Benvenuto sul sito Italiano

Abbiamo rilevato che potresti preferire il sito Global. Se necessario, utilizza il menu a tendina delle lingue per modificare la scelta.

Go to Global


Switch-over control is the ability to use two sensor inputs into one instrument. The first sensor is used for one set of conditions (such as low temperature), the second sensor is used for the other set of conditions (such as high temperature). Between the two customer defined ranges, Eurotherm uses a ramped blending of the two sensors in order to have a seamless transition between the sensors.

Applications include thermocouple vs. IR pyrometer applications, atmosphere temperature vs. load temperature applications, or long lag applications where one sensor is used during start-up and a different sensor (or sensor location) is used during the production mode.


Switch-over control is available in the models 2404 and 2408. For example, it is implemented on high-temperature furnaces that require high accuracy at both low and high temperatures. It is usually difficult to find one sensor that is accurate at both high and low temperatures, typically the low temperature sensor will work accurately over the ranges of 100°F to 1000°F and the second sensor will work accurately from 1000°F to 2200°F.

Switch-over control allows smooth transfer between a thermocouple (low temperature) and a pyrometer (high temperature). The sensor that works in the lower range of measured values must be connected to input 1 and the sensor working on the higher range to input 2. The minimum value for input 2 can be less than or greater than the maximum for input 1.

It is recommended that there be a region common to both sensors of at least 10% of the full scale, for example: when the measured value is below this region, the 2400 will control using input 1, and when the measured value is above this region, the 2400 will control using input 2. In the common region, the Eurotherm 2400 instrument controls using a measured value that is a proportional blend of the two values. The equation used to calculate the measured value in the common region is as follows: X = X(I/P1) + (1-X)I/P2 (X equals the measured value)

X = (I/P1 Max – Previous value for X) divided by (I/P1 Max – I/P2 Min)

A full-scale-high alarm can be used to control the removal of the thermocouple from the load, once
the transfer to the high temperature region is complete.


  • The main process variable input 1 (IP.1) should always be configured as the lower temperature range.
  • If the thermocouple is removed from the load after the transfer to input 2, the algorithm cannot transfer back to input 1.
  • If either input breaks, sensor break will be detected.


Instrument Setup

The FUNC parameter in the configuration must be configured as trAn (transfer).

The IP list in the configuration is used to set up low temperature input (IP.1)

The 3A list in the configuration is used to set up the high temperature input (IP.2).

Configuration Setup

IP list defines sensor type #1DC input module (#D5) must be installed in module location 3A
PV list defines sensor rangeSensor type and range are defined in module 3A configuration


Switch-over control is available in the Eurotherm model 2408 (1/8 din size) or 2404 (1/4 din size) instrument. (Software version 3.x or greater).

The 2404 or 2408 instruments can also be used in other two sensor applications.
These include:

  • Control based upon max sensor (or min, or X% of #1 and Y% of #2, or average)
  • Control based upon sensor #1 until sensor #2 is selected. This selection occurs due to a digital input (push button, limit switch, motor started condition, etc.), a signal from a PC (via EIA 232 or EIA 485), or a signal from a PLC®
  • Control based upon sensor #1 and an alarm point based upon sensor #2

Ottieni il massimo dal tuo processo

Strumento di selezione dei prodotti

Package icon
Hai bisogno di aiuto per scegliere il prodotto giusto?

Il nostro strumento ti aiuterà a trovare il prodotto più adatto alle tue esigenze

Accedi allo strumento di selezione dei prodotti