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mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers description the m35046-xxxsp/fp is a character pattern display control ic can display on the liquid crystal display and the plasma display. it uses a silicon gate cmos process and it housed in a 20-pin shrink dip pack- age (m35046-xxxsp) or a 20-pin shrink sop package (m35046- xxxfp). for m35046-001sp/fp that is a standard rom version of m35046- xxxsp/fp respectively, the character pattern is also mentioned. features ? screen composition .................................... 24 columns 12 lines ? number of characters displayed ................................... 288 (max.) ? character composition ..................................... 12 18 dot matrix ? characters available .............................................. 256 characters ? character sizes available .................... 4 (horizontal) 4 (vertical) ? display locations available horizontal direction .............................................. 1000 locations vertical direction .................................................. 1023 locations ? blinking .................................................................. character units cycle : division of vertical synchronization signal into 32 or 64 duty : 25%, 50%, or 75% ? data input .................................. by the 16-bit serial input function ? coloring character color ..................................................... character unit background coloring ............................................. character unit matrix-outline (shadow) coloring .............. 8 colors (rgb output) specified by register border coloring ........................................ 8 colors (rgb output) specified by register raster coloring ........................................ 8 colors (rgb output) specified by register ? blanking character size blanking border size blanking matrix-outline blanking all blanking (all raster area) ? output ports 4 shared output ports (toggled between rgb output) 4 dedicated output ports ? display ram erase function ? display input frequency range ............... f osc = 20mhz to 80mhz ? horizontal synchronous input frequency ........................................................ h.sync = 15 khz to 130 khz ? display oscillation stop function application liquid crystal display, plasma display, video projecter outline 20p4b pin configuration (top view) 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 cpout ? @ v dd2 ? vert ? hor ? p5/b ? p4 ? p3/g ? p2 ? p1/r ? p0/blnk0 @ v ss v ss2 @ ac ? cs ? sck ? sin ? tck ? v dd1 @ p6 ? p7 ? m35046 - xxxsp outline 20p2q-a 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 cpout ? @ v dd2 ? vert ? hor ? p5/b ? p4 ? p3/g ? p2 ? p1/r ? p0/blnk0 @ v ss1 vir @ ac ? cs ? sck ? sin ? tck ? v dd1 @ p6 ? p7 ? m35046 - xxxfp
mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 2 symbol cpout v ss2 __ ac __ cs sck sin tck v dd1 p6 p7 v ss1 p0/blnk0 p1/r p2 p3/g p4 p5/b hor vert v dd2 input/ output output C input input input input input C output output C output output output output output output input input C function connect loop filter to this pin. connect to gnd. when l, this pin resets the internal ic circuit. hysteresis input. built-in pull-up resistor. this is the chip select input pin, and when serial data transmission is being carried out, it goes to l. hysteresis input. built-in pull-up resistor. __ when cs pin is l, sin serial data is taken in when sck rises. hysteresis input. built-in pull-up resistor. this is the pin for serial input of data and addresses for the display control register and the display data memory. hysteresis input. built-in pull-up resistor. this is the pin for external clock input. please connect to +5v with the power pin. this is the output port. port data is set by ptd6. this is the output port. port data is set by ptd7. please connect to gnd using circuit earthing pin. this pin can be toggled between port pin output and blnk0 signal output. this pin can be toggled between port pin output and r signal output. this is the output port. port data is set by ptd2. this pin can be toggled between port pin output and g signal output. this is the output port. port data is set by ptd4. this pin can be toggled between port pin output and b signal output. this pin inputs the horizontal synchronous signal. hysteresis input. this pin inputs the vertical synchronous signal. hysteresis input. please connect to +5v with the power pin. pin name phase difference earthing pin auto-clear input chip select input serial clock input serial data input external clock power pin port p6 output port p7 output earthing pin port p0 output port p1 output port p2 output port p3 output port p4 output port p5 output horizontal synchro- nous signal input vertical synchro- nous signal input power pin pin number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 pin description 1.0k w * 1 0.01 m f * 2 47pf * 2 cpout * 1 use at 1% precision * 2 use at 10% precision 1pin mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 3 block diagram 4 1 5 6 8 20 3 11 2 cs sck sin v dd1 v dd2 ac v ss vir clock oscillation circuit for display timing generator polarity switching circuit address control circuit data