM EFI. EMI/EMC Tests for Immunity (for SICAM EFI with signal lamp) Test Reference Standard Test Requirement IEC 61000-4-13, Level 2 Performance criterion: A Harmonic and Interharmonic IEC 62689-1 IEC 61000-4-11 Dips and Interruptions Voltage dips IEC 62689-1 0 %: 2.5 cycles Performance criterion: A IEC 61000-4-29 Dips and Interruptions Voltage dips IEC 62689-1 0 %: 0.05 s Performance criterion: A IEC 61000-4-5, Level 3 Common Mode (CM): ± 2 kV Surge immunity IEC 62689-1 Differential Mode (DM): ± 1 kV Direct application 2 Ω: Auxiliary AC power port 40 Ω, 0.5 uF: sensor input, DC binary input, AC binary input, binary outputs Performance criterion: B Electrical fast transient/burst IEC 61000-4-4, Level 3 ± 2 kV on AC power port and sensor input port, Burst frequency IEC 62689-1 5 kHz...
Page 58 10 V/m (80 MHz to 2.7 GHz) and magnetic field immunity 3 V/m (2.7 GHz to 6 GHz) IEC 62689-1 Performance criterion: A Conducted disturbances, induced IEC 61000-4-6, Level 3 Frequency: 0.15 MHz to 80 MHz by radio frequency fields IEC 62689-1 Modulation: 80 % AM; 1 kHz Test Voltage: 10 Vrms Performance criterion: A Power frequency conducted distur- IEC 61000-4-16 30 V continuously bances IEC 62689-1 300 V for 1 s Performance criterion: A EMI/EMC Tests for Emission (for SICAM EFI with signal lamp) Test Reference Standard Test Requirement Conducted emission IEC 61326-1 150 kHz to 30 MHz (Class A) CISPR32 Radiated emissions IEC 61326-1 30 MHz to 6 GHz (Class A) CISPR32 Climatic Test (for SICAM EFI with signal lamp and sensor) Test Reference Standard Test Requirement Dry heat IEC 60068-2-2 + 75° C; duration: 16 h (with device turned OFF) + 16 h (with device IEC 62689-1...
Page 59 Product Specifications 4.2 Type Testing Test Reference Standard Test Requirement Exposure to solar radiation IEC 60068-2-5 1000 W/m , Duration: 8 h IEC 62689-1 Rainfall test 330 mm Storage temperature and transpor- IEC 60068-2-2 -20° C to +75° C tation temperature IEC 60068-2-1 IEC 62689-1 Insulation Test (for SICAM EFI) Test Reference Standard Test Requirement Dielectric test (50 Hz/60 Hz) IEC 61010-1 2.2 kV for 1 min IEC 60255-27 1.5 kV for 1 min between X6 and X7 terminal for 6MD2311-1BB00-0AA3 and 6MD2311-1BE00-0AB6 MLFB. Impulse voltage test IEC 61010-1 4 kV, 5 positive cycles, 5 negative cycles 1.2 μs/50 μs IEC 60255-27 Insulation resistance IEC 61010-1 DC 500 V, 60 s, ≥100 MΩ IEC 60255-27 Safety Test (for SICAM EFI)
Page 60 Product Specifications 4.2 Type Testing Electrical Test (for SICAM EFI with signal lamp and sensor) Test Reference Standard Test Requirement Short-circuit current withstand test IEC 62689-1 25 kA @ 3 s 12.5 kA @ 1 s Rated dynamic current IEC 62689-1 31.25 kA peak for 1 s 62.5 kA peak for 3 s Temperature rise IEC 62689-1 for sensors only Class B, up to 105 °C Mechanical Tests (for SICAM EFI with signal lamp and sensor) Test Reference Standard Test Requirement Vibration response test, Class 1 IEC 60068-2-6 Sinusoidal IEC 62689-1 Frequency: 10 Hz to 500 Hz 10 m/s2 amplitude 0.075 mm, 23 min. Sweep rate: 1 oct./min Number of sweep cycles: 2 cycles/ axis Number of axes: 3 (X, Y, and Z) Performance Criterion: B Mechanical Impact IEC 62262:2002 IK07, Impact energy: 2 J IEC 62689-1:2016 Seismic test IEC 60068-3-3 Frequency: 1 Hz to 8 Hz (hori-...
