NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: G220B 2.5±1.5V100 5V100 [%] VCOM2.35±2.0VV 90 50 10 V90 V50 V10 VAC [V] 100 V50RG V50RG V50BG [%] 5 IIRGBV-T V-T 50V50R 50V50R, V50G, V50B GR, B 50 G R B V50RGV50R-V50G V50RGV50R-V50G V50BGV50B-V50G , V10-60 V10-60 1.7 2.0 2.3 V50RG V50RG - -0.10 -0.25 BG V50BG - 0.07 0.45 - ... | Original |
25 pages, |
V50RGV50R-V50G transistor 5609 LCX059AK cxm3 DATASHEET 5609 transistor cxm30 CS 5609 280TV 222V125 220V123 LCX059AK abstract |
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| Abstract: 2.4 3.0 V10-60 V10-60 1.8 2.3 3.0 R-G V50RG V50RG - 0.10 0.25 B-G V50BG - , V50G . (3) V50BG = V50B V50G . (4) 100 Transmittance [%] 5. Half Tone Color , to 50% of transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG represent the , (4) respectively. V50RG V50RG V50BG 50 G raster R raster 0 B raster V50R V50B V50G ... | Original |
24 pages, |
MAC16 LCX020BK CR25 624h 572H LCX020BK abstract |
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| Abstract: vs. G V50RG V50RG - 0.10 0.25 B vs. G V50BG - 0.07 0.45 0°C ton0 - , 50% of transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage differences , ) respectively. V50 V10 V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = V50B V50G .(4) VAC Signal amplitude [V] 13 ... | Original |
23 pages, |
LCX033AK 8 super LCD tv circuit diagram cr406 LCX033AK abstract |
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| Abstract: V50RG V50RG - 0.10 0.25 B vs. G V50BG - 0.10 0.45 0°C ton0 - 30 , and V50B respectively. V50RG V50RG and V50BG, the voltage differences between V50R and V50G, V50B and V50G, are simply given by the following formulas (3) and (4) respectively. V50 V10 V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = ... | Original |
24 pages, |
LCX024AK 8 super LCD tv circuit diagram LCX024AK abstract |
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| Abstract: vs. G V50RG V50RG - 0.10 0.25 B vs. G V50BG - 0.10 0.45 0°C ton0 - , 50% of transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage differences , ) respectively. V50 V10 V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = V50B V50G .(4) VAC Signal amplitude [V] 13 ... | Original |
23 pages, |
TFTLCD SONY 6.1 LCX032AK LcD 30 PIN sony lcd tv circuits diagrams LCX032AK abstract |
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| Abstract: V50RG V50RG - 0.10 0.25 B vs. G V50BG - 0.10 0.45 0°C ton0 - 25 , correspond to 50% of transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage , ) respectively. V50RG V50RG = V50R V50G . (3) V50BG = V50B V50G . (4) 90 50 10 V90 V50 V10 VAC , respectively. Transmittance [%] (Unit: V) V50RG V50RG V50BG 50 G raster R raster B raster 0 ... | Original |
22 pages, |
LCX009AKB CXA1854R CR25 LCX009AKB abstract |
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| Abstract: V50BG - 0.10 0.45 0°C ton0 - 25 100 ton25 - 8 40 0°C toff0 , transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage differences between V50R and , V50R V50G . (3) V50BG = V50B V50G . (4) 90 50 10 V90 V50 V10 VAC Signal , respectively. Transmittance [%] (Unit: V) V50RG V50RG V50BG 50 G raster B raster R raster 0 ... | Original |
22 pages, |
LCX009AK CR25 LCX009AK abstract |
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| Abstract: B vs. G V50BG - 0.10 0.45 0°C ton0 - 30 100 ton25 - 8 40 , V50RG V50RG and V50BG, the voltage differences between V50R and V50G, V50B and V50G, are simply given by the following formulas (3) and (4) respectively. V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = V50B V50G .(4) VAC Signal amplitude [V ... | Original |
22 pages, |
LCX005BKB CXA1854R CR25 LCX005BKB abstract |
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| Abstract: B vs. G V50BG - 0.10 0.45 0°C ton0 - 30 100 ton25 - 8 40 , correspond to 50% of transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage , ) respectively. V50 V10 V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = V50B V50G .(4) VAC Signal amplitude [V] 12 ... | Original |
22 pages, |
LCX005BK CR25 LCX005BK abstract |
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| Abstract: V10-60 V10-60 1.6 2.0 2.4 R vs. G V50RG V50RG - 0.10 0.25 B vs. G V50BG - 0.07 , , V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage differences between V50R and V50G , of these V-T V50RG V50RG V50BG 50 G raster R raster 0 B raster V50R V50B V50G VAC Signal amplitude [V] V50RG V50RG = V50R V50G .(2) V50BG = V50B V50G .(3) 15 LCX058AKC LCX058AKC ... | Original |
24 pages, |