control circuit display control register display ram display character rom shift register blinking circuit reading address control circuit display location detection circuit h counter cpout 7 tck 18 hor 19 12 vert synchronous signal switching circuit display control circuit port output control circuit polarity switching circuti input control circuit p0/blnk0 13 p1/r 15 p3/g 17 p5/b 14 p2 16 p4 9p6 10 p7 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 4 daf dae dad dac dab daa da9 da8 da7 da6 da5 da4 da3 da2 da1 da0 0 bb bg br blink b g r c7 c6 c5 c4 c3 c2 c1 c0 0 bb bg br blink b g r c7 c6 c5 c4 c3 c2 c1 c0 0 exck0 vjt divs1 divs0 div10 div9 div8 div7 div6 div5 div4 div3 div2 div1 div0 0 rsel0 ptd7 ptd6 ptd5 ptd4 ptd3 ptd2 ptd1 ptd0 ptc5 ptc4 ptc3 ptc2 ptc1 ptc0 0 rsel1 space2 space1 space0 test9 hp9 hp8 hp7 hp6 hp5 hp4 hp3 hp2 hp1 hp0 0 exck1 test3 test2 test1 test0 vp9 vp8 vp7 vp6 vp5 vp4 vp3 vp2 vp1 vp0 0 test14 test5 test4 dsp11 dsp10 dsp9 dsp8 dsp7 dsp6 dsp5 dsp4 dsp3 dsp2 dsp1 dsp0 0 test10 vsz1h1 vsz1h0 vsz1l1 vsz1l0 v1sz1 v1sz0 lin9 lin8 lin7 lin6 lin5 lin4 lin3 lin2 0 test11 vsz2h1 vsz2h0 vsz2l1 vsz2l0 v18sz1 v18sz0 lin17 lin16 lin15 lin14 lin13 lin12 lin11 lin10 0 test12 hsz21 hsz20 hsz11 hsz10 beta14 test8 test7 test6 fb fg fr rb rg rr 0 test13 blink2 blink1 blink0 dspon stop ramers syad blk1 blk0 polh polv vmask __ b/f bcol 000 16 11f 16 120 16 121 16 122 16 123 16 124 16 125 16 126 16 127 16 128 16 screen constitution the screen lines and rows are determined from each address of the display ram. the screen constitution is shown in figure 2. memory constitution address 000 16 to 11f 16 are assigned to the display ram, address 120 16 to 128 16 are assigned to the display control registers. the in- ternal circuit is reset and all display control registers (address 120 16 __ to 128 16 ) are set to 0 when the ac pin level is l. and then ram is erased. memory constitution is shown in figure 1. background coloring character color character code row line 1 2 3 4 5 6 7 8 9 10 11 12 000 16 001 16 002 16 003 16 004 16 005 16 006 16 007 16 008 16 009 16 00a 16 00b 16 00c 16 00d 16 00e 16 00f 16 010 16 011 16 012 16 013 16 014 16 015 16 016 16 017 16 018 16 019 16 01a 16 01b 16 01c 16 01d 16 01e 16 01f 16 020 16 021 16 022 16 023 16 024 16 025 16 026 16 027 16 028 16 029 16 02a 16 02b 16 02c 16 02d 16 02e 16 02f 16 030 16 031 16 032 16 033 16 034 16 035 16 036 16 037 16 038 16 039 16 03a 16 03b 16 03c 16 03d 16 03e 16 03f 16 040 16 041 16 042 16 043 16 044 16 045 16 046 16 047 16 048 16 049 16 04a 16 04b 16 04c 16 04d 16 04e 16 04f 16 050 16 051 16 052 16 053 16 054 16 055 16 056 16 057 16 058 16 059 16 05a 16 05b 16 05c 16 05d 16 05e 16 05f 16 060 16 061 16 062 16 063 16 064 16 065 16 066 16 067 16 068 16 069 16 06a 16 06b 16 06c 16 06d 16 06e 16 06f 16 070 16 071 16 072 16 073 16 074 16 075 16 076 16 077 16 078 16 079 16 07a 16 07b 16 07c 16 07d 16 07e 16 07f 16 080 16 081 16 082 16 083 16 084 16 085 16 086 16 087 16 088 16 089 16 08a 16 08b 16 08c 16 08d 16 08e 16 08f 16 090 16 091 16 092 16 093 16 094 16 095 16 096 16 097 16 098 16 099 16 09a 16 09b 16 09c 16 09d 16 09e 16 09f 16 0a0 16 0a1 16 0a2 16 0a3 16 0a4 16 0a5 16 0a6 16 0a7 16 0a8 16 0a9 16 0aa 16 0ab 16 0ac 16 0ad 16 0ae 16 0af 16 0b0 16 0b1 16 0b2 16 0b3 16 0b4 16 0b5 16 0b6 16 0b7 16 0b8 16 0b9 16 0ba 16 0bb 16 0bc 16 0bd 16 0be 16 0bf 16 0c0 16 0c1 16 0c2 16 0c3 16 0c4 16 0c5 16 0c6 16 0c7 16 0c8 16 0c9 16 0ca 16 0cb 16 0cc 16 0cd 16 0ce 16 0cf 16 0d0 16 0d1 16 0d2 16 0d3 16 0d4 16 0d5 16 0d6 16 0d7 16 0d8 16 0d9 16 0da 16 0db 16 0dc 16 0dd 16 0de 16 0df 16 0e0 16 0e1 16 0e2 16 0e3 16 0e4 16 0e5 16 0e6 16 0e7 16 0e8 16 0e9 16 0ea 16 0eb 16 0ec 16 0ed 16 0ee 16 0ef 16 0f0 16 0f1 16 0f2 16 0f3 16 0f4 16 0f5 16 0f6 16 0f7 16 0f8 16 0f9 16 0fa 16 0fb 16 0fc 16 0fd 16 0fe 16 0ff 16 100 16 101 16 102 16 103 16 104 16 105 16 106 16 107 16 108 16 109 16 10a 16 10b 16 10c 16 10d 16 10e 16 10f 16 110 16 111 16 112 16 113 16 114 16 115 16 116 16 117 16 118 16 119 16 11a 16 11b 16 11c 16 11d 16 11e 16 11f 16 123456789101112131415161718192021222324 | the hexadecimal numbers in the boxes show the display ram address. fig. 2 screen constitution fig. 1 memory constitution blink- ing mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 5 for details, see (2) setting display frequencies under register supplementary description. it should be fixed to 0. alleviates continuous vertical jitters. 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 div0 div1 div2 div3 div4 div5 div6 div7 div8 div9 div10 divs0 divs1 vjt exck0 0 1 2 3 4 5 6 7 8 9 a b c d e registers description (1) address 120 16 set display frequency by frequency value setting. set n1 to be n1=f osc / fh. f osc (mhz) : external clock frequency for tck pin (=display fre- quency) f h (khz) : horizontal synchronous sig- nal frequency for hor pin set registers divs0, divs1 (address 120 16 ), rsel0 (address 121 16 ) and rsel1 (address 122 16 ) according to external clock frequency. for details, see (2) setting display fre- quencies under register supplemen- tary description. any of this settings above is reguired only when exck1=1, exck0=1. register da status contents function remarks display clock input 20 to 30mhz do not set do not set 20 to 80mhz exck0 0 1 0 1 exck1 0 