S1C33L17 seiko epson corporation cmos 32 - bit application specific controller 32 - bit risc cpu - core optimized for soc (epson s1c33 pe) dual amba bus system for cpu and lcdc built - in pll ( multiplication rate: 1 to 16) advanced cpu instruction queue buffer built - in 8kb ram sdram controller with burst control generic dma controller (hsdma/idma) 4 - ch. pwm control timer/counter supports several interfaces sio with fifo (irda1.0, iso7816 - 3), spi, i 2 s and usb 5 - ch. adc for analog input built - in lcd controller with 12kb ivra m supports up to qvga (320 240) display in 1 bpp mode (black and white) by single chip supports uma vram supports vga (640 480) and 64k color nand flash interface provides 32 - bit mac api descriptions the S1C33L17 is a high cost performance 32 - bit risc controller for specific applications that require a lot of general - purpose i/o, a powerful pwm timer/counter function, several serial interfaces including usb - fs device controller, an adc and a lcd display system, such as middle range electronic dictionaries and educational products with voice/music playback function. the S1C33L17 consists of a 32 - bit risc cpu - core, generic dma controller, usb - fs device controller, pwm control timer/counter, several interfaces (sio including irda1.0 and iso7816 - 3 protocol, spi and i 2 s), adc, ram/shared ivram, rtc and nand flash interface implemented by epson soc design technology using 0.18 �m mixed analog low cmos process. features technology � 0.18 �m al - 4 - layers mixed analog low power cmos process technology cpu � epson original c33 pe 32 - bit risc cpu - core with amba bus optimized for soc � max. 6 6 mhz operation � internal 2 - stage pipeline and 4 instruction queues � instruction set: 128 instructions (16 - bit fixed length) � basic instructions are compatible w ith the s1c33 32 - bit risc cores. � dual amba bus system for cpu and lcdc internal memories � 8kb ram � 12kb ivram (used as general - purpose ram, vram) � 2kb dst ram (used as general - purpose ram or idma descriptor table ram) oscillator circuit / pll osc 3 oscillator circuit � crystal oscillation: 5 mhz min. to 48 mhz max. � ceramic oscillation: 5 mhz min. to 48 mhz max. � external clock input: 5 mhz min. to 48 mhz max ? a 48 mhz clock source with 0.25% of accuracy should be connected for using the usb fun ction. when using a ceramic resonator, please be sure to contact murata manufacturing co., ltd. for further information on conditions of use for ceramic resonators.
S1C33L17 2 epson pll � pll input frequency: 5 mhz min. to 50 mhz max. � pll output frequency: 25 mhz min . to 90 mhz max. � multiplication rate: 1 to 16 osc1 oscillator circuit � crystal oscillation: 32.768 khz typ. � external clock input: 32.768 khz typ. high speed bus (hb) modules sramc (sram controller) � 25 - bit address lines and 8/16 - bit selectable da ta bus � up to a 32m - byte (a[24:0]) address space is provided for each chip enable signal. � max. 8 chip enable signals are available to connect external devices. � programmable bus wait cycle (0 to 7 cycles) � supports external wait signals. � 4gb physic al address space is available. - the physical address space is divided into 23 areas - areas 0 to 3 and area 6 are system reserved. � supports only little - endian access to each area. � memory mapped i/o � supports both a0 and bs (bus strobe) access type external devices. � sram, rom, and flash rom direct access interfaces are built in. sdramc (sdram controller with sdram app and ahb local bus arbiter) � supports sdram direct interface. � supports only sdram devices with 16 - bit data bus. - minimum conf iguration: 16m bits (2mb), 16 - bit sdram 1 - maximum configuration: 512m bits (64mb), 16 - bit sdram 1 � cas latency: 1, 2, or 3 programmable � supports burst and single read/write. � supports dqm (byte write) function. � supports max. 