An electrometer is an electrical instrument for measuring
electric chargeor electrical potential difference. There are many different types, ranging from historical hand-made mechanical instruments to high-precision electronic devices. Modern electrometers based on vacuum tube or solid state technology can be used to make voltage and charge measurements with very low leakage currents, down to 1 femtoampere. A simpler but related instrument, the electroscope, works on similar principles but only indicates the relative magnitudes of voltages or charges.
Simple charge indicating device
The gold-leaf electroscope was one of the first sensitive instruments used to indicate electric charge. It is still used for science demonstrations but has been superseded in most applications by electronic measuring instruments. The instrument consists of two thin leaves of gold foil suspended from an
electrode. When the electrode is charged by induction or by contact, the leaves acquire similar electric charges and repel each other due to the Coulomb force. Their separation is a direct indication of the net charge stored on them. The leaves may be enclosed in a glass envelope to protect them from draughts, and the envelope may be evacuated to minimize charge leakage. A further cause of charge leakage is ionizing radiation, so to prevent this, the electrometer must be surrounded by leadshielding. It should be noted that this type of electroscope usually acts as an indicator and not a measuring device, although it can be calibrated. The Braun electroscope replaced the gold-leaf electroscope for more accurate measurements.
The most common radiation measurement device, and widely used in the nuclear industry, the Quartz Fibre Electrometer (or QFE) personal
dosimeter, is actually a ruggedized, calibrated electroscope. It uses the leakage effect mentioned above to detect ionizing radiation.
The instrument was developed in the 1700s by several researchers, among them the British Abraham Bennet and the Italian Alessandro Volta.
In modern parlance, an electrometer is a highly sensitive electronic
voltmeterwhose input impedanceis so high that the current flowing into it can be considered, for practical purposes, to be zero. They are of use in nuclear physicsas they are able to amplify the tiny 'photo' currents created by radiation. The most common use for modern electrometers is probably the measurement of radiation with ionization chambers.
Vibrating reed electrometers
Vibrating reed electrometers use a variable
capacitorformed between a moving electrode (in the form of a vibrating reed) and a fixed input electrode. As the distance between the two electrodes varied, the capacitance also varies and electric charge is forced in and out of the capacitor. The ac signal produced by the flow of this charge is amplified and used as an analogue for the dc voltage applied to the capacitor. The input resistance of the electrometer is determined solely by the leakage resistance of the capacitor (although its ac input impedance is clearly less than infinity).
For convenience of use, the vibrating reed assembly is often attached by a cable to the rest of the electrometer. This allows for a relatively small unit to be located near the charge to be measured while the much larger reed-driver and amplifier unit can be located wherever it is convenient for the operator.
Valve type electrometers use an unbiased vacuum tube with a very high
gain( transconductance) and input resistance. The input current is allowed to flow into the high impedance grid, and the voltage so generated is vastly amplified in the anode( plate) circuit. The best examples of these valves have leakage currents as low as a few femtoamperes (10-15 amperes). This type of valve can be ruined by handling with ungloved hands as the salts left on the glass envelope can provide leakage paths for these tiny currents.
The most modern electrometers consist of a solid state
amplifiercircuit using FETs, connections for external measurement devices, and also possibly a display, data-logging connections, and/or a high-voltage supply. The amplifier magnifies small currents so that they are more easily measured. The external connections are usually of a co-axial or tri-axial design, and allow attachment of diodes or ionization chambers for radiationmeasurement. The display or data-logging connections allow the user to see the data or record it for later analysis. The high-voltage supply is an integral power supply which is used to supply a voltage to the ionization chamber or diode.
Solid-state electrometers are often multipurpose devices that can measure voltage, charge, resistance and current. They measure voltage by means of "voltage balancing", in which the input voltage is compared with an internal reference voltage source using an electronic circuit with a very high input impedance (of the order of 1014 ohms). A similar circuit modified to act as a current-to-voltage converter enables the instrument to measure tiny currents of the order of one femtoampere. Combined with an internal voltage source, the current-measuring mode can be adapted to measure very high resistances, of the order of 1017 ohms. Finally, by calculation from the known
capacitanceof the electrometer's input terminal, the instrument can measure very small electric charges, down to a small fraction of a picocoulomb, on the terminal. [http://www.keithley.com/data?asset=11894]
Experiments with an electroscope
# Touch the terminal with a charged conductor. Electrons flow into or out of the electroscope until its potential equals that of the conductor. The net surplus or deficit of electrons on the leaves causes them to repel each other. The charge that transfers, and therefore the deflection, are functions of the original potential difference between the conductor and the uncharged electroscope.
# Place an isolated, charged conductor in contact with the terminal. The proportion of the conductor's charge that ends up on the terminal depends on their relative capacitances. This charge remains on the electroscope when you take the conductor away. The electroscope indicates this charge.
