Data Center
Cooling Costs Millions Of Dollars In Bills Every Year? LEIPOLE "AC + ITC" Combination Saves 30% of Electricity
Server alarm?
Cabinet air conditioner “precise temperature control ± 1℃” saves downtime crisis
As the infrastructure of the digital economy, data centers bear the heavy responsibility of global data storage, computing and exchange. With the rapid development of cloud computing, big data, artificial intelligence and Internet of Things technologies, the global data center market size is expected to grow from US$239 billion in 2023 to US$518 billion in 2030, with a compound annual growth rate of 11.7%.
Special requirements for data centers include high reliability (usually requiring availability of more than 99.999%), high energy efficiency (continuously reducing PUE values), high-density deployment and strict environmental control. Power distribution, temperature management and cable organization are key factors to ensure the stable operation of data centers. Any failure of these systems may lead to huge economic losses and business interruptions.
The Problems Are Often Faced in Various Application Areas:
Hyperscale Data Centers (usually more than 10,000 square meters) are the infrastructure of cloud service providers and large Internet companies.
High-density server deployment generates huge heat, which requires efficient heat dissipation.
Complex power distribution systems require reliable connection and distribution solutions.
A large number of cable management challenges require optimized wiring and space utilization.
Power consumption is huge, and energy efficiency optimization is crucial.
⛓️💥Development challenges:
5G and IoT applications drive a surge in edge computing demand.
Increasing demand for standardization and modularization.
Increasing requirements for energy efficiency and automated operation and maintenance.
Edge Data Centers are located at the edge of the network, close to data sources and users, reducing latency and improving response speed.
Space is limited and compact solutions are required.
Deployed in various environments, they need to adapt to different conditions.
Usually unmanned, requiring high reliability and remote monitoring capabilities.
Limited heat dissipation space requires efficient cooling solutions.
⛓️💥Development challenges:
5G and IoT applications drive a surge in edge computing demand.
Increasing demand for standardization and modularization.
Increasing requirements for energy efficiency and automated operation and maintenance.
Enterprise Data Centers maintained by traditional enterprises are usually small in scale but critical to the business.
Optimizing old facilities with limited budgets.
Temperature and humidity fluctuations may damage sensitive equipment.
Increased cable density brings cooling and management challenges.
Expandability and flexibility requirements conflict with space constraints.
⛓️💥Development challenges:
Hybrid cloud strategy requires reconfiguration of infrastructure.
Increased demand for rapid deployment.
IT architecture changes require adaptable infrastructure.
Disaster Recovery and Backup Data Center designed for critical business continuity to ensure business continuity when the main data center fails.
May be in a low-load state for a long time, but need to be ready to run at full capacity at any time.
Consistent environmental control requirements to prevent equipment from being damaged by humidity or temperature problems.
Power reliability is a core requirement.
Regular testing and maintenance require flexible infrastructure.
⛓️💥Development challenges:
Need to keep up with the main data center.
Increased demand for disaster recovery drills.
Cost optimization and reliability balance.
LEIPOLE Solutions and Advantages for the Data Center Industry
Professional cooling and temperature control solutions
Rack-level cooling system:
Cabinet fan: low noise design (<45dB), optimized airflow pattern, intelligent speed control automatically adjusts according to temperature, and energy efficiency is 35% higher than traditional fans.
Cabinet top exhaust device: suitable for high-density racks, designed on the principle of hot air rising naturally, to help improve cooling efficiency.
Intelligent temperature monitoring system: integrated with multi-point temperature sensors, real-time monitoring of hot spots, providing early warning and automatic adjustment functions.
Precision environmental control:
Electronic humidity controller: accurately control the humidity of the data center environment within the ideal range of 40-60% to prevent static electricity and corrosion problems.
Intelligent constant temperature control device: accurate temperature control of ±0.5°C to ensure that the equipment operates within the optimal temperature range and reduce the risk of failure.
High-reliability power distribution system
Professional solution to ensure safe, stable and efficient power distribution in data centers.
Intelligent power distribution system:
Data center dedicated busbar system: modular design, supports high current of 800A to 1200A, and hot-swap function allows new connections to be added during operation to meet expansion needs.
High-density distribution block: space-optimized design, maximizes the number of connection points in a limited space, and supports hot backup redundant configuration.
Intelligent power monitoring interface: integrated current monitoring function, real-time report of load status, and early warning of overload risks.
Maintenance-free spring terminal: no need to tighten regularly, anti-vibration design ensures 24/7 stable connection, suitable for the vibration environment of the server room.
High-density terminal block: space-optimized design, up to 180 connection points can be installed on a 1-meter DIN rail, suitable for space-constrained scenarios.
Quick connection system: plug-and-play design, reducing installation and maintenance time, and improving operation and maintenance efficiency.
Cable management optimization solution
Solve the challenges of high cable complexity and difficult management in data centers.
High-density cable organization system
Modular cable ducts: Flexible configuration, support different sizes and types of cables, made of fire-resistant materials, meet data center safety standards.
Intelligent cable identification system: Integrated RFID tags for easy asset management and fast troubleshooting.
Space-optimized cable entry plate: Maximizes cable capacity at a single entry point while maintaining air tightness and fire resistance.
Professional cable fixing solution
Tool-free cable clamp system: Quick installation and adjustment, reducing maintenance time, suitable for high-density areas.
Anti-EMI cable management accessories: Reduce signal interference and improve data transmission quality.
Scalable cable tray: Modular design, easy to expand as business grows without large-scale transformation.
Future development direction
With the rapid evolution of data center technology, LEIPOLE continues to invest in research and development, focusing on the following key trends:
- Liquid cooling technology: Develop liquid cooling solutions for high-density computing environments to support the next generation of high-performance computing needs
- AI optimized temperature control: Integrate artificial intelligence algorithms to achieve smarter temperature control and energy management
- Modular design: Provide a fully modular power distribution and thermal management system to support the on-demand expansion of data center construction concepts
- Green data center: Develop more environmentally friendly and energy-efficient products to support the data center’s carbon neutrality goals
- Edge infrastructure: Provide specially designed compact solutions for rapidly deployed micro data centers
LEIPOLE is committed to providing more reliable, efficient and sustainable infrastructure solutions for data centers through continuous innovation to support the steady development of the digital economy.