The Nextreme Recirculating Chiller Platform from Laird Thermal Systems is the next generation of recirculating chillers. It features high-quality components, environmentally friendly refrigerants, low-noise and user-friendly operation for reliable, precise temperature control of analytical, medical and industrial equipment. This product brochure provides an overview of the entire Nextreme platform.
Laird Thermal Systems is aware of the fact that extraction, trade, handling and export of tin, tantalum and tungsten, their ores and gold originated from these conflict-affected and high-risk areas (eastern Democratic Republic of the Congo (DRC) and adjoining countries (Angola, Burundi, Central African Republic, Congo Republic, Rwanda, South Sudan, Uganda and Zambia) as identified in Dodd-Frank 1502, as well as those areas designated by the European legislation https://www.cahraslist.net/cahras), have contributed to armed conflicts and human right abuses.
保持远低于周围环境温度,并仔细监测该温度,对于延长用于体外诊断的试剂保质期至关重要。大多数试剂需要冷藏,它们处在室温下数小时就会变质。如果保存不当,试剂会变质并被微生物生长污染,从而影响测试结果完整性。如果试剂经历过多的冷冻和解冻循环,它们也会受到负面影响。
基于压缩机和基于热电技术的冷却解决方案都能够实现冷却试剂所需的精确温度控制。然而,热电冷却(也称为珀尔帖冷却)提供了一种更紧凑、更可靠,且维护成本更低的温度控制方法。此外,由于政府禁止在基于压缩机的系统中使用危险制冷剂,使冷却系统的长期运行规划具有很大挑战。无制冷剂的热电冷却器组件提供了一种更环保的解决方案,可适应体外诊断仪器的长寿命周期。
用于体外测试的医学试剂需要精确的温度控制。
Handheld lasers have become a standard device in cosmetic surgery and medical spa applications. Handheld cosmetic lasers offer a wide range cosmetic benefits with minimal damage to the body and reduced patient recovery time. Even though thousands of microscopic laser beams make pinpoint contact with the skin, the process does not affect the surrounding tissue. However, lasers generate a significant amount of heat that must be quickly and efficiently dissipated to protect the patient, and the laser electronics.
分析化学家使用试剂来检测某些物质的存在与否,或测试是否发生特定反应;实验室和医疗技术人员使用试剂引起化学或生物反应来测量或识别目标物质;生物技术专家将抗体、模式生物(model organism)、寡聚体(oligomer)和特定细胞系视为鉴定和操作细胞物质的试剂。这些试剂,尤其是生物技术专家使用的试剂,工作温度窗口非常狭窄,需要冷藏或冷冻。在室温下保存时,温度敏感的试剂会降解,并可能被微生物生长所污染,从而影响测试完整性。如果没有适当和精确的冷藏,大多数试剂会在几小时内变质。此外,如果储存在过低的温度下或经受多次冻融循环,一些试剂也会受到负面影响。稳定在低于环境温度的精确温度,并对温度进行密切监测,对于延长试剂寿命,降低更换成本,以及确保实验室和医学测试的准确性和可靠性至关重要。
主动热电冷却器(帕尔贴)能够提供精确的温度控制,非常适合用于试剂的热管理。与其他热管理技术相比,热电冷却器是一种更高效、更具成本效益和更可靠的温度控制方法。
政府组织已经禁止了许多制冷剂的使用,对于其他热管理技术而言,这些制冷剂必不可少,因此制冷剂的使用禁令也影响了试剂存储设备的设计。而无需制冷剂的热电冷却器为试剂存储的温度控制提供了更环保的解决方案。
CP Series thermoelectric coolers offer precise thermal management for biological reagents used in laboratory and medical testing…
October 22, 2019 – In reagent storage systems, thermoelectric coolers offer a more efficient, cost-effective and reliable thermal control method compared to other thermal technologies. Thermoelectric coolers, like the CP Series, provide active cooling below ambient temperatures to extend the life of reagents, keep replacement costs down, and ensure laboratory and medical tests are accurate and reliable.
数字光处理器能够利用数百万个微镜在屏幕上生成生动的高分辨率图像。这些微镜放置在半导体芯片之上,称之为数字微镜设备 (DMD)。这项技术可以应用于多个行业,例如从汽车市场的平视显示器和智能前大灯、智能手机以及其他显示和投影应用,到 3D 打印中的高级光控制等等。
由于这些设备可能暴露在极端温度环境中,工程师在集成数字光处理技术时会遇到各种热管理挑战,包括热噪声、SWaP(尺寸、重量和功率)限制、缺乏气流和排气等。数字光处理器需要保持在其最高工作温度以下,以避免图像质量下降,并确保系统长时间正常运行。
Digital light processors employ a laser light source and millions of tiny mirrors to produce vibrant, high-resolution images for a wide variety of industries and applications. It is critical to maintain an optimum operating temperature during use to prevent degradation of the digital light processing technology. Active cooling solutions utilizing thermoelectric coolers can provide digital light processors thermal management in a wide range of high temperature applications.