gold scanner detector colour code diode zener CXM4006R CR25 Led receptor tv sony lcd tv circuits diagrams television sony LCD display TFTLCD SONY 6.1 UL10625 zener color codes diode receptor CXM40 LCX058AKC LCX058AKC LCX058AKC abstract |
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| Abstract: B vs. G V50BG - 0.07 0.45 0°C ton0 - 30 100 ton25 - 20 40 , respectively. V50RG V50RG and V50BG, the voltage differences between V50R and V50G, V50B and V50G, are simply given , , G, B raster modes which correspond to 50% of transmittance, V50R, V50G V50 V10 V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = ... | Original |
23 pages, |
LCX033ANB sony lcd tv circuits diagrams LCX033ANB abstract |
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| Abstract: 0.10 0.25 B vs. G V50BG - 0.10 0.45 0°C ton0 - 30 100 ton25 , 50% of transmittance, V50R, V50G and V50B respectively. V50RG V50RG and V50BG, the voltage differences , ) respectively. V50 V10 V50RG V50RG V50BG 50 G raster R raster B raster 0 V50R V50B V50G V50RG V50RG = V50R V50G .(3) V50BG = V50B V50G .(4) VAC Signal amplitude [V] 13 ... | Original |
23 pages, |
LCX032AK sony lcd tv circuits diagrams LCX032AK abstract |
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| library "VIRTEX-parts" { fpga_library_version : "v1.0.0"; fpga_default_part : "V300PQ240 V300PQ240 V300PQ240 V300PQ240"; fpga_part_library : 1; dm_library_is_internal : 1; design "V50PQ240 V50PQ240 V50PQ240 V50PQ240" { read_only : 1; fpga_valid_speed_grades : ["-4" "-5" "-6"]; fpga_num_rows : 16 ; fpga_num_cols : 24 ; fpga_num_ffs : 1824 ; } design "V50BG256" { read_only : 1; fpga_valid_speed_grades : ["-4" "-5" "-6"]; fpga_num_rows : 16 ; fpga_num_cols : 24 ; fpga_num_ffs : 1824 www.datasheetarchive.com/download/87862986-986968ZC/wcd02dc7.zip (VIRTEX.pts) |
Xilinx | 12/02/1999 | 4.99 Kb | ZIP | wcd02dc7.zip |
| 40XLBG256 40XLBG256 40XLBG256 40XLBG256=4,3 [VIRTEX] V50BG256=4,5 V50PQ240 V50PQ240 V50PQ240 V50PQ240=4,5 V100BG256 V100BG256 V100BG256 V100BG256=4,5 V100PQ240 V100PQ240 V100PQ240 V100PQ240=4,5 V150BG352 V150BG352 V150BG352 V150BG352 www.datasheetarchive.com/download/36555797-997402ZC/f15i_sp1.zip (f15.fam) |
Xilinx | 11/02/1999 | 13794.31 Kb | ZIP | f15i_sp1.zip |
| 40XLBG256 40XLBG256 40XLBG256 40XLBG256=4,5 [VIRTEX] V50BG256=4,5,6 V50PQ240 V50PQ240 V50PQ240 V50PQ240=4,5,6 V100BG256 V100BG256 V100BG256 V100BG256=4,5,6 V100PQ240 V100PQ240 V100PQ240 V100PQ240=4,5,6 V150 www.datasheetarchive.com/download/87862986-986968ZC/wcd02dc7.zip (f15.fam) |
Xilinx | 12/02/1999 | 4.99 Kb | ZIP | wcd02dc7.zip |
| 40XLBG256 40XLBG256 40XLBG256 40XLBG256=4,3 [VIRTEX] V50BG256=4,5 V50PQ240 V50PQ240 V50PQ240 V50PQ240=4,5 V100BG256 V100BG256 V100BG256 V100BG256=4,5 V100PQ240 V100PQ240 V100PQ240 V100PQ240=4,5 V150BG352 V150BG352 V150BG352 V150BG352 www.datasheetarchive.com/download/13635743-992913ZC/wcd04c28.zip (f15.fam) |
Xilinx | 12/02/1999 | 13794.31 Kb | ZIP | wcd04c28.zip |
| (edif M0812SR5 M0812SR5 M0812SR5 M0812SR5 (edifVersion 2 0 0) (edifLevel 0) (keywordMap (keywordLevel 0) (status (written (timestamp 1999 5 24 14 12 0) (author "ALDEC") (program "Aldec's EDIF Netlist Generator" (version "2.5.5.53h") (library Active_lib (edifLevel 0) (technology (numberDefinition (scale 1 (E 1 -11) (unit TIME) (cell AND2 (cellType generic) (view net (viewType netlist ) (interface (port I0 www.datasheetarchive.com/download/80542558-967556ZC/rp0276b.zip (M0812SR5.edn) |
Xilinx | 22/02/2000 | 596.82 Kb | ZIP | rp0276b.zip |
| (edif M0812SR5 M0812SR5 M0812SR5 M0812SR5 (edifVersion 2 0 0) (edifLevel 0) (keywordMap (keywordLevel 0) (status (written (timestamp 1999 5 24 14 12 0) (author "ALDEC") (program "Aldec's EDIF Netlist Generator" (version "2.5.5.53h") (library Active_lib (edifLevel 0) (technology (numberDefinition (scale 1 (E 1 -11) (unit TIME) (cell AND2 (cellType generic) (view net (viewType netlist ) (interface (port I0 www.datasheetarchive.com/download/80542558-967556ZC/rp0276b.zip (M0812SR5.edn) |
Xilinx | 22/02/2000 | 596.82 Kb | ZIP | rp0276b.zip |
| (edif KCM20R KCM20R KCM20R KCM20R (edifVersion 2 0 0) (edifLevel 0) (keywordMap (keywordLevel 0) (status (written (timestamp 1999 7 19 14 6 0) (author "Ken Chapman") (program "KCM_VGEN" (version "1.3") (library Active_lib (edifLevel 0) (technology (numberDefinition (scale 1 (E 1 -11) (unit TIME) (cell FD (cellType generic) (view net (viewType netlist ) (interface (port C (direction INPU www.datasheetarchive.com/download/52944928-967554ZC/rp02769.zip (kcm20r.kcm) |
Xilinx | 22/02/2000 | 104.23 Kb | ZIP | rp02769.zip |