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hb28b512c6/hb28b448c6 HB28B320C6/hb28b256c6 hb28b192c6/hb28b128c6 hb28b064c6 compactflash? 512 mbyte/448 mbyte/320 mbyte/256 mbyte 192 mbyte/128 mbyte/64 mbyte ade-203-1290a (z) rev. 1.0 jan. 22, 2002 description hb28b512c6, hb28b448c6, HB28B320C6, hb28b256c6, hb28b192c6, hb28b128c6, hb28b064c6 are compactflash?. this card complies with compactflash? specification, and is suitable for the usage of data storage memory medium for pc or any other electric equipment and digital still camera. this card is equipped with 0.18 m m cmos 512 mega bit flash memory. this card is suitable for isa (industry standard architecture) bus interface standard, and read/write unit is 1 sector (512 bytes) sequential access. by using this card it is possible to operate good performance for the system which have compactflash tm slots. note: compactflash? is a trademark of sandisk corporation and is licensed royalty-free to the cfa which in turn will license it royalty-free to cfa members. *cfa: compactflash? association. features compactflash? specification standard ? 50 pin two pieces connector and type i (3.3 mm) 3.3v / 5v single power supply operation card density is 512 mega bytes maximum ? this card is equipped with 0.18 m m cmos 512 mega bit flash memory
hb28b512/448/320/256/192/128/064c6 2 3 variations of mode access ? memory card mode ? i/o card mode ? true ide mode internal self-diagnostic program operates at v cc power on high reliability based on internal ecc (error correcting code) function auto sleep mode card line up * 1 type no. card density capacity * 4 total sectors/ card * 3 sectors/ track * 2 number of head number of cylinder hb28b512c6 512 mb 512,483,328 byte 1,000,944 63 16 993 hb28b448c6 448 mb 448,519,680 byte 876,015 63 15 927 HB28B320C6 320 mb 320,409,600 byte 625,800 56 15 745 hb28b256c6 256 mb 256,204,800 byte 500,400 48 15 695 hb28b192c6 192 mb 192,184,320 byte 375,360 32 15 782 hb28b128c6 128 mb 128,188,416 byte 250,368 32 8 978 hb28b064c6 64 mb 64,094,208 byte 125,184 32 4 978 notes: 1. these data are written in id. 2. total tracks = number of head number of cylinder. 3. total sectors/card = sectors/track number of head number of cylinder. 4. it is the logical address capacity including the area which is used for file system. hb28b512/448/320/256/192/128/064c6 3 card pin assignment memory card mode i/o card mode true ide mode pin no. signal name i/o signal name i/o signal name i/o 1 gnd gnd gnd 2 d3 i/o d3 i/o d3 i/o 3 d4 i/o d4 i/o d4 i/o 4 d5 i/o d5 i/o d5 i/o 5 d6 i/o d6 i/o d6 i/o 6 d7 i/o d7 i/o d7 i/o 7 -ce1 i -ce1 i -ce1 i 8 a10 i a10 i a10 i 9 -oe i -oe i -atasel i 10 a9 i a9 i a9 i 11 a8 i a8 i a8 i 12 a7 i a7 i a7 i 13 vcc vcc vcc 14 a6 i a6 i a6 i 15 a5 i a5 i a5 i 16 a4 i a4 i a4 i 17 a3 i a3 i a3 i 18 a2 i a2 i a2 i 19 a1 i a1 i a1 i 20 a0 i a0 i a0 i 21 d0 i/o d0 i/o d0 i/o 22 d1 i/o d1 i/o d1 i/o 23 d2 i/o d2 i/o d2 i/o 24 wp o -iois16 o -iois16 o 25 -cd2 o -cd2 o -cd2 o 26 -cd1 o -cd1 o -cd1 o 27 d11 i/o d11 i/o d11 i/o 28 d12 i/o d12 i/o d12 i/o 29 d13 i/o d13 i/o d13 i/o 30 d14 i/o d14 i/o d14 i/o hb28b512/448/320/256/192/128/064c6 4 memory card mode i/o card mode true ide mode pin no. signal name i/o signal name i/o signal name i/o 31 d15 i/o d15 i/o d15 i/o 32 -ce2 i -ce2 i -ce2 i 33 -vs1 o -vs1 o -vs1 o 34 -iord i -iord i -iord i 35 -iowr i -iowr i -iowr i 36 -we i -we i -we i 37 rdy/-bsy o -ireq o intrq o 38 vcc vcc vcc 39 -csel i -csel i -csel i 40 -vs2 o -vs2 o -vs2 o 41 reset i reset i -reset i 42 -wait o -wait o iordy o 43 -inpack o -inpack o -inpack o 44 -reg i -reg i -reg i 45 bvd2 i/o -spkr i/o -dasp i/o 46 bvd1 i/o -stschg i/o -pdiag i/o 47 d8 i/o d8 i/o d8 i/o 48 d9 i/o d9 i/o d9 i/o 49 d10 i/o d10 i/o d10 i/o 50 gnd gnd gnd hb28b512/448/320/256/192/128/064c6 5 card pin explanation signal name direction pin no. description a10 to a0 (pc card memory mode) i 8, 10, 11, 12, 14, 15, 16, 17, 18, 19, 20 address bus is a10 to a0. a10 is msb and a0 is lsb. a10 to a0 (pc card i/o mode) a2 to a0 (true ide mode) 18, 19, 20 address bus is a10 to a0. only a2 to a0 are used, a10 to a3 should be grounded by the host. bvd1 (pc card memory mode) i/o 46 bvd1 outputs the battery voltage status in the card. this output line is constantly driven to a high state since a battery is not required for this product. -stschg (pc card i/o mode) -stschg is used for changing the status of configuration and status register in attribute area. -pdiag (true ide mode) -pdiag is the pass diagnostic signal in master/slave handshake protocol. bvd2 (pc card memory mode) i/o 45 bvd2 outputs the battery voltage status in the card. this output line is constantly driven to a high state since a battery is not required for this product. -spkr (pc card i/o mode) -spkr outputs speaker signals. this output line is constantly driven to a high state since this product does not support the audio function. -dasp (true ide mode) -dasp is the disk active/slave present signal in the master/slave handshake protocol. -cd1, -cd2 (pc card memory mode) o 26, 25 -cd1 and -cd2 are the card detection signals. -cd1 and -cd2 are connected to ground in this card, so host can detect that the card is inserted or not. -cd1, -cd2 (pc card i/o mode) -cd1, -cd2 (true ide mode) -ce1, -ce2 (pc card memory mode) card enable i 7, 32 -ce1 and -ce2 are low active card select signals. byte/word/odd byte mode are defined by combination of -ce1, -ce2 and a0. -ce1, -ce2 (pc card i/o mode) card enable -ce1, -ce2 (true ide mode) -ce2 is used for select the alternate status register and the device control register while -ce1 is the chip select for the other task file registers. hb28b512/448/320/256/192/128/064c6 6 signal name direction pin no. description -csel (pc card memory mode) i 39 this signal is not used. -csel (pc card i/o mode) -csel (true ide mode) this signal is used to configure this device as a master or a slave when configured in the true ide mode. when this pin is grounded, this device is configured as a master. when the pin is open, this device is configured as a slave. d15 to d0 (pc card memory mode) i/o 31, 30, 29, 28, 27, 49, 48, 47, 6, 5, 4, 3, 2, 23, 22, 21 data bus is d15 to d0. d0 is the lsb of the even byte of the word. d8 is the lsb of the odd byte of the word. d15 to d0 (pc card i/o mode) d15 to d0 (true ide mode) gnd (pc card memory mode) 1, 50 ground gnd (pc card i/o mode) gnd (true ide mode) -inpack (pc card memory mode) o 43 this signal is not used and should not be connected at the host. -inpack (pc card i/o mode) input acknowledge this signal is asserted low by this card when the card is selected and responding to an i/o read cycle at the address that is on the address bus during -ce and -iord are low. this signal is used for the input data buffer control. -inpack (true ide mode) this signal is not used and should not be connected at the host. -iord (pc card memory mode) i 34 this signal is not used. -iord (pc card i/o mode) -iord is used for control of read data in i/o task file area. this card does not respond to -iord until i/o card interface setting up. -iord (true ide mode) -iord is used for control of read data in i/o task file area. this card does not respond to -iord until true ide interface setting up. hb28b512/448/320/256/192/128/064c6 7 signal name direction pin no. description -iowr (pc card memory mode) i 35 this signal is not used. -iowr (pc card i/o mode) -iowr is used for control of data write in i/o task file area. this card does not respond to -iowr until i/o card interface setting up. -iowr (true ide mode) -iowr is used for control of data write in i/o task file area. this card does not respond to -iowr until true ide interface setting up. -oe (pc card memory mode) i 9 -oe is used for the control of reading registers data in attribute area or task file area. -oe (pc card i/o mode) -oe is used for the control of reading registers data in attribute area. -atasel (true ide mode) to enable true ide mode this input should be grounded by the host. rdy/-bsy (pc card memory mode) o 37 the signal is rdy/-bsy pin. rdy/-bsy pin turns low level during the card internal initialization operation at vcc applied or reset applied, so next access to the card should be after the signal turned high level. -ireq (pc card i/o mode) this signal is active low -ireq pin. the signal of low level indicates that the card is requesting software service to host, and high level indicates that the card is not requesting. intrq (true ide mode) this signal is the active high interrupt request to the host. -reg (pc card memory mode) attribute memory select i 44 -reg is used during memory cycles to distinguish between task file and attribute memory accesses. high for task file, low for attribute memory is accessed. -reg (pc card i/o mode) -reg is constantly low when task file or attribute memory is accessed. -reg (true ide mode) this input signal is not used and should be connected to vcc. hb28b512/448/320/256/192/128/064c6 8 signal name direction pin no. description reset (pc card memory mode) i 41 this signal is active high reset pin. if this signal is asserted high, the card internal initialization begins to operate. during the card internal initialization rdy/-bsy is low. after the card internal initialization rdy/-bsy is high. reset (pc card i/o mode) this signal is active high