Voltage Problems

Shielding CNC Machines from Voltage Fluctuations: Strategies and Benefits of Ashley Edison AVR Solutions

In the competitive and precision-oriented realm of CNC manufacturing, robustness and reliability are paramount. Voltage fluctuations can be the invisible foes that sabotage the operations and longevity of CNC machines, leading to costly repairs and detrimental downtime.    Here, we delve into the science of securing CNC machines against these fluctuations and illustrate how Ashley

Shielding CNC Machines from Voltage Fluctuations: Strategies and Benefits of Ashley Edison AVR Solutions Read More »

Enhancing Efficiency and Reliability: Setting Up the Singapore Grand Prix with Automatic Voltage Regulators

The Singapore Grand Prix promised fast-paced excitement as powerful cars tore down the pathways of Marina Bay Street. Since its commencement in 2008, the F1 race has been a highly-anticipated event for Singaporeans and international tourists. Financially, the Singapore Grand Prix has netted the nation more than S$1.1 billion in tourism receipts.      For

Enhancing Efficiency and Reliability: Setting Up the Singapore Grand Prix with Automatic Voltage Regulators Read More »

AVRs Unleashed: Empowering CNC Machines for Optimal Performance

AVRs Unleashed: Empowering CNC Machines for Optimal Performance The CNC machine industry currently stands at the forefront of modern manufacturing, powering the creation of many intricate products with precision and speed. In this highly competitive landscape, achieving optimal performance is not just a goal, it is a necessity. As CNC machines play a pivotal role

AVRs Unleashed: Empowering CNC Machines for Optimal Performance Read More »

Top 5 Common Power Problems Faced by CNC Machines

CNC machines play an essential role in shaping many products, equipment, and infrastructure people commonly use. Like other manufacturing systems, CNC machines offer precision, speed, and versatility in meeting evolving demands. However, these machines’ ability to operate efficiently relies on their received power supply, which is rarely ideal in real-world scenarios.   Manufacturing plants and

Top 5 Common Power Problems Faced by CNC Machines Read More »

AVR: 2023 Ultimate Uptime Solution for CNC Machine Stability

AVR: 2023 Ultimate Uptime Solution for CNC Machine Stability 25 May 2023 CNC machining has long been the foundation of infrastructure and manufacturing processes. It is an indispensable part of numerous items and structures that people use, including dental equipment, construction material, vehicle parts, and sensitive electronics. From a financial perspective, the CNC machine market

AVR: 2023 Ultimate Uptime Solution for CNC Machine Stability Read More »

Industrial AVR for maximising efficiency: The Complete Guide

Industrial AVR for maximising efficiency: The Complete Guide     Industrial companies seek to remain competitive and profitable by continuously improving industrial processes. They train personnel, optimise workflow, and invest in advanced technologies to maximise output, optimise workflow,  and reduce wastage. While commendable, such efforts risk being jeopardised if the facility fails to secure a

Industrial AVR for maximising efficiency: The Complete Guide Read More »

The Power of AVRs: Optimizing Building Energy Management for a Sustainable Future

  The world faces an ongoing climate crisis, and every reduction in greenhouse emissions helps stem the tide. According to UN Environment Programme, buildings contribute 33% of greenhouse emissions and 40% of global energy consumption. Left unchecked, the immense energy requirements and wastage will result in economic losses and grave climate concerns. To address the

The Power of AVRs: Optimizing Building Energy Management for a Sustainable Future Read More »

Introducing the VOLTAGE STABILISER

    Industrial systems rely on the stabilised power supply to operate reliably and safely. However, industrial premises often face voltage fluctuations that disrupt operations, damage equipment and incur financial losses. Such voltage irregularities might result from noisy mains AC grid, electrical interference from adjacent equipment, overloading, and electrical surges.   The answer to preventing

Introducing the VOLTAGE STABILISER Read More »

Minimising Severe Voltage Drop In Long Cable runs—The Cost-Efficient Way (Formulas, Calculations & Case Studies)

    Electrical installations are bound to uncertainties that subject the connected loads to voltage variations. Amongst them are severe voltage drops that affect the equipment’s functionality, reliability, and safety. Hence, project managers should expect voltage drops in real-life applications and take mitigative actions to address the drawbacks.    However, the question lies in choosing

Minimising Severe Voltage Drop In Long Cable runs—The Cost-Efficient Way (Formulas, Calculations & Case Studies) Read More »

Scroll to Top
Form Sent!
Thank you for getting in touch with us.

We will be in contact shortly.

Three Phase

SESL-H-3P-S Model
Large Capacity Rating
200 to 2,000 KVA

 

Enclosure 335
1000W x 1300H x 580D (mm)
250~300 KVA ± 15%
120~200 KVA ± 20%

 

Enclosure 336
1280W x 1480H x 660D (mm)
400 KVA ± 15%
250 KVA ± 20%

 

Enclosure 337H
1880W x 1950H x 880D (mm)
500 KVA ± 15%
300 KVA ± 20%

 

Enclosure 339
1470W x 1950H x 1340D (mm)
600 ~ 1,500 KVA ± 15%
400 ~ 1,000 KVA ± 20%
300 ~ 750 KVA ± 25%
300 ~ 600 KVA ± 30%

Three Phase

SES-H-3P-S Model
Added I/P Breaker Protection
60 to 1,000 KVA

 

Enclosure 333
490W x 800H x 990D (mm)
≤ 100 KVA ± 15%

 

Enclosure 334
540W x 900H x 1000D (mm)
120 – 150 KVA ± 15%

 

Enclosure 335
1000W x 1300H x 580D (mm)
180 – 300 KVA ± 15%
120 – 200 KVA ± 20%
120 – 150 KVA ± 25%

 

Enclosure 336H
1880W x 1480H x 660D (mm)
400 KVA ± 15%
250 KVA ± 20%
180 ~ 200 KVA ± 25%

 

Enclosure 337H
1880W x 1950H x 880D (mm)
500 KVA ± 15%
300 KVA ± 20%
250 KVA ± 25%

 

Enclosure 339H
2170W x 1950H x 1340D (mm)
600~1,000 KVA ± 15%
400~600 KVA ± 20%
300~400 KVA ± 25%

Single Phase

SES-H-S Model
Added I/P Breaker Protection
1 to 100 KVA

Enclosure 102
270W x 460H x 490D (mm)
≤ 20 KVA ± 30%
≤ 15 KVA ± 20%
≤ 10 KVA ± 25%
≤ 10 KVA ± 15%

Enclosure 103
400W x 580H x 500D (mm)
25 KVA ± 15%
20 KVA ± 20%
15 KVA ± 25%

Enclosure 332
380W x 670H x 780D (mm)
30 KVA ± 15%

Enclosure 333
490W x 800H x 990D (mm)
40 ~ 50 KVA ± 15%
25 ~ 30 KVA ± 20%
20 ~ 25 KVA ± 25%
15 ~ 20 KVA ± 30%

Enclosure 334
540W x 900H x 1000D (mm)
60 ~ 75 KVA ± 15%
40 ~60 KVA ± 20%
30 ~ 50 KVA ± 25%
25 ~ 40 KVA ± 30%