0 1 1 set display frequency area. see setting external clock input mode (to be input from the tck terminal). exck1 : address 123 16 1 h c l o c k n u m b e r ( n 1 ) e x t e r n a l c l o c k h o r i z o n t a l s y n c h r o n i z e d s i g n a l set external clock frequency value of horizontal oscillation fre- quency. n1 = (divn 2 n ) n1: frequency value 10 s n = 0 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 6 (2) address 121 16 contents status function register da remarks p0 output (port p0). port data is set by ptd0. blnk0 output. polarity is set by ptd0. p1 output (port p1). port data is set by ptd1. r signal output. polarity is set by ptd1. p2 output (port p2). port data is set by ptd2. can not be used. p3 output (port p3). port data is set by ptd3. g signal output. polarity is set by ptd3. p4 output (port p4). port data is set by ptd4. can not be used. p5 output (port p5). port data is set by ptd5. b signal output. polarity is set by ptd5. l output (p0 output) or negative polarity output (blnk0 output). h output (p0 output) or positive polarity output (blnk0 output). l output (p1 output) or negative polarity output (r signal output). h output (p1 output) or positive polarity output (r signal output). l output (p2 output). h output (p2 output). l output (p3 output) or negative polarity output (g signal output). h output (p3 output) or positive polarity output (g signal output). l output (p2 output). h output (p2 output). l output (p5 output) or negative polarity output (b signal output). h output (p5 output) or positive polarity output (b signal output). l output (p6 output). h output (p6 output). l output (p7 output). h output (p7 output). for details, see (2) setting display frequencies under register supplementary description. to be used when exck0=1 and exck1=1. blnk0 outputs blanking signal. blanking status is determined by blk0, blk1, and dsp0 to dsp11 settings. p0 pin data control. p1 pin data control. p2 pin exclusive port output state con- trol. p3 pin data control. p4 pin exclusive port output state con- trol. p5 pin data control. p6 pin exclusive port output state con- trol. p7 pin exclusive port output state con- trol. set display frequency area. 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 2 3 4 5 6 7 8 9 a b c d e ( note ) ( note ) ( note ) ( note ) ( note ) ( note ) ( note ) ( note ) note. to determined this register, input clock (at least one clock) to the external clock pin (tck). ptc0 ptc1 ptc2 ptc3 ptc4 ptc5 ptd0 ptd1 ptd2 ptd3 ptd4 ptd5 ptd6 ptd7 rsel0 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 7 (3) address 122 16 horizontal display start location is specified using the 10 bits from hp9 to hp0. hp9 to hp0 = (0000000000 2 ) and (0000010111 2 ) setting is forbidden. ___ note : in case of b/f register is 0. 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 register function remarks da status contents 0 1 2 3 4 5 6 7 8 9 a b c d e if hs is the horizontal display start location, hs = t 2 n hp n + 6 t: the cycle of display frequency 1000 settings are possible. leave one line worth of space in the ver- tical direction. for example, 6 6 indicates two sets of 6 lines with a line of spaces between lines 6 and 7. a line is 18 n horizontal scan lines. n is determined by the character size in the vertical direction as follows: 1 ? n = 1 2 ? n = 2 3 ? n = 3 4 ? n = 4 set display frequency area. hp1 hp2 hp3 hp4 hp5 hp6 hp7 hp8 test9 space0 space1 space2 rsel1 hp9 (msb) hp0 (lsb) space 2 0 0 0 0 1 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 number of lines and space ( represents space) 12 1 10 1 2 8 2 3 6 3 4 4 4 5 2 5 6 6 6 6 represents one line worth of spaces. it should be fixed to 0. can not be used. for details, see (2) setting display frequencies under register supplementary description. to be used when exck0=1 and exck1=1. 9 s n = 0 h o r ( n o t e ) h p v p d i s p l a y a r e a v e r t mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 8 (4) address 123 16 the vertical start location is specified using the 10 bits from vp9 to vp0. vp9 to vp0 = (0000000000 2 ) setting is forbidden. _ note : in case of b/f register is 0. 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 register da status contents 0 1 2 3 4 5 6 7 8 9 a b c d e vp1 vp2 vp3 vp4 vp5 vp6 vp7 vp8 test0 test1 test2 test3 exck1 if vs is the vertical display start location, vs = h 2 n vp n h: cycle with the horizontal synchronizing pulse 1023 settings are possible. vp9 (msb) vp0 (lsb) function remarks 9 s n = 0 it should be fixed to 0. can not be used. it should be fixed to 0. can not be used. it should be fixed to 0. can not be used. it should be fixed to 0. can not be used. for setting. see register exck0 (address 120 16 ). sets input mode of external clock (input from tck pin). h o r ( n o t e ) h p v p d i s p l a y a r e a v e r t mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 9 blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) blanking is in the display mode specified by blk0 and blk1. (note) blanking is in the display mode specified by except blk0 and blk1. (note) it should be fixed to 0. can not be used. it should be fixed to 0. can not be used. can not be used. it should be fixed to 1. 