Page 61: Device Functions
Device Functions Fault Detection and Fault Indication Fault Reset Push Button DIP Switch Binary Outputs Built-in Restraints SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 62: Fault Detection And Fault Indication
Device Functions 5.1 Fault Detection and Fault Indication Fault Detection and Fault Indication Fault Detection 5.1.1 Ground-Fault Detection • Single Fault Single fault is detected when the fault current is greater than or equal to the set current threshold limit and the fault current persists for the response time set in the device. The fault LED blinks in the pattern of 1 blink/s to indicate single-fault condition and BO contact changes its state. • Continuous Fault If a continuous fault is present, the fault LED blinks in the pattern of 2 blinks/s as long as the fault current persists. If there is no fault condition, the fault LED reverts to single blink. Fault Indication 5.1.2 The ground-fault indication in SICAM EFI is provided through the following: Local fault indication • LED Indication (Red color) ‒ Single fault: 1 blink/s ‒ Continuous fault: 2 blinks/s • Visibility distance: Up to 20 m during day time (under bright sunlight) and up to 200 m during night time. Distance measured in line of sight vision under clear weather conditions. • Flag indication ‒ Red color: Fault has occurred ‒ Black color: Normal operation • Signal lamp output provides fault indication via Siemens signal lamp. ‒ Visibility distance: Up to 70 m during day time (under bright sunlight) and up to 300 m during night time. Distance measured in line of sight vision under clear weather conditions. Remote fault indication The device has binary outputs to communicate the ground fault information to remote monitoring units via an...
Page 63: Fault Reset
Device Functions 5.2 Fault Reset Fault Reset The fault indication in the device can be reset using any one of the following reset methods: • Manual reset Press the push-button for 1 s to reset the fault indication manually. • Remote reset (LVR) Short the low-voltage reset (LVR) potential free input contacts for minimum of 1 s. This is performed remotely by using RTU/control system. • AC BI reset Apply an AC signal (110 V to 230 V, ± 20 % tolerance) to the AC BI reset input terminals for 2 s. • DC BI reset Apply a DC signal (9 V to 38 V) to the DC BI reset input terminals for 2 s. • Auto reset (fault reset using timer) The fault indications are reset automatically after expiry of the auto-reset time set in the device. The following timer resets are available: 1 h, 2 h, 4 h, 8 h, 10 h, 16 h, 32 h. These reset timers are MLFB-specific. Refer to 5.4.6 Fault Auto-Reset Time on how to configure auto reset functionality. • Auxiliary AC recovery reset Post fault occurrence, if the AC auxiliary voltage restores to 110 V to 230 V, ± 20 % tolerance level for 15 s, then the fault is reset. This fault reset method is disabled by default. Refer to 5.4.4 Auxiliary AC Recovery Reset Setting on how to enable this functionality. • Ground current-based reset Post fault occurrence, the fault will automatically reset on recovery of zero sequence current in the range of 5 A ± 3 A for 15 s. This fault reset method is disabled by default. Refer to 5.4.3 Ground Current-Based Reset Setting on how to enable this functionality. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 64: Push Button
Manual Reset (Reset) In the fault indication mode, press the push-button for resetting the fault indication in the device manually. The manual reset stops the fault LED blinking and switches the ground-fault binary output from set to reset position. This will reset the flag color from Red (indicates fault) to black (indicates no fault). This will also reset the signal lamp output. • Function Check (Fn Check) Press the push-button for more than 1 s and less than 3 s and release it to initiate the function check (self-test). The BOs and flag will latch and reset, the fault LED and battery LED blinks 5 times to indicate that the device is functioning properly. The function check can also be initiated remotely. Short the terminal X4 for more than 10 s and release it to initiate the function check (self-test) remotely. • Battery Check (Batt Check) Press the push-button for more than 3 s and release it to initiate the Battery check. The battery health state is indicated on the battery LED (amber color). If the battery is found to be healthy, then the battery LED will be turned ON for 2 s and then turned OFF. If a low battery condition is found, then the battery BO will get latched (if not latched before) and the battery LED shows 5 blinks (1 blink/s) to indicate the low battery condition. The latched BO remains latched until a new battery is inserted and battery function check is performed. The low battery indication is displayed when the battery voltage level falls below 3 V. Table 5-1 Battery Check Function Operation as per Different Scenarios Event Time duration for performing battery check Battery Check after removing battery isolation tab Press push-button for more than 12 s and release (during commissioning) Battery check during normal operation Press push-button for more than 3 s and release Battery check after replacing old battery with new Press push-button for more than 12 s and release battery Ensure to follow the above time duration for battery check as per the event associated. In case the battery check is performed for less time period than the time duration mentioned, battery LED may not indicate the battery healthy indication. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 65: Dip Switch
Device Functions 5.4 DIP Switch DIP Switch DIP Switch Overview 5.4.1 The DIP switch is used for configuring the different parameter settings such as • Fault-current threshold • Response time • Fault auto-reset time • Auto-reclosure time • Inrush blocking time • Selection of ground-fault BO type • Frequency selector • Enabling ground current-based reset and auxiliary AC recovery reset There are 2 DIP switches (S3 and S4) present in SICAM EFI and are located as shown in Figure 5-1. [dw̲efidipswitchlocation, 1, en̲US] Figure 5-1 Location of the DIP Switch (S3 and S4) in SICAM EFI DIP Switch (S3) DIP Switch (S4) The DIP switch settings label (refer A SICAM EFI Variant wise Terminal Details and DIP Switch Settings) is pasted on the rear side of the device front cover and indicates the configuration of the DIP switch. For configuring the DIP switch settings, you must remove the device front cover as shown in Figure 3-2. After the configuration, insert the device front cover back on to the device. [dw̲EFIdipsw̲10032021, 1, en̲US] Figure 5-2 DIP Switch SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 66: Ground Fault Current Setting
DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 DIP 7 DIP 8 Fault- Current Value 25 A 25 A 40 A 50 A 80 A 100 A 120 A 160 A 240 A The ground fault current setting vary in the SICAM EFI device depending upon the selected MLFB and sensor type. For MLFB wise ground fault current setting and default value, refer to Table 4-10. NOTE Only 1 DIP switch must be in ON position at any given time. Ground Current-Based Reset Setting 5.4.3 The ground current-based reset feature is enabled in the device based on the position of DIP 9 in DIP Switch (S3). The following table displays the DIP positioning for enabling the feature. DIP 9 Current Based Reset Disable Enable By default, the ground current-based reset setting is Disable. 5.4.4 Auxiliary AC Recovery Reset Setting The auxiliary AC recovery reset feature is enabled in the device based on the position of DIP 10 in DIP Switch (S3). The following table displays the DIP positioning for enabling the feature. Not applicable for MLFBs having a sensor type with a fault range up to 100 A. The maximum fault current threshold setting for these MLFBs is 100 A. SICAM, Earth Fault Indicator, Manual...
Page 67: Response Time
Device Functions 5.4 DIP Switch DIP 10 Auxiliary AC Recovery Reset Disable Enable By default, the auxiliary AC recovery reset setting is Disable. NOTE The auxiliary AC recovery reset feature is available in SICAM EFI with AC supply input variants only (6MD2311-1DC00-0AB6, 6MD2311-1DC10-0AB6, 6MD2311-1DD00-0AB6, and 6MD2311-1DE00-0AB6). Response Time 5.4.5 The response time is the minimum time that a fault current must persist in the network for a fault to be termed as a valid fault. The response time for a valid fault is configured manually using the positions DIP 1 and DIP 2 in DIP Switch (S4). The response time is different depending on the selected MLFB. The following tables provide a detailed overview of the response time (in millisecond (ms)) of the device depending on the DIP switch position. Battery-Powered Variants: Response Time Settings Table 5-3 Response Time Setting for Battery-Powered Variants DIP 1 DIP 2 6MD2311-1BB00-0AA3 6MD2311-1BE00-0AB6 6MD2311-2BB10-0AA5 40 ms 40 ms 40 ms 60 ms 60 ms 60 ms 80 ms (default) 80 ms (default) 80 ms (default) 100 ms 100 ms 160 ms Dual-Powered Variants: Response Time Settings Table 5-4 Response Time Setting for Dual-Powered Variants DIP 1...
