Can I Control Wire Temperature Using Ampere Load?

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Discussion Overview

The discussion revolves around methods for determining and controlling the temperature of a wire, specifically within the range of 100 to 300 degrees Celsius. Participants explore various techniques related to electrical heating, measurement, and control mechanisms, including the use of different materials and components.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • Some participants suggest that controlling the temperature of a wire can be achieved through the ampere load, while others propose alternative methods such as switching between different wires or pulsing power through the wire.
  • One participant mentions the use of a MOSFET to adjust voltage for heating the wire and considers the need for an algorithm to manage temperature control.
  • Concerns are raised about the current required to heat the wire and the potential overheating of current-regulating components, suggesting that pulsing the current may be a viable solution.
  • A participant describes how a constant-temperature hot-wire anemometer operates, using a Wheatstone bridge to maintain temperature, but questions the applicability of this method for drastically changing current through the wire.
  • Another participant highlights the challenges of using current as a temperature measure due to the changing resistance of the wire with temperature, time, and airflow.
  • Suggestions are made to consider integrated circuits designed for AC heating applications.

Areas of Agreement / Disagreement

Participants express a range of views on the best methods for controlling wire temperature, with no clear consensus on a single approach. Disagreements arise regarding the effectiveness of specific techniques, such as the use of the Wheatstone bridge and the implications of using current as a temperature measure.

Contextual Notes

Participants note limitations related to the dependence on wire material properties, the influence of external factors like airflow, and the need for precise control mechanisms. There are unresolved questions about the mathematical modeling of the heating process and the specific configurations of control circuits.

al6s
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Hey,
I would like to know how I can determine and control the temperature of a wire at a specific point of temperature.
I want to control the temperature from 100-300 celsius.
This can been achieved from the ampere load of the wire?
Or please send me your opinion of how it can done in a different way
 
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al6s said:
Hey,
I would like to know how I can determine and control the temperature of a wire at a specific point of temperature.
I want to control the temperature from 100-300 celsius.
This can been achieved from the ampere load of the wire?
Or please send me your opinion of how it can done in a different way
That is what every supplier of electric panel heaters are concerned with. They usually do not bother with the temperature on the actual wire, but on a point close to it.
They control the heat in one of several ways:
  • Switching between different wires
  • Switching between wires in single, serial or parallel
  • Pulsing the power through the wire using a triac
Measuring the heat can be done in several ways, the simplest are:
  • Using a bi-metal switch
  • Using an NTC resistor
The trick is to electrically isolate the measurement device from the wire...
 
Svein said:
That is what every supplier of electric panel heaters are concerned with. They usually do not bother with the temperature on the actual wire, but on a point close to it.
They control the heat in one of several ways:
  • Switching between different wires
  • Switching between wires in single, serial or parallel
  • Pulsing the power through the wire using a triac
Measuring the heat can be done in several ways, the simplest are:
  • Using a bi-metal switch
  • Using an NTC resistor
The trick is to electrically isolate the measurement device from the wire...
 
Thanks for your reply
I want to increase the temperature of a wire (nickelium or kanthal) to a specific temperature from 100c to 300c.
My guess was to measure the resistanse of the wire as it increases proportionally to the temperature of the wire.
In that way I may manage to control temperature.
I wiil use a MOSFET that will change the voltage of the output so as to heat the wire.Everything will be handled from a MCU.
I imagine I need and algorithm?
 
I think your biggest problem will be the current needed to heat up the wire. Now, if you wanted to smoothly regulate that current to achieve any temperature in that 100-300C range, you will need a component that does so by varying its resistance (I.e. a transistor). However, now you have the problem that this current-regulating component is essentially a resistor in series with your wire, and thus it will consume a good chunk of power itself. Which results in heat that will likely fry the transistor.

I think Svein's suggestion of pulsing the current is the only way of achieving the whole temperature range.
 
Please can you explain in different words Svein's post?
 
Or you Svein?
Thanks!
 
Well, as I said, you likely won't be able to control the current in the wire without majorly overheating the current-controling component as well.

However, what you can *can* do is to switch on and off the current very fast with a transistor. Because you are essentially switching between infinite resistance in the transistor (so, no current and thus no heat up in the transistor) to zero resistance (no internal heat-up either because of zero resistance), you can control the temperature of the wire by rapidly switching on and off the current. Longer pauses between switched-on times: low heat. Short pauses with long switched-on times: high heat.
 
Thanks it is good start,I will keep you updated.
Thanks
 
  • #10
This is precisely how a constant-temperature hot-wire anemometer works. You set up a Wheatstone bridge where one side has the wire and the other has a resistor that "balances" the wire. Depending on the resistance ratios between the two sides, more or less current is passed through the wire until the two sides are back in equilibrium. This is all in a feedback loop so that a constant temperature is maintained. You can adjust the temperature by adjusting the resistor balancing the wire. Normally, the setup is used to correlate a voltage to a velocity of air moving across (and cooling) the wire, but you wouldn't really have to do that portion of it if all you need is a wire at a controllable, constant temperature.
 
  • #11
Hmm, I don't think I see how you would use the Wheatstone Bridge for his purpose of drastically changing the current through the wire though. The bridge has no direct connection between the two arms, instead there's a voltmeter. So you can detect deviations from the operating point (which correlates with the wind blowing over it), but you can't actively change the current of the other arm.
 
  • #12
rumborak said:
Hmm, I don't think I see how you would use the Wheatstone Bridge for his purpose of drastically changing the current through the wire though. The bridge has no direct connection between the two arms, instead there's a voltmeter. So you can detect deviations from the operating point (which correlates with the wind blowing over it), but you can't actively change the current of the other arm.

At least in a hot-wire anemometer, the voltage across the bridge is fed into an op-amp. When the two sides are not in balance (i.e. the wire is not the temperature you want for whatever reason), the op-amp amplifies the difference and feeds the current back into the bridge (there is a drawing of the simplest of such circuits here). If the wire and the other side are in balance, the voltage difference going to the op-amp is zero and the circuit operates at steady state.
 
  • #13
al6s said:
Thanks for your reply
I want to increase the temperature of a wire (nickelium or kanthal) to a specific temperature from 100c to 300c.
My guess was to measure the resistanse of the wire as it increases proportionally to the temperature of the wire.
In that way I may manage to control temperature.
I wiil use a MOSFET that will change the voltage of the output so as to heat the wire.Everything will be handled from a MCU.
I imagine I need and algorithm?
The trouble with using the current as a measure for the temperature is that the resistance of a wire changes with the temperature, the time elapsed and the air flow around the wire.

Now, if you are going to heat the wire using AC, I suggest you look at IC's designed for that purpose. One example is https://www.fairchildsemi.com/datasheets/MO/MOC3041M.pdf . An application note is here: http://www.nxp.com/documents/application_note/AN467.pdf.
 

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