About UV Technology from Primarc - (UV Lamps) Ultra violet curing lamps, Electrodeless Bulbs, Label Curing Lamps, CD/DVD Lamps, Metal Halide Lamps, Trasnformers & Cooling Tubes

<LINK REL="File-List" HREF="file:///C:/DOCUME~1/ADMINI~1/LOCALS~1/Temp/msoclip1/01/clip_filelist.xml">   <STYLE> </STYLE> <BASE TARGET="_parent"> </HEAD> <BODY BGCOLOR="#FFFFFF" TEXT="#000000" STYLE="tab-interval:36.0pt" LANG="EN-GB" TOPMARGIN=2 LEFTMARGIN=2 MARGINWIDTH=2 MARGINHEIGHT=2> <TABLE BORDER=0 CELLSPACING=0 CELLPADDING=0 WIDTH=600 NOF=LY> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=7 HEIGHT=66></TD> <TD COLSPAN=4 ALIGN=CENTER VALIGN=MIDDLE WIDTH=250><img src="../../English_Home_Page/primarc_logo.gif" alt="Primarc UV Technology" name="Picture13" id="Picture13" width="250" height="66" border="0"></TD> <TD COLSPAN=5></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD WIDTH=21 HEIGHT=8><IMG SRC="../../clearpixel.gif" WIDTH=21 HEIGHT=1 BORDER=0></TD> <TD WIDTH=54><IMG SRC="../../clearpixel.gif" WIDTH=54 HEIGHT=1 BORDER=0></TD> <TD WIDTH=4><IMG SRC="../../clearpixel.gif" WIDTH=4 HEIGHT=1 BORDER=0></TD> <TD WIDTH=59><IMG SRC="../../clearpixel.gif" WIDTH=59 HEIGHT=1 BORDER=0></TD> <TD WIDTH=10><IMG SRC="../../clearpixel.gif" WIDTH=10 HEIGHT=1 BORDER=0></TD> <TD WIDTH=17><IMG SRC="../../clearpixel.gif" WIDTH=17 HEIGHT=1 BORDER=0></TD> <TD WIDTH=26><IMG SRC="../../clearpixel.gif" WIDTH=26 HEIGHT=1 BORDER=0></TD> <TD WIDTH=45><IMG SRC="../../clearpixel.gif" WIDTH=45 HEIGHT=1 BORDER=0></TD> <TD WIDTH=200><IMG SRC="../../clearpixel.gif" WIDTH=200 HEIGHT=1 BORDER=0></TD> <TD WIDTH=3><IMG SRC="../../clearpixel.gif" WIDTH=3 HEIGHT=1 BORDER=0></TD> <TD WIDTH=2><IMG SRC="../../clearpixel.gif" WIDTH=2 HEIGHT=1 BORDER=0></TD> <TD WIDTH=11><IMG SRC="../../clearpixel.gif" WIDTH=11 HEIGHT=1 BORDER=0></TD> <TD WIDTH=11><IMG SRC="../../clearpixel.gif" WIDTH=11 HEIGHT=1 BORDER=0></TD> <TD WIDTH=62><IMG SRC="../../clearpixel.gif" WIDTH=62 HEIGHT=1 BORDER=0></TD> <TD WIDTH=27><IMG SRC="../../clearpixel.gif" WIDTH=27 HEIGHT=1 BORDER=0></TD> <TD WIDTH=48><IMG SRC="../../clearpixel.gif" WIDTH=48 HEIGHT=1 BORDER=0></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD HEIGHT=20></TD> <TD COLSPAN=7 ALIGN=CENTER VALIGN=MIDDLE WIDTH=215><IMG ID="Picture14" HEIGHT=20 WIDTH=215 SRC="../../English_Home_Page/U_V__Technology/About_UV_Tech.gif" BORDER=0 ALT="UV Technology"></TD> <TD COLSPAN=8></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=8></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD></TD> <TD COLSPAN=15 WIDTH=579> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">Ultraviolet reactive inks and coatings require a high intensity source of ultraviolet light to initiate a chemical reaction, curing the ink or the coating almost instantaneously.<BR>Ultraviolet light forms a small part of the electromagnetic spectrum which ranges from radio waves at the long-wave end, to x-rays and gamma rays at the short-wave end. <BR>The chart below shows how ultraviolet wavelengths fit into the electromagnetic spectrum.</FONT></P> </TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=15></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=6 HEIGHT=19></TD> <TD COLSPAN=3 ALIGN=CENTER VALIGN=MIDDLE WIDTH=271><IMG ID="Picture17" HEIGHT=19 WIDTH=271 SRC="../../English_Home_Page/U_V__Technology/UV_Spectrum.gif" BORDER=0 ALT="Electromagnetic Spectrum"></TD> <TD COLSPAN=7></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=6></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=3 HEIGHT=383></TD> <TD COLSPAN=12 ALIGN=CENTER VALIGN=MIDDLE WIDTH=473><IMG ID="Picture16" HEIGHT=383 WIDTH=473 SRC="../../English_Home_Page/U_V__Technology/spectrum.gif" BORDER=0 ALT="The electromagnetic spectrum" TITLE="The electromagnetic spectrum"></TD> <TD></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=17></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD></TD> <TD COLSPAN=15 WIDTH=579> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The ultraviolet wavelengths most suitable for curing inks lie between 200 and 400 nanometers.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">There are several types of lamp suitable for generating these wavelengths, the main ones being high pressure mercury arc lamps, electrodeless lamps and medium pressure mercury arc lamps.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The high pressure mercury arc lamp is generally constructed as a capillary type tube and requires a water jacket to maintain correct running temperatures.  These lamps are limited to short lengths only and lamp life is usually less than 1000 hours.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The electrodeless mercury arc lamp has, as its name implies, no electrodes.  An arc is established by the generation of micro-waves.  These types of lamps are generally produced in two standards lengths, 6 inch and 10 inch.