4 sdram banks and bank active mode. � incorporates a 12 - bit auto - refresh counter. � intelligent self - refresh function for low power operation � 2 - stage 32 - bit data buffer and 8 - stage 32 - bit 2 - slot instruction buffer built - in � supports up to max. 90 mhz sdram clock . - when the cpu clock is 48 mhz, the sdram clock can be set to max. 48 mhz. - when the cpu clock is 45 mhz, the sdram clock can be set to max. 90 mhz using the pll. � arbitrates ownership of the external bus between the cpu, dmac, lcdc and sramc. dmac ( direct memory access controller) � 4 - ch. high speed hardware dma � 128 - ch. intelligent dma (variable data transfer controller) with specific control table ivramarb (internal video ram arbiter) � contains a 12kb sram (3,072 words 16 bits 2). � arbitra tes accesses from the lcdc and cpu. � allows the cpu and lcdc to access ivram in minimum 2 cycles by 32 - bit access. � supports uma (unified memory access) for display. � ivram is configurable as a 12kb general - purpose ram in area 0 using a control regist er if it is not used as a video ram. peripheral bus (sapb) modules tcu (timer/counter unit with pwm outputs) � 4 - ch. 16 - bit timer/counter � supports pwm outputs with da16 (digital d/a) mode. � contains a prescaler, which can divide the peripheral clock by 1 to 4,096, to generate the operating clock for each channel. � possible to invoke dma transfer.
S1C33L17 epson 3 wdt (watchdog timer) � 30 - bit watchdog timer to generate an nmi interrupt � the watchdog timer overflow cycle (nmi interrupt cycle) is programmable. � the watchdog timer overflow signal can be output outside the ic. adc (a/d converter) � 5 - ch. 10 - bit a/d converter � upper/lower limit interrupt is available. � each adc channel includes a data buffer. � contains a prescaler, which can divide the peripheral cl ock by 2 to 256, to generate the operating clock for adc. itc (interrupt controller) � possible to invoke dma transfer � dmac interrupt: 5 types � input interrupt: 18 types � tcu interrupt: 8 types � efsio interrupt: 9 types � adc interrupt: 2 types � rtc interrupt: 1 type � spi interrupt: 3 types � usb interrupt: 2 types � i 2 s interrupt: 1 type � lcdc interrupt: 1 type gpio (general - purpose i/o ports) � max. 82 ports in the qfp24 - 144pin model. ? the S1C33L17 gpio ports are shared with other peripheral fun ction pins (efsio, pwm etc.). therefore, the number of gpio ports depends on the peripheral functions used. usb (universal serial bus 2.0 compliant full - speed device controller) � supports usb2.0 full speed (12m bps) mode. � supports auto negotiation func tion. � supports control, bulk, isochronous and interrupt transfers. � supports 4 general - purpose end points and end point 0 (control). � embedded 1k - byte programmable fifo � supports 8 - bit local bus dma port. � possible to invoke dma transfer. � suppo rts async. dma transfer. � supports dma slave mode. � fixed 48 mhz clock for usb - fs. � supports snooze mode. rtc (real time clock) � contains time counters (seconds, minutes, and hours) and calendar counters (days, days of the week, months, and year). � bcd data can be read from and written to both counters. � capable of controlling the starting and stopping of time clocks. � 24 - hour or 12 - hour mode can be selected. � a 30 - second correction function can be implemented in software. � periodic interrupts a re possible. card (serial input/output with direction control) � provides smartmedia i/f signals (#smre, #smwe). � provides 8 - bit nand flash i/f signals. efsio (extended serial interface with fifo buffer) � 3 - ch. clock sync./async. serial interface (ch.2 supports only async.) � contains fifo data buffers. - ch.0, 1: 4 - byte receive data buffer and 2 - byte transmit data buffer are available. - ch.2: 2 - byte receive data buffer and 1 - byte transmit data buffer are available.
