Intelbras High Power ELC 5002 / ELC 5003 / ELC 5112 Electric Fence Energizers

Introduction

Congratulations on acquiring an Intelbras product with quality and safety. The High Power ELC 5002, ELC 5003, and ELC 5112 electric fence energizers are microprocessor-controlled, monitoring the high voltage output and triggering a discharge due to grounding or fence breakage. They feature a mixed zone (wired and/or wireless) for connecting opening sensors and/or infrared sensors. They also have a specific output for activating conventional or monitored alarm systems, as well as an LED output and an output that indicates activation and deactivation for alarm panels.

For downloading this guide in Spanish, access the QR code below and select the 'Files for download' tab.

Para descargar esta guía en español, acceda al código QR a continuación y seleccione la pestaña Archivos para descargar.

Safety and Precautions

• Read and follow all user manual instructions before installing or using this equipment.
• The product was developed according to standard ABNT NBR IEC 60335-2-76.
• The equipment, cables, or electric fence should not be installed in locations with extreme conditions, such as corrosive environments, explosive atmospheres (with gases), flammable liquids, etc.
• The equipment must be installed in a ventilated location.
• Fixed wiring for powering the 115-230 Vac equipment must have a safety switch or similar device, such as a circuit breaker. This device must allow disconnection from the power grid without opening the equipment cabinet, as well as protect the installation against potential short circuits at the power input.
• The equipment must be fixed to a rigid wall or similar construction, so that the user cannot change its position without tools. Do not install the control unit on wood surfaces or materials that promote flame spread in case of a short circuit in the wiring or equipment.
• Use only rechargeable 12 Vdc batteries indicated for security/intrusion systems.
• The equipment must never be opened, programmed, or handled by the end-user. Whenever repair, reprogramming, or installation is needed, a specialized technician must be hired.
• Before installing the product, it is important to check if the municipality or state where the electric fence is to be installed has any specific law regulating this type of installation. If it exists, it must be fully complied with.
• Follow the recommendations in this manual regarding installation procedures and materials to be used.
• In case of defects, malfunctions, or doubts, contact the support department or authorized technical assistance.
• Inform the system user about the operation and hazards of the electric fence, and the precautions they should take when handling the product and signaling the protected area.
• Inform the user that vegetation or objects should not touch the fence wiring, maintaining a distance of 15 cm from the wires. If it is necessary to move something away from the wiring, disconnect the product from the power grid and the battery.
• Never interconnect more than one control unit to the same fence to be electrified.
• Do not install the energizer near other electronic equipment (minimum 3 meters).
• Provide the user with a complete description of the entire installed system and ensure they have understood and are able to use or operate the system.
• The installation of the electric fence must be carried out according to the specifications in standard ABNT NBR IEC 60335-2-76.
• This appliance is not intended for use by persons (including children) with reduced physical, sensory, or mental capabilities, or persons lacking experience and knowledge, unless they have received instructions regarding the use of the appliance or are supervised by a person responsible for their safety.
• It is recommended that children be supervised to ensure they are not playing with the appliance.
• LGPD - General Law for the Protection of Personal Data: Intelbras does not access, transfer, capture, or perform any other type of personal data processing from this product.
• Obs.: Before accessing the terminals, all power circuits must be de-energized.

Battery Use Precautions and Recommendations

To install or replace the equipment's battery, it is mandatory that the shock be deactivated by the remote control. It is also necessary to disconnect the power grid through the safety switch or similar device.

Product with battery. Dispose of at authorized Intelbras facilities or designated collection points. May pose a risk to human health and the environment. For doubts: www.intelbras.com.br, suporte@intelbras.com.br or (48) 2106-0006 or 0800 7042767.

