Mod-Tronic Instruments Ltd. is the ideal source for ramp and soak controllers. We have a comprehensive product selection and maintain a large stock for fast shipping. Our temperature and process control products offer many advanced features. For instance, ramp and soak controllers are available that function as both a controller and transmitter, can accept a wide range of inputs, and perform PID autotuning. Our sales force brings more than 80 years of combined experience to the table. We work with our customers to help them find the best product for their application. Custom built solutions are available to suit customers’ exact requirements.
Ramp and soak controllers
We can supply the Shinko JCL Series 1/32 DIN digital temperature controllers with ramp/soak function. These controllers offer advanced performance at a low cost. They provide capability for up to nine ram/soak segments and multi-inputs including 10 thermocouple types, one RTD type, two current inputs, and four voltage inputs. They also feature dual functionality as a controller or transmitter. It is easy to switch between the two modes with simple key operation. The JCL series controllers also have durable construction with a IP66 protective enclosure. They are suitable for the most demanding applications as they can minimize process overshoot with PID Autotune capability.
For detailed specifications on all the different ramp and soak controllers available, visit our company website.
In addition to our selection of controllers, we can supply a wide range of sensors, signal conditioners, digital indicators, portable instruments, and more for temperature and process control. Mod-Tronic Instruments Ltd. has been in business since 1972, and we draw on that experience to assist customers with any unique application challenges.
We supply products from 14 industry-leading manufacturers. These products are proudly made in the United States, Japan, Germany, and Switzerland. Because we only supply products of high quality, our customers can depend on our solutions for their most critical applications.