S1C33L17 4 epson � supports irda1.0 interface (only c h.0 and ch.1). � contains a baud - rate generator (12 - bit programmable timer). � ch.1 only supports iso7816 mode. - alternative msb or lsb - memory card interface compatible with iso7816 - 3 t=0 & t=1 protocol - programmable baud - rate and guard - time generatio n - iso7816 acknowledge and automatically repeat transmission � possible to invoke dma transfer. spi (serial peripheral interface) � 1 ch. spi that operates in either master or slave mode. � supports 1 - to 32 - bit data transfer. � data transfer timing ( clock phase and polarity variations) is selectable from among 4 types. � a 1 to 65,536 clocks of delay can be inserted between transfers. � generates transmit data register empty and receive data register full interrupts. � supports card medias such as mmc . � possible to invoke dma transfer. egpio (extended gpio) � max. 17 configurable gpio ports are available in addition to the standard gpio ports. in die form, max. 91 ports are available. ? the egpio ports are shared with other peripheral function pins. therefore, the number of egpio ports depends on the peripheral functions used. � most ports have a pull - up resistor that can be enabled/disabled with the control register. � possible to driv e the ports low. cmu (extended clock management unit) � controls clock supply to each peripheral module (static). � manages reset and nmi inputs. � switches the system clock source (mclk, sdramclk, or rtcclk). � controls the mclk and rtcclk oscillator c ircuits. � turns on/off and controls frequency multiplication rate of the pll. � controls clocks according to the standby mode (sleep and halt). � controls divide ratios of the lcdc clock. � manages the external bus clock. misc (misc. setting register) � u sb/rtc wait configuration registers � supports pull - up and low - drive control for each signals. i 2 s (inter - ic sound bus interface) � 16 - bit/24 - bit resolution selectable for input/output channels � i 2 s master clock is software selectable from either internal or external clock. � supports stereo, mono (l and r) and mute output mode. � clock polarity is software configurable. � data shift direction (msb first/lsb first) is software selectable. � issues i 2 s interrupt requests and dma requests. � contains a 24 bi ts 2 ch. 4 of transmit fifo. lcdc (stn/tft lcd controller with amba bus) vram: � built - in a 12kb ram usable as a display buffer or general - purpose ram (register selectable) � supports the uma method allowing lcdc to access sdram (external vram) or iv ram (internal vram). � the external vram map (sdram) is configurable. � the sub window area can be located in ivram or external vram regardless of whether it contains the main window area or not. display support: � 4 - or 8 - bit monochrome lcd interface � 4 - or 8 - bit color lcd interface � single - panel, single - drive passive displays
