Understanding Wheatstone Bridge: Benefits and Simplified Explanation

In summary: The original Wheatstone bridge was invented in the 19th century, before the era of electronics. Apart from as a teaching tool (i.e. they are a circuit that you can analyse and experiment with), electronic measuring instruments have made them completely obsolete.Simple methods are not obsolete, and are still used effectively in harsh environments that might upset delicate electronics, especially for slowly changing measurements such as the opening of a crack in a rock face or a building.Here are some pics of a portable device. Does this mean strain gauges are no longer used (generally speaking) No strain gauges are being used in ever greater numbers and types.
  • #1
RCB
29
0
Why would one use a bridge measurement circuit instead of a wheatsone bridge (I know for increase accuracy)

This website I found explains it (I think) but its far to complex:
http://www.sensorland.com/HowPage002.html

Can someone please explain it simply
 
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  • #2
One reason for using a bridge is because the resistances are very small. The resistances of the connecting wires etc can not be ignored, and any electrical interference like voltages induced from AC mains wiring or stray magnetic fields would cause errors.

If you build a bridge using "identical" components all mounted the same way, these errors are canceled out.

A Wheatstone bridge circuit that had to be balanced by a human operator would be too slow to use for large numbers of gauges, and could not be used at all for measuring strains that vary with time, for example if the component is vibrating. Strain gauges can easily measure the response of a structure at frequences up to tens of kHz.
 
  • #3
Why use a 'bridge measurement circuit' (=voltmeter) instead of a wheatstone bridge?

What you are measuring is the change of resistance, not its absolute value.

Well the 'output' of a Wheatstone bridge consistes of numbers on a dial. these have to be manually read and converted to resistance change by calculation.

The output of the voltmeter is, well, volts. For small chnges the voltage output is directly proportional to the resistance change.
Furthermore the output is continuous and can be read by an automated device such as a data logger.
The output can also be used to control self balancing bridges in more sophisticated circuits.

As an aside, interference errors increase with circuit impedance (resistance) so to minimise these you need as low an impedance as practicable.
 
  • #4
AlephZero said:
One reason for using a bridge is because the resistances are very small. The resistances of the connecting wires etc can not be ignored, and any electrical interference like voltages induced from AC mains wiring or stray magnetic fields would cause errors.

If you build a bridge using "identical" components all mounted the same way, these errors are canceled out.

A Wheatstone bridge circuit that had to be balanced by a human operator would be too slow to use for large numbers of gauges, and could not be used at all for measuring strains that vary with time, for example if the component is vibrating. Strain gauges can easily measure the response of a structure at frequences up to tens of kHz.



How would the errors be canceled out?
Based on your last paragrah, are Wheatstone bridges used at all in industry?
 
  • #5
RCB said:
How would the errors be canceled out?
IF there are any induced EMFs, approximately the same EMF will be induced in all the wires if they follow the same geometrical path, therefore the resultant is only the (small) difference between the EMFs, not the (bigger) total induced EMF.

Based on your last paragrah, are Wheatstone bridges used at all in industry?

The original Wheatstone bridge was invented in the 19th century, before the era of electronics. Apart from as a teaching tool (i.e. they are a circuit that you can analyse and experiment with) electronic measuring instruments have made them completely obsolete.
 
  • #6
Simple methods are not obsolete, and are still used effectively in harsh environments that might upset delicate electronics, especially for slowly changing measurements such as the opening of a crack in a rock face or a building.

Here are some pics of a portable device.
 

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  • #7
does this mean strain gauges are no longer used (generally speaking)
 
  • #8
No strain gauges are being used in ever greater numbers and types.

It is just the associated instrumentation that has changed.
 
  • #9
so what's changed
 

1. What is a Wheatstone bridge and how does it work?

A Wheatstone bridge is a type of electrical circuit used to measure unknown electrical resistances. It consists of four resistors arranged in a diamond shape, with two opposite ends connected to a voltage source and the other two ends connected to a galvanometer. By adjusting the resistance values, the bridge can be balanced and the unknown resistance can be calculated using the known values.

2. What are the benefits of using a Wheatstone bridge?

One of the main benefits of using a Wheatstone bridge is its ability to accurately measure unknown resistances. It also provides a simplified method for measuring resistance, as it eliminates the need for complex calculations. Additionally, the bridge can be easily adjusted to measure different ranges of resistance.

3. How is a Wheatstone bridge different from other types of electrical circuits?

A Wheatstone bridge is unique in that it can accurately measure unknown resistances without the need for a known resistance value. Other types of electrical circuits, such as series and parallel circuits, require known values in order to calculate unknown values. Additionally, the Wheatstone bridge is designed specifically for measuring resistance, while other circuits may have different purposes.

4. Can you provide a simplified explanation of how a Wheatstone bridge works?

A Wheatstone bridge works by comparing the ratio of two known resistances to an unknown resistance. By adjusting the known resistances, the bridge can be balanced, with no current flowing through the galvanometer. This indicates that the ratio of the known resistances is equal to the ratio of the unknown resistance, allowing for the calculation of the unknown value.

5. How is a Wheatstone bridge used in real-life applications?

Wheatstone bridges have a wide range of practical applications, including in strain gauges, which are used to measure small changes in resistance due to mechanical strain. They are also commonly used in temperature sensors, pressure sensors, and in the measurement of electrical conductivity. Wheatstone bridges are also used in many electronic devices, such as multimeters and voltmeters, to accurately measure resistance.

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