Table of Contents

1. Technical Specifications
2. Characteristics
3. Products
   1. Main Components
4. Installation
   1. Siren
   2. Auxiliary - 14.5 Vdc output
   3. Zone
   4. Alarm Panel Trigger
   5. Fence Activation/Deactivation Monitoring
   6. LED Output
   7. Battery Start
   8. Activation and Deactivation via PGM
   9. Activation and Deactivation via Button or Key
   10. Central Fixing
   11. AC Power Connection (mains)
   12. Battery Connection (bicolor parallel wire cable)
   13. High Voltage and Grounding Cable Connection
   14. Grounding Connection
   15. Electric Fence Connection and Assembly
   16. Post Assembly
   17. Programming
   18. Remote Control Programming to Arm/Disarm Fence
   19. Remote Control Programming to Arm/Disarm Alarm and Fence
   20. Remote Control Programming to Arm/Disarm Alarm
   21. Wireless Sensor Programming for Alarm
   22. Erase all programmed remote controls
   23. Remote Control
   24. Erase all programmed sensors
   25. Siren Beep Activation/Deactivation
   26. Test of sensors with or without wire and remote control
   27. Siren Time Alteration
   28. Fault Pulse Quantity Programming
   29. Arm/Disarm Fence by Alarm Sector
   30. Fence Perimeter Learning
5. Finalizing Installation
1. Fence Voltage Adjustment
6. General Reset
7. Operation
1. Fence/Alarm Activation/Deactivation
2. LEDs
3. Energizer Operation
8. Warranty Term

1. Technical Specifications

2. Characteristics

The High Power ELC 5002/ELC 5003 and ELC 5112 electric fence control units are intended to energize the fence for the protection of commercial, residential, and industrial areas, and must be installed according to current technical standards, to provide robust protection without generating fatal risks to anyone who touches the wiring of the installation.

The products have the following characteristics:

• Enables/disables shock via remote control.
• Accepts up to 30 wireless devices (compatible only with OOK modulation).
• Range: up to 100 meters with direct line of sight in open field.
• Programmable siren activation time.
• Overload-protected auxiliary output.
• High voltage monitoring, fence violation, AC/DC, and sensor monitoring.
• Allows interconnection with alarm panels and sirens.
• Floating battery charger with short-circuit and polarity reversal protection.
• 1-second interval between electrical pulses.
• Built-in high voltage module.
• 12 Vdc output for siren.
• IPX4 protection against liquid ingress.
• LED output for arming and disarming visualization.
• 2 monitoring outputs.

Intelbras does not guarantee the registration/operation of its control units with wireless sensors that are not manufactured by Intelbras.

Regarding remote controls from other manufacturers, they must have the following characteristics to work with our control units:

1. Operate in OOK modulation;
2. Operate at 433.92 MHz frequency;
3. Transmission rate of 1.886 Kbps.

3. Products

3.1. Main Components

Internal view of the board:

1. High voltage adjustment:

• With the Energy jumper in the low position = 8,000 V pulsating (ELC 5112) or 16,000 V pulsating (ELC 5002 / ELC 5003), ±5%.
• With the Energy jumper in the medium position (disconnected) = 10,000 V pulsating (ELC 5112) or 18,000 V pulsating (ELC 5002 / ELC 5003), ±5%.
• With the Energy jumper in the high position = 12,000 V pulsating (ELC 5112) or 20,000 V pulsating (ELC 5002) or 21,000 V pulsating (ELC 5003), ±5%.
• Obs.: check the model for the correct output voltage.

2. Positive output for LED.

3. Negative output for LED.

4. PGM1 Output.

5. PGM2 Output.

6. Common for sensor connection.

7. Zone 1 input.

8. Auxiliary output positive.

9. Auxiliary output and siren output negative.

10. Siren positive.

11. AC Power Input (115 – 230 Vac).

12. Battery connector.

13. High voltage return.

14. Energizer ground.

15. High voltage output.

4. Installation

To ensure product sealing, screw the cover to the base until snug, and add an additional ¼ turn.

Check the table below for selecting the minimum wire diameter to be used, according to the installed perimeter:

The product and its auxiliary equipment must be installed, operated, and maintained in a way that minimizes danger to people, reducing the risk of electric shock; unless an individual attempts to cross the physical barrier or is in the protected area without authorization.

The construction of security electric fences where accidental entrapment or entanglement of individuals is likely must be avoided.

Gates with security electric fences must be able to open without the user receiving an electric shock.