S1C33L17 epson 5 � 12/16 - bit generic hr - tft interface � typical resolutions - 320 240 (1 - bpp mode, external vram is required) bpp = bits per pixel - 640 480 (16 - bpp mode) ? note that the panel width must be a multiple of 16 � bits per pixel. display modes: � due to frame rate modulation, grayscale display is possible in up to 16 shades of gray when a monochrome passive lcd panel is used. - two - shade display in 1 - bpp mode - four - shade display in 2 - bpp mode - 16 - shade display in 4 - bpp mode � a maximum of 64k colors can be simultaneously displayed on a color passive lcd panel. - 256 - color display in 8 - bpp mode - 4k - color display in 12 - bpp mode - 64k - color display in 16 - bpp mode � a ma ximum of 65,535 colors can be simultaneously displayed on a tft panel. - two - color display in 1 - bpp mode - four - color display in 2 - bpp mode - 16 - color display in 4 - bpp mode - 256 - color display in 8 - bpp mode - 4k - color display in 12 - bpp mode - 64k - col or display in 16 - bpp mode � the look up table can be bypassed display features: � picture - in - picture plus (pip + ) picture - in - picture plus enables a secondary window (or sub - window) within the main display window. the sub - window may be positioned anywhere within the main window and is controlled through registers. the sub - window retains the same color depth as the main window. the speed of generating a sub - window by hardware is faster than software. by using this pip + function, it can greatly speed the gui performance and cpu can have more performance to assign other processing. (e.g. voice etc.) � 12/16 - bit generic hr - tft i/f the 12/16 - bit generic hr - tft interface supports hr - tft and tft panels up to vga (640 480) or qvga (320 240). because the timing of fpfram, fpline, and tft_ctl0 � 3 are not fixed for tft panels, they can be controlled by register setting. by different register settings, you can get your specified tft i/f signal timing. � clock source the lcdc clock can be internally divided 48 mhz by 1 to 16. the clock division register is located in cmu part. operating voltage � v dd (core): 1.70 to 1.90 v (typ. 1.8 v) when a ceramic resonator is used for the usb clock � v dd (core): 1.65 to 1.95 v (ty p. 1.8 v) when a crystal is used or an external clock is input � plv dd : 1.65 to 1.95 v (typ. 1.8 v) � v ddh (i/o): 2.70 to 3.60 v when the usb is not used (5 - v tolerant i/o not supported) � v ddh (i/o): 3.00 to 3.60 v (typ. 3.3 v) when the usb is used (5 - v tolerant i/o not supported) operating frequency � cpu: 66 mhz max. � usb: 48 mhz fixed � sdramc: 90 mhz max. � lcdc: 66 mhz max. � other peripheral circuits: 66 mhz max. operating temperatures � - 40 to 85�c (0 to 7 5 �c when a ceramic resonator is u sed for the usb clock)
S1C33L17 6 epson current consumption � during sleep: 0.3 �a (typ.) � during halt: 3.2 ma (typ.) � during execution: 22.0 ma (typ.) ? when mclk = 48 mhz and sdclk = 48 mhz by controlling the cpu clock through the clock - gear (cmu), current consumpt ion can be reduced. shipping form � package: qfp24 - 144pin (16 mm 16 mm 1.0 mm and 0.4 mm pin pitch) pfbga - 180pin (12 mm 12 mm 1.2 mm and 0.8 mm ball pitch) � chip: 168 pads with pad pitch 90 �m block diagram a0ram (ivram) (12kb) a0ram (8kb) area 0 specific rom reserved for firmware (64kb) a18m pll cmu sdramc registers sramc registers i 2 s lcdc registers rtc spi pe_l17_cpu lcdc area 1 area 6 ivram (12kb) ivram arbiter dqb dqb arbiter