Features of energy-saving devices from the Saving Technologies Foundation

Designed for easy installation and operation, the products provide integrated solutions for power factor improvement, voltage stabilization, harmonic reduction, and complete fault protection, ensuring a long-term investment and actual savings of 5%–30%.

Harmonic filtering (smart chip-controlled recoverable capacitors form circuits to reduce harmonics, extending the life of the devices.

Reduce line losses (After installing power-saving equipment, the current in the line is greatly reduced, which reduces heat and resistance, improves power transmission quality, and reduces energy waste.

Reactive power compensation involves connecting capacitive load devices in parallel with an inductive load on the same circuit, allowing power to be exchanged between the two parties. The reactive power required by the inductive load is compensated by the output of the capacitive load.

Ideal for commercial/industrial energy savings (8%-25%), voltage stabilization, harmonic reduction, and cost reduction.

Enhances voltage quality, stabilizes supply, and reduces flicker.

Easy-to-use and highly reliable control unit; no need to consider phase sequence.

Low maintenance, cost-effective operation, and full digital display.

Comprehensive protection (over pressure, over current, over temperature) ensures high reliability.

Fast dynamic response.

Unitized power circuit design for easy maintenance and interchangeability.

Real-time load tracking with dynamic reactive power compensation to improve power factor.

Easy installation, setup and operation.

Smart energy solutions start here

Discover energy-efficient, energy-saving, and cost-saving technologies that provide you with security and sustainability.

Smart meters

A smart energy meter is used to digitally track energy consumption in real time, detect anomalies, enhance grid stability, and support renewable energy integration. The smart meter optimizes consumption and reduces costs. It is used to display results and provide practical insights to help individuals and businesses improve energy efficiency and make informed decisions about their energy consumption and sustainability. The smart energy meter can be used for remote monitoring and control via applications thanks to its connection to the Internet of Things and secure data transmission.

Energy saving devices

Advanced, automated, and self-contained electronic solutions rely on smart technologies to improve energy efficiency. Designed to maximize electrical efficiency while maintaining the quality, variety, and performance of the devices.

Firstly,

A power supply stabilizes voltage and current, preventing fluctuations that often lead to energy waste. By maintaining a constant electrical flow, the power supply

The power saver will reduce unnecessary power consumption.

secondly,

A power saver improves the power factor, which is the ratio of active power (used for work) to apparent power (total power used).

A low power factor will result in increased energy losses, which is why the power saving device automatically and electronically corrects this imbalance, ensuring more efficient use of energy and savings in costs.

Thirdly,

A power saver reduces reactive power, the power consumed by connected loads such as motors and transformers without performing any useful work. By improving reactive power, a power saver ensures that more electricity is converted into productive output rather than lost. This lowers energy consumption and reduces the strain on the electrical grid.

In short, an energy-saving device improves energy efficiency by optimizing electrical parameters, resulting in lower electricity bills and a more sustainable energy footprint. It's a smart investment in terms of cost savings and environmental benefits.

Improve electricity efficiency with an energy saver

What is the production process?

Below is the manufacturing process for our energy-saving products:

المراحل	العملية	الوصف
Internal quality control inspection stage	Incoming Quality Control	Inspect raw materials/components to ensure they meet quality standards.
Cell assembly stage	Sort and match cells	Group cells based on capacity, voltage, or performance to achieve consistency.
Online cell testing phase	Real-time cell testing	Test cells during production to ensure function and performance.
PCBA testing stage	PCB assembly test	Verify the functionality of printed circuit boards according to design specifications.
Semi-finished products inspection stage	Intermediate quality inspection	Inspect partially assembled products for quality before further assembly.
Cell pack life stage	Lifespan process	Install cell assemblies to identify defects and ensure reliability.
Cell pack test	Post-life performance testing	Testing old cell sets to ensure performance and safety standards.
Product assembly	Final product assembly	Integrate all components, cell assemblies, PCBA, into the final product.
Product life test	Simulated Usage Test	Conducting tests on the final product to ensure long-term reliability.
Final Exam	Comprehensive product testing	Conduct full functional, performance and safety tests on the final product.
Final inspection	Last quality check	Conduct final inspection to ensure that the product meets specifications.
Certificate	Quality Certificate	Obtaining a certificate of compliance with quality and safety standards

Before supplying and installing the energy saving device, a copy of the site’s electricity bills for the previous 6 months must be submitted.
Our engineers study the invoices, conduct a survey, and measure the actual electricity consumption of the site.
After the survey and measurement process, the type and model of the device appropriate for the site is determined and selected.
After selecting the device, we provide a price quote for the device to be supplied and installed on site.
After the quote is approved, the invoice information, survey and consumption measurements are sent to the factory.
The device is manufactured and programmed according to the site information and delivered within two weeks.
After delivery, an appointment will be set to install the device on site within one day.
The institution will be provided with a copy of the site's electricity bills for a period of 3 months to determine the savings rate.