A security electric fence must not be energized by two different energizers.

For any two separate security electric fences, each energized by a separate energizer, independently synchronized, the distance between the wires of these two security electric fences must be at least 2.5 m. If this space is protected, this protection must be provided by non-conductive material or an isolated metal barrier.

Barbed or cutting wires must not be electrified by the product.

Follow the grounding recommendations contained in this manual.

The distance between any security electric fence ground electrode and other grounding systems must not be less than 2 m, except when associated with a grounding mesh.

Whenever possible, the distance between any security electric fence grounding electrode and other grounding systems must be at least 10 m.

Exposed conductive parts of the physical barrier must be efficiently grounded.

When the electric fence passes under uninsulated power line conductors, its highest metal element must be efficiently grounded for a distance of not less than 5 m on both sides of the crossing point.

High voltage conductors installed inside buildings must be efficiently insulated from the grounded structural parts of the building. This can be achieved by using a high voltage insulated cable.

High voltage conductors installed underground must be placed inside conduits/ducts of insulating material, or a high voltage insulating cable must be used. Damage to high voltage conductors due to vehicle wheels pressing on the ground must be avoided.

High voltage conductors must not be installed in the same conduit/duct as power cables, signal cables, audio, video, and others.

High voltage conductors and security electric fence wires must not pass over overhead power lines and/or communication lines.

Crossings with overhead power lines must be avoided whenever possible. If such a crossing cannot be avoided, it must be done below the power line and as close as possible, so as to be perpendicular to the line.

If high voltage conductors and security electric fence wires are installed near overhead power lines, the separation distances must not be less than those indicated in the following table:

The height of these conductors in relation to the ground must not exceed 3 m. This height applies to any side of the orthogonal projection of the outermost conductors of the power line onto the ground surface; for a distance of 2 m for lines operating at a nominal voltage not exceeding 1,000 V, and 15 m for power lines operating at a nominal voltage exceeding 1,000 V.

A spacing of 2.5 m must be maintained between uninsulated conductors or between uninsulated high voltage cables from different energizers. This spacing can be smaller where conductors or uninsulated high voltage cables covered with insulating caps consist of cables with at least 10 kV insulation. This requirement does not apply where these energized conductors are separated by a physical barrier that does not have any openings larger than 50 mm.

A vertical distance of not less than 2 m must be maintained between conductors energized by pulses from different energizers.

The electric fence installation must be identified by warning signs, installed in a way that they are evident and legible from the protected area and the public access area.

Each side of the electric fence must have at least one warning sign. There should be signage at each gate, at each access point, at intervals not exceeding 10 m, and adjacent to any chemical hazard signs, for information related to emergency services.

Any part of an electric fence installed along a public road or highway must be identified at regular intervals, by means of warning signs firmly attached to the fence support posts, or firmly attached to the fence wires.

The warning signs must be at least 100 mm × 200 mm, have a yellow background and the following inscription in black: CAUTION: ELECTRIC FENCE, as indicated in item BB.1 of annex BB of standard ABNT NBR IEC 60335-2-76.

The inscription must be identified legibly and durably, inserted on both sides of the warning sign and have a height of at least 25 mm.

It must be ensured that all auxiliary equipment powered by the mains, connected to the electric fence circuit, have an insulation degree between the fence circuit and the mains equivalent to that attributed to the energizer.

The power line wiring must not use the same conduits/ducts used by signal cables associated with the electric fence installation.

Protection against weather must be provided for auxiliary equipment, unless this equipment is certified by the manufacturer as suitable for outdoor use and has a minimum protection rating of IPX4.

Installations must comply with standard ABNT NBR IEC 60335-2-76.

Equipment installation must be performed only by a specialized technician.

Before performing maintenance or system inspections, all power circuits must be de-energized (mains and battery).

Do not install this equipment on structures that promote flames, in case of short circuits in the wiring or product. Also, do not install on electrical conductor structures.

The power cable must be connected to the power grid through a safety switch or similar device accessible to the user, so that they can disconnect the electricity at any time.

