Metal Film Resistor

Metal Film Resistor

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As the name indicates, metal film resistors axial leaded resistors are made from a thin film of metal that has been deposited into a ceramic rod.

The metal film resistor is widely used and gives superior performance in many respects to the metal oxide film resistors.

The term metal film resistor normally applies to the axial leaded components, although thin film surface mount chip resistors use the same technology to create the resistor.

The metal film resistor is widely used because its performance in terms of stability, accuracy, reliability and noise is better than other types like the carbon composition, carbon film and even the metal oxide film resistors that are also available.

What is a metal film resistor?

As the name indicates, the metal film resistor is made by depositing a thin layer of metal onto a ceramic former. The metal film acts in the same way as resistance wire, and as the thickness, width and length can be accurately controlled, the metal film resistor can be produced to a high tolerance.

Also as the metal film resistor can be pre-aged and the metal protected to ensure it does not degrade over time, the long term stability is good.

The metal film resistors are a popular choice these days for leaded axial resistors and therefore they are used in huge quantities.

Metal film resistor construction & manufacture

The metal film resistor is manufactured by vacuum depositing a metal layer onto a high purity ceramic cylindrical rod. Often, the thicker the metal film deposited, the more stable the resistor value. Typically film thicknesses between 50 and 250nm are used as material thicknesses in this region tend to provide a greater long term stability level. A number of different techniques can be used for this, but one fo the more common is sputtering.The metal that is deposited is normally nickel Chromium, NiCr, but other metals including gold with platinum, or tantalum nitride may be used for specialised applications.

Once the film has been deposited, a metal end cap is pressed over the deposited metal. This makes contact with the resistive film and has the leads incorporated.

The next stage in the manufacture is trim the value of the resistance to the required figure. This is normally achieved by using lasers to cut a helix into the metal film. This extends the length of the metal element and also reduces the width of the current carrying track whilst keeping the deposited material thickness within the optimum range for long term stability.

The accuracy of the laser trimming means that the metal film resistors can be manufactured to a very close tolerance. Tolerances of 0.1%, 0.25%, 0.5%, as well as 1% and 2% are available. The 1% and 2% are the most widely available and in view of their tight tolerance this enables circuits to maintain a good repeatability from one unit to the next.

The metal film resistors also maintain a good temperature coefficient of resistance and this normally falls between 50 and 100 ppm / °K.

The final stage in the manufacture of the metal film resistor is to add the protective coating and the markings. Typically the protective coating consists of a resin that is added in several layers which are individually baked on. Finally the marking rings are added to indicate the value of metal film resistor and the other relevant characteristics.

Metal film resistor applications and usage

Metal film leaded resistors are almost the definitive standard used these days. Cost, reliability, and availability of close tolerance product means that they are almost universally used for general purpose leaded resistor.

Offering a high tolerance as well as providing good long term stability and good temperature coefficient of resistance, these resistors can be used with confidence for most applications.

When using these resistors it is good practice to operate them below their maximum ratings. This is standard procedure for any design and often they may be run at a maximum of 50 to 60% of their maximum rating.

In view of their size and construction, metal film resistors are not suitable for applications where they may experience surge transients. Carbon composition resistors are much more suitable as they are able to tolerate transients far better.

Also, in view of the helical cut to trim the resistance, these resistors may be slightly inductive. Although hey are good for most applications, their performance may be affected but he inductance caused by the helical cut when used in the microwave region. However for these frequencies it is more likely that surface mount resistors may be sued int these applications.

ANother advantage of metal film resistors is that they generate ow levels of noise as a result of their construction and technology.

Typical metal film resistor specifications

Typical performance figures for metal film resistors are given below as a guide to the performance

Metal Film Resistor Performance Guide
Metal Film Resistor ParameterMetal Film Resistor Performance
Typical tolerance availability±0.1%, ±0.25%, ±0.5%, ±1%, ±2%,
Value range<1Ω - ~10MΩ
Load life (% change over 1000h)1
Max noise (µV/V)0.2
Temperature coefficient (ppm/°C)±50 - >±100
Voltage coefficient (%/V)0.0
Max resistor temperature (°C)175

Metal film resistors are the most widely used form of axial leaded resistors these days, having almost taken over from the other types, even the metal oxide film resistors. They offer better performance and at a lower cost that the other types, and as a result have been almost universally adopted except for some specific applications.

Watch the video: Metal Oxide Film Resistor Explained. Application, Advantages, etc (July 2022).


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