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 (5) address 124 16 0 1 2 3 4 5 6 7 8 9 a b c d e dsp0 dsp1 dsp2 dsp3 dsp4 dsp5 dsp6 dsp7 dsp8 dsp9 dsp10 dsp11 test4 test5 test14 register da status contents function note: refer to display form1. sets the display mode of line 1. sets the display mode of line 2. sets the display mode of line 3. sets the display mode of line 4. sets the display mode of line 5. sets the display mode of line 6. sets the display mode of line 7. sets the display mode of line 8. sets the display mode of line 9. sets the display mode of line 10. sets the display mode of line 11. sets the display mode of line 12. remarks mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 10 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 character size setting in the vertical direction for the 2nd line. character size setting in the vertical direction for the 3rd line. character size setting in the vertical direction for the 4th line. character size setting in the vertical direction for the 5th line. character size setting in the vertical direction for the 6th line. character size setting in the vertical direction for the 7th line. character size setting in the vertical direction for the 8th line. character size setting in the vertical direction for the 9th line. character size setting in the vertical direction for the 1st line. (display monitor 1 to 12 line) character size setting in the vertical direction (display monitor 1 line) at 0 state in register lin2 to lin17. character size setting in the vertical direction (display monitor 1 line) at 1 state in register lin2 to lin17. (6) address 125 16 0 1 2 3 4 5 6 7 8 9 a b c d e lin2 lin3 lin4 lin5 lin6 lin7 lin8 lin9 v1sz0 v1sz1 vsz1l0 vsz1l1 vsz1h0 vsz1h1 test10 register da status contents function remarks the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. h: cycle with the horizontal synchronizing pulse v1sz1 0 0 1 1 v1sz0 0 1 0 1 vertical direction size 1h/dot 2h/dot 3h/dot 4h/dot h: cycle with the horizontal synchronizing pulse vsz1l1 0 0 1 1 vsz1l0 0 1 0 1 vertical direction size 1h/dot 2h/dot 3h/dot 4h/dot h: cycle with the horizontal synchronizing pulse it should be fixed to 0. test mode vsz1h1 0 0 1 1 vsz1h0 0 1 0 1 vertical direction size 1h/dot 2h/dot 3h/dot 4h/dot mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 11 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 character size setting in the vertical direction for the 10th line. character size setting in the vertical direction for the 11th line. character size setting in the vertical direction for the 12th line. character size setting in the vertical direction for the 13th line. character size setting in the vertical direction for the 14th line. character size setting in the vertical direction for the 15th line. character size setting in the vertical direction for the 16th line. character size setting in the vertical direction for the 17th line. character size setting in the vertical direction for the 18th line. (display monitor 1 to 12 line) character size setting in the vertical direction (display monitor for 2 to 12 line) at 0 state in register lin2 to lin17. character size setting in the vertical direction (display monitor for 2 to 12 line) at 1 state in register lin2 to lin17. (7) address 126 16 0 1 2 3 4 5 6 7 8 9 a b c d e lin10 lin11 lin12 lin13 lin14 lin15 lin16 lin17 v18sz0 v18sz1 vsz2l0 vsz2l1 vsz2h0 vsz2h1 test11 register da status contents function remarks the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. the first line is set by vsz1l0 and vsz1l1. the second to 12th lines are set by vsz2l0 and vsz2l1. the first line is set by vsz1h0 and vsz1h1. the second to 12th lines are set by vsz2h0 and vsz2h1. h: cycle with the horizontal synchronizing pulse v18sz1 0 0 1 1 v18sz0 0 1 0 1 vertical direction size 1h/dot 2h/dot 3h/dot 4h/dot h: cycle with the horizontal synchronizing pulse vsz2l1 0 0 1 1 vsz2l0 0 1 0 1 vertical direction size 1h/dot 2h/dot 3h/dot 4h/dot h: cycle with the horizontal synchronizing pulse it should be fixed to 0. test mode vsz2h1 0 0 1 1 vsz2h0 0 1 0 1 vertical direction size 1h/dot 2h/dot 3h/dot 4h/dot mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 12 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 color black red green yellow blue magenta cyan white sets the color of all blankings. sets the blanking color of the border size, or the shadow size. set this register to the character font set by display ram br, bg and bb. character size setting in the horizontal direction for the first line. character size setting in the horizontal direction for the 2nd line to 12th line. (8) address 127 16 0 1 2 3 4 5 6 7 8 9 a b c d e rr rg rb fr fg fb test6 test7 test8 beta14 hsz10 hsz11 hsz20 hsz21 test12 register da status contents function remarks t: display frequency cycle hsz11 0 0 1 1 hsz10 0 1 0 1 horizontal direction size 1t/dot 2t/dot 3t/dot 4t/dot t: display frequency cycle it should be fixed to 0. test mode vsz21 0 0 1 1 hsz20 0 1 0 1 horizontal direction size 1t/dot 2t/dot 3t/dot 4t/dot it should be fixed to 0. can not be used. it should be fixed to 0. can not be used. it should be fixed to 0. can not be used. matrix-outline display (12 18 dot) matrix-outline display (14 18 dot) rb 0 0 0 0 1 1 1 1 rg 0 0 1 1 0 0 1 1 rr 0 1 0 1 0 1 0 1 color black red green yellow blue magenta cyan white bb 0 0 0 0 1 1 1 1 bg 0 0 1 1 0 0 1 1 br 0 1 0 1 0 1 0 1 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 13 sets all raster blanking synchronize with the front porch or back porch of the horizontal synchronazation signal. this register has or do not have mask at phase comparison operating. set vert pin polarity. set hor pin polarity. set blanking mode. (note 1) an example of blanking mode at bcol = 0, dspn = 0 (n = 0 to 11) shown left. (note 2) there is no need to reset because there is no register for this bit. r, g, b and blnk0 output can be altered. display can be altered. blinking duty ratio can be altered. blinking frequency can be altered. 