reset pin. if this signal is asserted high, the card internal initialization begins to operate. in this mode, rdy/-bsy signal can not be used, so using status register the ready/busy status can be confirmed. -reset (true ide mode) this signal is active low -reset pin. if this signal is asserted low, all the registers in this card are reset. in this mode, rdy/-bsy signal can not be used, so using status register the ready/busy status can be confirmed. vcc (pc card memory mode) 13, 38 +5 v, +3.3 v power. vcc (pc card i/o mode) vcc (true ide mode) -vs1, -vs2 (pc card memory mode) o 33, 40 these signals are intended to notify vcc requirement to host. -vs1 is held grounded and -vs2 is nonconnected in this card. -vs1, -vs2 (pc card i/o mode) -vs1, -vs2 (true ide mode) -wait (pc card memory mode) o 42 this signal is active low -wait pin. in this card this signal is constantly high level. -wait (pc card i/o mode) iordy (true ide mode) this output signal may be used as iordy. in this card this signal is constantly high impedance. -we (pc card memory mode) i 36 -we is used for the control of writing registers data in attribute memory area or task file area. -we (pc card i/o mode) -we is used for the control of writing registers data in attribute memory area. -we (true ide mode) this input signal is not used and should be connected to vcc by the host. hb28b512/448/320/256/192/128/064c6 9 signal name direction pin no. description wp (pc card memory mode) write protect o 24 wp is held low because this card does not have write protect switch. -iois16 (pc card i/o mode) -iois16 is asserted when task file registers are accessed in 16-bit mode. -iois16 (true ide mode) this output signal is asserted low when this device is expecting a word data transfer cycle. initial mode is 16-bit. if the user issues a set feature command to put the device in byte access mode, the card permits 8-bit accesses. hb28b512/448/320/256/192/128/064c6 10 card block diagram v cc gnd a0 to a10 -ce1,-ce2 -oe/-atasel -we -iord -iowr -csel -reg reset/-reset d0 to d15 rdy/-bsy/-ireq/intrq wp/-iois16 -inpack bvd1/-stschg/-pdiag -wait/iordy -vs1 -vs2 bvd2/-spkr/-dasp -cd1 -cd2 open flash memory bus control signal reset ic x'tal internal v cc controller flash memory note: -ce1, -ce2, -oe, -we, -iord, -iowr, -reg, reset, -csel, -pdiag, -dasp pins are pulled up in card. -ce1, -ce2, -oe, -we, -iord, -iowr, -reg pins are schmitt trigger type input buffer. hb28b512/448/320/256/192/128/064c6 11 card function explanation register construction attribute region ? configuration register configuration option register configuration and status register pin replacement register socket and copy register ? cis ( c ard i nformation s tructure) task file region ? data register ? error register ? feature register ? sector count register ? sector number register ? cylinder low register ? cylinder high register ? drive head register ? status register ? alternate status register ? command register ? device control register ? drive address register hb28b512/448/320/256/192/128/064c6 12 host access specifications 1. attribute access specifications when cis-rom region or configuration register region is accessed, read and write operations are executed under the condition of -reg = "l" as follows. that region can be accessed by byte/word/odd-byte modes which are defined by pc card standard specifications. attribute read access mode mode -reg -ce2 -ce1 a0 -oe -we d8 to d15 d0 to d7 standby mode hh high-z high-z byte access (8-bit) l h lllh high-z even byte l h l h l h high-z invalid word access (16-bit) l l l l h invalid even byte odd byte access (8-bit) l l h l h invalid high-z note: : l or h attribute write access mode mode -reg -ce2 -ce1 a0 -oe -we d8 to d15 d0 to d7 standby mode hh dont care dont care byte access (8-bit) l h l l h l dont care even byte l h l h h l dont care dont care word access (16-bit) l l l h l dont care even byte odd byte access (8-bit) l l h h l dont care dont care note: : l or h attribute access timing example dout a0 to a10 -reg -ce2/-ce1 -oe -we d0 to d15 read cycle write cycle din hb28b512/448/320/256/192/128/064c6 13 2. task file register access specifications there are two cases of task file register mapping, one is mapped i/o address area, the other is mapped memory address area. each case of task file register read and write operations are executed under the condition as follows. that area can be accessed by byte/word/odd byte mode which are defined by pc card standard specifications. (1) i/o address map task file register read access mode (1) mode -reg -ce2 -ce1 a0 -iord -iowr -oe -we d8 to d15 d0 to d7 standby mode hh high-z high-z byte access (8-bit) l h l l l h h h high-z even byte l h l h l h h h high-z odd byte word access (16-bit) l l l l h h h odd byte even byte odd byte access (8-bit) l l h l h h h odd byte high-z note: : l or h task file register write access mode (1) mode -reg -ce2 -ce1 a0 -iord -iowr -oe -we d8 to d15 d0 to d7 standby mode hh dont care dont care byte access (8-bit) l h l l h l h h dont care even byte l h l h h l h h dont care odd byte word access (16-bit) l l l h l h h odd byte even byte odd byte access (8-bit) l l h h l h h odd byte dont care note: : l or h task file register access timing example (1) dout a0 to a10 -reg -ce2/-ce1 -iord - iowr d0 to d15 read cycle write cycle din hb28b512/448/320/256/192/128/064c6 14 (2) memory address map task file register read access mode (2) mode -reg -ce2 -ce1 a0 -oe -we -iord -iowr d8 to d15 d0 to d7 standby mode hh high-z high-z byte access (8-bit) h h l l l h h h high-z even byte h h l h l h h h high-z odd byte word access (16-bit) h l l l h h h odd byte even byte odd byte access (8-bit) h l h l h h h odd byte high-z note: : l or h task file register write access mode (2) mode -reg -ce2 -ce1 a0 -oe -we -iord -iowr d8 to d15 d0 to d7 standby mode hh dont care dont care byte access (8-bit) h h l l h l h h dont care even byte h h l h h l h h dont care odd byte word access (16-bit) h l l h l h h odd byte even byte odd byte access (8-bit) h l h h l h h odd byte dont care note: : l or h task file register access timing example (2) dout a0 to a10 -reg -ce2/-ce1 -oe -we d0 to d15 read cycle write cycle din hb28b512/448/320/256/192/128/064c6 15 3. true ide mode the card can be configured in a true ide mode of operation. this card is configured in this mode only when the -oe input signal is asserted gnd by the host. in this true ide mode attribute registers are not accessible from the host. only i/o operation to the task file and data register are allowed. if this card is configured during power on sequence, data register are accessed in word (16-bit). the card permits 8-bit accesses if the user issues a set feature command to put the device in 8-bit mode. true ide mode read i/o function mode -ce2 -ce1 a0 to a2 -iord -iowr d8 to d15 d0 to d7 invalid mode l l high-z high-z standby mode h h high-z high-z data register access h l0lh odd byte even byte alternate status access l h 6h l h high-z status out other task file access h l 1-7h l h high-z data note: : l or h true ide mode write i/o function mode -ce2 -ce1 a0 to a2 -iord -iowr d8 to d15 d0 to d7 invalid mode l l dont care dont care standby mode h h dont care dont care data register access h l 0 h l odd byte even byte control register access l h 6h h l dont care control in other task file access h l 1-7h h l dont care data note: : l or h true ide mode i/o access timing example dout a0 to a2 -ce -iord -iowr -iois16 d0 to d15 read cycle write cycle din hb28b512/448/320/256/192/128/064c6 16 configuration register specifications this card supports four configuration registers for the purpose of the configuration and observation of this card. these registers can be used in memory card mode and i/o card mode. in true ide mode, these registers can not be used. 1. configuration option register (address 200h) this register is used for the configuration of the card configuration status and for the issuing soft reset to the card. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 sreset levlreq index note: initial value: 00h name r/w function sreset (host->) r/w setting this bit to "1", places the card in the reset state (card hard reset). this operation is equal to hard reset, except this bit is not cleared. then this bit set to "0", places the card in the reset state of hard reset (this bit is set to "0" by hard reset) . card configuration status is reset and the card internal initialized operation starts when card hard reset is executed, so next access to the card should be the same sequence as the power on sequence. levlreq (host->) r/w this bit sets to "0" when pulse mode interrupt is selected, and "1" when level mode interrupt is selected. index (host->) r/w this bits is used for select operation mode of the card as follows. when power on, card hard reset and soft reset, this data is "000000" for the purpose of memory card interface recognition. index bit assignment index bit 5 4 3 2 1 0 card mode task file register address mapping mode 0 0 0 0 0 0 memory card 0h to fh, 400h to 7ffh memory mapped 0 0 0 0 0 1 i/o card xx0h to xxfh contiguous i/o mapped 0 0 0 0 1 0 i/o card 1f0h to 1f7h, 3f6h to 3f7h primary i/o mapped 0 0 0 0 1 1 i/o card 170h to 177h, 376h to 377h secondary i/o mapped hb28b512/448/320/256/192/128/064c6 17 2. configuration and status register (address 202h) this register is used for observing the card state. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 chged sigchg iois8 0 0 pwd intr 0 note: initial value: 00h name r/w function chged (card->) r this bit indicates that crdy/-bsy bit on pin replacement register is set to "1". when chged bit is set to "1", -stschg pin is held "l" at the condition of sigchg bit set to "1" and the card configured for the i/o interface. sigchg (host->) r/w this bit is set or reset by the host for enabling and disabling the status-change signal (- stschg pin). when the card is configured i/o card interface and this bit is set to "1", - stschg pin is controlled by chged bit. if this bit is set to "0", -stschg pin is kept "h". iois8 (host->) r/w the host sets this field to "1" when it can provide i/o cycles only with on 8-bit data bus (d7 to d0). pwd (host->) r/w when this bit is set to "1", the card enters sleep state (power down mode). when this bit is reset to "0", the card transfers to idle state (active mode). rrdy/-bsy bit on pin replacement register becomes busy when this bit is changed. rrdy/-bsy will not become ready until the power state requested has been entered. this card automatically powers down when it is idle, and powers back up when it receives a command. intr (card->) r this bit indicates the internal state of the interrupt request. this bit state is available whether i/o card interface has been configured or not. this signal remains true until the condition which caused the interrupt request has been serviced. if interrupts are disabled by the -ien bit in the device control register, this bit is a zero. hb28b512/448/320/256/192/128/064c6 18 3. pin replacement register (address 204h) this register is used for providing the signal state of -ireq signal when the card configured i/o card interface. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 0 0 crdy/-bsy 0 1 1 rrdy/-bsy 0 note: initial value: 0ch name r/w function crdy/-bsy (host->) r/w this bit is set to "1" when the rrdy/-bsy bit changes state. this bit may also be written by the host. rrdy/-bsy (host->) r/w when read, this bit indicates +ready pin states. when written, this bit is used for crdy/-bsy bit masking. 4. socket and copy register (address 206h) this register is used for identification of the card from the other cards. host can read and write this register. this register should be set by host before this card's configuration option register set. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 0 0 0 drv# 0 0 0 0 note: initial value: 00h name r/w function drv# (host->) r/w this fields are used for the configuration of the plural cards. when host configures the plural cards, written the cards copy number in this field. in this way, host can perform the cards master/slave organization. hb28b512/448/320/256/192/128/064c6 19 cis informations cis informations are defined as follows. by reading attribute address from "0000 h", card cis informations can be confirmed. address data 7 6 5 43210 description of contents cis function 000h 01h cistpl_device device info tuple tuple code 002h 04h tpl_link link length is 4 byte link to next tuple 004h dfh device type w p s device speed device type = dh: i/o device wps = 1: no wp device speed = 7: ext speed device type, wps, speed 006h 4ah ext speed mantissa speed exponent 400 ns if no wait extended speed 008h 01h 1x 2k units 2k byte of address space device size 00ah ffh list end marker end of device end marker 00ch 1ch cistpl_device_oc other conditions device info tuple tuple code 00eh 04h tpl_link link length is 4 bytes link to next tuple 010h 02h ext reserved v cc mwait 3 v, wait is not used other conditions info field 012h d9h device type w p s device speed device type = dh: i/o device wps = 1: no wp device speed = 1: 250 ns device type, wps, speed 014h 01h 1x 2k units 2k byte of address space device size 016h ffh list end marker end of device end marker 018h 18h cistpl_jedec_c jedec id common memory tuple code 01ah 02h tpl_link link length is 2 bytes link to next tuple 01ch dfh pcmcias manufacturers jedec id code manufacturers id code jedec id of pc card ata 01eh 01h pcmcia jedec device code 2nd byte of jedec id 020h 20h cistpl_manfid manufacturers id code tuple code 022h 04h tpl_link link length is 4 bytes link to next tuple 024h 07h low byte of pcmcia manufacturers code hitachi jedec manufacturers id low byte of manufacturers id code 026h 00h high byte of pcmcia manufacturers code code of 0 because other byte is jedec 1 byte manufactures id high byte of manufacturers id code 028h 00h low byte of product code hitachi code for pc card ata low byte of product code 02ah 00h high byte of product code high byte of product code hb28b512/448/320/256/192/128/064c6 20 address data 7 6 5 43210 description of contents cis function 02ch 15h cistpl_vers_1 level 1 version/product info tuple code 02eh 15h tpl_link link length is 15h bytes link to next tuple 030h 04h tpplv1_major pcmcia2.0/jeida4.1 major version 032h 01h tpplv1_minor pcmcia2.0/jeida4.1 minor version 034h 48h h info string 1 036h 49h i 038h 54h t 03ah 41h a 03ch 43h c 03eh 48h h 040h 49h i 042h 00h null terminator 044h 46h f info string 2 046h 4ch l 048h 41h a 04ah 53h s 04ch 48h h 04eh 00h null terminator 050h 35h 5 vender specific strings 052h 2eh . 054h 30h 0 056h 00h null terminator 058h ffh list end marker end of device end marker 05ah 21h cistpl_funcid function id tuple tuple code 05ch 02h tpl_link link length is 2 bytes link to next tuple 05eh 04h tplfid_function = 04h disk function, may be silicon, may be removable pc card function code 060h 01h reserved r p r = 0: no bios rom p = 1: configure card at power on system initialization byte hb28b512/448/320/256/192/128/064c6 21 address data 7 6 5 43210 description of contents cis function 062h 22h cistpl_funce function extension tuple tuple code 064h 02h tpl_link link length is 2 bytes link to next tuple 066h 01h disk function extension tuple type disk interface type extension tuple type for disk 068h 01h disk interface type pc card ata interface interface type 06ah 22h cistpl_funce function extension tuple tuple code 06ch 03h tpl_link link length is 3 bytes link to next tuple 06eh 02h disk function extension tuple type single drive extension tuple type for disk 070h 0ch reserved d u s v no v pp , silicon, single drive v = 0: no v pp required s = 1: silicon u = 1: unique serial # d = 0: single drive on card basic ata option parameters byte 1 072h 0fh r i e n p3 p2 p1 p0 p0: sleep mode supported p1: standby mode supported p2: idle mode suppported p3: drive auto power control n: some config excludes 3x7 e: index bit is emulated i: twin iois16# data reg only r: reserved basic ata option parameters byte 2 074h 1ah cistpl_config configuration tuple tuple code 076h 05h tpl_link link length is 5 bytes link to next tuple 078h 01h rfs rms ras rfs: reserved rms: tpcc_rmsk si ze - 1 = 0 ras: tpcc_radr si ze - 1 = 1 1 byte register mask 2 byte config base address size of fields byte tpcc_sz 07ah 03h tpcc_last entry with config index of 03h is final entry in table last entry of config registers 07ch 00h tpcc_radr (lsb) configuration registers are located at 200h in reg space location of config registers 07eh 02h tpcc_radr (msb) 080h 0fh reserved s p c i i: configuration index c: configuration and status p: pin replacement s: socket and copy configuration registers present mask tpcc_rmsk hb28b512/448/320/256/192/128/064c6 22 address data 7 6 5 43210 description of contents cis function 082h 1bh cistpl_cftable_entry configuration table entry tuple tuple code 084h 08h tpl_link link length is 8 bytes link to next tuple 086h c0h i d configuration index memory mapped i/o configuration i = 1: interface byte follows d = 1: default entry configuration index = 0 configuration table index byte tpce_indx 088h 40h w r p b interface type w = 0: wait not used r = 1: ready active p = 0: wp not used b = 0: bvd1 and bvd2 not used if type = 0: memory interface interface description field tpce_if 08ah a1h m ms ir io t p m = 1: misc info present ms = 01: memory space info single 2-byte length ir = 0: no interrupt info present io = 0: no i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 08ch 01h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 08eh 55h x mantissa exponent nominal voltage = 5 v v cc nominal value 090h 08h length in 256 bytes pages (lsb) length of memory space is 2 kb memory space description structures (tpce_ms) 092h 00h length in 256 bytes pages (msb) 094h 20h x r p ro a t x = 0: no more misc fields r: reserved p = 1: power down supported ro = 0: not read only mode a = 0: audio not supported t = 0: single drive miscellaneous features field tpce_mi hb28b512/448/320/256/192/128/064c6 23 address data 7 6 5 43210 description of contents cis function 096h 1bh cistpl_cftable_entry configuration table entry tuple tuple code 098h 06h tpl_link link length is 6 bytes link to next tuple 09ah 00h i d configuration index memory mapped i/o configuration i = 0: no interface byte d = 0: no default entry configuration index = 0 configuration table index byte tpce_indx 09ch 01h m ms ir io t p m = 0: no misc info ms = 00: no memory space info ir = 0: no interrupt info present io = 0: no i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 09eh 