- Cold cathode
A cold cathode is a cathode used within nixie tubes, gas discharge lamps, discharge tubes, and some types of vacuum tube which is not electrically heated by the circuit to which it is connected. Such a cathode may be heated to a high temperature in normal circuit operation.
A cold-cathode vacuum tube does not rely on external heating of an electrode to provide thermionic emission of electrons. Early cold-cathode devices included the Geissler tube and Plucker tube, and early cathode ray tubes. Study of the phenomena in these devices led to the discovery of the electron.
Neon lamps are used both to produce light as indicators and for special-purpose illumination, and also as circuit elements displaying negative resistance. Addition of a trigger electrode to a device allowed the glow discharge to be initiated by an external control circuit; Bell Laboratories developed a "trigger tube" cold cathode device in 1936.
Many types of cold-cathode switching tube were developed, including various types of thyratron, the krytron, and others. Voltage regulator tubes rely on the relatively constant voltage of a glow discharge over a range of current, and were used to stabilize power supply voltages in tube-based instruments. A Dekatron is a cold-cathode tube with multiple electrodes that is used for counting. Each time a pulse is applied to a control electrode, a glow discharge moves to a step electrode; by providing ten electrodes in each tube and cascading the tubes, a counter system can be developed and the count observed by the position of the glow discharges. Counter tubes were used widely before development of integrated circuit counter devices.
Cold-cathode lamps include cold-cathode fluorescent lamps (CCFLs) and neon lamps. Neon lamps primarily rely on excitation of gas molecules to emit light; CCFLs use a discharge in mercury vapor to develop ultraviolet light, which in turn causes a fluorescent coating on the inside of the lamp to emit visible light.
Cold-cathode lamps are used for backlighting of LCD displays, for example computer monitors and television screens.
In the lighting industry, “cold cathode” historically refers to luminous tubing which is larger than 20mm in diameter and operates on a current of 120 to 240 milliamps. This larger diameter tubing is often used for interior alcove and general lighting. The term "neon lamp" refers to tubing that is smaller than 15 mm diameter and typically operates at approximately 40 milliamps. These lamps are commonly used for neon signs.
The cathode is the negative electrode. Any gas discharge lamp has a positive (anode) and a negative electrode. Both electrodes alternate between acting as an anode and a cathode when these devices run with alternating current.
A cold cathode is distinguished from a hot cathode that is heated to induce thermionic emission of electrons. Discharge tubes with hot cathodes have an envelope filled with low pressure gas and containing two electrodes. Examples are most common fluorescent lamps, high pressure discharge lamps and completely evacuated electron tubes and vacuum fluorescent displays.
The interior surface of cold cathodes are capable of producing secondary electrons at a ratio greater than unity (amplification) upon electron and ion impact. For acceleration of the ions to a sufficient velocity for creating free electrons from the cathode material, cold cathode discharge lamps need higher voltages than hot cathode ones, causing a strong electric field near the cathodes.
Another mechanism for generating free electrons from a cold metallic surface is field electron emission. It is used in some x-ray tubes, the field electron microscope (FEM), and field emission displays (FEDs).
Cold cathodes sometimes have a rare earth coating to enhance electron emission. Some types contain a source of beta radiation to start ionization of the gas that fills the tube. In such a tube, glow discharge around the cathode is usually minimized; instead there is a so-called positive column, filling the tube. Examples are the neon lamp and nixie tubes. Nixie tubes too are cold-cathode neon displays that are in-line, but not in-plane, display devices.
A common cold-cathode application is in neon signs and other locations where the ambient temperature is likely to drop well below freezing, The Clock Tower, Palace of Westminster (Big Ben) uses cold-cathode lighting behind the clock faces where continual striking and failure to strike in cold weather would be undesirable. Other examples include the thyratron, krytron, sprytron, and ignitron tubes. Large cold-cathode fluorescent lamps (CCFLs) have been produced in the past, and are still used today when shaped, long-life linear light sources are required. As of 2011[update] miniature CCFLs were extensively used as backlights for computer and television liquid crystal displays. CCFL lifespans vary in LCD televisions depending on transient voltage surges, humidity and temperature levels in usage environments.
Due to its efficiency, CCFL technology has expanded into room lighting. Costs are similar to those of fluorescent lighting[clarification needed], but with several advantages. The light emitted is easier on the eyes, bulbs turn on instantly to full output and are also dimmable.