# Bring a charged insulator near to the terminal but don't allow any charge to transfer between them. In this case, the deflection indicates the net charge on the electrons that have been temporarily pushed towards or away from the leaves. This charge is related to the charge density on the part of the insulator near to the terminal, and the relative shapes and positions of the two. What the electroscope is measuring in this case is quite vague, because there is no sharp boundary between the electron-rich and electron-depleted regions of the electroscope.
# Place a charged insulator on or near the terminal, ground the terminal and then withdraw the insulator. This leaves the electroscope with a net charge. The electrons redistribute themselves over the terminal and the leaves, causing the leaves to repel each other. The deflection is monotonically related to the net charge left behind on the electroscope, in a similar way to the previous case.
USPTOuses the class schedule of class 324 of Electricity: measuring and testing, subclass 109 of electrostatic attraction or piezoelectric. Other applicable subclasses included 458, electrostatic fields using modulation-type electrometer, and 158.1, miscellaneous. Class 399 of electrophotography has a subclass 48, having detection of photoconductor potential, and subclass 73, electrometer detail which includes means or where a method is provided for measuring a potential or charge level. The electrometer may also be called an electrostatic voltmeter.This is used to connote a measuring instrument (eg., a voltmeter) for measuring the voltage between two points in an electrostaticcircuit.
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Faraday cup electrometer
* [http://www.amasci.com/emotor/chargdet.html Build this FET electrometer] - A very simple circuit - 2 components
* [http://www.vk2zay.net/article.php/9 Simple FET electrometer] - A simple bridged circuit
* [http://amasci.com/electrom/sas51p1.html#Electro An op-amp electrometer]
* [http://www.orau.org/ptp/collection/electrometers/electrometers.htm Early electrometers]
* [http://www.glenbrook.k12.il.us/gbssci/phys/mmedia/estatics/esn.html "Charging an Electroscope by Induction Using a Negatively-Charged Balloon"] from Multimedia Physics Studios
Wikimedia Foundation. 2010.
См. также в других словарях:
Electrometer — E lec*trom e*ter, n. [Electro + meter: cf. F. [ e]lectrom[ e]tre.] (Physics) An instrument for measuring the quantity or intensity of electricity; also, sometimes, and less properly, applied to an instrument which indicates the presence of… … The Collaborative International Dictionary of English
electrometer — [ē΄lek träm′ət ər; ē lek΄träm′ət ər, ilek΄träm′ət ər] n. 1. a device for detecting or measuring differences of potential by means of electrostatic forces 2. an active circuit arrangement for measuring differences of potential without drawing… … English World dictionary
electrometer — electrometric /i lek troh me trik/, electrometrical, adj. electrometrically, adv. electrometry, n. /i lek trom i teuhr, ee lek /, n. a calibrated device used for measuring extremely low voltages. [1945 50; ELECTRO + METER] * * * ▪ instrument… … Universalium
electrometer — elektrometras statusas T sritis Standartizacija ir metrologija apibrėžtis Graduotas elektroskopas. atitikmenys: angl. electrometer vok. Elektrometer, n rus. электрометр, m pranc. électromètre, m … Penkiakalbis aiškinamasis metrologijos terminų žodynas
electrometer — elektrometras statusas T sritis Standartizacija ir metrologija apibrėžtis Jautrus elektrostatinis elektrinio potencialo arba įtampos ir krūvio matuoklis. atitikmenys: angl. electrometer vok. Elektrometer, n rus. электрометр, m pranc. électromètre … Penkiakalbis aiškinamasis metrologijos terminų žodynas
electrometer — elektrometras statusas T sritis Standartizacija ir metrologija apibrėžtis Labai mažų elektrinių dydžių (potencialo, srovės, talpos) matuoklis. atitikmenys: angl. electrometer vok. Elektrometer, n rus. электрометр, m pranc. électromètre, m … Penkiakalbis aiškinamasis metrologijos terminų žodynas
electrometer — elektrometras statusas T sritis Standartizacija ir metrologija apibrėžtis Įtaisas įtampai aptikti arba matuoti, kurio veikimas pagrįstas labai mažo energijos kiekio sugertimi. atitikmenys: angl. electrometer vok. Elektrometer, n rus. электрометр … Penkiakalbis aiškinamasis metrologijos terminų žodynas
electrometer — elektrometras statusas T sritis chemija apibrėžtis Labai mažų elektrinių dydžių (potencialo, srovės, talpos) matuoklis. atitikmenys: angl. electrometer rus. электрометр … Chemijos terminų aiškinamasis žodynas
electrometer — elektrometras statusas T sritis fizika atitikmenys: angl. electrometer vok. Elektrometer, n rus. электрометр, m pranc. électromètre, m … Fizikos terminų žodynas
electrometer — noun Date: 1749 any of various instruments for detecting or measuring potential differences or ionizing radiations by means of the forces of attraction or repulsion between charged bodies … New Collegiate Dictionary