21h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 0a0h b5h x mantissa exponent nominal voltage = 3.0 v v cc nominal value 0a2h 1eh x extension +0.3 v extension byte 0a4h 4dh x mantissa exponent max average current over 10 msec is 45 ma max. average current hb28b512/448/320/256/192/128/064c6 24 address data 7 6 5 43210 description of contents cis function 0a6h 1bh cistpl_cftable_entry configuration table entry tuple tuple code 0a8h 0ah tpl_link link length is 10 bytes link to next tuple 0aah c1h i d configuration index contiguous i/o mapped ata registers configuration i = 1: interface byte follows d = 1: default entry configuration index = 1 configuration table index byte tpce_indx 0ach 41h w r p b interface type w = 0: wait not used r = 1: ready active p = 0: wp not used b = 0: bvs1 and bvd2 not used if type = 1: i/o interface interface description field tpce_if 0aeh 99h m ms ir io t p m = 1: misc info present ms = 00: no memory space info ir = 1: interrupt info present io = 1: i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 0b0h 01h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 0b2h 55h x mantissa exponent nominal voltage = 5 v v cc nominal value 0b4h 64h r s e io addrline s = 1: 16-bit hosts supported e = 1: 8-bit hosts supported io addrline: 4 lines decoded i/o space description field tpce_io 0b6h f0h s p l m v b i n s = 1: share logic active p = 1: pulse mode irq supported l = 1: level mode irq supported m = 1: bit mask of irqs present v = 0: no vender unique irq b = 0: no bus error irq i = 0: no io check irq n = 0: no nmi interrupt request description structure tpce_ir hb28b512/448/320/256/192/128/064c6 25 address data 7 6 5 43210 description of contents cis function 0b8h ffh irq 7 ir q 6 ir q 5 ir q 4 ir q 3 ir q 2 ir q 1 irq0 irq level to be routed 0 to 15 recommended mask extension byte 1 tpce_ir 0bah ffh irq 15 ir q 14 ir q 13 ir q 12 ir q 11 ir q 10 ir q 9 irq8 recommended routing to any normal, maskable irq. maskextension byte 2 tpce_ir 0bch 20h x r p ro a t x = 0: nomore misc fields r: reserved p = 1: power down supported ro = 0: not read only mode a = 0: audio not supported t = 0: single drive miscellaneous features field tpce_mi hb28b512/448/320/256/192/128/064c6 26 address data 7 6 5 43210 description of contents cis function 0beh 1bh cistpl_cftable_entry configuration table entry tuple tuple code 0c0h 06h tpl_link link length is 6 bytes link to next tuple 0c2h 01h i d configuration index contiguous i/o mapped ata registers configuration i = 0: no interface byte d = 0: no default entry configuration index = 1 configuration table index byte tpce_indx 0c4h 01h m ms ir io t p m = 0: no misc info ms = 00: no memory space info ir = 0: no interrupt info present io = 0: no i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 0c6h 21h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 0c8h b5h x mantissa exponent nominal voltage = 3.0 v v cc nominal value 0cah 1eh x extension +0.3 v extension byte 0cch 4dh x mantissa exponent max average current over 10 msec is 45 ma max. average current hb28b512/448/320/256/192/128/064c6 27 address data 7 6 5 43210 description of contents cis function 0ceh 1bh cistpl_cftable_entry configuration table entry tuple tuple code 0d0h 0fh tpl_link link length is 15 bytes link to next tuple 0d2h c2h i d configuration index ata primary i/o mapped configuration i = 1: interface byte follows d = 1: default entry follows configuration index = 2 configuration table index byte tpce_indx 0d4h 41h w r p b interface type w = 0: wait not used r = 1: ready active p = 0: wp not used b = 0: bvs1 and bvd2 not used if type = 1: i/o interface interface description field tpce_if 0d6h 99h m ms ir io t p m = 1: misc info present ms = 00: no memory space info ir = 1: interrupt info present io = 1: i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 0d8h 01h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 0dah 55h x mantissa exponent nominal voltage = 5 v v cc nominal value 0dch eah r s e io addrline r = 1: range follows s = 1: 16-bit hosts supported e = 1: 8-bit hosts supported io addrlines: 10 lines decoded i/o space description field tpce_io 0deh 61h ls as n range ls = 1: size of lengths is 1 byte as = 2: size of address is 2 bytes n range = 1: address r an ge - 1 i/o range format description hb28b512/448/320/256/192/128/064c6 28 address data 7 6 5 43210 description of contents cis function 0e0h f0h 1st i/o base address (lsb) 1st i/o range address 0e2h 01h 1st i/o base address (msb) 0e4h 07h 1st i/o length - 1 1st i/o range length 0e6h f6h 2nd i/o base address (lsb) 2nd i/o range address 0e8h 03h 2nd i/o base address (msb) 0eah 01h 2nd i/o length - 1 2nd i/o range length 0ech eeh s p l m irq level s = 1: share logic active p = 1: pulse mode irq supported l = 1: level mode irq supported m = 0: bit mask of irqs present irq level is irq14 interrupt request description structure tpce_ir 0eeh 20h x r p ro a t x = 0: nomore misc fields r: reserved p = 1: power down supported ro = 0: not read only mode a = 0: audio not supported t = 0: single drive miscellaneous features field tpce_mi hb28b512/448/320/256/192/128/064c6 29 address data 7 6 5 43210 description of contents cis function 0f0h 1bh cistpl_cftable_entry configuration table entry tuple tuple code 0f2h 06h tpl_link link length is 6 bytes link to next tuple 0f4h 02h i d configuration index ata primary i/o mapped configuration i = 0: no interface byte d = 0: no default entry configuration index = 2 configuration table index byte tpce_indx 0f6h 01h m ms ir io t p m = 0: no misc info ms = 00: no memory space info ir = 0: no interrupt info present io = 0: no i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 0f8h 21h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 0fah b5h x mantissa exponent nominal voltage = 3.0 v v cc nominal value 0fch 1eh x extension +0.3 v extension byte 0feh 4dh x mantissa exponent max average current over 10 msec is 45 ma max. average current hb28b512/448/320/256/192/128/064c6 30 address data 7 6 5 43210 description of contents cis function 100h 1bh cistpl_cftable_entry configuration table entry tuple tuple code 102h 0fh tpl_link link length is 15 bytes link to next tuple 104h c3h i d configuration index ata secondary i/o mapped configuration i = 1: interface byte follows d = 1: default entry configuration index = 3 configuration table index byte tpce_indx 106h 41h w r p b interface type w = 0: wait not used r = 1: ready active p = 0: wp not used b = 0: bvs1 and bvd2 not used if type = 1: i/o interface interface description field tpce_if 108h 99h m ms ir io t p m = 1: misc info present ms = 00: no memory space info ir = 1: interrupt info present io = 1: i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 10ah 01h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 10ch 55h x mantissa exponent nominal voltage = 5 v v cc nominal value 10eh eah r s e io addrline r = 1: range follows s = 1: 16-bit hosts supported e = 1: 8-bit hosts supported io addrlines: 10 lines decoded i/o space description field tpce_io 110h 61h ls as n range ls = 1: size of lengths is 1 byte as = 2: size of address is 2 bytes n range = 1: address r an ge - 1 i/o range format description hb28b512/448/320/256/192/128/064c6 31 address data 7 6 5 43210 description of contents cis function 112h 70h 1st i/o base address (lsb) 1st i/o range address 114h 01h 1st i/o base address (msb) 116h 07h 1st i/o length - 1 1st i/o range length 118h 76h 2nd i/o base address (lsb) 2nd i/o range address 11ah 03h 2nd i/o base address (msb) 11ch 01h 2nd i/o length - 1 2nd i/o range length 11eh eeh s p l m irq level s = 1: share logic active p = 1: pulse mode irq supported l = 1: level mode irq supported m = 0: bit mask of irqs present irq level is irq14 interrupt request description structure tpce_ir 120h 20h x r p ro a t x = 0: nomore misc fields r: reserved p = 1: power down supported ro = 0: not read only mode a = 0: audio not supported t = 0: single drive miscellaneous features field tpce_mi hb28b512/448/320/256/192/128/064c6 32 address data 7 6 5 43210 description of contents cis function 122h 1bh cistpl_cftable_entry configuration table entry tuple tuple code 124h 06h tpl_link link length is 6 bytes link to next tuple 126h 03h i d configuration index ata secondary i/o mapped configuration i = 0: no interface byte d = 0: no default entry configuration index = 3 configuration table index byte tpce_indx 128h 01h m ms ir io t p m = 0: no misc info ms = 00: no memory space info ir = 0: no interrupt info present io = 0: no i/o port info present t = 0: no timing info present p = 1: v cc only info feature selection byte tpce_fs 12ah 21h r di pi ai si hv lv nv nominal voltage only follows r: reserved di: power down current info pi: peak current info ai: average current info si: static current info hv: max voltage info lv: min voltage info nv: nominal voltage info power parameters for v cc 12ch b5h x mantissa exponent nominal voltage = 3.0 v v cc nominal value 12eh 1eh x extension +0.3 v extension byte 130h 4dh x mantissa exponent max average current over 10 msec is 45 ma max. average current 132h 14h cistpl_no_link no link control tuple tuple code 134h 00h link is 0 bytes link to next tuple 136h ffh cistpl_end end of list tuple tuple code hb28b512/448/320/256/192/128/064c6 33 task file register specification these registers are used for reading and