Let's face it - traditional air-cooled cabinets are like trying to extinguish a bonfire with a water pistol. Enter the ES125-2L Liquid Cooling Cabinet ESS, the Game of Thrones dragon of thermal management solutions. As data centers grapple with AI workloads and 1000W+ GPU clusters, this liquid-cooled beast reduces energy consumption by up to 40% compared to conventional systems, according to 2024 Uptime Institute report
Contact online >>
Let's face it - traditional air-cooled cabinets are like trying to extinguish a bonfire with a water pistol. Enter the ES125-2L Liquid Cooling Cabinet ESS, the Game of Thrones dragon of thermal management solutions. As data centers grapple with AI workloads and 1000W+ GPU clusters, this liquid-cooled beast reduces energy consumption by up to 40% compared to conventional systems, according to 2024 Uptime Institute reports.
The real magic happens in its two-phase immersion cooling system. Picture this: your servers taking a leisurely swim in dielectric fluid that boils at 50°C, carrying away heat 10x more efficiently than air. We're not just talking about keeping chips cool - this is about enabling:
When BitForge TX switched 400 mining rigs to ES125-2L cabinets last summer, magic happened:
With 5G rollouts accelerating, the ES125-2L is becoming the MVP for edge deployments. Telco engineers are giddy about cramming enterprise-grade computing power into pizza-box-sized microdata centers. One Verizon team even managed to cool a 15kW edge node in a Phoenix parking garage - in August - without melting the asphalt!
NVIDIA's H100 GPUs throw more heat than a Kardashian breakup. Liquid cooling isn't optional anymore - it's survival. The ESS thermal management system handles these temperamental chips like a Swiss watchmaker:
While your competitors are getting carbon tax bills thicker than a Stephen King novel, liquid cooling cabinets turn data centers into sustainability heroes. Microsoft's latest white paper shows liquid-cooled facilities achieving 92% waste heat recovery efficiency. Suddenly, that excess server heat is warming office buildings and swimming pools instead of roasting squirrels on the roof!
Remember that poor soul who tried retrofitting liquid cooling without proper containment? Let's just say the "indoor rain simulation" wasn't part of the disaster recovery plan. The ES125-2L avoids these rookie mistakes with:
With quantum computing looming like that final exam you didn't study for, the liquid cooling cabinet ESS platform already supports hybrid cooling for superconducting circuits. Early adopters at MIT are reporting 5x qubit stability improvements. Not too shabby for a cabinet that also keeps your boring old x86 servers from turning into molten lava!

Here in this case we are operating a PLC with a contactor with a single-phase AC supply. The PLC relay is DC type with an output voltage of 24 V. But we need a DC type interposing relay with a coil voltage of 24V. . The PLC relay can only avail 1A at 110 VAC, but the relay connected to the controller needs 3A at 110 VAC. Here, an interposing relay with contacts rated for operation at 5 A. . The function of interposing relay is to separate 1. Two dissimilar or non-identical systems. 2. One voltage level from another. 3. Energize the starter to switch on the electric motor.. . Interposing Relay (IPR) cabinet is used in industrial automation systems along with automation devices for proper controlling of load circuits such as Electrical feeder contactors for mo. . Interposing relay panels in industrial control are used to communicate the signals and status between the Automation system such as DCS & PLC and electrical modules in Machine contr. [pdf]
An interposing relay cabinet is a device used along with automation devices to control heavy load circuits like AC and refrigerators. It has auto/manual switches to bypass the loads from automation controls and provides feedback of switch positions to the control panels.
Interposing relays can ‘change’ a control (coil) voltage circuit into a higher or lower load voltage. Interposing relays can use a small control (coil) current and translate it into a substantially higher load current that would damage the sensitive digital controls.
Interposing relay panels in industrial control are used to communicate the signals and status between the Automation system such as DCS & PLC and electrical modules in Machine control centre (MCC) such as motor control units, motors, pumps, lamps, and so on.
The coil of the interposing relay should require less voltage and current than the driving relay is rated for, and the contacts of the interposing relay must be rated to handle the requirements of the load ( Controller).
The PLC relay is DC type with an output voltage of 24 V. But we need a DC type interposing relay with a coil voltage of 24V DC but the contact AC type with 230 V. The PLC operates interposing relay in the first stage & Contactor through its Auxiliary contacts.
An industrial example of an interposing relay between mismatched devices is shown here, where an AC output proximity switch must trigger an input channel to a Programmable Logic Controller (PLC) rated for only 24 volts DC:
Visit our Blog to read more articles
We are deeply committed to excellence in all our endeavors.
Since we maintain control over our products, our customers can be assured of nothing but the best quality at all times.