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">By far, the most widely used is the medium pressure mercury arc lamp (an MPMA Lamp). This can be air or water-cooled and can be manufactured in a wide range of lengths. Single lamps of two metres long are not uncommon, and the working life of MPMA lamps can be expected to be well over 1000 hours.</FONT></P> </TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=23></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=5 HEIGHT=19></TD> <TD COLSPAN=5 ALIGN=CENTER VALIGN=MIDDLE WIDTH=291><IMG ID="Picture20" HEIGHT=19 WIDTH=291 SRC="../../English_Home_Page/U_V__Technology/Lampconstruction.gif" BORDER=0 ALT="MPMA LAmp Construction"></TD> <TD COLSPAN=6></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=5></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=2 HEIGHT=320></TD> <TD COLSPAN=12 ALIGN=CENTER VALIGN=MIDDLE WIDTH=450><IMG ID="Picture19" HEIGHT=320 WIDTH=450 SRC="../../English_Home_Page/U_V__Technology/lampcons.gif" BORDER=0 ALT="Typical MPMA lamp construction" TITLE="Typical MPMA lamp construction"></TD> <TD COLSPAN=2></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=15></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD></TD> <TD COLSPAN=15 WIDTH=579> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The body of the lamp is made from transparent vitreous-silica tube of various diameters and wall thicknesses.  This material, referred to as quartz, has important properties vital to the efficient operation of an ultraviolet system. It has 90% transparency to ultraviolet light, whereas normal glass filters out all except the longer, weaker wavelengths. The surface temperature of an ultraviolet lamp under normal operating conditions is between 600°C and 800°C. Quartz is able to withstand these temperatures as it has a very low thermal expansion characteristic and high melting temperature.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The electrodes, from which the high voltage arc is sustained, are made from a tungsten rod overwound with tungsten wire. Tungsten is necessary to withstand internal arc temperatures over 3000°C.  Electrodes must be designed carefully to ensure efficient, reliable operation and long lamp life. The parameters affecting this design are extremely complex.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">Because of the extremely high running temperatures, and the low expansion characteristic of the quartz, the correct selection of a suitable material to connect the electrode inside the envelope, to the power supply on the outside of the envelope, is extremely important.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The material chosen here is molybdenum foil, which has a low coefficient of expansion and is capable of carrying the high voltage required to sustain a stable arc.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">Additional electrical connections are made using high temperature wire. Electrical insulation at the end of the lamp can be achieved by the use of a ceramic end cap.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif"><B>Electrical Requirements For MPMA Lamps<BR></B>Due to the electrical nature of a medium pressure mercury arc lamp, mains voltage alone is usually insufficient to operate the lamp. Therefore a step-up transformer is used. These transformers have to be correctly matched to the electrical demands of each lamp size and type.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">Lamp control can be performed by the use of either an inductive, or a capacitive system. With an inductive system, the lamp is connected directly to the output of the transformer. When any fluctuation of the input voltage occurs, the output of the transformer also varies proportionately. This then alters the output of the lamp. With a drop in input voltage the lamp output will drop proportionately.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">The capacitive system overcomes this problem by the use of capacitors connected in series with the lamp. This has the effect of maintaining a constant output to the lamp whilst inputs may vary. This is known as a constant-wattage system and is, by nature of its design, the most efficient.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">Primarc Lamp Control Systems are designed to run as constant wattage capacitive systems. The diagram shows the electrical circuit required to control the running of such a lamp.</FONT></P> </TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=30></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=5 HEIGHT=19></TD> <TD COLSPAN=7 ALIGN=CENTER VALIGN=MIDDLE WIDTH=304><IMG ID="Picture22" HEIGHT=19 WIDTH=304 SRC="../../English_Home_Page/Constant_Wattage.gif" BORDER=0 ALT="Constant Wattage Circuit"></TD> <TD COLSPAN=4></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=5></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD HEIGHT=218 COLSPAN=16 ALIGN=CENTER VALIGN=MIDDLE WIDTH=600><IMG ID="Picture21" HEIGHT=218 WIDTH=600 SRC="../../English_Home_Page/U_V__Technology/circuit.gif" BORDER=0 ALT="Typical constant wattage circuit" TITLE="Typical constant wattage circuit"></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=12></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD></TD> <TD COLSPAN=15 WIDTH=579> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">To ensure that the highest efficiency is obtained from Primarc lamps, the transformers and the control circuitry are designed and manufactured in-house to very exacting standards.