Page 68: Auto Reclosure Time Setting
16 h 10 h 16 h 16 h 32 h 16 h 32 h 32 h 5.4.7 Auto Reclosure Time Setting The auto reclosure time feature is enabled in the device based on the position of DIP 5 in DIP Switch (S4). The following table displays the DIP switch position for enabling the feature. DIP 5 Auto Reclosure Time Disable 3 min By default, the auto reclosure time setting is Disable. Ground-current Inrush 5.4.8 The ground-current inrush feature is enabled in the device based on the position of DIP 6 and DIP 7 in DIP Switch (S4). The following table displays the DIP switch position for enabling the feature and the associated time values. DIP 6 DIP 7 Inrush-Current Detection Time Disable 300 ms 1 s Unused By default, the inrush-current detection setting is Disable. BO Type Configuration (for Ground Fault) 5.4.9 This feature enables you to configure the ground-fault BO type in the device. Based on the position of DIP 8 in DIP Switch (S4), the ground-fault BO type can be configured as follows: DIP 8 BO Type Latch Wipe SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 69: Frequency Selector
Device Functions 5.4 DIP Switch By default, the ground-fault BO type is Latch. NOTE In 6MD2311-1BB00-0AA3 and 6MD2311-1BE00-0AB6 MLFB variants, the spare BO (terminal X6) can be used as either ground fault BO or signal lamp output. If used as a ground fault BO, the BO type can be Wipe/Latch type. If the X6 terminal is used as signal lamp output, the BO type is Latch. Frequency Selector 5.4.10 The frequency selector feature enables you to select the system frequency of the electrical network in which the device is mounted. Based on the position of DIP 9 in DIP Switch (S4), the frequency can be selected as follows: DIP 9 Frequency 50 Hz 60 Hz By default, the frequency selected is 50 Hz except in 6MD2311-1DC10-0AB6 MLFB variant, wherein the default frequency selected is 60 Hz. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 70: Binary Outputs
Device Functions 5.5 Binary Outputs Binary Outputs Binary Output for Ground Fault The device consists of 2 binary outputs for ground-fault indications. 1 BO is a CO type binary output and the other BO is a NO type spare binary output. The ground-fault binary output is user-configurable as a latch or wipe type. Refer to 5.4.9 BO Type Configura- tion (for Ground Fault) for more information. These binary outputs are connected to an RTU to indicate the fault status to a remote monitoring station. NOTE Some RTU/Control system requires a pulse input to sense and transmit fault signal from SICAM EFI to remote monitoring system. For such systems, the device is provided with a Wipe type BO operation (also called Fleet type BO). When BO type is configured as Wipe, ground fault BO remains closed for 500 ms. To enable this function, you must configure Wipe type BO using DIP switch. Refer to 5.4.9 BO Type Configuration (for Ground Fault). Binary Output for Battery Health Check A dedicated binary output is provided to indicate battery health remotely. This BO is connected to an RTU to indicate the battery status to a remote monitoring station (SCADA). When battery is healthy, the BO is normally open. When the battery is under low battery condition, the BO is closed. Binary Output for Signal Lamp The signal lamp binary output is used to connect to a signal lamp for better fault indication visibility. Siemens provides the signal lamp accessory which can be connected to the device signal lamp binary output. The Siemens signal lamp is battery-powered and does not need any external power supply for operation. The signal lamp has a day time (under bright sunlight) visibility up to 70 m and night time visibility up to 300 m. Distance measured in line of sight vision under clear weather conditions. For signal lamp ordering options, refer to SICAM EFI - Spares and Accessories, Page 18. Table 5-7 Binary Output Configurations Across SICAM EFI Variants MLFB Binary Outputs 1 CO - Ground 1 NO - Ground 1 NO - Battery 1 NO - Signal Fault Main Fault Spare Health Lamp 6MD2311-1BB00-0AA3 Terminal X7 ‒...
