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"); return -1;} key=key.substring(pos+1,key.length);} return y-1; } var keywords = new makeArray(11); //initialize search keyword array function clearSearch(form) { for(var x=1;x <= 11; x++) { keywords[x]=""; } } function writeOutput(outString) { parent.result.document.open(); parent.result.document.write(outString); parent.result.document.close(); } function dataEntry (){ this.v1= ""; this.v2=""; return this; } function makeRecordLinks(size) { this.length = size; for (var r=1; r<= size; r++) { this[r] = new dataEntry(); this[r].v1= v1[r]; this[r].v2 = v2[r]; } return this; } function searchAll(keyword) { var nw=1; clearSearch(document.searchform); var x = parseIt(keyword); if(x == -1) { //abort on failed parse return;} if(keyword =="" || keyword.length < 2) { writeOutput("Please enter a valid search string and retry your search.

Possible reasons for an invalid string are:

"); return; } parent.result.document.open(); parent.result.document.clear(); parent.result.document.close(); while(keywords[nw].length > 1) { search(new makeRecordLinks(records_count),keywords[nw]); nw++;} //done to placate MSIE if (navigator.appName != "Netscape"){ parent.result.document.close();} } function printRecords(records,q) { while(sid!="mitnamdliw_wildmantim") {}; parent.result.document.write("" + records[q].v1 +""); } function search(records, keyword) { //loop counter var rec_number=0; //this variable is used to make sure multiple hits //don't make for duplicated record printouts var hit=0; //this variable is used to determine if there were ANY hits var finds=0; parent.result.document.write(""); parent.result.document.write("Search results for keyword: " +keyword +"

"); parent.result.document.write(""); for (q=1; q<=records.length; q++) { search_parm=records[q].v2.toLowerCase(); if (search_parm.indexOf(keyword) != -1) { hit++;finds++; if(hit < 2) { printRecords(records,q); } } //reset hit count for next search hit=0; } //closes the "for" loop parent.result.document.write("
" +"

"); } //DATA SECTION //define data arrays var records_count=0; v1=new makeArray(records_count); v2 = new makeArray(records_count); var a=0; a += 1 v1[a] = "Model# 704 - Four channel 300mhz Discriminator"; v2[a] = "704 300mhz 300 mhz leading edge discriminator nim 4 channel four channel quad deadtimeless updating veto bin gate fan out threshold pot width adjust bridged lemo"; a += 1 v1[a] = "Model# 705 - Eight channel Discriminator"; v2[a] = "705 linear summed output leading edge discriminator nim 8 channel Eight channel octal or veto bin gate threshold pot width adjust bridged lemo"; a += 1 v1[a] = "Model# 706 - Sixteen channel 100mhz Discriminator"; v2[a] = "706 leading edge discriminator nim 16 channel sixteen channel non-updating veto bin gate threshold pot width adjust bridged lemo"; a += 1 v1[a] = "Model# 708 - Eight channel 300mhz Discriminator"; v2[a] = "708 300mhz 300 mhz leading edge discriminator nim 8 channel eight channel octal deadtimeless updating veto bin gate threshold pot width adjust bridged lemo"; a += 1 v1[a] = "Model# 710 - Eight channel Discriminator"; v2[a] = "710 linear summed output leading edge discriminator nim 8 channel Eight channel octal deadtimeless updating or veto bin gate threshold pot width adjust bridged lemo"; a += 1 v1[a] = "Model# 711 - Six channel Discriminator"; v2[a] = "711 linear summed output leading edge discriminator nim 6 channel six channel deadtimeless updating or veto bin gate width adjust bridged lemo burst guard tot time over threshold pot"; a += 1 v1[a] = "Model# 715 - Five channel Constant Fraction Discriminator"; v2[a] = "715 constant fraction timing discriminator nim 5 channel five channel time walk slewing cf monitor shaping delay veto bin gate width adjust bridged lemo threshold pot"; a += 1 v1[a] = "Model# 726 - Sixteen channel Logic Level Tanslator"; v2[a] = "726 16 channel sixteen channel logic level translator nim ttl ecl or width bridged lemo 34 pin headers"; a += 1 v1[a] = "Model# 730 - Five channel Tri-Mode Discriminator"; v2[a] = "730 tri mode leading edge amplitude risetime compensation window discriminator delay nim 5 channel five channel led arc llt ult delta-e veto bin gate width adjust bridged lemo threshold pot upper lower energy cuts test