In systems using alternating current but without separate anode structures, the electrodes alternate as anodes and cathodes, and the impinging electrons can cause substantial localized heating, often to red heat. The electrode may take advantage of this heating to facilitate the thermionic emission of electrons when it is acting as a cathode. (Instant start fluorescent lamps employ this aspect; they start as cold-cathode devices, but soon localized heating of the fine tungsten wire cathodes causes them to operate in the same mode as hot cathode lamps.)
This aspect is problematic in the case of backlights used for LCD TV displays. New energy efficiency regulations being proposed in many countries will require variable backlighting—this also improves the perceived contrast range highly desirable for LCD TV sets. However, CCFLs are strictly limited in the degree to which they can be dimmed, both because a lower plasma current will lower the temperature of the cathode, causing erratic operation, and because running the cathode at too low a temperature drastically shortens the life of the lamps. Much research is being directed to this problem, but high-end manufacturers are now turning to high-efficiency white LEDs as a better solution.
Cold cathode devices typically use a complex high-voltage power supply with some mechanism for limiting current. Although creating the initial space charge and the first arc of current through the tube may require a very high voltage, once the tube begins to heat up the electrical resistance drops, thus increasing the electric current through the lamp. To offset this effect and maintain normal operation, the supply voltage is gradually lowered. In the case of tubes with an ionizing gas, the gas can become a very hot plasma and electrical resistance is greatly reduced. If operated from a simple power supply without current limiting, this reduction in resistance would lead to damage to the power supply and overheating of the tube electrodes.
- ^ D. M. Neale, Cold Cathode Tube Circuit Design, Francis and Taylor, 1964 pp. 1-7
- ^ "Ifay guide info electric discharge lighting systems, cold cathode". http://database.ul.com/cgi-bin/XYV/template/LISEXT/1FRAME/showpage.html?name=IFAY.GuideInfo&ccnshorttitle=Electric+Discharge+Lighting+Systems,+Cold+Cathode&objid=1074096534&cfgid=1073741824&version=versionless&parent_id=1073988136&sequence=1.
- ^ "EGL lighting products". http://www.egl-lighting.com/products.html. Retrieved 9 February 2011.
- ^ Solé Lighting (commercial site advocating CCFLs)
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Look at other dictionaries:
cold cathode — Electronics. a cathode, in an electron tube (cold cathode tube) or lamp, that emits electrons without having to be heated. [1925 30] * * * … Universalium
cold cathode — šaltasis katodas statusas T sritis fizika atitikmenys: angl. cold cathode vok. kalte Kathode, f; kalte Katode, f; Kaltkatode, f rus. холодный катод, m pranc. cathode froide, f … Fizikos terminų žodynas
cold cathode — noun a cathode that is a source of electrons without being heated • Hypernyms: ↑cathode … Useful english dictionary
cold cathode — noun Electronics a cathode that emits electrons without being heated … English new terms dictionary
cold-cathode — adjective not heated by a filament … Wiktionary
cold-cathode ionization manometer — jonizacinis slėgmatis su šaltu katodu statusas T sritis radioelektronika atitikmenys: angl. cold cathode ionization manometer; cold cathode ionization pressure gage vok. Kaltkatodenionisationsmanometer, n rus. ионизационный манометр с холодным… … Radioelektronikos terminų žodynas
cold-cathode ionization pressure gage — jonizacinis slėgmatis su šaltu katodu statusas T sritis radioelektronika atitikmenys: angl. cold cathode ionization manometer; cold cathode ionization pressure gage vok. Kaltkatodenionisationsmanometer, n rus. ионизационный манометр с холодным… … Radioelektronikos terminų žodynas
cold cathode gaseous laser — dujų lazeris su šaltuoju katodu statusas T sritis radioelektronika atitikmenys: angl. cold cathode gaseous laser vok. Kaltkatodengaslaser, m rus. газовый лазер с холодным катодом, m pranc. laser à gaz avec une cathode froide, m … Radioelektronikos terminų žodynas
cold cathode thyratron — rusenančiojo išlydžio tiratronas statusas T sritis radioelektronika atitikmenys: angl. cold cathode thyratron; glow discharge thyratron; grid glow tube vok. Kaltkatodenthyratron, m rus. тиратрон с тлеющим разрядом, m; тиратрон с холодным катодом … Radioelektronikos terminų žodynas
cold-cathode tube — lempa su šaltuoju katodu statusas T sritis fizika atitikmenys: angl. cold cathode tube vok. Kaltkatodenröhre, f rus. лампа с холодным катодом, f pranc. tube à cathode froide, m … Fizikos terminų žodynas