If any power cable or wire is broken or damaged, it must be replaced by the installer or qualified professional to avoid risks.

The sensation of shock to an individual who eventually touches the fence wiring depends on the individual's own insulation (use of shoes, gloves, etc.), soil moisture level, or wall, and the quality of the grounding.

Use high insulation cable and insulators with a dielectric strength of at least 20 kV for installation.

4.1. Siren

One or more alarm system sirens can be connected, provided that the total current is:

• With battery: 1.5 A.
• Without battery: 400 mA.

Obs.: when connecting, observe polarity. The positive terminal must be connected to the SIR (+) terminal and the negative terminal to the AUX(-) terminal.

4.2. Auxiliary - 14.5 Vdc output

This output is used to power infrared sensors.

• Maximum current: 250 mA.

Obs.: when connecting, observe polarity (+/-).

4.3. Zone

The terminal marked Z1 corresponds to zone 1. The terminal designated COM is the common terminal.

Obs.: If only using wireless sensors, short circuit zone Z1 and COM. The Alarm Sector has a fixed 5-second timer to initiate the reading of wireless sensor violations, meaning opening transmissions from sensors will only be read after 5 seconds have passed since activation.

4.4. Alarm Panel Trigger

To connect the electric fence to an alarm panel, follow the procedure:

• Connect a wire to the PGM1 terminal of the energizer to the ZONE terminal of the alarm panel and interconnect the two COM terminals of the electric fence and the alarm panel. This zone must be configured as 24h so that the perimeter is protected even when the alarm panel is deactivated. The Alarm Sector has a fixed 5-second timer to initiate the reading of wireless sensor violations, meaning opening transmissions from sensors will only be read after 5 seconds have passed since activation.

4.5. Fence Activation/Deactivation Monitoring

PGM2 is a dry contact that is activated when the fence system is activated or deactivated. If connected to the alarm panel's zone, it will send a trigger and restoration signal to the monitoring company. To connect, follow the procedure:

• Connect two wires to the PGM2 and COM terminals and connect them to the alarm panel's zone connection. This zone must be configured as 24h so that the panel sends a 24-hour zone trigger signal and 24-hour zone restoration signal even when the alarm panel is deactivated.

4.6. LED Output

This output is used to indicate activation and deactivation when the electric fence is in a non-visible location. To use it, simply connect a 5 Vdc LED with a maximum current of 20 mA to the LED+ and LED- outputs. This LED being lit indicates that the shock or alarm of the fence is activated.

Obs.: it is not possible to measure this LED output with a multimeter as it is a pulsating output.

4.7. Battery Start

When powering the energizer solely by battery, it will not be possible to activate the fence pulses. Upon attempting to activate, it will emit only 4 beeps on the siren and automatically deactivate for safety reasons.

To activate the energizer powered only by battery, the following steps must be performed:

1. Press the Start button;
2. Activate the electric fence.

Obs.: after pressing the Start button, the fence will wait for 5 seconds for activation. After this time, the process must be repeated from the beginning. Battery start is only necessary when the product is completely disconnected from power. After being connected to the AC mains, the product will function normally with the battery.

4.8. Activation and Deactivation via PGM

This product can be activated or deactivated via a PGM output from the alarm panel.

Follow the instructions below:

• Use a pair of wires for this connection, interconnecting the Z1 terminal of the shock control unit to the PGM output of the alarm panel, and then interconnect the COM of the electric fence to the negative auxiliary output of the alarm panel. When the PGM is activated, the electric fence will be activated. When the PGM is deactivated, the electric fence will be deactivated.

4.9. Activation and Deactivation via Button or Key

This product can be activated or deactivated via a latching button or an On/Off key. Connect the button or On/Off key to the Z1 and COM terminals of the fence, as shown in the image below:

Obs.: For Activation and Deactivation via PGM or Activation and Deactivation via button or key, the electric fence needs to be programmed to be activated/deactivated by the alarm sector. See programming in item 4.30. Fence Arm/Disarm by Alarm Sector.

4.10. Central Fixing

The equipment must be fixed to a rigid wall or similar construction, so that the user cannot change its position without the aid of tools. Always install the equipment in a vertical position and never upside down or horizontally; check the diagram below.