points"; a += 1 v1[a] = "Model# 740 - Four channel Linear/Logic Fan-in/Fan-out"; v2[a] = "740 4 channel four channel linear logic fan in fan out nim or bipolar offset summing unity gain lemo"; a += 1 v1[a] = "Model# 744 - Four channel Linear/Gate Fan-in/Fan-out"; v2[a] = "744 4 channel four channel linear gate logic fan in fan out nim or bipolar offset summing unity gain lemo multiplexing demultiplexing analog to digital adc"; a += 1 v1[a] = "Model# 748 - Eight channel Linear/Logic Fan-out"; v2[a] = "748 8 channel eight channel linear logic fan out nim bipolar offset unity gain lemo"; a += 1 v1[a] = "Model# 752 - Four channel Two-Fold Logic Unit"; v2[a] = "752 4 channel four channel logic fan out nim and or deadtimeless updating veto bin gate width lemo"; a += 1 v1[a] = "Model# 754 - Four channel 300mhz Majority Logic Unit"; v2[a] = "754 4 channel four channel 300mhz 300 mhz majority logic fan in fan out nim and or deadtimeless updating veto bin gate width lemo coincidence"; a += 1 v1[a] = "Model# 755 - Four channel Majority Logic Unit"; v2[a] = "755 4 channel four channel majority logic fan in fan out nim and or deadtimeless updating veto bin gate width lemo coincidence"; a += 1 v1[a] = "Model# 756 - Four channel Majority Logic Unit"; v2[a] = "756 4 channel four channel majority logic fan in fan out nim and or deadtimeless updating overlap veto bin gate width lemo coincidence"; a += 1 v1[a] = "Model# 757 - Octal Multifunction Logic Unit"; v2[a] = "757 8 channel eight channel octal quad dual single multifunction mixed logic fan in fan out ttl nim and or lemo coincidence led overlap"; a += 1 v1[a] = "Model# 758 - Eight channel Two-Fold Logic Unit"; v2[a] = "758 8 channel eight channel logic fan in fan out nim and or deadtimeless updating veto bin gate width lemo coincidence"; a += 1 v1[a] = "Model# 770/771 - Four channel 300mhz Amplifier"; v2[a] = "770 771 4 channel four channel quad 300mhz 300 mhz nim bnc x10 10x variable gain offset cascadable non-inverting bipolar amplifier"; a += 1 v1[a] = "Model# 772 - Eight channel 300mhz Amplifier"; v2[a] = "772 8 channel eight channel octal 300mhz 300 mhz nim lemo 10x x10 gain offset cascadable bipolar amplifier"; a += 1 v1[a] = "Model# 774/775 - Quad/Octal Fast Risetime Amplifier"; v2[a] = "774 775 4 channel 8 channel four channel eight channel quad octal ghz nim bnc sma gains fixed gain cascading bipolar preamplifier beam pick-off schemes"; a += 1 v1[a] = "Model# 776 - 16 Channel Photomultiplier Preamplifier"; v2[a] = "776 16 channel sixteen channel photomultiplier nim lemo fixed gain 10x x10 cascadable fan-out preamplifier offset"; a += 1 v1[a] = "Model# 777 - Eight Channel Variable Gain Amplifier"; v2[a] = "777 8 channel eight channel octal nim lemo amplifier variable gain pot 50x x50 cascading fan-out offset photomultiplier detectors"; a += 1 v1[a] = "Model# 778 - 16 Channel Variable Gain Amplifier"; v2[a] = "778 16 channel sixteen channel nim lemo amplifier variable gain pot 50x x50 fan-out offset photomultiplier detectors"; a += 1 v1[a] = "Model# 779 - 32 Channel Photomultiplier Preamplifier"; v2[a] = "779 32 channel photomultiplier detectors nim lemo fixed gain 10x x10 cascaded preamplifier offset"; a += 1 v1[a] = "Model# 792 - Dual NanoSecond Delay Module"; v2[a] = "792 dual nanosecond delay nim bnc lemo variable nsec coax cable cascade bipolar toggle switch coincidence applications"; a += 1 v1[a] = "Model# 794 - Quad Gate/Delay Generator"; v2[a] = "794 four channels Quad gate/delay gate delay generator nim ttl ecl lemo variable nsec seconds deadtimeless set reset flip flop cascade analog remote programming oscillator pulser trigger or pushbutton bin nimbin set/reset flip-flop led bistable monostable range switch time base inhibit width pot jumpers"; a += 1 v1[a] = "Model# 804 - Four channel Rotary Attenuator"; v2[a] = "804 4 channel four channel quad rotary attenuator pi attenuator nim bnc variable range .1 steps"; a += 1 v1[a] = "Model# 7106 - Sixteen channel Discriminator Latch"; v2[a] = "7106 leading edge discriminator data latch camac 16 channel sixteen channel deadtimeless updating time over threshold pot tot synchornized veto width adjust lemo masked inhibit local remote linear summed programmable ecl test point majority logic 34 pin headers register complex triggers