writing the storage data in this card. these registers are mapped five types by the configuration of index in configuration option register. the decoded addresses are shown as follows. memory map (index = 0) -reg a10 a9 to a4 a3 a2 a1 a0 offset -oe = l -we = l 10 0 0 0 0 0h data register data register 10 0 0 0 1 1h error register feature register 10 0 0 1 0 2h sector count register sector count register 10 0 0 1 1 3h sector number register sector number register 10 0 1 0 0 4h cylinder low register cylinder low register 10 0 1 0 1 5h cylinder high register cylinder high register 10 0 1 1 0 6h drive head register drive head register 10 0 1 1 1 7h status register command register 10 1 0 0 0 8h dup. even data register dup. even data register 10 1 0 0 1 9h dup. odd data register dup. odd data register 10 1 1 0 1 dh dup. error register dup. feature register 10 1 1 1 0 eh alt. status register device control register 10 1 1 1 1 fh drive address register reserved 11 0 8h even data register even data register 11 1 9h odd data register odd data register hb28b512/448/320/256/192/128/064c6 34 contiguous i/o map (index = 1) -reg a10 to a4 a3 a2 a1 a0 offset -iord = l -iowr = l 0 00000h data register data register 0 00011h error register feature register 0 00102h sector count register sector count register 0 00113h sector number register sector number register 0 01004h cylinder low register cylinder low register 0 01015h cylinder high register cylinder high register 0 01106h drive head register drive head register 0 01117h status register command register 0 10008h dup. even data register dup. even data register 0 10019h dup. odd data register dup. odd data register 0 1101dh dup. error register dup. feature register 0 1110eh alt. status register device control register 0 1111fh drive address register reserved primary i/o map (index = 2) -reg a10 a9 to a4 a3 a2 a1 a0 -iord = l -iowr = l 0 1fh 0000 data register data register 0 1fh 0001 error register feature register 0 1fh 0010 sector count register sector count register 0 1fh 0011 sector number register sector number register 0 1fh 0100 cylinder low register cylinder low register 0 1fh 0101 cylinder high register cylinder high register 0 1fh 0110 drive head register drive head register 0 1fh 0111 status register command register 0 3fh 0110 alt. status register device control register 0 3fh 0111 drive address register reserved hb28b512/448/320/256/192/128/064c6 35 secondary i/o map (index = 3) -reg a10 a9 to a4 a3 a2 a1 a0 -iord = l -iowr = l 0 17h 0000 data register data register 0 17h 0001 error register feature register 0 17h 0010 sector count register sector count register 0 17h 0011 sector number register sector number register 0 17h 0100 cylinder low register cylinder low register 0 17h 0101 cylinder high register cylinder high register 0 17h 0110 drive head register drive head register 0 17h 0111 status register command register 0 37h 0110 alt. status register device control register 0 37h 0111 drive address register reserved true ide mode i/o map -ce2 -ce1 a2 a1 a0 -iord = l -iowr = l 1 0 0 0 0 data register data register 1 0 0 0 1 error register feature register 1 0 0 1 0 sector count register sector count register 1 0 0 1 1 sector number register sector number register 1 0 1 0 0 cylinder low register cylinder low register 1 0 1 0 1 cylinder high register cylinder high register 1 0 1 1 0 drive head register drive head register 1 0 1 1 1 status register command register 0 1 1 1 0 alt. status register device control register 0 1 1 1 1 drive address register reserved hb28b512/448/320/256/192/128/064c6 36 1. data register: this register is a 16-bit register that has read/write ability, and it is used for transferring 1 sector data between the card and the host. this register can be accessed in word mode and byte mode. this register overlaps the error or feature register. bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 d0 to d15 2. error register: this register is a read only register, and it is used for analyzing the error content at the card accessing. this register is valid when the bsy bit in status register and alternate status register are set to "0" (ready). bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 bbk unc 0 idnf 0 abrt 0 amnf bit name function 7 bbk (bad block detected) this bit is set when a bad block is detected in requested id field. 6 unc (data ecc error) this bit is set when uncorrectable error is occurred at reading the card. 4 idnf (id not found) the requested sector id is in error or cannot be found. 2 abrt (aborted command) this bit is set if the command has been aborted because of the card status condition. (not ready, write fault, invalid command, etc.) 0 amnf (address mark not found) this bit is set in case of a general error. 3. feature register: this register is a write only register, and provides information regarding features of the drive which the host wishes to utilize. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 feature byte 4. sector count register: this register contains the numbers of sectors of data requested to be transferred on a read or write operation between the host and the card. if the value of this register is zero, a count of 256 sectors is specified. in plural sector transfer, if not successfully completed, the register contains the number of sectors which need to be transferred in order to complete the request. this register's initial value is "01h". bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 sector count byte hb28b512/448/320/256/192/128/064c6 37 5. sector number register: this register contains the starting sector number which is started by following sector transfer command. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 sector number byte 6. cylinder low register: this register contains the low 8-bit of the starting cylinder address which is started by following sector transfer command. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 cylinder low byte 7. cylinder high register: this register contains the high 8-bit of the starting cylinder address which is started by following sector transfer command. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 cylinder high byte 8. drive head register: this register is used for selecting the drive number and head number for the following command. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 1 lba 1 drv head number note: drv: drive number head number: head number bit name function 7 1 this bit is set to "1". 6 lba lba is a flag to select either cylinder / head / sector (chs) or logical block address (lba) mode. when lba = 0, chs mode is selected. when lba = 1, lba mode is selected. in lba mode, the logical block address is interrupted as follows: lba07 - lba00: sector number register d7 - d0. lba15 - lba08: cylinder low register d7 - d0. lba23 - lba16: cylinder high register d7 - d0. lba27 - lba24: drive / head register bits hs3 - hs0. 5 1 this bit is set to "1". 4 drv (drive select) this bit is used for selecting the master (card 0) and slave (card 1) in master/slave organization. the card is set to be card 0 or 1 by using drv# of the socket and copy register. 3 to 0 head number this bit is used for selecting the head number for the following command. bit 3 is msb. hb28b512/448/320/256/192/128/064c6 38 9. status register: this register is read only register, and it indicates the card status of command execution. when this register is read in configured i/o card mode (index = 1, 2, 3) and level interrupt mode, -ireq is negated. this register should be accessed in byte mode. in word mode, it is recommended that alternate status register may be used as this register. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 bsy drdy dwf dsc drq corr idx err bit name function 7 bsy (busy) this bit is set when the card internal operation is executing. when this bit is set to "1", other bits in this register are invalid. 6 drdy (drive ready) if this bit and dsc bit are set to "1", the card is capable of receiving the read or write or seek requests. if this bit is set to "0", the card prohibits these requests. 5 dwf (drive write fault) this bit is set if this card indicates the write fault status. 4 dsc (drive seek complete) this bit is set when the drive seek complete. 3 drq (data request) this bit is set when the information can be transferred between the host and data register. this bit is cleared when the card receives the other command. 2 corr (corrected data) this bit is set when a correctable data error has been occurred and the data has been corrected. 1 idx (index) this bit is always set to "0". 0 err (error) this bit is set when the previous command has ended in some type of error. the error information is set in the other status register or error register. this bit is cleared by the next command. 