yucca-power

Previous slide

Next slide

OUR SERVICES

BMS SYSTEM

Monitoring and Control: BMS monitors and controls various building systems and equipment, allowing operators to adjust settings and respond to changes in real-time. This includes controlling temperature, lighting levels, and other environmental parameters.
Energy Management: BMS helps optimize energy usage by monitoring and controlling HVAC systems, lighting, and other energy-consuming devices. It can implement energy-saving strategies and provide data for energy efficiency analysis.
Fault Detection and Diagnostics: BMS can identify and alert operators to malfunctions or irregularities in equipment performance, enabling proactive maintenance and reducing downtime.
Security and Access Control: BMS may integrate with security systems to monitor access control, surveillance cameras, and alarms. It enhances building security by providing centralized control and monitoring.
Fire and Life Safety Systems: BMS can integrate with fire detection and suppression systems, helping to ensure a quick response in case of emergencies and supporting the safety of building occupants.
Remote Monitoring: Many BMS platforms offer remote monitoring and control capabilities, allowing facility managers to access and manage building systems from off-site locations.
Data Logging and Reporting: BMS collects and stores data over time, allowing for trend analysis and the generation of reports. This data can be valuable for assessing system performance, optimizing operations, and planning for future upgrades.
Integration with Other Systems: BMS often integrates with other building systems, such as lighting control systems, access control systems, and energy management systems, creating a unified platform for building control.

CCTV SYSTEM

Cameras: These are the video capturing devices that record images and video footage. CCTV cameras come in various types, such as dome cameras, bullet cameras, and pan-tilt-zoom (PTZ) cameras, each designed for specific surveillance needs.
Monitors: The captured video feed is displayed on monitors, allowing security personnel or operators to view real-time footage. Monitors are typically placed in control rooms or other designated areas.
Recording Devices: CCTV systems often include recording devices, such as Digital Video Recorders (DVRs) or Network Video Recorders (NVRs), which store video footage for later review. These devices allow for the retrieval of historical data and can be crucial for investigations.
Cables and Transmission Equipment: CCTV systems use cables, such as coaxial or Ethernet cables, to transmit video signals from cameras to monitors or recording devices. Wireless transmission is also becoming more common.
Power Supplies: Cameras often require power to operate. Depending on the type of camera, power may be supplied locally or through a centralized power source.
Security Surveillance: Monitoring and recording activities in public spaces, commercial establishments, industrial facilities, and residential areas to deter crime and enhance security.
Traffic Monitoring: Observing and managing traffic flow on roads and at intersections for safety and traffic control.
Public Safety: Surveillance in public transportation systems, airports, and other public places to ensure the safety of individuals.
Business and Retail Security: Protecting assets, preventing theft, and monitoring employee activities in commercial establishments.
Home Security: Providing homeowners with a means to monitor and secure their property.

FIRE ALARM, CO SYSTEM

Smoke Detectors: These devices are designed to detect the presence of smoke particles in the air. There are different types of smoke detectors, including ionization smoke detectors and photoelectric smoke detectors, each with its own method of smoke detection.
Heat Detectors: Heat detectors are activated when they sense a rapid increase in temperature. They are often used in areas where the presence of smoke or fumes might lead to false alarms, such as kitchens.
Fire Alarm Control Panel (FACP): The control panel is the central component of the fire alarm system. It receives signals from detectors and other input devices, processes the information, and activates alarms and notification devices.
Notification Devices: These devices include audible and visual alarms that alert building occupants to the presence of a fire or emergency. Examples include sirens, strobe lights, and horns.
Manual Pull Stations: Manual pull stations, also known as manual call points, allow individuals to manually activate the fire alarm system by pulling a lever or breaking a glass panel.
Sprinkler Systems: In some fire alarm systems, especially in larger buildings, sprinkler systems may be integrated. These systems automatically release water to suppress or extinguish a fire.
Monitoring and Communication Devices: Some fire alarm systems are connected to monitoring centers that can alert emergency services when a fire is detected. Communication devices may include voice evacuation systems or interfaces with emergency responders.
Power Supply: Fire alarm systems typically have backup power sources, such as batteries or generators, to ensure they remain operational during a power outage.

ACCESS DOOR SYSTEM

Material: Access doors are typically constructed from materials such as steel, aluminum, plastic, or gypsum, depending on the specific application and the requirements of the space.
Hinges or Latches: Access doors often have hinges or latches that allow them to be opened and closed easily. Some access doors may have removable panels, while others swing open like a traditional door.
Locks or Fasteners: To secure the access door and prevent unauthorized entry, many access doors are equipped with locks or other fastening mechanisms.
Finishing: Access doors can be finished to blend with the surrounding surfaces, whether that be painted, plastered, or covered with a material that matches the existing structure.
Sizes and Shapes: Access doors come in various sizes and shapes to accommodate different installation requirements and access needs. Common shapes include rectangular, square, circular, or custom shapes as needed.

Access doors are commonly used in both residential and commercial buildings, and they serve various purposes, including:

Ceiling Access: Providing entry to the space above a ceiling for maintenance of electrical or HVAC systems.
Wall Access: Allowing access to concealed plumbing or wiring within walls for repairs or inspections.
Floor Access: Used in raised flooring systems to access underfloor utilities or storage areas.
Attic Access: Enabling entry to the attic for maintenance, storage, or inspection purposes.
Crawl Space Access: Facilitating entry to crawl spaces beneath a building for maintenance or inspection.

LIGHTING SYSTEM

Operational Lighting:

Indoor Facilities: Adequate lighting is crucial for the safety and productivity of employees working in offices, warehouses, control rooms, and other indoor spaces within the electric company’s facilities.

