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[[File:Amperemeter_hg.jpg|Amperemeter hg|thumb]] [[File:Ammeter_from_the_University_of_Dundee_Physics_Department.jpg|Ammeter from the University of Dundee Physics Department|thumb|left]] [[File:Ammeter_from_New_York_Terminal_Service_Plant,_250_West_Thirty-first_Street_351263pv.jpg|Ammeter from New York Terminal Service Plant, 250 West Thirty-first Street 351263pv|thumb|left]] [[File:Galvanometer_diagram.svg|Galvanometer diagram|thumb]] [[File:Moving_iron_ammeter.jpg|Moving iron ammeter|thumb]] '''Ammeter''' is an [[electrical instrument]] used to measure [[electric current]] in a circuit. The name is derived from "Ampere Meter," indicating its function to measure current in amperes. Ammeters are essential tools in both laboratory and industrial settings, allowing for the monitoring and troubleshooting of electrical systems.

==History==
The development of the ammeter can be traced back to the early 19th century, following the discovery of electromagnetism by [[Hans Christian Ørsted]]. This discovery laid the foundation for the creation of the galvanometer, a precursor to the modern ammeter, which was used to detect and measure electric current. Over time, advancements in technology and the understanding of electrical principles led to the evolution of the galvanometer into more accurate and sensitive devices, culminating in the ammeter as we know it today.

==Types of Ammeters==
Ammeters can be broadly classified into two categories based on their method of connection in a circuit: series and shunt ammeters.

===Series Ammeters===
Series ammeters are connected in series with the circuit whose current is being measured. This arrangement ensures that the current flowing through the circuit also passes through the ammeter. Series ammeters typically have a very low internal resistance to minimize any potential voltage drop across the meter, which could affect the circuit's operation.

===Shunt Ammeters===
Shunt ammeters, on the other hand, are connected in parallel with a portion of the circuit. A shunt, a resistor of known low resistance, is placed in series with the load, and the ammeter is connected across it. The majority of the current flows through the shunt, and only a small fraction passes through the ammeter. This method allows for the measurement of high currents without the ammeter having to carry the full current load.

==Digital and Analog Ammeters==
Ammeters can also be categorized into digital and analog types based on their display mechanism.

===Digital Ammeters===
Digital ammeters provide a numerical display of the current measurement, usually on an LCD screen. They are known for their precision and ease of reading. Digital ammeters often include additional features such as data logging and the ability to measure other electrical parameters.

===Analog Ammeters===
Analog ammeters use a pointer and a graduated scale to indicate the current's magnitude. The movement of the pointer is typically controlled by a coil in a magnetic field, which turns in proportion to the current flowing through it. While not as precise as digital ammeters, analog models are valued for their quick response and ability to show fluctuations in current.

==Applications==
Ammeters are used in a wide range of applications, from simple tasks such as checking the current draw of a household appliance to more complex uses in industrial power distribution systems. They are also integral tools in the design, testing, and repair of electrical and electronic equipment.

==Safety Considerations==
When using an ammeter, it is crucial to observe safety precautions to prevent damage to the device and ensure the safety of the user. This includes selecting an ammeter with an appropriate current rating for the circuit being measured and ensuring it is properly connected to avoid short circuits.

[[Category:Electrical instruments]]
[[Category:Measurement devices]]
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Ammeter - Revision history

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