LCS Liquid-to-Liquid Cooling Systems

Vapor Compression Chillers; 825 to 11,000 W @+20 °C; 4.9 to 16.3 l/min; 1/2, 3/4" FNPT Lytron’s Kodiak® series of compressor-based recirculating chillers is the ideal solution when you need precise temperature control or cooling below ambient temperatures. A compressor-based Kodiak® recirculating chiller offers outstanding performance and high reliability as well as quiet operation and ease-of-use. Eight models are available, with cooling performances (20°C set point, 20°C ambient, 60 Hz input supply, standard pump, no backpressure) ranging from 0.825 to 11 kW. Custom PID controllers and advanced refrigeration control circuits ensure that the Kodiak chillers maintain ±0.1 °C stability. Components inside the Kodiak® chillers have been performance-matched for quiet operation. Vibration-isolation of the compressor (and pump in RC006 to RC045) and foam padding on panels minimize vibration noise. The Kodiak® chiller line was designed for flexibility - a wide variety of pumps, controllers, and additional safety and monitoring features allow you to tailor your chiller to your specific application. If you can’t find a cooling system that meets your requirements, please get in touch with the AMS Technologies recirculating chillers experts to discuss your customized solution! Key Features: Cooling Capacities 0.825 to 11 kW Temperature Stability: ± 0.1 °C at +20 °C Ambient and +20 °C Setpoint Fluid Connections: 1/2, 3/4 inch FNPT Reservoir Capacity: 4 to 23 l Coolant Temperature Range: +5 to +35 °C Dimensions 318 x 483 x 559 to 813 x 1092 x 1143 mm Exceptionally Configurable With a Wide Variety of Options and Features Pump Types: PDP, Centrifugal, Turbine High Reliability With a 2-year Warranty Advanced Ergonomic Design CE Certified and ITSNA Tested to UL 61010-1 (RC006-RC045) or MET Tested to UL 1995 (RC095-RC115) Applications: Semiconductor Equipment; Medical Equipment; Medical and Industrial Lasers; Electron Microscopes; Analytical Instrumentation; Printing Equipment

Noren’s thermal pins are high-temperature heat pipes and are used in a variety of molding equipment – injection molding, blow molding, extrusion molding and thermal form molding industries. Faster Plastic Mold Cooling: The ability to rapidly transfer heat at high volumes is essential to the molding process, and custom thermal pins give companies the capability to do so continuously and at minimal costs. The specialized heat pipes are custom-designed to fit into most common cores for injection, extrusion, rotational, and blow molding equipment. In addition to rapid heat transfer, thermal pins also provide isothermal cooling to increase yields as well as ensure optimal quality for every mold produced. Custom-Designed Thermal Pins: Noren’s innovative thermal pin design is so simple and efficient that its cooling is advantageous for maintenance retrofits as well as OEM production applications. One thousand times more conductive than copper of the same weight, thermal pins conduct large volumes of thermal energy away from heat sources. Noren offers different ways to use the Thermal Pin heat conductors – you can either insert the Thermal Pin into your existing core, or Noren can make your core into a thermal pin heat conductor by processing your cores at their manufacturing facility. The function of Noren’s thermal pin heat conductors is to remove heat very quickly which reduces cycle times resulting in increased yields. Injection/Blow Molding:In small cores, thermal pins enable cooling in areas previously inaccessible to water cooling. In solid cores, you can draw heat from the plastic to the mold base or to remote water channels. Most solid core applications pay for themselves in 4 to 12 weeks. In blow molding, the hollow thermal pin heat conductor uniformly cools the end of the blow pin. Hollow thermal pin heat conductors evenly cool the necks of blow-molded bottles. Extrusion/Rotational Molding:Because thermal pin heat conductors are virtually isothermal, not only do they transfer heat fast, they do it evenly. They eliminate hot spots which cause sink marks, pulling and spotting. Thermal pin heat conductors transfer heat from rotational and rubber molds to heat the plastic more quickly and evenly, regardless of variations in mold thickness. Get in touch with the AMS Technologies thermal management experts today to discuss your customized thermal pin solution tailored to your project’s challenges. Key Features: High-temperature Heat Pipes Custom-designed to Fit into Most Common Molding Cores Remove Heat at High Volumes Very Quickly 1000 Times More Conductive than Copper of the Same Weight Elimination of Hot Spots Isothermal Cooling Increases Yields Advantageous for Maintenance Retrofits as well as OEM Production Applications Most Solid Core Applications Pay for Themselves in 4 to 12 Weeks Applications: Heat Removal in Injection Molding, Blow Molding, Extrusion Molding and Thermal Form Molding

Liquid to Ambient Air Cooling System; 1,300 to 3,500 W @ 25 K initial temperature difference; Modular; 230, 115 V; 4.9 to 8.7 l/min @2.1 bar Lytron’s MCS series of modular liquid cooling systems are a cost-effective and reliable option where precise temperature control and cooling below ambient temperature are not required. These systems consist of a high-performance heat exchanger integrated with a fan, pump and tank in a durable metal chassis. MCS modular liquid cooling systems feature cooling capacities of up to 3.5 kW. Components of MCS modular liquid cooling systems are performance-matched for maximum cooling capacity. The most critical component, the heat exchanger, is designed for optimum performance. All components have been designed for long life and high reliability. Lytron offers systems that are compatible with a range of coolants, ensuring there is an option available for nearly every fluid. MCS modular liquid cooling systems are easy to use with installation instructions as simple as completing the liquid loop, filling the liquid reservoir tank and flipping the switch. These systems offer a fast option for upgrading to liquid cooling in a cost effective and reliable package. Key Features: Cooling Capacity: 1,300 to 3,500 W @ 25 K initial temperature difference (hot coolant temperature  – cold ambient air temperature)  Fluid Connections: ½” FNPT Reservoir Capacity: 2.8 l Maximum Liquid Temperature: +55 °C Recommended Coolant: Water (MCS30: Oil, EGW) Pump Performance: 4.9 to 8.7 l/min @ 2.1 bar Dimensions: 439 x 384 x 338 mm (MCS20/MCS30), 381 x 381 x 610 mm (MCS40/MCS50) Applications: Power Supply Cooling; Power Conversion Cooling; Process Automation Systems; Security Screening; Sample Test Equipment Cooling Systems; Diagnostic Systems; Medical Lasers; MRI; Edge Computing Center Cooling Systems