Obs.: Do not install the product on surfaces that promote flame spread, in case of short circuits in the wiring or equipment.

Whenever possible, this equipment should be fixed in a location protected from sun, rain, and humidity, even with IPX4 protection.

The energizer may cause interference in electronic equipment when installed nearby.

4.11. AC Power Connection (mains)

The AC terminal is used to connect the equipment to the 115 – 230 Vac mains. Near the terminal is the control unit's protection fuse. If you need to replace it, use a fuse of the same value (1 A) with time delay.

To ensure greater user safety in case of jerks on the power supply cable, it should be installed as shown in the figure below:

1. Leave approximately 27 cm of the power cable inside the cabinet, through point D;
2. Fold the cable between points B and C, as shown in the figure above;
3. Push the cable to the base surface;
4. Connect the cable to the AC terminal on the board;
5. Check the mains voltage.

The mains wiring for power must have a safety switch or similar device, such as a circuit breaker. This device must allow disconnection from the power grid without opening the equipment cabinet, as well as protect the installation against potential short circuits at the power input.

4.12. Battery Connection (bicolor parallel wire cable)

The J6 connector, as indicated in the figure below, is used to connect the battery to the system. During normal operation, this output acts as a battery charger and, in case of power failure, provides energy to the system.

To install or replace the equipment's battery, it is mandatory that the shock be deactivated by the remote control. It is also necessary to disconnect the mains power through the safety switch or similar device. Only after ensuring that the electric fence is completely inactive and without electricity, open the equipment cover by unscrewing the screws and disconnecting the J6 connector (battery). Then install and replace the battery, closing and screwing the cover when finished.

The order indicated below must be followed to avoid the risk of electric shock.

1. Deactivate the shock using the remote control;
2. Disconnect the mains power through the safety switch or similar device;
3. Ensure the electric fence is completely inactive and without electricity;
4. Open the equipment cover by unscrewing the screws and disconnecting the J6 connector (battery);
5. Install and replace the battery;

Battery connection orientation:

• Place the battery cable;

Position the battery tilted for better cabinet fit;

Lower the battery until it rests on the bottom;

Connect the battery cable to the J6 connector on the board.

6. Close and screw the cover when finished.

Attention: when the control unit is initially powered only by battery, check the procedure in the 'Battery Start' item. If this is done, the control unit will emit 4 beeps on the siren, indicating an error. This happens when the fence is turned on for the first time or after a total power outage.

4.13. High Voltage and Grounding Cable Connection

The high voltage input and grounding cables must be installed through the holes on the right side of the cabinet. After passing the cables, it is necessary to connect them to their respective terminals, as shown in the figure below. A high voltage cable with a dielectric strength of at least 15 kV is required.

A. High voltage output cable.

B. Grounding cable.

C. High voltage return cable.

Obs.: a minimum distance of 0.5 m from the high voltage cables to any other electronic equipment is recommended.

After installing the cables, attach the energizer cover, following the instructions below:

Cover fitting orientation:

• Position and fit the cover to the lower part of the cabinet;
• Position the cover at the top and fit the cover to the bottom until the cabinet is engaged;

Ensure there are no gaps between the cover and the base. Place the cover fixing screws in the indicated locations.

4.14. Grounding Connection

Grounding is mandatory and very important for the sensation of shock to anyone who touches the fence wires, as well as for protection against lightning and power grid overload and/or sensor wiring.

Always look for a damp location to fix the grounding rod (copper-plated bars). The rods must be over 2 m, except when associated with a grounding mesh.

Attention: do not use the mains neutral as grounding.

4.15. Electric Fence Connection and Assembly

Posts and insulators specially developed for electric fence assembly can be easily purchased on the market. The posts are made of flat aluminum or angle iron to facilitate assembly. Their material must absorb impact and have minimal flexibility to the wind. If desired, the post can be made of iron, provided these characteristics are observed. The insulators are made of polypropylene or with plugs. Due to the high voltage applied to the fence, they must have excellent electrical insulation between the wire and the post. The posts for fixing the wires should be attached with screws and anchors at a minimum height of 2.10 m with a maximum recommended spacing of 3 m between them, as shown in the figure below.

