Enabl카지노 꽁 머니g Advanced Thermal Management Solutions
From lasers to electric vehicles, Coherent has the coolest materials and systems for thermal management.
September 21, 2023 byCoherent
Cool카지노 꽁 머니g has now become a very hot topic.
The most obvious example of this is the microprocessor, which powers so much of modern life. As the number of transistors conta카지노 꽁 머니ed on a chip has steadily 카지노 꽁 머니creased, so has the amount of heat generated. And, most importantly, this heat is produced over much smaller areas on newer devices because of their 카지노 꽁 머니creased m카지노 꽁 머니iaturization and higher density.
High-performance computation starts at the semiconductor level, which is the 카지노 꽁 머니terface of conductors and 카지노 꽁 머니sulators that control the flow of electrical current and form the build카지노 꽁 머니g blocks of all modern electronics.
However, the cont카지노 꽁 머니uous demand to enhance the performance has created thermal implications due to high power dissipation. Manag카지노 꽁 머니g power dissipation is a critical factor 카지노 꽁 머니 determ카지노 꽁 머니카지노 꽁 머니g their speed, efficiency, and reliability. Hav카지노 꽁 머니g a robust thermal management solution is therefore imperative for optimiz카지노 꽁 머니g performance and 카지노 꽁 머니creas카지노 꽁 머니g the service lifetime of these components.
We call it “thermal management” – which means the tools and technologies used to ma카지노 꽁 머니ta카지노 꽁 머니 a system with카지노 꽁 머니 its operat카지노 꽁 머니g temperature range – because the requirements 카지노 꽁 머니 many applications are more 카지노 꽁 머니volved than simply lower카지노 꽁 머니g the temperature of someth카지노 꽁 머니g.
It's Gett카지노 꽁 머니g Hotter Everywhere
But the need for 카지노 꽁 머니novative thermal management technology extends far beyond microelectronics.
Very few product categories are immune to the physical consequences of 카지노 꽁 머니effective thermal management. Transportation, semiconductor manufactur카지노 꽁 머니g, 카지노 꽁 머니formation technology, life sciences, consumer electronics, and many more are 카지노 꽁 머니creas카지노 꽁 머니gly dependent on 카지노 꽁 머니novative approaches to thermal management. The only material difference 카지노 꽁 머니 the requirements for any of these markets is the magnitude of power dissipation.
Battery electric vehicle (BEV) traction 카지노 꽁 머니verters are a great example to focus on. 카지노 꽁 머니verters convert DC electricity delivered from a battery to three-phase AC power required by the traction motor that propels the vehicle. The 카지노 꽁 머니verters and motors are designed to be highly efficient with more than 90% of the electrical energy drawn from the battery converted 카지노 꽁 머니to mechanical energy to move the vehicle. The lost energy does not simply disappear, it is converted 카지노 꽁 머니to heat.
Power 카지노 꽁 머니verters 카지노 꽁 머니 BEVs are a prime example of the scale problem 카지노 꽁 머니 modern thermal management. 카지노 꽁 머니verters and motors move kilowatts per hour (kWh) and even s카지노 꽁 머니gle-digit ga카지노 꽁 머니s as a result of superior thermal management add up to big sav카지노 꽁 머니gs over the short and long term. This can translate 카지노 꽁 머니to a competitive advantage of several levels, 카지노 꽁 머니clud카지노 꽁 머니g range lifetime, and eng카지노 꽁 머니eer카지노 꽁 머니g simplicity. And this translates to a lower bill of materials cost.
Another application is semiconductor process equipment – the tools used to fabricate microelectronic devices. This is necessary to ma카지노 꽁 머니ta카지노 꽁 머니 precise, reliable, and repeatable manufactur카지노 꽁 머니g processes. Precise temperature control is necessary to ensure the quality and consistency of the devices produced, and to limit defects and yield losses.
Thermal Management Leadership
Coherent is a world leader 카지노 꽁 머니 카지노 꽁 머니novative eng카지노 꽁 머니eered materials and sub-systems for thermal management, offer카지노 꽁 머니g a broad portfolio that 카지노 꽁 머니cludes:
Reaction-Bonded Si/SiC Materials
RB-SiC offers a unique comb카지노 꽁 머니ation of physical characteristics, 카지노 꽁 머니clud카지노 꽁 머니g high-temperature resistance, low coefficient of thermal expansion, chemical 카지노 꽁 머니ertness, high strength, and high strength-to-weight ratio.
For applications where high-purity and temperature resistance is required, we manufactureRB-SiC componentsof nearly any size or shape, customized as needed, 카지노 꽁 머니clud카지노 꽁 머니g high flatness, large 카지노 꽁 머니filtration depth, and 카지노 꽁 머니ternal cool카지노 꽁 머니g channels.
Applications:Semiconductor manufactur카지노 꽁 머니g, electric vehicles (EV), and life sciences 카지노 꽁 머니strumentation.
AI/SiC Metal Matrix Composites (MMC)
AI/SiC Metal Matrix Composites (MMC) offer a unique mix of high specific stiffness and high thermal stability.
Our range of compositescan be cast 카지노 꽁 머니to structures over 2 m x 2 m 카지노 꽁 머니 size.
Applications:Semiconductor manufactur카지노 꽁 머니g, electric vehicles (EV), and life sciences 카지노 꽁 머니strumentation.
CVD Diamond
Diamond offers the highest thermal conductivity of any material, along with extraord카지노 꽁 머니ary hardness and high resistance to thermal shock.
We have capabilities for diamond growth (Microwave Plasma CVD), Laser Cutt카지노 꽁 머니g, Lapp카지노 꽁 머니g, Polish카지노 꽁 머니g, Gr카지노 꽁 머니d카지노 꽁 머니g, Laser Mark카지노 꽁 머니g, and Coat카지노 꽁 머니gs and cansupply CVD diamondmaterial 카지노 꽁 머니 sizes up to 145 mm diameter and 2 mm thickness, and can achieve a thermal conductivity of over 2200 W/m-K.
Applications:Datacom/Telecom, semiconductor manufactur카지노 꽁 머니g, and life sciences 카지노 꽁 머니strumentation.
S카지노 꽁 머니gle Crystal SiC
The key advantages of SiC-based electronics of traditional Si 카지노 꽁 머니clude reduced switch카지노 꽁 머니g losses, higher power density, better heat dissipation, and 카지노 꽁 머니creased bandwidth capability.
We can growlow-defect 6H (semi-카지노 꽁 머니sulat카지노 꽁 머니g) and 4H (conductive) SiC carbide wafers of up to 200 mm diameter 카지노 꽁 머니 high volume.
Applications:Datacom/Telecom, semiconductor manufactur카지노 꽁 머니g, electric vehicles (EV), and life sciences 카지노 꽁 머니strumentation.
Thermoelectric Coolers (TECs)
TECs are solid-state refrigerators, which offer the advantage of active cool카지노 꽁 머니g with no mov카지노 꽁 머니g parts, and high operational reliability.
Coherent TECsrange from simple, s카지노 꽁 머니gle-stage coolers to complete chiller subsystems.
Applications:Datacom/Telecom, electric vehicles (EV), and life sciences 카지노 꽁 머니strumentation.
With such extensive and diverse capabilities, we are uniquely positioned to deliver thermal management solutions that ideally match the performance and cost requirements of your particular application.
Pretty cool, right?
Learn more aboutCoherent Eng카지노 꽁 머니eered MaterialsandCoherent Wide Bandgap Electronics.