Page 71: Built-In Restraints
Device Functions 5.6 Built-in Restraints Built-in Restraints SICAM EFI is provided with the following built-in restraint functionalities to prevent false ground-fault indica- tion. Ground-current Inrush Detection Whenever a line is energized, due to transformer magnetization, an inrush current is drawn by the trans- former. This current is transient in nature and remains for a few milliseconds (also called as the inrush period). To avoid incorrect ground-fault indication due to inrush current, a time delay is introduced before activation of the fault indication. At the end of the inrush period, SICAM EFI checks the voltage availability confirmation by sensing the AC BI input. A fault (single or continuous) is indicated if the AC BI signal is not available and no fault (single or continuous) is indicated if the AC BI signal is available. Thus the device eliminates the possibility of a false fault detection due to inrush current and only indicates actual faults to the user. The ground-current inrush detection time can be configured as Disable, 300 ms and 1 s. By default, this functionality is disabled in the device. Refer to 5.4.8 Ground-current Inrush on how to enable this functionality and for configuring the inrush-current detection time. Auto-Reclosure The auto-reclosure function is used to block the redundant ground-fault detection and indication during the auto-reclosure retries which are made to restore the ground current. After a fault, the line/network is cut off and auto-reclosure retries are made to restore the line/network. The device can detect new faults based on the auto-reclosure retries. In such case, when auto-reclosure functionality is enabled in SICAM EFI, the device blocks such redundant fault detection for the configured auto-reclosure time. The auto-reclosure time can be configured as Disable or 3 min. When the auto-reclosure functionality is enabled in the device and a fault is indicated, then for 3 min, SICAM EFI does not accept any type of fault reset requests except Push-button reset. By default, this functionality is disabled in the device. Refer to 5.4.7 Auto Reclosure Time Setting on how to enable this functionality and for configuring the auto reclosure time. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 72 SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 73: Troubleshooting
Troubleshooting Troubleshooting SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 74: Troubleshooting
Troubleshooting 6.1 Troubleshooting Troubleshooting This section provides the common problems of SICAM EFI and the recommended solution to resolve the problem. NOTE Ensure AC/DC auxiliary power supply, AC BI signal, primary input to sensor and sensor output cable are electrically isolated whenever device front cover is removed for performing any troubleshooting actions. Observations Action SICAM EFI is not responding after initial For the battery-powered variant only, perform the following installation and assembly steps: • Perform a self-test by pressing the push-button for 1 s. • If the self-test is not successful, then remove the device front cover and ensure that the paper strip inserted between the battery and the battery clip during shipment is removed. Also, check whether the battery is inserted as per the correct polarity. • If the device still does not respond, contact Siemens customer care. For the dual powered variant only, perform the following steps: • Check if the Auxiliary LED (Green) is ON. If not, perform a self-test by pressing the push-button for 1 s. • If the self-test is not successful, check if the auxiliary supply is connected properly. • If this does not work, disconnect the auxiliary supply. Once the supply is disconnected, remove the device front cover and perform the steps mentioned previously for the battery variant. Function check (self-test) function does If this occurs immediately post installation, it maybe due to incor- not work rect battery installation.
