Ovens, Furnaces & Heating Equipment


Programmable bake plate for 12” silicon wafers


Torrey Pines Scientific, Inc. announces the WaferPlate™ Model HP90, a cutting-edge programmable bake plate designed specifically for 12” (304.8 mm) and smaller silicon wafers. With superior temperature uniformity exceeding 1% across the central 12” (304mm) surface, this innovative solution is ideal for various applications, including heating electronic chips, displays, adhesives, and working with photo-resists.


The HP90 features a spacious circular 13.875” (352.4mm) milled-flat plate aluminium surface, ensuring precise temperature control for 12” or smaller silicon wafers. The unit can be conveniently controlled remotely via RS232 I/O port through a PC or industrial controller, offering a command set for seamless integration. Additionally, the bench-top controller, fully programmable and capable of storing 5 routines with 10 steps each in memory, provides instant and repeatable recall for efficient usage. Programs can be set to repeat automatically from 1 to 98 times or infinitely.


With a temperature range from room temperature to 350°C, the plate surface can be set and controlled directly to 1°C, guaranteeing accuracy within 1% of the heater setting across the entire range. The platinum RTD built into the heater plate ensures reliable temperature sensing. The HP90 further offers temperature ramping from 1°C/hour to 450°C/hour, a countdown timer with an alarm, user-settable Auto-Off, and an RS232 I/O port. The units come with temperature calibration certificates traceable to NIST.


Available in 100, 115, and 230 VAC, 1500 watts, 50/60 Hz models, the WaferPlate™ Model HP90 is pending ETL, CSA, and CE certification. More information online: ilmt.co/PL/E3Z7 61574pr@reply-direct.com


Control module for heated and cooled fl ow chemistry applications


The Uniqsis Polar Bear Plus Flow™ is a compact, state of the art temperature control module, that can be used as a standalone unit or integrated with a flow reactor, for both heated and cooled flow chemistry applications.


Utilising highly efficient, compressor-based cooling and heating technology the Polar Bear Plus Flow™ can precisely and reliably maintain reactor temperatures anywhere between -40ºC and +150ºC. The module is easy to use and is completely self-contained, requiring only an electricity supply for operation - no more need for solvents, refrigerants, or messy heat transfer fluids.


The Polar Bear Plus Flow™ can also be integrated with a FlowSyn™ flow chemistry system or used as a heating/cooling unit as part of a FlowLab or FlowLab Plus modular flow chemistry system.


To achieve high reproducibility and facilitate reaction scale-up, precise control of mixing and temperature is essential. This is particularly important for highly exothermic or fast, mixing-dependent reactions. The Polar Bear Plus Flow™ is fully compatible with Uniqsis glass static mixer (GSM) reactor chips that ensure an efficient, turbulent mixed reagent stream that is not diffusion dependent. Uniqsis provide an adapter which fits to the top of the Polar Bear Plus Flow allowing a range of smaller volume GSM’s to be used in the adapter.


More information online: ilmt.co/PL/dk0X 58432pr@reply-direct.com


Laboratory ovens ensure safety for workers and protect samples


Low energy consumption for operating cost savings and many other features to protect the user and their samples are included in Cole-Parmer® Gravity and Mechanical Drying Convection Ovens, and Cole-Parmer Programmable and Botanical Vacuum Ovens. Each oven is designed with temperature uniformity and safety features to prevent temperature fluctuations and overheating - issues that can destroy valuable samples


Gravity convection drying ovens ensure gentle, natural air circulation within the chamber - suitable for sterilisation, powder drying, high-temperature storage, and other applications requiring subtle airflow. These ovens can heat samples up to 200°C (392°F).


Mechanical convection drying ovens offer fast heat-up and uniform temperature throughout the chamber for greater drying efficiency. An air vent on the back can be adjusted by the knob located in front of the oven to control inner air and vapor circulation. These ovens heat samples up to 250°C (482°F).


Programmable vacuum ovens allow users to easily set up 8 programs for parameters such as temperature, time, and fan speed. The ovens are designed with independent vacuum interface and vents, an air inlet for easy access to inert gases such as nitrogen, and a solenoid valve that controls vacuum degree and vacuum pump. Heat up to 392°F (200°C).


Botanical vacuum ovens provide a higher ultimate vacuum ideal for botanicals and cannabis applications with stainless steel internal tubing and compression fittings. Stainless steel vacuum and vent valves offer a cleaner connection, more accurate control, and long-term durability.


All ovens offer a PID temperature controller for accurate and reliable heating, stainless steel inner chamber and powder-coated steel plate exterior that resist corrosion for longer lifetime, rounded inner chamber corners for easy cleaning and multiple safety features such as temperature deviation alarm, overtemperature set point alarm, overcurrent protection, and auto-start after power loss/return.


More information online: ilmt.co/PL/JeO8 58503pr@reply-direct.com


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