dac led jumpers"; a += 1 v1[a] = "Model# 7120 - Precision Charge/Time Generator"; v2[a] = "7120 precision charge time generator camac manual dac bnc led precise pmt wire chamber pc gate start stop q out trigger width programmable dc out external free run pushbutton ttl delay trigger autopulse charge source time interval tdc analog charge-to-digital cdc dac primary secondary "; a += 1 v1[a] = "Model# 7126 - Sixteen channel Logic Level Tanslator"; v2[a] = "7126 16 channel sixteen channel logic level translator camac ttl ecl nim or width bridged lemo 34 pin headers"; a += 1 v1[a] = "Model# 7132/7132H - 32 channel 225 MHz Scaler"; v2[a] = "7132 7132H 32 channel 225mhz 225 mhz count rate scaler camac nim ttl differential ecl header lemo q block mode clear inhibit lam overflow done busy test programmable timer countdown scaler 24 bits 48 bits clock registers"; a += 1 v1[a] = "Model# 7145 - Octal Linear Gate Multiplexer"; v2[a] = "7145 8 channel eight channel linear gate multiplexer camac bipolar offset pot summing unity gain lemo analog switch multiplexing analog to digital adc ttl nim ecl common gate switched nsec linear summation "; a += 1 v1[a] = "Model# 7157 - Octal Multifunction Logic Unit"; v2[a] = "7157 8 channel eight channel octal quad dual single multifunction mixed logic camac fan in fan out ttl nim and or lemo coincidence led overlap"; a += 1 v1[a] = "Model# 7164/7164H - 16 channel Peak ADC"; v2[a] = "7164 7164H 16 channel peak adc camac nim differential ecl header lemo clear common gate busy test programmable registers conversion time processing time 12 bit dynamic range unipolar bipolar tripolar unipolar pedistal correction sparse data upper thresholds lower thresholds single ended digitization peak detect sample hold sparsification led offset lam calibration conversion delay digital processing"; a += 1 v1[a] = "Model# 7166/7166H - 16 channel Charge ADC"; v2[a] = "7166 7166H 16 channel charge adc camac nim differential ecl header lemo clear common gate window busy test programmable registers conversion time processing time 12 bit dynamic range pedistal correction sparse data upper thresholds lower thresholds single ended digitization qdc detect sample hold sparsification led offset lam calibration conversion delay digital processing dithered spectroscopy analysis"; a += 1 v1[a] = "Model# 7167/7167H - 16 channel Individual Gate - Charge ADC"; v2[a] = "7167 7167H 16 channel individual gate charge adc camac nim differential ecl header lemo clear common gate window busy test programmable registers conversion time processing time 12 bit dynamic range pedistal correction sparse data upper thresholds lower thresholds single ended digitization qdc detect sample hold sparsification led offset lam calibration conversion delay digital processing dithered spectroscopy analysis individually programmed"; a += 1 v1[a] = "Model# 7171 - Four channel 300mhz Amplifier"; v2[a] = "7171 4 channel four channel quad 300mhz 300 mhz camac bnc x10 10x variable gain offset cascadable non-inverting bipolar amplifier"; a += 1 v1[a] = "Model# 7176 - 16 Channel Photomultiplier Preamplifier"; v2[a] = "7176 16 channel sixteen channel photomultiplier camac lemo fixed gain 10x x10 cascadable fan-out preamplifier offset"; a += 1 v1[a] = "Model# 7177 - Eight Channel Variable Gain Amplifier"; v2[a] = "7177 8 channel eight channel octal camac lemo amplifier variable gain pot 50x x50 cascading fan-out offset photomultiplier detectors"; a += 1 v1[a] = "Model# 7186/7186H - 16 channel Time to Digital Converter"; v2[a] = "7186 7186H 16 channel time to digital tdc camac nim differential ecl header lemo clear common start common stop window busy inhibit test programmable registers conversion time processing time 12 bit dynamic range pedistal correction sparse data upper time cuts lower time cuts single ended digitization detect sample hold sparsification led lam calibration threshold conversion delay digital processing dithered spectroscopy analysis"; a += 1 v1[a] = "Model# 7187/7187H - 16 channel Individual Start-Stop TDC"; v2[a] = "7187 7187H 16 channel time to digital tdc Individual start individual stop camac nim differential ecl header lemo clear common gate window busy inhibit test programmable registers conversion time processing time 12 bit dynamic range