Page 75 • DC BI reset: Check if the DC BI signal is taken from the correct source along with wiring. • Low voltage reset (LVR): Check if the LVR is taken from the RTU/control systems. Ensure that the fault reset logic is correctly programmed. • Current based reset (field programmable): Check the criteria to be met for current based reset. • Auxiliary AC recovery reset (field programmable): Check the correct DIP switch position to enable auxiliary AC recovery reset. Also verify that the AC auxiliary voltage is taken from the correct source. • Timer-based auto reset: Check whether the correct auto reset time is configured in DIP switch. • Fault does not reset even with DC auxil- The auxiliary-based reset works only with the AC auxiliary iary source resumed input supply, not for the DC auxiliary input supply. • Fault does not reset This event can occur due to the presence of continuous fault current. If you try to reset the fault indication while the continuous fault is still present then the fault resets and Fault resets and immediately detects fault immediately detects a fault again. again During a fault, the fault LED blinks but the This event can occur due to a low battery condition: flag or BO does not operate • Check the battery health by performing battery check. Press the push-button for more than 3 s. If the battery is not healthy, replace it with a new battery. SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 76 Troubleshooting 6.1 Troubleshooting Observations Action SICAM EFI detects a fault due to inrush To take care of inrush currents, ensure the following: currents in the system • AC BI wiring is mandatory for inrush-current detection func- tion to work. • The inrush-current detection is enabled using the DIP switch setting. Also, make sure that the correct inrush- current detection time is configured in the device. Refer to 5.4.8 Ground-current Inrush for inrush-current detection configuration. Apart from a push-button reset, the This event occurs when the auto reclosure function is enabled device does not allow a fault reset up to 3 in the device. Up to 3 min after fault detection, only the push- min after a fault detection button fault reset works. No other reset method works in this time range. • If the auto reclosure feature is not required, disable the feature using the DIP switch. Refer to 5.4.7 Auto Reclosure Time Setting . • Apart from a push-button reset, no fault Ensure that at least one of the reset methods is active. Also reset takes place in the device 3 min (post check for the necessary wiring for that reset methodology. auto reclosure time) after a fault detec- • Check if the selected reset method requires any DIP switch tion setting to be enabled. • The device detects a fault with all DIP The device detects fault current above 25 A when all DIP switches (DIP 1 to DIP 8 in S3) in OFF state...
Page 77: Asicam Efi Variant Wise Terminal Details And Dip Switch Settings
SICAM EFI Variant wise Terminal Details and DIP Switch Settings SICAM, Earth Fault Indicator, Manual [dw̲efi̲terminal̲dipswitch, 1, en̲US] E50417-H8940-C600-A3, Edition 12.2022 Figure A-1 SICAM EFI Variant wise Terminal Details and DIP Switch Settings...
Page 78 SICAM EFI Variant wise Terminal Details and DIP Switch Settings SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 79: Index
Fleet type BO 70 Front cover 38 Battery check 64 Front view 26, 40 Battery clip 38 Function check 64 Battery health condition 64 Battery replacement 38 Battery-powered variant 19 Binary inputs 52 Binary output 70 Ground current based reset 63 Binary outputs 52 Ground current-based reset 66 Block diagram 12 Ground fault BO 70 Ground-current inrush 68, 71 Ground-fault current range 52 Climatic tests 57 Commissioning 27 Continuous fault 62, 62 Inrush current detection 71 Installation of SICAM EFI 27 Insulation tests 57 Introduction to SICAM EFI 12 Dangerous goods regulations 10 DC BI reset 63 Delivery 10 Delivery contents 10 L-clamp dimensions 45 Device applications 15 Low voltage reset 63 Device description 12 Device dimensions 26 Device features 14 Dimensions 52 Drawings 26 Manual reset 64 SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...
Page 80 Index Mechanical tests 57 MLFB 16 Operating temperature 52 Polarity 38 Push-button 64 Push-button reset 63 Recommended tools 26, 40 Response time 52 Ring main unit 27 Safety tests 57 Sensors 16 SICAM EFI Variants 19 Side view 26, 40 Signal lamp 40 Signal lamp dimensions 40 Signal lamp front cover removal 41 Single fault 62, 62 Spare part 16 Technical data 52 Terminal details 23 Type testing 57 Variants 19 Wipe type BO 70 SICAM, Earth Fault Indicator, Manual E50417-H8940-C600-A3, Edition 12.2022...

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