Maintain a minimum distance of 15 cm between the wires and between the wire and the wall.

Obs.: this distance (15 cm) must be respected even on uneven surfaces.

4.16. Post Assembly

Use quality wires with a cross-section greater than 0.60 mm² as they have good durability, low electrical resistance per meter, and resistance to the mechanical tension required by stretching, to avoid sagging and swinging that could cause breaks.

4.17. Programming

The electric fence has several programmable parameters, making it versatile and allowing its operation to be configured according to needs.

These settings are stored in a special internal memory that retains this information even when the fence is disconnected from the mains and the battery is removed, thus avoiding the need for frequent reprogramming.

In addition to configuring the fence's operation, it is also possible to perform sensor function tests.

Attention: all subsequent programming should be done with the fence deactivated.

4.18. Remote Control Programming to Arm/Disarm Fence

1. Place the Energy jumper (JP1) in the High position;
2. Press the C. Remote key and the Fence LED will light up;
3. Activate the remote control, and the Activated, Fence, and Zone LEDs will flash rapidly, indicating that the code has been learned. If the LEDs flash slowly, there was an error or the remote control key has already been programmed.

To program another remote control, repeat steps 2 and 3.

4.19. Remote Control Programming to Arm/Disarm Alarm and Fence

1. Place the Energy jumper (JP1) in the Medium position (disconnected);
2. Press the C. Remote key and the Fence and Zone LEDs will light up;
3. Activate the remote control, and the Activated, Fence, and Zone LEDs will flash rapidly, indicating that the code has been learned. If the LEDs flash slowly, there was an error or the remote control key has already been programmed.

To program another remote control, repeat steps 2 and 3.

4.20. Remote Control Programming to Arm/Disarm Alarm

1. Place the Energy jumper (JP1) in the High position;
2. Press the Sector key and the Zone and Activated LEDs will light up;
3. Activate the remote control, and the Activated, Fence, and Zone LEDs will flash rapidly, indicating that the code has been learned. If the LEDs flash slowly, there was an error or the remote control key has already been programmed.

To program another remote control, repeat steps 2 and 3.

4.21. Wireless Sensor Programming for Alarm

1. Place the Energy jumper (JP1) in the Low position;
2. Press the Sector key and the Zone LED will light up;
3. Activate the sensor, and the Activated, Fence, and Zone LEDs will flash rapidly, indicating that the code has been learned. If the LEDs flash slowly, there was an error or the sensor has already been programmed.

To program another sensor, repeat steps 2 and 3.

Obs.: wireless communication technology, when exposed to environments with high power radiation, can suffer interference and have its performance impaired, for example: locations near TV towers, AM/FM radio stations, amateur radio stations, etc.

4.22. Erase all programmed remote controls

1. Place the Energy jumper (JP1) in the High position;
2. Press the C. Remote key and the Fence LED will light up. Keep the key pressed for approximately 5 seconds until the Fence and Zone LEDs flash, indicating that the controls have been erased.

4.23. Remote Control

The alarm panel is compatible with Intelbras line remote controls, which use OOK modulation and operate at 433.92 MHz frequency.

To learn about Intelbras line accessories, scan the QR code, select the remote control purchased, and click on files for download.

Homologation

The above equipment operates on a secondary basis, meaning it is not entitled to protection against harmful interference, even from stations of the same type, and cannot cause interference to systems operating on a primary basis. For more information on the homologated product, access the site: https://www.gov.br/anatel/pt-br.

4.24. Erase all programmed sensors

1. Place the Energy jumper (JP1) in the Low position;
2. Press the Sector key and the Zone LED will light up. Keep the key pressed for approximately 5 seconds until the Fence and Zone LEDs flash, indicating that the sensors have been erased.

4.25. Siren Beep Activation/Deactivation

1. Place the Energy jumper (JP1) in the Medium position (disconnected);
2. Press the Sector key and the Activated, Fence, and Zone LEDs will light up or flash. If the LEDs light up, the no-beep siren programming has been configured; if the LEDs flash, the beep siren programming has been configured.