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif"><B>Spectral Output Of An MPMA Lamp<BR></B>As has been stated earlier, the achievement of the precise wavelengths of ultraviolet light suitable for curing ultraviolet inks and coatings is very important if a system is to be highly efficient.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">MPMA lamps emit not only ultraviolet light, but also visible light, and wavelengths in the infrared spectrum. In fact, all lamps emit approximately 20% ultraviolet light, 60% infrared light and 20% visible light. It is therefore important that when selecting a lamp, output in the ultraviolet spectrum should be closely examined.The ultraviolet spectral output is sometimes expressed graphically, showing the proportional output at the important ultraviolet wavelengths. A graph of a typical Primarc MPMA lamp is shown below.</FONT></P> </TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=17></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=4 HEIGHT=19></TD> <TD COLSPAN=9 ALIGN=CENTER VALIGN=MIDDLE WIDTH=325><IMG ID="Picture25" HEIGHT=19 WIDTH=325 SRC="../../English_Home_Page/U_V__Technology/Lamp_spectral_output.gif" BORDER=0 ALT="MPMA Lamp Spectral Output"></TD> <TD COLSPAN=3></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=14></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=2 HEIGHT=283></TD> <TD COLSPAN=12 ALIGN=CENTER VALIGN=MIDDLE WIDTH=450><IMG ID="Picture23" HEIGHT=283 WIDTH=450 SRC="../../English_Home_Page/U_V__Technology/spectral_output.gif" BORDER=0 ALT="Typical Primarc MPMA lamp spectral output" TITLE="Typical Primarc MPMA lamp spectral output"></TD> <TD COLSPAN=2></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=23></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD></TD> <TD COLSPAN=15 WIDTH=579> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif"><B>Lamp Life<BR></B>Medium-pressure mercury arc lamps do not normally fail suddenly, as do ordinary household light bulbs.  Efficiency declines relatively slowly, until insufficient UV light is being emitted for the lamp to cure effectively. This decline is caused primarily by the deterioration in UV transparency of the quartz jacket, and depends on a number of factors:- lamp cooling efficiency, power rating, current rating of the electrodes, electrode cooling efficiency, contamination of the lamp's external surface (dust etc.) and switching frequency.</FONT></P> <P ALIGN=JUSTIFY><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">When correctly used, Primarc UV Curing Lamps are guaranteed to produce a high level of curing efficiency for at least 1000 hours and, with proper handling, they will still be capable of delivering at least 80% of original output.</FONT></P> </TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD COLSPAN=16 HEIGHT=6></TD> </TR> <TR VALIGN=TOP ALIGN=LEFT> <TD></TD> <TD COLSPAN=15 WIDTH=579 BGCOLOR="#CCCCFF"> <P ALIGN=CENTER><FONT COLOR="#000066" SIZE="-1" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif"></FONT><FONT COLOR="#000066" SIZE="-2" FACE="Arial TUR,sans-serif">Primarc Ltd., 816 Leigh Road, Slough, Berkshire, SL1 4BD, U.K. <BR>Tel: +44 (0)1753 558001, Fax: +44 (0)1753 558002, </FONT><A HREF="mailto:uv@primarc.com"><FONT COLOR="#000066" SIZE="-2" FACE="Arial TUR,sans-serif">Email: uv@primarc.com</FONT></A><FONT COLOR="#000066" SIZE="-2" FACE="Arial TUR,sans-serif"><BR></FONT><FONT COLOR="#000066" SIZE="-2" FACE="Arial,Helvetica,Univers,Zurich BT,sans-serif">Copyright © </FONT><FONT COLOR="#000066" SIZE="-2" FACE="Arial TUR,sans-serif">Primarc Limited 2002</FONT> </P> <ul> <li><a href="../../index.html">Welcome to Primarc - Ultra violet curing lamps from the UV technology specialists</a></li> <li><a href="../english_home_page.html">Primarc English Home Page - Ultra violet curing lamps from the UV technology specialists (UV curing lamps, ultraviolet curing lamp, metal halide lamps, electrodeless microwave powered bulbs)</a></li> <li><a href="../About_Primarc/about_primarc.html">About Primarc</a></li> <li><a href="../Contact_Primarc/contact_primarc.html">Contact Primarc</a></li> <li><a href="../U_V__Technology/u_v__technology.html">About UV Technology</a></li> <li><a href="../Product_Info/Lamp_Identification/lamp_identification.html">Lamp Identification</a></li> <li><a href="../Product_Info/product_info.html">Product Information</a></li> <li><a href="../Product_Info/U_V__Curing_Lamps/u_v__curing_lamps.html">UV Curing Lamps</a></li> <li><a href="../Product_Info/Electrodeless_Bulbs/electrodeless_bulbs.html">Electrodeless Bulbs</a></li> <li><a href="../Product_Info/Label_Curing_Lamps/label_curing_lamps.html">Label Curing Lamps</a></li></ul> </TD> </TR> </TABLE>