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 (9) address 128 16 0 1 2 3 4 5 6 7 8 9 a b c d e bcol __ b/f vmask polv polh blk0 blk1 syad ramers stop dspon blink0 blink1 blink2 test13 register da status contents function remarks blink 1 0 0 1 1 0 0 1 0 1 duty blinking off 25% 50% 75% 1 0 0 1 1 0 0 1 0 1 blanking mode matrix-outline size character size border size matrix-outline size blk notes 1: refer to display form 1 2: refer to display form 3 blanking of blk0, blk1 all raster blanking synchronize with the leading edge of horizontal synchronization. synchronize with the trailing edge of horizontal synchronization. do not mask by vert input signal mask by vert input signal vert pin is negative polarity vert pin is positive polarity hor pin is negative polarity hor pin is positive polarity border display of character shadow display of character ram not erased ram erased oscillation of clock for display stop the oscillation of clock for display display off display on divided into 64 of vertical synchronous signal divided into 32 of vertical synchronous signal it should be fixed to 0. test mode mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 14 register supplementary description (1) setting external clock input mode (by use of exck0 (120 16 ) and exck1 (123 16 )) two modes given below are available for the external clock sig- nal input. (the settings (exck1, exck0) = (0, 1), (1, 0) are forbid- den.) (a) when (exck1, exck0) = (0, 0), f osc = 20 to 30 mhz input from the tck pin a constant-period continuous external clock that synchronizes with the horizontal synchronization signal. and input from hor pin a constant-period continuous horizontal synchronous signal. never stop inputting the clock while displaying. do not have to set a display frequency because the clock just as it is entered from outside is used as the display clock. (b) when (exck1, exck0) = (1, 1), f osc = 20 to 80 mhz input from the tck pin a constant-period continuous external clock that synchronizes with the horizontal synchronization signal. never stop inputting the clock while displaying. be sure to set a display frequency because the internal clock made to synchronize with the clock input from outside is used as the display clock (see the next page). e x t e r n a l c l o c k h o r i z o n t a l s y n c h r o n o u s s i g n a l ( e x a m p l e f o r i n p u t ) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 15 (2) setting display frequencies set a display frequency by setting a frequency value for the hori- zontal synchronization signal by use of div10 to div0 (120 16 ). set display frequency area in conformity with the frequency of the external clock signal. set display frequency area by use of divs0, divs1 (120 16 ), rsel0 (121 16 ), and rsel1 (122 16 ). frequency area are as fol- lows. rsel1 rsel0 divs1 divs0 display frequency area 0 1 0 0 70.0 to 80.0 0 0 0 0 63.0 to 70.0 1 0 0 1 56.6 to 63.0 0 1 0 1 46.6 to 56.6 0 0 0 1 45.0 to 46.6 1 0 1 0 42.5 to 45.0 0 1 1 0 35.0 to 42.5 0 0 1 0 31.5 to 35.0 1 0 1 1 28.3 to 31.5 0 1 1 1 23.3 to 28.3 0 0 1 1 20.0 to 23.3 cautions in setting a display frequency to change the external clock frequency or the horizontal synchroni- zation frequency, follow the steps in sequence given below. (a) display off (dspon = 0) (b) set the display frequency (use div10 to div0 (120 16 ), divs0, divs1 (120 16 ), rsel0 (121 16 ), and rsel1 (122 16 ).) (c) 20-ms waiting time with the horizontal synchronization signal and the external clock signal being input (d) display on (dspon = 1) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 16 display form1 table 1 shows display form of blanking. 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 table 1. display mode dspn = 1 1 (note 1) all blanking size dspn = 0 line matrix-outline size dspn = 1 line dspn = 0 line ? character size dspn = 1 line ? border size dspn = 0 line ? border size dspn = 1 line ? matrix-outline size dspn = 0 line ? matrix-outline size dspn = 1 line ? character size matrix-outline display color set: display ram (note 3) border display color set: display ram (note 3) matrix-outline display color set: display ram (note 3) character matrix-outline display color set: display ram (note 3) border display color set: display ram (note 3) matrix-outline display color set: display ram (note 3) character bcol standard blanking when the all of registers dspn (note 2) are set to 0 matrix-outline and border display. color set: fr, fg, fb or display ram (note 4) character border display color set: display ram (note 