4.26. Test of sensors with or without wire and remote control

This function is used to facilitate sensor/control testing during installation. When activated, the siren emits a beep whenever a sensor or remote control is activated. For example, in the case of a magnetic sensor installed on a door, a beep will be emitted when the door is opened or closed.

1. Place the Energy jumper (JP1) in the Medium position (disconnected);
2. Press the Start key.

When the fence is in test mode, the Activated LED will flash slowly. To exit test mode, press the Start key again and the Activated LED will turn off.

4.27. Siren Time Alteration

The default siren time is 15 minutes. This is the time the siren stays on after a violation occurs and can be reprogrammed to a value between 01 and 99 minutes. To program, follow the procedure:

1. Place the Energy jumper (JP1) in the High position;
2. Keep the Start key pressed. The Activated, Fence, and Zone LEDs will light up for approximately 5 seconds and then turn off. After this time, the Activated LED will flash every 1 second. Each LED flash corresponds to 1 minute of siren time.

4.28. Fault Pulse Quantity Programming

1. Place the Energy jumper (JP1) in the Low position;
2. Press the Start key. The Fence LED will light up for approximately 5 seconds, and after this time, it will flash every 1 second. Each flash corresponds to 1 additional fault pulse.

Obs.: the minimum fault pulse quantity is 5 pulses and the maximum quantity is 36 pulses, so the count starts at the first pulse. When the count reaches 36, the Activated LED will light up, finalizing the count. Release the key for the LED to turn off. If the key is released within the first 5 seconds, the fault pulse quantity will be 5 pulses.

The factory default quantity is 8 fault pulses.

4.29. Arm/Disarm Fence by Alarm Sector

To enable fence arm/disarm

1. Place the Energy jumper (JP1) in the High position;
2. Keep the Sector key pressed for approximately 5 seconds and the Activated LED will light up. After this time, the Fence and Zone LEDs will flash for approximately 3 seconds and then turn off.

To disable fence arm/disarm

1. Place the Energy jumper (JP1) in the High position;
2. Keep the Sector key pressed for approximately 5 seconds. During this period, the Activated and Zone LEDs will remain lit. Then, the Fence LED will light up for approximately 3 seconds, and subsequently, all LEDs will turn off, except for the Zone LED.

4.30. Fence Perimeter Learning

After the fence is activated for the first time, after a total power outage, the Activated LED will start flashing. After 10 flashes of the Fence LED (10 seconds), the Activated LED will stop flashing, indicating that learning is complete.

Obs.: whenever maintenance, cable replacement, insulator replacement, vegetation pruning, Energy jumper position change, etc., is necessary, a new learning must be performed due to the new conditions. Therefore, the entire power supply to the control unit (mains and battery) must be removed and reconnected for it to perform the learning process.

5. Finalizing Installation

Program a remote control key to turn on the fence.

5.1. Fence Voltage Adjustment

1. To prevent arcing, adjust the energy jumper according to the perimeter;
2. After all wires are connected, go through the entire fence, checking the wire tension (they should not sag) and the connection points, including sensor wires, if any;
3. Ensure that there is no vegetation (branches or leaves) very close to the fence, as this can cause leakage and the microprocessor will perform incorrect learning, causing false triggers;
4. Activate the fence with shock and check for possible leaks (arcing) throughout its extension;
5. Deactivate the fence using the remote control and eliminate the causes;
6. Reconnect it and perform fence perimeter learning;
7. Simulate a fence break, turn it on, and the siren should trigger. Turn it off;
8. Simulate a short circuit with a wire, connecting the fence to the ground cable, turn it on, and the siren should trigger after N fault pulses (factory default: 8 fault pulses). Turn it off.

6. General Reset

If the High Power ELC 5002/ELC 5003 and ELC 5112 fences are connected and the remote control cannot be used to disarm the fence, the only available method to disarm the fence will be through the System's General Reset. To perform the General Reset, follow the procedure:

1. Keep the Start and C. Remote keys pressed;
2. All LEDs will flash rapidly, indicating that the General Reset has been performed;
3. After the General Reset, the electric fence will return to factory settings.

