Shopping on line can be easy, simple and save you lots of money. It can also take a lot of your time, frustrate you, and result in unwanted purchases. Now the same can be said for regular high street shopping, but with the vast opportunity presented by the Internet it will pay you to spend a few minutes reading this and understanding how to better optimize your Sensor shopping experience:

1. Compare - without doubt the biggest advantage that the Sensor offers shoppers today is the ability to compare thousands of Sensor at a time. This is a great thing, but not necessarily all the time! Too much can be daunting at times so take advantage of the great comparison sites and where possible let them do the hard work for you.

2. Research - if it has been said it will be on the internet. Ignorance is no longer a justifiable reason for buying the wrong thing. Take the time to research in detail everything that you could possible want to know about

3. Testimonials - don't know anybody that has bought a Sensor? Wrong! If the Sensor is good the internet will let you know. Use the Internet as a friend and get testimonials before you buy.

4. Questions - Got a question about Sensor then search the Forums, FAQ's, Blogs etc. Don't be afraid to ask .....

5. Reputation - Never heard of the company selling Sensor? Don't worry, no reason why you should know every company in the world, but you know someone that does! Use the internet to find out what people are saying about Sensor and build up a picture of their reputation for sales, returns, customer service, delivery etc.

6. Returns - still worried that even after all of the above your Sensor wont be what you want? Check out the returns policy. There is so much competition now that someone, somewhere is bound to offer the terms that you are comfortable with.

7. Feedback - happy with your Sensor then let people know, after all you are depending on others people input in your buying decision, so why not give a little back.

8. Security - check for the yellow padlock on the Sensor site before you buy, and the s after http:/ /i.e. https:// = a secure site

9. Contact - got a question about Sensor, or want to leave a comment then check out the sites contact page. Reputable companies have them and respond.

10. Payment - ready to pay for your Sensor, then use your credit card or PayPal! Be aware of companies that don't accept them, there may be genuine reasons but given the huge amount of choice you have when buying online there is no reason at all not to buy via credit card or PayPal.



A sensor is a type of transducer. Direct-indicating sensors, for example, a mercury thermometer, are human-readable. Other sensors, such as a thermocouple, only produce an output voltage or other electrical output which must be interpreted by another device (such as a computer). Most sensors are electricity or electronics, although other types exist.

Sensors are used in everyday life such as touch-sensitive elevator buttons and lamps which dim or brighten by touching the base. There are also innumerable applications for sensors of which most people are never aware. Applications include automobiles, machines, aerospace, medicine, industry, and robotics.

A sensor's sensitivity indicates how much the sensor's output changes when the measured quantity changes. For instance, if the mercury in a thermometer moves 1cm when the temperature changes by 1°, the sensitivity is 1cm/1°. Sensors that measure very small changes must have very high sensitivities.

Technological progress allows more and more sensors to be manufactured on a microscopic scale as microsensors using MEMS technology. In most cases, a microsensor reaches a significantly higher speed and sensitivity compared with macroscopic approaches. See also MEMS sensor generations.

Types Because sensors are a type of transducer, they change one form of energy into another. For this reason, sensors can be classified according to the type of energy transfer that they detect.

Thermal

Electromagnetic

Mechanical

Chemical

Optical radiation



















Ionising radiation



Acoustic

Other types

Non Initialized systems

Initialized systems These require starting from a known distance and accumulate incremental changes in measurements.

Classification of measurement errors A good sensor obeys the following rules:
  • the sensor should be sensitive to the measured property
  • the sensor should be insensitive to any other property
  • the sensor should not influence the measured property


    • It is often ideal that the output signal of a sensor is proportional to the value of the measured property. The gain is then defined as the ratio between output signal and measured property. For example, if a sensor measures temperature and has a voltage output, the gain is a constant with the unit .

    If the sensor is not ideal, several types of deviations can be observed:

    All these deviations can be classified as systematic errors or random errors.Systematic errors can sometimes be compensated for by means of some kind of calibration strategy.Noise is a random error that can be reduced by signal processing, such as filtering, usually at the expense of the dynamic behaviour of the sensor.

    ===Resolution===The resolution of a sensor is the smallest change it can detect in the quantity that it is measuring. Often in a digital display, the least significant digit will fluctuate, indicating that changes of that magnitude are only just resolved. The resolution is related to the Accuracy and precision with which the measurement is made.For example, a Scanning tunneling microscope (a fine tip near a surface collects an electron tunnelling current) can resolve atoms and molecules.

    Biological sensors All living organisms contain biological sensors with functions similar to those of the mechanical devices described. Most of these are specialized cells that are sensitive to:

    Artificial sensors that mimic biological sensors by using a biological sensitive component, are called biosensors.

    The human senses are examples of specialized neuronal sensors. See Sense.

    See also

    External links



    A sensor is a type of transducer. Direct-indicating sensors, for example, a mercury thermometer, are human-readable. Other sensors, such as a thermocouple, only produce an output voltage or other electrical output which must be interpreted by another device (such as a computer). Most sensors are electricity or electronics, although other types exist.

    Sensors are used in everyday life such as touch-sensitive elevator buttons and lamps which dim or brighten by touching the base. There are also innumerable applications for sensors of which most people are never aware. Applications include automobiles, machines, aerospace, medicine, industry, and robotics.

    A sensor's sensitivity indicates how much the sensor's output changes when the measured quantity changes. For instance, if the mercury in a thermometer moves 1cm when the temperature changes by 1°, the sensitivity is 1cm/1°. Sensors that measure very small changes must have very high sensitivities.

    Technological progress allows more and more sensors to be manufactured on a microscopic scale as microsensors using MEMS technology. In most cases, a microsensor reaches a significantly higher speed and sensitivity compared with macroscopic approaches. See also MEMS sensor generations.

    Types Because sensors are a type of transducer, they change one form of energy into another. For this reason, sensors can be classified according to the type of energy transfer that they detect.

    Thermal

    Electromagnetic

    Mechanical

    Chemical

    Optical radiation



















    Ionising radiation



    Acoustic

    Other types

    Non Initialized systems

    Initialized systems These require starting from a known distance and accumulate incremental changes in measurements.

    Classification of measurement errors A good sensor obeys the following rules:
  • the sensor should be sensitive to the measured property
  • the sensor should be insensitive to any other property
  • the sensor should not influence the measured property


    • It is often ideal that the output signal of a sensor is proportional to the value of the measured property. The gain is then defined as the ratio between output signal and measured property. For example, if a sensor measures temperature and has a voltage output, the gain is a constant with the unit .

    If the sensor is not ideal, several types of deviations can be observed:

    All these deviations can be classified as systematic errors or random errors.Systematic errors can sometimes be compensated for by means of some kind of calibration strategy.Noise is a random error that can be reduced by signal processing, such as filtering, usually at the expense of the dynamic behaviour of the sensor.

    ===Resolution===The resolution of a sensor is the smallest change it can detect in the quantity that it is measuring. Often in a digital display, the least significant digit will fluctuate, indicating that changes of that magnitude are only just resolved. The resolution is related to the Accuracy and precision with which the measurement is made.For example, a Scanning tunneling microscope (a fine tip near a surface collects an electron tunnelling current) can resolve atoms and molecules.

    Biological sensors All living organisms contain biological sensors with functions similar to those of the mechanical devices described. Most of these are specialized cells that are sensitive to:

    Artificial sensors that mimic biological sensors by using a biological sensitive component, are called biosensors.

    The human senses are examples of specialized neuronal sensors. See Sense.

    See also

    External links



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