3) matrix-outline display color set: display ram (note 3) matrix-outline and border display. color set: fr, fg, fb or display ram (note 4) character border display color set: display ram (note 3) matrix-outline display color set: display ram (note 3) matrix-outline and border display. color set: fr, fg, fb or display ram (note 4) character border display color set: display ram (note 3) matrix-outline display color set: display ram (note 3) matrix-outline and border display. color set: fr, fg, fb or display ram (note 4) character border display color set: display ram (note 3) matrix-outline display color set: display ram (note 3) when some of registers dspn are set to 1 dspn = 0 blnk0 output blk0 blk1 0 notes 1: color setting of raster area is set by register rr, rg and rb. 2: dspn (n = 0 to 11) 3: set by br, bg and bb of display ram . 4: set border by register fr, fg and fb. set matrix-outline by br, bg and bb of display ram . mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 17 fig. 3 display form display form 2 m35046-xxxsp/fp has the following four display forms. (1) character size : blanking same as the character size. (2) border size : blanking the background as a size from character. (3) matrix-outline size : blanking the background 12 18 dot. when set register beta14 to 1, setting of blanking the background 14 18 dot is possible. (4) all blanking size : when set register bcol to 1, all raster area is blanking. 12dots 12dots 12dots 12dots set character color by display ram (note 1) (address 0 to 11f 16 ) scanning scanning set border color by register fr,fg and fb set border color by display ram (note 1) set border color by display ram (note 1) set matrix - outline color (note 1) by display ram (note 3) set matrix - outline color (note 1) by ram for display (note 3) r,g or b output blnk0 output (1) character display (character size) (note 2) (2) border display (border size) (note 2) (3) matrix - outline display (matrix-outline size) (note 2) (4) matrix - outline and border display (matrix-outline size) (note 2) 12dots 12dots 12dots 12dots set character color by display ram (note 1) (address 0 to 11f 16 ) set border color by register fr,fg and fb set raster area color by register rr,rg and rb set matrix - outline color (note 1) by display ram (note 3) set matrix - outline color (note 1) by display ram (note 3) r,g or b output blnk0 output (1) character display (all blanking size) (note 2) (2) border display (all blanking size) (note 2) (3) matrix - outline display (all blanking size) (note 2) (4) matrix - outline and border display (all blanking size) (note 2) notes 1 : red,blue,yellow,green,magenta,cyan, white and black are set possible. 2 : ( ) is blanking mode. 3 : all matrix - outline horizontal direction size is able to set to 14dots by register beta14 (blnk0 output by 14dots). register bcol = ?? ? register bcol = ?? ? ??level gnd level mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 18 display form 3 when border display mode, if set syad = 0 to 1, it change to shadow display mode. border and shadow display are shown below. fig. 4 border and shadow display set shadow display color by display ram or register fr, fg and fb. border display shadow display mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 19 data input example data of display ram and display control registers can be set by the serial input function. example of data setting is shown in figure 5 and figure 6. (1) at exck0 = 0, exck1 = 0 setting 1 2 3 4 5 6 7 8 9 10 11 12 297 298 299 300 example of data setting by the serial input function (m35046-xxxsp/fp) 200 msec hold address 120 16 data 120 16 data 121 16 data 122 16 data 123 16 data 124 16 data 125 16 data 126 16 data 127 16 data 128 16 data 000 16 data 11f 16 address 128 16 data 128 16 notes 1 : input the horizontal synchronous signal to the hor pin and the vertical synchronous signal to the vert pin. if serrat ed pulses are present in the vertical synchronous signal, set the register vmask to 1. 2 : matrix-outline display in this data. fig. 5 example of data setting by the serial input function (1) daf dae dad dac dab daa da9 da8 da7 da6 da5 da4 da3 da2 da1 da0 0000000100100000 0010000000000000 00 ptd7 ptd6 1 ptd4 1 ptd2 11101011 0 0 0 0 0 0 hp9 hp8 hp7 hp6 hp5 hp4 hp3 hp2 hp1 hp0 0 0 0 0 0 0 vp9 vp8 vp7 vp6 vp5 vp4 vp3 vp2 vp1 vp0 0000000000000000 0000000000000000 0000000000000000 0000000000000000 00000001011 polh polv 000 0bbbgbr blink bgrc 7 c 6 c 5 c 4 c 3 c 2 c 1 c 0 0bbbgbr blink bgrc 7 c 6 c 5 c 4 c 3 c 2 c 1 c 0 0000000100101000 00000100011 polh polv 000 character code character background color character color blink- ing addition system set-up address set (note 1) output setting horizontal display location setting vertical display location setting display form setting character size setting character size setting color, character size setting display off, display form (note 2) character setting address setting display on, display form (note 2) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 20 daf dae dad dac dab daa da9 da8 da7 da6 da5 da4 da3 da2 da1 da0 0000000100100000 011 divs1 divs0 div10 div9 div8 div7 div6 div5 div4 div3 div2 div1 div0 0 rsel0 ptd7 ptd6 1 ptd4 1 ptd2 11101011 0 rsel1 0 0 0 0 hp9 hp8 hp7 hp6 hp5 hp4 hp3 hp2 