iqb dst ram (2kb) area 3 gate rom (4 words) area 10 sdramc_ip mux external memory i/f a6dec (used as a ram) a6_x32 devices dma gp registers t16 (4 ch.) wdt adc a6_x16 devices a6_x8 devices sdapp1 < < < x32 < < cpu_ahb lcdc_ahb lcdc_amba: master dma gp: master 2 s1c33pe_amba: master 1 location of ivram can be selected by a register. (used as a vram) sdapp2 sdramc sramc (sapb bridge) hsdma idma dma gp registers dma gp x32 x32 x32 x32 x32 x16 x16 x16 x32 gpio egpio efsio (3 ch.) port mux itc card i/f misc registers usb
S1C33L17 epson 7 pin layout diagram pfbg a - 180pin top view bottom view a1 corner a1 corner index a b c d e f g h j j l m n p a b c d e f g h j k l m n p 123456789 10 11 12 13 14 14 13 12 11 10 987654321 n.c. a18 p46 tft_ctl2 a22 p42 fpdat8 p30 card2 #dmareq0 fpdat12 p33 card5 #dmareq3 fpdat15 p03 #srdy0 #dmaend3 p06 #sclk1 i2s_sck_o i2s_sck_i p10 i2s_sdi sin0 #dmaend0 dst0 p15 tm3 sout1 tft_ctl0 dsio p34 dclk p35 pb3 fpdat15 i2s_mclk_o card5 p67 spi_clk fpdat10 n.c. a b c d e f g h j k l m n p a b c d e f g h j k l m n p 1 1 #ce8 p54 card1 fpdat15 #ce9 p55 card0 fpdat14 a20 p44 fpdat10 a19 p45 fpdat11 p00 sin0 #dmaack2 p01 sout0 #dmaack3 p04 sin1 i2s_sdo p11 i2s_ws_i sout0 #dmaend1 p13 i2s_mclk_i #srdy0 #dmaack1 dpco p17 card1 #srdy1 tft_ctl2 pb0 fpdat12 i2s_sdo card2 p65 sdi fpdat8 rtc_clki #ce4 p50 card0 #ce5 p51 card1 a21 p43 fpdat9 p31 card3 #dmareq1 fpdat13 p02 #sclk0 #dmaend2 p05 sout1 i2s_ws_o i2s_ws_i p07 #srdy1 i2s_mclk_o p14 tm2 sin1 dst1 p16 card0 #sclk1 tft_ctl3 p64 #wait excl2 pb2 fpdat14 i2s_sck card4 p66 sdo fpdat9 rtc_clko #ce11 p56 #wrh/ #bsh p52 bclk #ce6 cmu_clk p32 card4 #dmareq2 fpdat14 p12 i2s_sck_i #sclk0 #dmaack0 dst2 p36 pb1 fpdat13 i2s_ws_o card3 test0 vcp #rd a23 p41 fpdat13 #sdras a11 p47 a8 a4 #ce10 p57 #wrl boot1 p73 ain3 i2s_mclk_ext p74 ain4 excl3 p24 #sdcas p22 #sdcs sdclk p21 d15 d8 d6 d4 d1 p63 fpdat13 wdt_clk #wdt_nmi usbvbus usbdp usbdm a13 a24 p40 fpdat12 #sdcas p81 fpline p71 ain1 p70 ain0 a10 a12 p82 fpshift p83 fpdrdy tft_ctl1 bclk p72 ain2 p80 fpframe a6 a9 p84 tm0 fpdat11 p85 tm1 mclki a2 a3 a7 burnin mclko p26 dqml p25 #sdwe p23 #sdras tft_ctl1 p20 sdcke d12 d9 d7 d3 d0 boot0 p60 sin2 fpdat15 excl0 #nmi #reset pa4 fpdat11 tft_ctl3 i2s_mclk_ext a14 p27 dqmh d14 d13 d10 d11 d5 d2 p62 fpdat12 #adtrg cmu_clk p61 sout2 fpdat14 excl1 pa2 fpdat9 tft_ctl1 i2s_sck_i p97 fpdat7 p96 fpdat6 pa3 fpdat10 tft_ctl2 i2s_mclk_i a15 a0/ #bsl a16/ dqml p91 fpdat1 sdo p94 fpdat4 pa1 fpdat8 tft_ctl0 i2s_ws_i pa0 tft_ctl0 i2s_sdi #ce7 p53 sda10 a17/ dqmh a1 a5 p90 fpdat0 sdi p93 fpdat3 p95 fpdat5 p92 fpdat2 spi_clk 2 3 4 5 6 7 8 9 10 plv dd 11 12 plv ss 13 n.c. v ddh v ddh v ddh v ddh v ddh v ddh v ddh v ddh v ddh v ddh v ddh v ddh av dd n.c. 14 2345678 top view 9 10 11 12 13 14 v dd v dd v dd v dd v dd v dd v dd v dd v dd v dd v dd v ss v ss v ss v ss v ss v ss v ss v ss v ss v dd v ss v ss v ss v ss v ss v ss v ss