10. alternate status register: this register is the same as status register in physically, so the bit assignment refers to previous item of status register. but this register is different from status register that -ireq is not negated when data read. 11. command register: this register is write only register, and it is used for writing the command at executing the drive operation. the command code written in the command register, after the parameter is written in the task file during the card is ready state. hb28b512/448/320/256/192/128/064c6 39 used parameter command command code fr sc sn cy dr hd lba check power mode e5h or 98h n n n n y n n execute drive diagnostic 90h n n n n y n n erase sector c0h n y y y y y y format track 50h n y n y y y y identify drive ech n n n n y n n idle e3h or 97h n y n n y n n idle immediate e1h or 95h n n n n y n n initialize drive parameters 91h n y n n y y n read buffer e4h n n n n y n n read multiple c4h n y y y y y y read long sector 22h or 23h n n y y y y y read sector 20h or 21h n y y y y y y read verify sector 40h or 41h n y y y y y y recalibrate 1xh n n n n y n n request sense 03h n n n n y n n seek 7xh n n y y y y y set features efh y n n n y n n set multiple mode c6h n y n n y n n set sleep mode e6h or 99h n n n n y n n stand by e2h or 96h n n n n y n n stand by immediate e0h or 94h n n n n y n n translate sector 87h n y y y y y y wear level f5h n n n n y y n write buffer e8h n n n n y n n write long sector 32h or 33h n n y y y y y write multiple c5h n y y y y y y write multiple w/o erase cdh n y y y y y y write sector 30h or 31h n y y y y y y write sector w/o erase 38h n y y y y y y write verify 3ch n y y y y y y hb28b512/448/320/256/192/128/064c6 40 note: fr: feature register sc: sector count register sn: sector number register cy: cylinder register dr: drv bit of drive head register hd: head number of drive head register lba: logical block address mode supported y: the register contains a valid parameter for this command. n: the register does not contain a valid parameter for this command. hb28b512/448/320/256/192/128/064c6 41 12. device control register: this register is write only register, and it is used for controlling the card interrupt request and issuing an ata soft reset to the card. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 1 srst nien 0 bit name function 7 to 4 don't care 3 1 this bit is set to "1". 2 srst (software reset) this bit is set to "1" in order to force the card to perform task file reset operation. this does not change the card configuration registers as a hardware reset does. the card remains in reset until this bit is reset to "0". 1 nien (interrupt enable) this bit is used for enabling -ireq. when this bit is set to "0", -ireq is enabled. when this bit is set to "1", -ireq is disabled. 0 0 this bit is set to "0". 13. drive address register: this register is read only register, and it is used for confirming the drive status. this register is provides for compatibility with the at disk drive interface. it is recommended that this register is not mapped into the hosts i/o space because of potential conflicts on bit7. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 nwtg nhs3 nhs2 nhs1 nhs0 nds1 nds0 bit name function 7 this bit is unknown. 6 nwtg (writing gate) this bit is unknown. 5 to 2 nhs3-0 (head select3-0) these bits is the negative value of head select bits (bit 3 to 0) in drive/head register. 1 nds1 (idrive select1) this bit is unknown. 0 nds0 (idrive select0) this bit is unknown. hb28b512/448/320/256/192/128/064c6 42 ata command specifications this table summarizes the ata command set with the paragraphs. following shows the support commands and command codes which are written in command registers. ata command set no. command set code fr sc sn cy dr hd lba 1 check power mode e5h or 98h y 2 execute drive diagnostic 90h y 3 erase sector(s) c0h y y y y y y 4 format track 50h y y y y y 5 identify drive ech y 6 idle e3h or 97h y y 7 idle immediate e1h or 95h y 8 initialize drive parameters 91h y y y 9 read buffer e4h y 10 read multiple c4h y y y y y y 11 read long sector 22h, 23h y y y y y 12 read sector (s) 20h, 21h y y y y y y 13 read verify sector (s) 40h, 41h y y y y y y 14 recalibrate 1xh y 15 request sense 03h y 16 seek 7xh y y y y y 17 set features efh y y 18 set multiple mode c6h y y 19 set sleep mode e6h or 99h y 20 stand by e2h or 96h y 21 stand by immediate e0h or 94h y 22 translate sector 87h y y y y y y 23 wear level f5h y y 24 write buffer e8h y 25 write long sector 32h or 33h y y y y y 26 write multiple c5h y y y y y y 27 write multiple w/o erase cdh y y y y y y 28 write sector 30h or 31h y y y y y y 29 write sector(s) w/o erase 38h y y y y y y 30 write verify 3ch y y y y y y hb28b512/448/320/256/192/128/064c6 43 note: fr: feature register sc: sector count register (00h to ffh) sn: sector number register (01h to 20h) cy: cylinder low/high register (to) dr: drive bit of drive/head register hd: head no.(0 to 3) of drive/head register nh: no. of heads y: set up : not set up 1. check power mode (code: e5h or 98h): this command checks the power mode. 2. execute drive diagnostic (code: 90h): this command performs the internal diagnostic tests implemented by the card. 3. erase sector(s) (code: c0h): this command is used to erase data sectors. 4. format track (code: 50h): this command writes the desired head and cylinder of the selected drive. but selected sector data is not exchange. this card excepts a sector buffer of data from the host to follow the command with same protocol as the write sector command. 5. identify drive (code: ech): this command enables the host to receive parameter information from the card. hb28b512/448/320/256/192/128/064c6 44 identify drive information word address default value total bytes data field type information 0 848ah 2 general configuration bit-significant information 1 xxxx 2 default number of cylinders 2 0000h 2 reserved 3 00xxh 2 default number of heads 4 0000h 2 number of unformatted bytes per track 5 xxxx 2 number of unformatted bytes per sector 6 xxxx 2 default number of sectors per track 7 to 8 xxxx 4 number of sectors per card (word7 = msw, word8 = lsw ) 9 0000h 2 reserved 10 to 19 xxxx 20 reserved 20 0002h 2 buffer type (dual ported) 21 0002h 2 buffer size in 512 byte increments 22 0004h 2 # of ecc bytes passed on read/write long commands 23 to 46 xxxx 48 firmware revision in ascii etc. 47 0001h 2 maximum of 1 sector on read/write multiple command 48 0000h 2 double word not supported 49 0200h 2 capabilities: dma not supported (bit8), lba supported (bit9) 50 0000h 2 reserved 51 0100h 2 pio data transfer cycle timing mode 1 52 0000h 2 dma data transfer cycle timing mode not supported 53 to 58 xxxx 12 reserved 59 010xh 2 multiple sector setting is valid 60 to 61 xxxx 4 total number of sectors addressable in lba mode 62 to 255 0000h 388 reserved 6. idle (code: e3h or 97h): this command causes the pc card to set bsy, enter the idle mode, clear bsy and generate an interrupt. if sector count is non-zero, the automatic power down mode is enabled. if the sector count is zero, the automatic power down mode is disabled . 7. idle immediate (code: e1h or 95h): this command causes the card to set bsy, enter the idle (read) mode, clear bsy and generate an interrupt. 8. initialize drive parameters (code: 91h): this command enables the host to set the number of sectors per track and the number of heads per cylinder. 9. read buffer (code: e4h): this command enables the host to read the current contents of the pc card's sector buffer. hb28b512/448/320/256/192/128/064c6 45 10. read multiple (code: c4h): this command performs similarly to the read sectors command. interrupts are not generated on each sector, but on the transfer of a block which contains the number of sectors defined by a set multiple command. 11. read long sector (code: 22h or 23h): this command performs similarly to the read sector(s) command except that it returns 516 bytes of data instead of 512 bytes. 12. read sector(s) (code: 20h, 21h): this command reads from 1 to 256 sectors as specified in the sector count register. a sector count of 0 requests 256 sectors. the transfer begins at the sector specified in the sector number register. 13. read verify sector(s) (code: 40h or 41h): this command is identical to the read sectors command, except that drq is never set and no data is transferred to the host . 14. recalibrate (code: 1xh): this command is effectively a nop command to the card and is provided for compatibility purposes. 15. request sense (code: 03h): this command requests an extended error code after command ends with an error. 16. seek (code: 7xh): this command is effectively a nop command to the card although it does perform a range check. 17. set features (code: efh): this command is used by the host to establish or select certain features. feature operation 01h enable 8-bit data transfers. 55h disable read look ahead. 66h disable power on reset(por) establishment of defaults at soft reset. 81h disable 8-bit data transfer. bbh 4bytes of data apply on read/write long commands. cch enable power on reset(por) establishment of default at soft reset. 18. set multiple mode (code: c6h): this command enables the card to perform read and write multiple operations and establishes the block count for these commands. 19. set sleep mode (code: e6h or 99h): this command causes the card to set bsy, enter the sleep mode, clear bsy and generate an interrupt. 20. stand by (code: e2h or 96h): this command causes the card to set bsy, enter the sleep mode (which corresponds to the ata "standby" mode), clear bsy and return the interrupt immediately. 