LTP-303 Programmable Pressure Controller features RS-485 interface.

Press Release Summary:

LTP-303 Programmable Pressure Controller is designed for small presses, molds or devices requiring remotely adjustable pressure. Unit is operated on 15-24 VDC power and is embedded with software that allows setting up four pressure levels. This controller is offered with push-to-connect fittings for 10 mm OD air tubing, an RS-485 to USB adapter and a power supply. Unit is rated to maximum input pressure of 120 psi and provides adjustable output pressure ranging from 0 psi to 100 psi.

Original Press Release:

Lambient Technologies Releases Programmable Pressure Controller

Lambient Technologies announces the release of the LTP-303 Programmable Pressure Controller TM. The LTP-303 Programmable Pressure ControllerTM is a compact, turn-key solution for small presses, molds or other devices that require remotely adjustable pressure. It can be used with the Lambient Technologies LTP-250 Benchtop MicroPress, or with a user’s existing press.

This solution is ideal for any R&D application involving testing a material under controlled pressure, such as the testing and development of laminates. It is also ideal for pressurized leak testing applications.

The LTP-303 communicates through an RS-485 interface to a computer running the Windows operating system and uses 15 – 24 VDC power. Included software allows the user to set up to four pressure levels that are automatically set at specified times.

Maximum input pressure is 120 psi. Output pressure may be adjusted from 0 psi to 100 psi as desired. The LTP-303 is supplied with standard push-to-connect fittings for 10 mm OD air tubing, an RS-485 to USB adapter with null modem cable, and a 15 VDC power supply.

ABOUT LAMBIENT TECHNOLOGIES

Lambient Technologies designs and produces instruments for real-time analysis of the curing of thermosets and advanced composite materials such as those used in aerospace, automotive, and wind power applications. Our products offer unique insights into how these materials react and change during curing, processing, and manufacturing. Armed with this critical data, users can proceed with research, quality testing, and final production, confident in the integrity of their processes and materials - and in the reliability of their finished products.