http://www.epson.jp/device/semicon_e S1C33L17 notice: no part of this material may be reproduced or duplicated in any form or by any m eans without the written permission of seiko epson. seiko epson reserves the right to make changes to this material without notice. seiko epson does not assume any liability of any kind arising out of any inaccuracies contained in this material or due to i ts application or use in any product or circuit and, further, there is no representation that this material is applicable to products requiring high level reliability, such as, medical products. moreover, no license to any intellectual property rights is g ranted by implication or otherwise, and there is no representation or warranty that anything made in accordance with this material will be free from any patent or copyright infringement of a third party. this material or portions thereof may contain techno logy or the subject relating to strategic products under the control of the foreign exchange and foreign trade law of japan and may require an export license from the ministry of economy, trade and industry or other approval from another government agency. ? seiko epson corporation 2008, all right reserved. seiko epson corporation epson electronic devices website semiconductor operations division ic sales dept. ic international sales group document code: 411213100 421 - 8, hino, hino - shi, tokyo 191 - 85 01, japan issue july, 2008 phone: +81 - 42 - 587 - 5814 fax: +81 - 42 - 587 - 5117 printed in japan l qfp24 - 144pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 (p55/card0/fpdat14) #ce9 (p46/tft_ctl2) a18 (p45/fpdat11) a19 (p44/fpdat10) a20 (p43/fpdat9) a21 (p42/fpdat8) a22 v ss (card2/#dmareq0/fpdat12) p30 (card3/#dmareq1/fpdat13) p31 (card4/#dmareq2/fpdat14) p32 (card5/#dmareq3/fpdat15) p33 (sin0/#dmaack2) p00 (sout0/#dmaack3) p01 (#sclk0/#dmaend2) p02 (#srdy0/#dmaend3) p03 v ddh (sin1/i2s_sdo) p04 (sout1/i2s_ws_o/i2s_ws_i) p05 (#sclk1/i2s_sck_o/i2s_sck_i) p06 (#srdy1/i2s_mclk_o) p07 (i2s_sdi/sin0/#dmaend0) p10 (i2s_ws_i/sout0/#dmaend1) p11 v dd (i2s_sck_i/#sclk0/#dmaack0) p12 (i2s_mclk_i/#srdy0/#dmaack1) p13 (tm2/sin1) p14 (p15/tm3/sout1/tft_ctl0) dst0 (p16/card0/#sclk1/tft_ctl3) dst1 (p17/card1/#srdy1/tft_ctl2) dpco v ddh (p34) dsio (p36) dst2 (p35) dclk (#wait/excl2) p64 (sdi/fpdat8) p65 (sdo/fpdat9) p66 p25 (#sdwe) p24 (#sdcas) p23 (#sdras/tft_ctl1) v ddh p22 (#sdcs) sdclk (p21) p20 (sdcke) v ss d15 d14 d13 d12 v dd d11 d10 d9 d8 v ddh d7 d6 d5 d4 v dd d3 d2 d1 d0 v ss p63 (fpdat13/wdt_clk/#wdt_nmi) p62 (fpdat12/#adtrg/cmu_clk) p61 (sout2/fpdat14/excl1) p60 (sin2/fpdat15/excl0) usbvbus usbdp usbdm #nmi 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 #reset p97 (fpdat7) p96 (fpdat6) p95 (fpdat5) p94 (fpdat4) v ddh p93 (fpdat3) p92 (fpdat2/spi_clk) p91 (fpdat1/sdo) p90 (fpdat0/sdi) v ss mclko mclki v dd p85 (tm1) p84 (tm0/fpdat11) p83 (fpdrdy/tft_ctl1/bclk) p82 (fpshift) p81 (fpline) p80 (fpframe) p70 (ain0) p71 (ain1) p72 (ain2) p73 (ain3/i2s_mclk_ext) p74 (ain4/excl3) av dd boot1 test0 plv dd vcp plv ss v ss rtc_clko rtc_clki v dd p67 (spi_clk/fpdat10) (dqml) p26 (dqmh) p27 a14 a15 a16 / dqml a17 / dqmh (p53/sda10) #ce7 a0 / #bsl v ss a1 a2 a3 a4 a5 v dd a6 a7 a8 a9 v ddh a10 (p47) a11 a12 a13 (p41/fpdat13/#sdras) a23 (p40/fpdat12/#sdcas) a24 v ss (p57) #ce10 #rd #wrl #wrh / #bsh (p56) #ce11 (bclk/#ce6/cmu_clk) p52 (p50/card0) #ce4 (p51/card1) #ce5 (p54/card1/fpdat15) #ce8
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