FAQ’s
Pulse / Surge Capability of Resistors
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Due to existing needs, many modern electronic circuits and apparatus experience transient pulses and surges. This in turn has led to the need to “design in” transient surge protection especially in circuits like motor controllers. When a motor starts, the current drawn at this point is excessive and can cause failure in resistors. Similarly if capacitors are used for motor starting, the current – limiting resistors in the circuit experience very high overloads during the capacitor charge / discharge cycles.
At this point it is pertinent to mention that while there is a plethora of information available on this subject for active devices like semi-conductors, passive devices such as resistors are often neglected and their role in withstanding transient pulses/surges is not yet fully grasped by the designer.
Since resistors are often located in areas likely to experience transient pulses / surges, it is indeed critical for the designer to be fully aware of this phenomena and design in the correct resistors for his particular application. HTR has worked closely with designers to produce custom built resistor solutions for specific protection applications and a summary of information / data obtained over the years is now given below for the benefit of the design engineer :
OVERLOADING OF WIRE WOUND RESISTORS
Under normal conditions and on a continuous basis, a resistor should never be subjected to more than its Maximum Working Voltage / Voltage Rating / Limiting Voltage. This can be theoretically deduced by using the following formula:
Where,
MWV = Maximum Working Voltage / Voltage Rating / Limiting Voltage.
P = Power rating in watts. R = Nominal resistance in ohms. Having said this, wire wound resistors are best capable of handling both short time overloads as well as surges both – over current and over voltage experienced in modern circuits, as compared to thin film and even thick film resistors due to the nature of their construction as given below:
The first step in making sure power surges do not cause resistor failure is for the circuit designer to ascertain whether the stress will be a “short time overload” or a “surge”.
Short time overload is when the excessive voltage / current has a duration of >0.5 sec, up to typically 5 secs. This does cause the resistor to get heated but it also gives the substrate of the resistor – normally ceramic core, time to dissipate the heat generated by the increased current.
In sharp contrast to this, a “surge” occurs over a much shorter period of time <0.5 sec and so the substrate has no opportunity to contribute to dissipate the heat and the energy has to be completely absorbed by the resistive element itself.
Common types of surges experienced are capacitor charge / discharge – normally <1m sec and motor startup, typically < 0.5 sec.
Based on this information the application lab at HTR has put together some interesting data / information which should be taken into account by the design engineer when selecting a resistor for a circuit which will encounter either short-time overload or surge conditions.
The short time overload rating of HTR’s wire wound resistors are calculated as given below:
It can be seen that in the above case the H2BA type which is rated as 2.5W is capable of dissipating 12.5W for 5 secs. In terms of energy, this corresponds to 62.5 Joules.
The danger over here is that it might be thought that this device is capable of handling 62.5 Joules irrespective of the overload duration.
At this point it must be remembered that it takes a finite time for the heat produced to be properly distributed through out the resistor body and therefore it is necessary to impose limits on the applied pulse energy so as to prevent excessive stresses due to thermal shock damaging the component.
Now suppose the same 2.5W 4K0 ± 5% resistor is subjected to 10000 volts for 1.5 milli sec, the energy is 37.5 Joules as per the formula given below:
E = (V2/R) x t = (10000 x 10000/4000) x 0.0015 sec. = 37.5 Joules. Now, 37.5 Joules is within the 62.5 Joules shown above but it must be remembered that it would take longer than 1.5 mili sec for the heat produced in the wire to flow into the surrounding materials and therefore the temperature of the wire would rise far beyond what it was intended to handle and if the wire is subjected to temperatures which are beyond its operating limits the resistance value of the resistor will change excessively, the coating can be damaged and in extreme cases the resistance wire itself can melt which will render the component useless.
Therefore since resistors can be subjected to different types of pulses, it is very necessary to take into consideration the pulse width duration and the applied pulse voltage / power.
A general point to be noted is that the average power of the pulse applied should not exceed the rated power of the resistor.
Also the term pulse implies a single pulse applied to a resistor, which is not already dissipating power and is in an ambient temprature of 70°C or less.
HTR has collected data for 3 different pulse ratings for their most popular standard wire wound resistors which should be referred to as given below for the safe operations of the resistors.
For very short pulses which are 1 mili sec to 100 mili sec, please refer to Table-2.
For very short pulses which are 1 mili sec to 100 mili sec, please refer to Table-2.
For pulses > 100 milli sec upto 5 secs, the short time overload capability (STOL) calculation as shown above should be referred to
The data provided above should merely serve as a very general guide to pulse handling capacity of wire wound resistors. It is at all times a prudent measure to validate the information provided above by asking HTR for samples which can be used to ascertain the practical suitability of the pulse resistor being considered for purchase in a particular application.
It would be most useful if the request for samples of resistors for overload / surge applications was framed as given below:
Data required to design a tailor made pulse / overload / surge resistor:
In order to design a tailor made resistor suitable for pulse applications, our QA team has put together a questionnaire of data required so that the resistor can be effectively designed.
Questionnaire of data required from customers in order to design pulse / surge / overload resistor
On receipt of this information HTR would be pleased to submit samples for validation on a practical basis in the circuit being designed.
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