hp1 hp0 0 1 0 0 0 0 vp9 vp8 vp7 vp6 vp5 vp4 vp3 vp2 vp1 vp0 0100000000000000 0000000000000000 0000000000000000 0000000000000000 00000001011 polh polv 000 0bbbgbr blink bgrc 7 c 6 c 5 c 4 c 3 c 2 c 1 c 0 0bbbgbr blink bgrc 7 c 6 c 5 c 4 c 3 c 2 c 1 c 0 0000000100101000 00000100011 polh polv 000 hold the time length as 1v of vertical synchronous signal 200 msec hold 1 2 3 4 5 6 7 8 9 10 11 12 297 298 299 300 address 120 16 data 120 16 data 121 16 data 122 16 data 123 16 data 124 16 data 125 16 data 126 16 data 127 16 data 128 16 data 000 16 data 11f 16 address 128 16 data 128 16 character code addition system set-up address set set frequency value of horizontal syn chronous frequen cy(note 1) output setting oscillation circuit setting character setting notes 1 : from this time, input clock to tck pin. and, input the horizontal synchronous signal to the hor pin and the vertical synchronous signal to the vert pin. if serrated pulses are present in the vertical synchronous signal, set the register vmask to 1. 2 : matrix-outline display in this data. (2) at exck0 = 1, exck1 = 1 setting fig. 6 example of data setting by the serial input function (2) character background color character color horizontal display location setting oscillation circuit setting vertical display location setting display form setting character size setting character size setting color, character size setting display off, display form (note 2) blink -ing address setting display on, display form (note 2) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 21 serial data input timing (1) serial data should be input with the lsb first. (2) the address consists of 16 bits. (3) the data consists of 16 bits. (4) __ the 16 bits in the sck after the cs signal has fallen are the address, and for succeeding input data, the address is incremented every 16 bits. therefore, it is not necessary to in- put the address from the second data. fig. 7 serial input timing cs n = 1,2,3 sck sin lsb msb lsb msb lsb msb address(16 bits) data(16 bits) n data(16 bits) n + 1 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 22 character font images are composed on a 12 18 dot matrix, and characters can be linked vertically and horizontally with other characters to allow the display the continuous symbols. fig. 8 example for displaying a continuous pattern after combining characters in the horizontal or vertical direction character code ff 16 is fixed as a blank without background. therefore, cannot register a character font in this code. when the character extends to the top line of the matrix, no border is left at the top. when the character extends to the bottom (18th) line of the matrix, no border is left at the bottom. note : hatching represents border. 12 dots 18 dots mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 23 symbol t w (sck) __ t su(cs) __ t h(cs) t su(sin) t h(sin) t word timing requirements (ta = C20c to + 85c, v dd = 50.25v, unless otherwise noted) unit ns ns m s ns ns m s parameter sck width __ cs setup time __ cs hold time sin setup time sin hold time 1 word writing time min. 200 200 2 200 200 10 typ. max. remarks see figure 9 limits fig. 9 serial input timing requirements t su(cs) t w(sck) t w(sck) t su(sin) t h(sin) t h(cs) t w(cs) 1 m s(min.) t word more than 2 m s 1 2 12 13 14 15 16 1 1213141516 cs sck sin sck cs mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 25 unit v ma v v k w v pp min. 4.75 3.5 10 0.7v dd parameter supply voltage supply current h level output voltage l level output voltage __ __ pull-up resistance sck, ac, cs, sin external clock input width test conditions ta = C20 to +85c v dd = 5.25v v dd = 4.75v, i oh = 0.4ma v dd = 4.75v, i oh = 0.05ma v dd = 4.75v, i ol = 0.4ma v dd = 4.75v, i ol = 0.05ma v dd = 5.0v 4.75v < v dd 5.25v unit v v v mhz khz parameter supply voltage __ __ h level input voltage sin, sck, cs, ac hor, vert __ __ l level input voltage sin, sck, cs, ac hor, vert oscillating frequency for display horizontal synchronous signal input frequeney symbol v dd v ih v il f osc hsync symbol v dd v i v o p d t opr t stg absolute maximum ratings parameter supply voltage input voltage output voltage power dissipation operating temperature storage temperature conditions with respect to v ss . ta = 25c ratings C0.3 to +6.0 v ss C0.3 v i v dd +0.3 v ss v o v dd 300 C20 to +85 C40 to +125 unit v v v mw c c typ. 5.0 v dd 0 min. 4.75 0.8v dd 0 20.0 15.0 max. 5.25 v dd 0.2v dd 80.0 130.0 limits recommended operating conditions (v dd = 5v, ta = C20 to +85c, unless otherwise noted) electrical characteristics (v dd = 5v, ta = 25c, unless otherwise noted) symbol v dd i dd v oh v ol r i v tck limits max. 5.25 50 0.4 100 0.9v dd p0 to p7 cpout p0 to p7 cpout typ. 5.0 30 30 CC mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 26 note for supplying power __ timing of power supplying to ac pin the internal circuit of m35046-xxxsp/fp is reset when the level of __ the auto clear input pin ac is l. this pin in hysteresis input with the __ pull-up resistor. the timing about power supplying of ac pin is shown in figure 11. timing of power supplying to v dd1 and v dd2 . supply power to v dd1 and v dd2 at the same time. data required for mask rom ordering please send the following data for mask orders. (1) m35046-xxxsp/fp mask rom order confirmation form (2) 20p4b mask specification form (3) 20p2q-a mask specification from (4) rom data (eprom 3 sets) (5) floppy disks containing the character font generating program + character data supply voltage v ac (ac pin input voltage) 0.8 v dd 0.2 v dd t w t s v dd time t [ s ] more than 1ms voltage [v] after supplying the power (v dd and v ss ) to m35046-xxxsp/fp and the supply voltage becomes more than 0.8 v dd , it needs to keep __ v il time; tw of the ac pin for more than 1ms. __ start inputting from microcomputer after ac pin supply voltage becomes more than 0.8 v dd and keeping 200ms wait time. precaution for use notes on noise and latch-up in order to avoid noise and latch-up, connect a bypass capacitor ( ? 