It is now possible to program another remote control.

Obs.: This operation also erases all registered wireless devices. For items 1, 2, and 3 to function, the fence must be disarmed. With the fence armed before executing item 1, it is necessary to remove power and reapply it, following steps 1, 2, and 3.

7. Operation

7.1. Fence/Alarm Activation/Deactivation

Press the previously programmed remote control key. The siren will emit a beep and the fence will be activated. The activation has no delay, so all modules must be closed and the fence must be in good condition. To deactivate the fence, activate the remote control again. The siren will emit two beeps and the fence will be deactivated.

Obs.: there will only be a beep on the siren if the key is activated.

7.2. LEDs

¹ When the fence function is deactivated and the zone is open, the LED will remain on.

7.3. Energizer Operation

The fence generates a high voltage pulse every second, monitoring for cuts and grounding. If the return pulse differs from the one memorized during learning, the fence considers it a fault pulse. When N consecutive fault pulses occur, the fence triggers the alarm.

Obs.: N = programmed fault pulse quantity.

The fault pulse quantity is programmable: minimum 5 and maximum 36 pulses.

Warranty Term

It is expressly stated that this contractual warranty is granted under the following conditions:

Customer Name:

Customer Signature:

Invoice Number:

Purchase Date:

Model:

Serial Number:

Reseller:

1. All parts, pieces, and components of the product are guaranteed against eventual manufacturing defects that may arise, for a period of 1 (one) year, consisting of 90 (ninety) days of legal warranty and 9 (nine) months of contractual warranty – counted from the date of purchase of the product by the Consumer, as stated on the purchase invoice, which is an integral part of this Term throughout the national territory. This contractual warranty includes the free replacement of parts, pieces, and components that present a manufacturing defect, including the costs of labor used in such repair. If no manufacturing defect is found, but rather a defect(s) resulting from improper use, the Consumer will bear these expenses.
2. Product installation must be carried out according to the Product Manual and/or Installation Guide. If your product requires installation and configuration by a qualified technician, seek a reputable and specialized professional, as the costs of these services are not included in the product price.
3. Upon detection of a defect, the Consumer must immediately contact the nearest Authorized Service Center listed by the manufacturer – only these are authorized to examine and remedy the defect during the warranty period. Failure to comply with this will void this warranty, as it will be characterized as product tampering.
4. In the event that the Consumer requests in-home service, they must contact the nearest Authorized Service Center to consult the technical visit fee. If the product needs to be retrieved, the resulting expenses, such as transportation and security for the product's round trip, are the responsibility of the Consumer.
5. The warranty will be completely void in the occurrence of any of the following hypotheses: a) if the defect is not manufacturing-related, but rather caused by the Consumer or third parties unrelated to the manufacturer; b) if the product damage results from accidents, disasters, natural agents (lightning, floods, landslides, etc.), humidity, power grid voltage (overvoltage caused by accidents or excessive fluctuations in the grid), installation/use not in accordance with the user manual, or resulting from natural wear and tear of parts, pieces, and components; c) if the product has been subjected to chemical, electromagnetic, electrical, or animal (insects, etc.) influences; d) if the product's serial number has been altered or erased; or e) if the appliance has been tampered with.
6. This warranty does not cover data loss; therefore, it is recommended, if applicable to the product, that the Consumer regularly back up the data contained in the product.
7. Intelbras is not responsible for the installation of this product, nor for any attempted fraud and/or sabotage of its products. Keep software and application updates up to date, if applicable, as well as the necessary network protections against intrusions (hackers). The equipment is guaranteed against defects within its normal conditions of use, and it is important to be aware that, being an electronic equipment, it is not free from fraud and bypasses that may interfere with its correct operation.

Given these conditions of this complementary Warranty Term, Intelbras S/A reserves the right to alter the general, technical, and aesthetic characteristics of its products without prior notice.

All images in this manual are illustrative.

Product benefited by Informatics Legislation.