pedistal correction sparse data upper time cuts lower time cuts single ended digitization detect sample hold sparsification led lam calibration threshold conversion delay digital processing dithered spectroscopy analysis"; a += 1 v1[a] = "Model# 7192 - Dual NanoSecond Delay Module"; v2[a] = "7192 dual nanosecond delay camac bnc lemo variable nsec coax cable cascade bipolar toggle switch coincidence applications"; a += 1 v1[a] = "Model# 7194 - Quad Gate/Delay Generator"; v2[a] = "7194 four channels Quad gate/delay gate delay generator camac nim ttl ecl lemo variable nsec seconds deadtimeless set reset flip flop cascade analog remote programming oscillator pulser trigger or pushbutton set/reset flip-flop led bistable monostable range switch time base inhibit width pot jumpers"; a += 1 v1[a] = "Model# 5010 - Rotary Attenuator"; v2[a] = "5010 rotary attenuator pi single channel bnc .1 to 1.0 steps off .1 increments"; a += 1 v1[a] = "Model# 6816 - 16 Channel Amp/Disc PCB Card"; v2[a] = "6816 16 channel sixteen channel amplifier discriminator amp/disc pcb card gain filter one shot one-shot cable drivers oem drift chambers proportional wire chambers photomultiplier mcp multi-anode arrays preamplifier regeneration circuits ecl drivers printed circuit board threshold programming gate monitor tot"; a += 1 v1[a] = "Model# 6904 - Single Channel 300mhz Discriminator"; v2[a] = "6904 300mhz 300 mhz leading edge discriminator nim single channel deadtimeless updating veto fan out threshold pot width adjust bridged bnc test point"; a += 1 v1[a] = "Model# 6908 - Single Channel 300mhz Amplifier Discriminator"; v2[a] = "6908 300mhz 300 mhz amplifier discriminator x10 10x nim single channel deadtimeless updating veto fan out -1mv threshold pot width adjust bridged bnc test point"; a += 1 v1[a] = "Model# 6915 - Single Channel CF Timing Discriminator"; v2[a] = "6915 constant fraction timing discriminator nim single channel time walk slewing cf monitor test point shaping delay veto inhibiting width adjust bridged bnc threshold pot anti-coincidence micro channel plate mcp"; a += 1 v1[a] = "Model# 6930 - Single Channel Tri-Mode Discriminator"; v2[a] = "6930 tri mode leading edge amplitude risetime compensation window discriminator delay nim single channel led arc llt ult delta-e veto width adjust bridged bnc threshold pot upper lower energy cuts test points"; a += 1 v1[a] = "Model# 6931 - Single Channel 100mhz Bipolar Amplifier"; v2[a] = "6931 single channel bipolar amplifier 100mhz bnc fixed offset pot non-inverting gain 100x x100 fan-out test point"; a += 1 v1[a] = "Model# 6950 - Single Channel 300mhz Bipolar Amplifier"; v2[a] = "6950 single channel bipolar amplifier 300mhz bnc fixed offset pot non-inverting gain 10 x10 fan-out test point"; a += 1 v1[a] = "Model# 6954 - Single Channel Fast Pulse Preamplifier "; v2[a] = "6954 single channel khz mhz ghz bnc sma fixed gain bipolar psec wideband preamplifier beam pick-off schemes solid state channel plate detectors energy timing measurements"; a += 1 v1[a] = "Model# 6955 - Single Channel Timing/Charge Pick-Off Preamplifier "; v2[a] = "6955 single channel mhz bnc sma fixed gain bipolar psec wideband timing charge pick-off preamplifier beam pick-off schemes solid state channel plate detectors energy timing measurements detector biasing tdc tac start stop mca adc cfd q amp"; a += 1 v1[a] = "Model# 417 - Nim Pocket Pulser"; v2[a] = "417 single channel nim pocket pulser accessory khz lemo battery generator negative pulses photomultiplier "; a += 1 v1[a] = "Model# 425 - Isolation Pulse Transformer"; v2[a] = "425 single channel isolation pulse transformer accessory khz mhz lemo bnc non inverting in line bipolar logic wideband"; a += 1 v1[a] = "Model# 433 - NIM to CAMAC Adapter"; v2[a] = "433 nim camac adapter nim module camac crates 6v 12v 24v 115vac 43 position dual edge 34 pin connector nim connector block accessory"; a += 1 v1[a] = "Model# 460 - Inverting Transformer"; v2[a] = "460 single channel inverting transformer accessory khz mhz ghz bnc inverting in line bipolar logic wideband"; a += 1 v1[a] = "Model# 6606 - Plug-In Power Supply"; v2[a] = "6606 plug-in power supply 12v 24v 115vac vac accessory 6900 ac plug two dc volts voltage "; records_count = a; // ----end data ------- // end script hiding -->