0.1 m f) directly between the v dd1 pin and v ss pin, and the v dd2 pin and v ss pin using a heavy wire. fig. 11 __ timing of power supplying to ac pin mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 27 standard rom type : m35046-001sp/fp m35046-001sp/fp is a standard rom type of m35046-xxxsp/fp. the character patterns are fixed to the contents of figure 12 to 15. mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 28 00 16 01 16 02 16 03 16 04 16 05 16 06 16 07 16 08 16 09 16 0a 16 0b 16 0c 16 0d 16 0e 16 0f 16 10 16 11 16 12 16 13 16 14 16 15 16 16 16 17 16 18 16 19 16 1a 16 1b 16 1c 16 1d 16 1e 16 1f 16 20 16 21 16 22 16 23 16 24 16 25 16 26 16 27 16 28 16 29 16 2a 16 2b 16 2c 16 2d 16 2e 16 2f 16 30 16 31 16 32 16 33 16 34 16 35 16 36 16 37 16 38 16 39 16 3a 16 3b 16 3c 16 3d 16 3e 16 3f 16 fig. 12 m35046-001sp/fp character pattern (1) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 29 40 16 41 16 42 16 43 16 44 16 45 16 46 16 47 16 48 16 49 16 4a 16 4b 16 4c 16 4d 16 4e 16 4f 16 50 16 51 16 52 16 53 16 54 16 55 16 56 16 57 16 58 16 59 16 5a 16 5b 16 5c 16 5d 16 5e 16 5f 16 60 16 61 16 62 16 63 16 64 16 65 16 66 16 67 16 68 16 69 16 6a 16 6b 16 6c 16 6d 16 6e 16 6f 16 70 16 71 16 72 16 73 16 74 16 75 16 76 16 77 16 78 16 79 16 7a 16 7b 16 7c 16 7d 16 7e 16 7f 16 blank fig. 13 m35046-001sp/fp character pattern (2) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 30 80 16 81 16 82 16 83 16 84 16 85 16 86 16 87 16 88 16 89 16 8a 16 8b 16 8c 16 8d 16 8e 16 8f 16 90 16 91 16 92 16 93 16 94 16 95 16 96 16 97 16 98 16 99 16 9a 16 9b 16 9c 16 9d 16 9e 16 9f 16 a0 16 a1 16 a2 16 a3 16 a4 16 a5 16 a6 16 a7 16 a8 16 a9 16 aa 16 ab 16 ac 16 ad 16 ae 16 af 16 b0 16 b1 16 b2 16 b3 16 b4 16 b5 16 b6 16 b7 16 b8 16 b9 16 ba 16 bb 16 bc 16 bd 16 be 16 bf 16 fig. 14 m35046-001sp/fp character pattern (3) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 31 c0 16 c1 16 c2 16 c3 16 c4 16 c5 16 c6 16 c7 16 c8 16 c9 16 ca 16 cb 16 cc 16 cd 16 ce 16 cf 16 d0 16 d1 16 d2 16 d3 16 d4 16 d5 16 d6 16 d7 16 d8 16 d9 16 da 16 db 16 dc 16 dd 16 de 16 df 16 e0 16 e1 16 e2 16 e3 16 e4 16 e5 16 e6 16 e7 16 e8 16 e9 16 ea 16 eb 16 ec 16 ed 16 ee 16 ef 16 f0 16 f1 16 f2 16 f3 16 f4 16 f5 16 f6 16 f7 16 f8 16 f9 16 fa 16 fb 16 fc 16 fd 16 fe 16 ff 16 blank fig. 15 m35046-001sp/fp character pattern (4) mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 32 00 16 01 16 02 16 03 16 04 16 05 16 06 16 07 16 08 16 09 16 0a 16 0b 16 0c 16 0d 16 0e 16 0f 16 10 16 11 16 12 16 13 16 14 16 15 16 16 16 17 16 18 16 19 16 1a 16 1b 16 1c 16 1d 16 1e 16 1f 16 20 16 21 16 22 16 23 16 24 16 25 16 26 16 27 16 28 16 29 16 2a 16 2b 16 2c 16 2d 16 2e 16 2f 16 30 16 31 16 32 16 33 16 34 16 35 16 36 16 37 16 38 16 39 16 3a 16 3b 16 3c 16 3d 16 3e 16 3f 16 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 33 40 16 41 16 42 16 43 16 44 16 45 16 46 16 47 16 48 16 49 16 4a 16 4b 16 4c 16 4d 16 4e 16 4f 16 50 16 51 16 52 16 53 16 54 16 55 16 56 16 57 16 58 16 59 16 5a 16 5b 16 5c 16 5d 16 5e 16 5f 16 60 16 61 16 62 16 63 16 64 16 65 16 66 16 67 16 68 16 69 16 6a 16 6b 16 6c 16 6d 16 6e 16 6f 16 70 16 71 16 72 16 73 16 74 16 75 16 76 16 77 16 78 16 79 16 7a 16 7b 16 7c 16 7d 16 7e 16 7f 16 blank mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 34 80 16 81 16 82 16 83 16 84 16 85 16 86 16 87 16 88 16 89 16 8a 16 8b 16 8c 16 8d 16 8e 16 8f 16 90 16 91 16 92 16 93 16 94 16 95 16 96 16 97 16 98 16 99 16 9a 16 9b 16 9c 16 9d 16 9e 16 9f 16 a0 16 a1 16 a2 16 a3 16 a4 16 a5 16 a6 16 a7 16 a8 16 a9 16 aa 16 ab 16 ac 16 ad 16 ae 16 af 16 b0 16 b1 16 b2 16 b3 16 b4 16 b5 16 b6 16 b7 16 b8 16 b9 16 ba 16 bb 16 bc 16 bd 16 be 16 bf 16 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 35 c0 16 c1 16 c2 16 c3 16 c4 16 c5 16 c6 16 c7 16 c8 16 c9 16 ca 16 cb 16 cc 16 cd 16 ce 16 cf 16 d0 16 d1 16 d2 16 d3 16 d4 16 d5 16 d6 16 d7 16 d8 16 d9 16 da 16 db 16 dc 16 dd 16 de 16 df 16 e0 16 e1 16 e2 16 e3 16 e4 16 e5 16 e6 16 e7 16 e8 16 e9 16 ea 16 eb 16 ec 16 ed 16 ee 16 ef 16 f0 16 f1 16 f2 16 f3 16 f4 16 f5 16 f6 16 f7 16 f8 16 f9 16 fa 16 fb 16 fc 16 fd 16 fe 16 ff 16 blank mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 36 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 37 mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 38 package outline mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 39 memo mitsubishi microcomputers m35046-xxxsp/fp screen character and pattern display controllers 40 |
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