21. stand by immediate (code: e0h or 94h): this command causes the card to set bsy, enter the sleep mode(which corresponds to the ata "standby" mode), clear bsy and return the interrupt immediately. hb28b512/448/320/256/192/128/064c6 46 22. translate sector (code: 87h): this card does not support by this command the function of determining the exact number of times a user sector has been erased and programmed because this card always responds with 00h, though this command could provide information containing the desired cylinder, head and sector, including its logical address, etc. 23. wear level (code: f5h): this command is effectively a nop command and only implemented for backward compatibility. the sector count register will always be returned with an 00h indicating wear level is not needed. 24. write buffer (code: e8h): this command enables the host to overwrite contents of the card's sector buffer with any data pattern desired. 25. write long sector (code: 32h or 33h): this command is provided for compatibility purposes and is similar to the write sector(s) command except that it writes 516 bytes instead of 512 bytes. 26. write multiple (code: c5h): this command is similar to the write sectors command. interrupts are not presented on each sector, but on the transfer of a block which contains the number of sectors defined by set multiple command. 27. write multiple without erase (code: cdh): this command is similar to the write multiple command with the exception that an implied erase before write operation is not performed. 28. write sector(s) (code: 30h or 31h): this command writes from 1 to 256 sectors as specified in the sector count register. a sector count of zero requests 256 sectors. the transfer begins at the sector specified in the sector number register. 29. write sector(s) without erase (code: 38h): this command is similar to the write sector(s) command with the exception that an implied erase before write operation is not performed. 30. write verify (code: 3ch): this command is similar to the write sector(s) command, except each sector is verified immediately after being written. hb28b512/448/320/256/192/128/064c6 47 sector transfer protocol 1. sector read: 1 sector read procedure after the card configured i/o interface is shown as follows. start set the cylinder low / high register set the head no. of drive head register set the sector number register set "01h" in sector count register set "20h" in command register read the status register "58h"? read 256 times the data register (512 bytes) read the status register "50h"? wait the command input i/o access, index=1 (2) (3) (4)burst data transfer (5) y y n n (1)set the logical sector number hb28b512/448/320/256/192/128/064c6 48 a0 to a10 -ce1 -ce2 -iowr -iord d0 to d15 -ireq (1) (2) (3) (4) (5) 4h 5h 6h 3h 2h 7h 7h 7h 0h 0h 7h 7h 01h20h 80h 58h 50h 80h data transfer hb28b512/448/320/256/192/128/064c6 49 2. sector write: 1 sector write procedure after the card configured i/o interface is shown as follows. start set the cylinder low / high register set the head no. of drive head register set the sector number register set "01h" in sector count register set "30h" in command register read the status register "58h"? write 256 times the data register (512 bytes) read the status register "50h"? wait the command input i/o access, index=1 (2) (3) (4) burst data transfer (5) y y n n (1) set the logical sector number hb28b512/448/320/256/192/128/064c6 50 a0 to a10 -ce1 -ce2 -iowr -iord d0 to d15 -ireq (1) (2) (3) (4) (5) 4h 5h 6h 3h 2h 7h 7h 7h 0h 0h 7h 7h 01h30h 80h 58h 50h 80h data transfer hb28b512/448/320/256/192/128/064c6 51 absolute maximum ratings parameter symbol value unit note all input/output voltages vin, vout C0.3 to v cc + 0.3 v 1 v cc voltage v cc C0.3 to +6.5 v operating temperature range topr 0 to +60 c storage temperature range tstg C20 to +65 c note: 1. vin, vout min = C2.0 v for pulse width 20 ns. recommended operating conditions parameter symbol min typ max unit operating temperature ta 0 25 60 ?c v cc voltage v cc 4.5 5.0 5.5 v 3.15 3.3 3.45 v capacitance (ta = 25?c, f = 1mhz) parameter symbol min typ max unit test conditions input capacitance cin 35 pf vin = 0 v output capacitance cout 35 pf vout = 0 v system performance item performance set up times (reset to ready) 100 ms (max) set up times (sleep to idle) 2 ms (max) data transfer rate to/from host 8 mb/s burst controller overhead (command to drq) 2 ms (max) data transfer cycle end to ready (sector write) 2 ms (typ) hb28b512/448/320/256/192/128/064c6 52 dc characteristics-1 (ta = 0 to +60?c, v cc = 5 v 10%, 3.3 v 5%) parameter symbol min typ max unit test conditions note input leakage current i li 1 a vin = gnd to v cc 1 output voltage v ol 0.4 v i ol = 8 ma v oh v cc C 0.8 v i oh = C8 ma note: 1. except pulled up input pin. 3.3 v 5 v parameter symbol min typ max min typ max unit test conditions input voltage (cmos) v il 0.6 0.8 v v ih 2.4 4.0 v input voltage (schmitt trigger) v il 1.0 2.0 v v ih 1.8 2.8 v dc characteristics-2 (ta = 0 to +60?c, v cc = 5.0 v 10%) 64mb/ 128mb/ 192mb/ 256mb 320mb/ 448mb/ 512mb parameter symbol typ max typ max unit test conditions sleep/standby current i sp1 0.5 1.0 0.7 1.5 ma cmos level (control signal = v cc C 0.2 v) (in memory card mode and i/o card mode) sector read current i ccr (dc) 40 75 40 75 ma cmos level (control signal = v cc C 0.2 v) during sector read transfer i ccr (peak) 80 120 80 120 ma sector write current i ccw (dc) 45 75 45 75 ma cmos level (control signal = v cc C 0.2 v) during sector write transfer i ccw (peak) 80 120 80 120 ma hb28b512/448/320/256/192/128/064c6 53 dc characteristics-3 (ta = 0 to +60?c, v cc = 3.3 v 5%) 64mb/ 128mb 192mb/ 256mb 320mb/ 448mb/ 512mb parameter symbol typ max typ max unit test conditions sleep/standby current i sp1 0.3 1.0 0.4 1.5 ma cmos level (control signal = v cc C 0.2 v) (in memory card mode and i/o card mode) sector read current i ccr (dc) 25 50 25 50 ma cmos level (control signal = v cc C 0.2 v) during sector read transfer i ccr (peak) 50 80 50 80 ma sector write current i ccw (dc) 25 50 25 50 ma cmos level (control signal = v cc C 0.2 v) during sector write transfer i ccw (peak) 50 100 50 100 ma hb28b512/448/320/256/192/128/064c6 54 dc current waveform (v cc = 5 v, ta = 25?c) power on operation (reference only) power on time dc current hb28b512/448/320/256/192/128/064c6 55 sector read 0 current i cc r(peak) i cc r(dc) time command write complete of sector read sector write 0 current i cc w(peak) i cc w(dc) time command write complete of sector write hb28b512/448/320/256/192/128/064c6 56 ac characteristics (ta = 0 to +60?c, v cc = 5 v 10%, 3.3 v 5%) attribute memory read ac characteristics 250 ns parameter symbol min typ max unit read cycle time tcr 250 ns address access time ta(a) 250 ns -ce access time ta(ce) 250 ns -oe access time ta(oe) 125 ns output disable time (-ce) tdis(ce) 100 ns output disable time (-oe) tdis(oe) 100 ns output enable time (-ce) ten(ce) 5 ns output enable time (-oe) ten(oe) 5 ns data valid time (a) tv(a) 0 ns address setup time tsu(a) 30 ns address hold time th(a) 20 ns -ce setup time t su(ce) 0 ns -ce hold time t h(ce) 20 ns attribute memory read timing t h(a) t v(a) t dis(ce) t dis(oe) t h(ce) valid output t su(ce) t su(a) t cr a0 to a10 -reg -ce2/-ce1 -oe d0 to d15 -we, -iowr, -iord : high fix t a(a) t a(ce) t a(oe) t en(oe) t en(ce) hb28b512/448/320/256/192/128/064c6 57 attribute memory write ac characteristics 250 ns parameter symbol min typ max unit write cycle time tcw 250 ns write pulse time tw(we) 150 ns address setup time tsu(a) 30 ns address setup time (-we) tsu(a-weh) 180 ns -ce setup time (-we) tsu(ce-weh) 180 ns data setup time (-we) tsu(d-weh) 80 ns data hold time th(d) 30 ns write recover time trec(we) 30 ns output disable time (-we) tdis(we) 100 ns output disable time (-oe) tdis(oe) 100 ns output enable time (-we) ten(we) 5 ns output enable time (-oe) ten(oe) 5 ns output enable setup time (-we) tsu(oe-we) 10 ns output enable hold time (-we) th(oe-we) 10 ns -ce setup time t su(ce) 0 ns -ce hold time t h(ce) 20 ns attribute memory write timing a0 to a10 -reg -ce2/-ce1 -oe d0 to d15(din) d0 to d15(dout) t su(ce) t su(d-weh) i nput data t dis(we) t dis(oe) t en(we) t en(oe) t h(d) t h(oe-we) t rec(we) t h(ce) t su(oe-we) t su(a) -iowr, -iord : high fix -we t cw t su(ce-weh) t su(a-weh) t w(we) hb28b512/448/320/256/192/128/064c6 58 i/o access read ac characteristics parameter symbol min typ max unit data delay after -iord td(iord) 100 ns data hold following -iord th(iord) 0 ns -iord pulse width tw(iord) 165 ns address setup before -iord tsua(iord) 70 ns address hold following -iord tha(iord) 20 ns -ce setup before -iord tsuce(iord) 5 ns -ce hold following -iord thce(iord) 20 ns -reg setup before -iord tsureg(iord) 5 ns -reg hold following -iord threg(iord) 0 ns -inpack delay falling from -iord tdfinpack(iord) 0 45 ns -inpack delay rising from -iord tdrinpack(iord) 45 ns -iois16 delay falling from address tdfiois16(adr) 35 ns -iois16 delay rising from address tdriois16(adr) 35 ns i/o access read timing -reg a0 to a10 -ce2/-ce1 -we, -oe, -iowr : high fix d0 to d15 -iord t sureg(iord) t suce(iord) t ha(iord) t hreg(iord) t hce(iord) t sua(iord) t dfiois16(adr) t dfinpack(iord) t drinpack(iord) t driois16(adr) t h(iord) valid output t d(iord) -inpack -iois16 t w(iord) hb28b512/448/320/256/192/128/064c6 59 i/o access write ac characteristics parameter symbol min typ max unit data setup before -iowr tsu(iowr) 60 ns data hold following -iowr th(iowr) 