Outdoor Areas: Well-lit outdoor areas, including parking lots, walkways, and entry points, enhance security and provide a safe environment for employees, visitors, and customers.
Facility Security:

Lighting is a fundamental component of a security system. Illuminating the premises, especially during non-operational hours, helps deter unauthorized access and promotes surveillance by security personnel and surveillance cameras.

3.Infrastructure Lighting:

Electric companies often have infrastructure such as power stations, substations, and transmission towers. Proper lighting in these areas ensures that workers can operate and maintain equipment safely, especially during periods of low visibility.

4.Emergency Lighting:

Electric companies must have emergency lighting systems in place to provide illumination during power outages or emergencies. Emergency lighting is essential for evacuations, allowing personnel to navigate buildings and facilities safely.

5.Street and Area Lighting:

Electric companies may be involved in managing street lighting in cities or municipalities. Providing efficient and reliable street lighting contributes to public safety, enhances visibility for drivers and pedestrians, and contributes to overall urban development.

LOAD SCHEDULE SYSTEM

Load Identification:

Each electrical load is uniquely identified or labeled in the schedule. This may include the name or description of the load (e.g., lighting, HVAC, motors, etc.) and a reference or identification number.

2.Location:

The physical location or area where each load is installed or connected is specified. This helps in identifying the distribution of loads throughout the facility.

3.Load Type:

The type of load is categorized, such as lighting, heating, ventilation, air conditioning (HVAC), motors, receptacles, and other equipment. Each type of load has specific electrical characteristics.

4.Connected Load:

The connected load refers to the maximum power that a particular load consumes when it is connected to the electrical system. It is usually measured in kilowatts (kW) or kilovolt-amperes (kVA).

5.Demand Load:

The demand load represents the expected load during a specific time period, often the peak demand period. It is crucial for sizing electrical equipment and determining the overall capacity requirements of the system.

6.Voltage and Phase:

The voltage and phase information for each load is specified, indicating the electrical characteristics necessary for proper connection and distribution.

7.Power Factor:

The power factor is the ratio of real power (watts) to apparent power (volt-amperes) and is essential for evaluating the efficiency of the electrical system. Load schedules often include the power factor for each load.

SMALL POWER SYSTEM

Low Power Consumption: Small power loads are generally low in power demand compared to larger equipment or appliances. Examples include devices that typically operate at voltages of 120V or 240V and consume relatively low amounts of electrical power.
General Purpose Outlets (GPOs): Small power is often distributed through general-purpose outlets (GPOs) located throughout the facility. These outlets provide power for a variety of small electronic devices and appliances.
Lighting Outlets: Small power may also include electrical outlets dedicated to lighting, such as desk lamps or other small lighting fixtures.
Office Equipment: In commercial buildings, small power loads are commonly associated with office equipment, including computers, printers, photocopiers, and other electronic devices.
Flexibility and Convenience: Small power outlets are strategically placed for convenience and flexibility, allowing users to connect and power their devices wherever needed.

ELECTRONIC EARTHING SYSTEM

Ensure Safety: Earthing helps prevent electric shocks and reduces the risk of electrical fires. By providing a low-resistance path for fault currents, it allows excessive current to flow safely to the ground, minimizing the potential for harm.
Stabilize Voltage Levels: Proper earthing helps stabilize voltage levels in electrical systems. It provides a reference point for the system’s voltage, ensuring that electrical equipment and appliances operate within their specified voltage limits.
Facilitate Fault Detection and Protection: Earthing enhances the effectiveness of protective devices, such as circuit breakers and fuses, by providing a reliable path for fault currents. This helps these protective devices operate quickly and interrupt the circuit in the event of a fault.
Earth Electrode or Grounding Electrode:

An earth electrode is a conducting element (such as a metal rod or plate) that is electrically connected to the ground. It serves as the connection point between the electrical system and the Earth.

5.Grounding Conductor:

The grounding conductor is a conductor (usually a wire) that connects the electrical system to the earth electrode. It provides a low-resistance path for fault currents to flow into the ground.

6.Grounding Grid or Grounding System:

In larger electrical installations, a grounding grid or grounding system may be implemented. This involves multiple interconnected earth electrodes to create a network that ensures effective grounding.

7.Equipotential Bonding:

Equipotential bonding involves connecting all conductive parts of a system to the main earthing terminal, ensuring that all metal objects and structures are at the same electrical potential.

WHO WE ARE

Yucca Electric is a dynamic and innovative company specializing in Mechanical, Electrical, and Plumbing (MEP) systems. With a focus on providing cutting-edge solutions, Yucca Electric has established itself as a leader in the field of MEP services.

WELCOM ON BOARD

OUR HISTORY

ITS ALL ABOUT YUCCA

The company has been operating since 2003 and is expanding into various activities, including contracting services, interior design, information and communication technology, manufacturing and supplying furniture, and supplying all the products that the Saudi market needs from China. The company is interested in investing in its relationship with customers and contributes to innovating and creating opportunities for cooperation and exchanging experiences, and takes the initiative to provide everything that helps achieve the best. Results and practices, taking into account that aspects of achieving profitability are an inevitable result of sincere cooperation, hard work, and dedicated service.

OUR VISION

To be a large organization, to be in the highest positions in our field, to develop our business and our employees

OUR MISSION

To become the best leading company in the middle east and Asia for fully solutions.

OUR NUMBER TALKS

@FACEBOOK

0 K

@INSTAGRAM

0 K

@SNAPCHAT

0 K