30 ns -iowr pulse width tw(iowr) 165 ns address setup before -iowr tsua(iowr) 70 ns address hold following -iowr tha(iowr) 20 ns -ce setup before -iowr tsuce(iowr) 5 ns -ce hold following -iowr thce(iowr) 20 ns -reg setup before -iowr tsureg(iowr) 5 ns -reg hold following -iowr threg(iowr) 0 ns -iois16 delay falling from address tdfiois16(adr) 35 ns -iois16 delay rising from address tdriois16(adr) 35 ns i/o access write timing -we, -oe, -iord : high fix d0 to d15 -reg a0 to a10 -ce2/-ce1 -iowr t sureg(iowr) t suce(iowr) t ha(iowr) t hreg(iowr) t hce(iowr) t sua(iowr) t su(iowr) t dfiois16(adr) t driois16(adr) t h(iowr) -iois16 t w(iowr) data in hb28b512/448/320/256/192/128/064c6 60 common memory access read ac characteristics parameter symbol min typ max unit -ce access time ta(oe) 125 ns output disable time (-oe) tdis(oe) 100 ns address setup time tsu(a) 30 ns address hold time th(a) 20 ns -ce setup time tsu(ce) 0 ns -ce hold time th(ce) 20 ns common access read timing -reg a0 to a10 -ce2/-ce1 -oe valid output d0 to d15 -we, -iord, -iowr : high fix t su(a) t h(a) t h(ce) t su(ce) t dis(oe) t a(oe) hb28b512/448/320/256/192/128/064c6 61 common memory access write ac characteristics parameter symbol min typ max unit data setup time (-we) tsu(d-weh) 80 ns data hold time th(d) 30 ns write pulse time tw(we) 150 ns address setup time tsu(a) 30 ns -ce setup time tsu(ce) 0 ns write recover time trec(we) 30 ns -ce hold following -we th(ce) 20 ns common access write timing -reg a0 to a10 -ce2/-ce1 -we data in d0 to d15 -iowr, -iord, -oe : high fix t h(d) t su(a) t w(we) t su(ce) t h(ce) t rec(we) t su(d-weh) hb28b512/448/320/256/192/128/064c6 62 true ide mode access read ac characteristics parameter symbol min typ max unit data delay after iord td(iord) 100 ns data hold following iord th(iord) 0 ns iord width time tw(iord) 165 ns address setup before iord tsua(iord) 70 ns address hold following iord tha(iord) 20 ns ce setup before iord tsuce(iord) 5 ns ce hold following iord thce(iord) 20 ns iois16 delay falling from address tdfiois16(adr) 35 ns iois16 delay rising from address tdriois16(adr) 35 ns true ide mode access read timing -iord a0 to a2 -ce2/-ce1 -iois16 valid output d0 to d15 -iowr: high fix, -oe: low fix, -we: high fix, a3 to a10: gnd t sua(iord) t suce(iord) t ha(iord) t hce(iord) t h(iord) t drlois16(adr) t dflois16(adr) t d(iord) t w(iord) hb28b512/448/320/256/192/128/064c6 63 true ide mode access write ac characteristics parameter symbol min typ max unit data setup before iowr tsu(iowr) 60 ns data hold following iowr th(iowr) 30 ns iord width time tw(iowr) 165 ns address setup before iowr tsua(iowr) 70 ns address hold following iowr tha(iowr) 20 ns ce setup before iowr tsuce(iowr) 5 ns ce hold following iowr thce(iowr) 20 ns iois16 delay falling from address tdfiois16(adr) 35 ns iois16 delay rising from address tdriois16(adr) 35 ns true ide mode access write timing -iowr a0 to a2 -ce2/-ce1 -iois16 valid output d0 to d15 -iord: high fix, -oe: low fix, -we: high fix, a3 to a10: gnd t sua(iowr) t suce(iowr) t ha(iowr) t hce(iowr) t h(iowr) t drlois16(adr) t dflois16(adr) t su(iowr) t w(iowr) hb28b512/448/320/256/192/128/064c6 64 reset characteristics (only memory card mode or i/o card mode) hard reset characteristics parameter symbol min typ max unit test conditions note reset setup time tsu(reset) 100 ms -ce recover time trec(vcc) 1 s vcc rising up time tpr 0.1 100 ms vcc falling down time tpf 3 300 ms reset pulse width tw(reset) 10 s th(hi-zreset) 1 ms ts(hi-zreset) 100 ms 1 note: 1. as for this specification, it is fitted activity state when change. when reset signal is non-activity state and a card is ready state, can shift to power supply cutoff sequence instantly. hard reset timing v cc -ce1, -ce2 t pr t pf 10% 90% 10% 90% t h(hi-zreset) t s(hi-zreset) t su(reset) t w(reset) low high-z high-z t rec( v cc) reset hb28b512/448/320/256/192/128/064c6 65 power on reset characteristics all card status are reset automatically when v cc voltage goes over about 2.3 v. parameter symbol min typ max unit test conditions -ce setup time tsu(vcc) 100 ms vcc rising up time tpr 0.1 100 ms power on reset timing t pr t su( v cc) v cc -ce1, -ce2 attention for card use in the reset or power off, all register informations are cleared. all card status are cleared automatically when v cc voltage turns below about 2.5v. notice that the card insertion/removal should not be executed while host is active, if the card is used in true ide mode. after the card hard reset, soft reset, or power on reset, ata reset, command applied the card cannot access during +rdy/-bsy pin is "low" level. flash card cant be operated in this case. card removal or power off should not be done during internal operations. when the removal or power off occurrs during internal operation, there is a possibility that data are lost. before the card insertion v cc can not be supplied to the card. after confirmation that -cd1, -cd2 pins are inserted, supply v cc to the card. -oe must be kept at the v cc level during power on reset in memory card mode and i/o card mode. -oe must be kept constantly at the gnd level in true ide mode. we recommend that a circuit to detect the level of power supply voltage be added to the host. when a read error occurs, rewriting of the sector is recommended. this may avoid the error. hb28b512/448/320/256/192/128/064c6 66 physical outline 26 pin 50 pin 1.00 0.05 1.27 25 pin 1.00 0.08 1.27 1 pin 1.00 0.08 1.60 0.05 42.80 0.10 3.30 0.10 12.00 0.10 25.78 0.08 41.66 0.13 36.40 0.15 0.60 0.08 3.00 0.08 0.80 0.08 3.30 0.10 unit: mm (top) (top) (top) (top) hb28b512/448/320/256/192/128/064c6 67 caution for handling cards confirm the direction of insertion before inserting the card. be careful not to damage the connector. to avoid damaging the card, never insert it in the wrong direction. do not bend the card; do not drop the card or expose the card to mechanical shock of any other kind. never modify or disassemble the card. do not expose the card to static electricity or electrical noise. make regular backups of the data in the card. hb28b512/448/320/256/192/128/064c6 68 cautions 1. hitachi neither warrants nor grants licenses of any rights of hitachis or any third partys patent, copyright, trademark, or other intellectual property rights for information contained in this document. hitachi bears no responsibility for problems that may arise with third partys rights, including intellectual property rights, in connection with use of the information contained in this document. 2. products and product specifications may be subject to change without notice. confirm that you have received the latest product standards or specifications before final design, purchase or use. 3. hitachi makes every attempt to ensure that its products are of high quality and reliability. however, contact hitachis sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation, traffic, safety equipment or medical equipment for life support. 4. design your application so that the product is used within the ranges guaranteed by hitachi particularly for maximum rating, operating supply voltage range, heat radiation characteristics, installation conditions and other characteristics. hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges. even within the guaranteed ranges, consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as fail-safes, so that the equipment incorporating hitachi product does not cause bodily injury, fire or other consequential damage due to operation of the hitachi product. 5. this product is not designed to be radiation resistant. 6. no one is permitted to reproduce or duplicate, in any form, the whole or part of this document without written approval from hitachi. 7. contact hitachis sales office for any questions regarding this document or hitachi semiconductor products. hitachi, ltd. semiconductor & integrated circuits nippon bldg., 2-6-2, ohte-machi, chiyoda-ku, tokyo 100-0004, japan tel: (03) 3270-2111 fax: (03) 3270-5109 copyright ?hitachi, ltd., 2001. all rights reserved. printed in japan. hitachi asia ltd. hitachi tower 16 collyer quay #20-00 singapore 049318 tel : <65>-538-6533/538-8577 fax : <65>-538-6933/538-3877 url : http://semiconductor.hitachi.com.sg url http://www.hitachisemiconductor.com/ hitachi asia ltd. (taipei branch office) 4/f, no. 167, tun hwa north road hung-kuo building taipei (105), taiwan tel : <886>-(2)-2718-3666 fax : <886>-(2)-2718-8180 telex : 23222 has-tp url : http://www.hitachi.com.tw hitachi asia (hong kong) ltd. group iii (electronic components) 7/f., north tower world finance centre, harbour city, canton road tsim sha tsui, kowloon hong kong tel : <852>-(2)-735-9218 fax : <852>-(2)-730-0281 url : http://semiconductor.hitachi.com.hk hitachi europe gmbh electronic components group dornacher stra? 3 d-85622 feldkirchen postfach 201,d-85619 feldkirchen germany tel: <49> (89) 9 9180-0 fax: <49> (89) 9 29 30 00 hitachi europe ltd. electronic components group whitebrook park lower cookham road maidenhead berkshire sl6 8ya, united kingdom tel: <44> (1628) 585000 fax: <44> (1628) 585200 hitachi semiconductor (america) inc. 179 east tasman drive san jose,ca 95134 tel: <1> (408) 433-1990 fax: <1>(408) 433-0223 for further information write to: colophon 5.0 |
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