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1 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 MX25U4035/mx25u8035 datasheet www.datasheet.co.kr datasheet pdf - http://www..net/
2 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 contents features .................................................................................................................................................................. 5 general description ......................................................................................................................................... 7 table 1. additional feature comparison ................................................................................................................... 7 pin configurations ............................................................................................................................................. 8 pin description ...................................................................................................................................................... 8 block diagram ....................................................................................................................................................... 9 data protection .................................................................................................................................................. 1 0 table 2. protected area sizes ................................................................................................................................. 1 1 table 3. 512-bit secured otp defnition ................................................................................................................ 1 1 memory organization ............................................................................................................................................... 1 2 table 4-1. memory organization (4mb) ................................................................................................................. 1 2 table 4-2. memory organization (8mb) ................................................................................................................. 1 3 device operation ................................................................................................................................................ 1 4 figure 1. serial modes supported .......................................................................................................................... 1 4 command description ....................................................................................................................................... 1 5 table 5. command set ........................................................................................................................................... 1 5 (1) write enable (wren) ....................................................................................................................................... 1 7 (2) write disable (wrdi) ........................................................................................................................................ 1 7 (3) read identifcation (rdid) ................................................................................................................................ 1 7 (4) read status register (rdsr) ........................................................................................................................... 1 8 (5) write status register (wrsr) .......................................................................................................................... 1 9 table 6. protection modes ...................................................................................................................................... 1 9 (6) read data bytes (read) .................................................................................................................................. 2 0 (7) read data bytes at higher speed (fast_read) ............................................................................................ 2 0 (8) 2 x i/o read mode (2read) ............................................................................................................................. 2 0 (9) 4 x i/o read mode (4read) ............................................................................................................................. 2 1 (10) sector erase (se) ........................................................................................................................................... 2 1 (11) block erase (be32k) ....................................................................................................................................... 2 2 (12) block erase (be) ............................................................................................................................................. 2 2 (13) chip erase (ce) .............................................................................................................................................. 2 2 (14) page program (pp) ......................................................................................................................................... 2 3 (15) 4 x i/o page program (4pp) ........................................................................................................................... 2 3 (16) continuously program mode (cp mode) ......................................................................................................... 2 3 (17) deep power-down (dp) .................................................................................................................................. 2 4 (18) release from deep power-down (rdp), read electronic signature (res) ................................................... 2 4 (19) read electronic manufacturer id & device id (rems), (rems2), (rems4) ................................................. 2 5 table 7. id defnitions ............................................................................................................................................ 2 5 www.datasheet.co.kr datasheet pdf - http://www..net/
3 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (20) enter secured otp (enso) ........................................................................................................................... 2 6 (21) exit secured otp (exso) .............................................................................................................................. 2 6 (22) read security register (rdscur) ................................................................................................................. 2 6 table 8. security register defnition ....................................................................................................................... 2 7 (23) write security register (wrscur) ................................................................................................................ 2 7 (24) hold# pin function enable (hde) .................................................................................................................. 2 7 power-on state ................................................................................................................................................... 2 8 electrical specifications .............................................................................................................................. 2 9 absolute maximum ratings ......................................................................................................................... 2 9 figure 2.maximum negative overshoot waveform ................................................................................................ 2 9 capacitance ta = 25c, f = 1.0 mhz ................................................................................................................. 2 9 figure 3. maximum positive overshoot waveform ................................................................................................. 2 9 figure 4. input test waveforms and measurement level .................................................................. 3 0 figure 5. output loading ................................................................................................................................ 3 0 table 9. dc characteristics (temperature = -40 c to 85 c, vcc = 1.65v ~ 2.0v) .................................... 3 1 table 10. ac characteristics (temperature = -40 c to 85 c, vcc = 1.65v ~ 2.0v) .................................. 3 2 timing analysis ........................................................................................................................................................ 3 4 figure 6. serial input timing ................................................................................................................................... 3 4 figure 7. output timing .......................................................................................................................................... 3 4 figure 8. wp# setup timing and hold timing during wrsr when srwd=1 ....................................................... 3 5 figure 9. hardware reset timing ........................................................................................................................... 3 5 figure 10. write enable (wren) sequence (command 06) ................................................................................. 3 6 figure 11. write disable (wrdi) sequence (command 04) .................................................................................. 3 6 figure 12. read identifcation (rdid) sequence (command 9f) .......................................................................... 3 6 figure 13. read status register (rdsr) sequence (command 05) ..................................................................... 3 7 figure 14. write status register (wrsr) sequence (command 01) ................................................................... 3 7 figure 15. read data bytes (read) sequence (command 03) ........................................................................... 3 7 figure 16. read at higher speed (fast_read) sequence (command 0b) ....................................................... 3 8 figure 17. 2 x i/o read mode sequence (command bb) ..................................................................................... 3 9 figure 18. 4 x i/o read mode sequence (command eb) ..................................................................................... 3 9 figure 19. 4 x i/o read enhance performance mode sequence (command eb) ................................................. 4 0 figure 20. page program (pp) sequence (command 02) .................................................................................... 4 1 figure 21. 4 x i/o page program (4pp) sequence (command 38) ...................................................................... 4 1 figure 22. continously program (cp) mode sequence with hardware detection (command ad) ....................... 4 2 figure 23. sector erase (se) sequence (command 20) ...................................................................................... 4 2 figure 24. block erase 32kb (be32k) sequence (command 52) ........................................................................ 4 3 figure 25. block erase (be) sequence (command d8) ....................................................................................... 4 3 figure 26. chip erase (ce) sequence (command 60 or c7) ............................................................................... 4 3 figure 27. deep power-down (dp) sequence (command b9) ............................................................................. 4 4 figure 28. release from deep power-down and read electronic signature (res) sequence (command ab) .. 4 4 www.datasheet.co.kr datasheet pdf - http://www..net/
4 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 29. release from deep power-down (rdp) sequence (command ab) .................................................... 4 5 figure 30. read electronic manufacturer & device id (rems) sequence (command 90 or ef or df) .............. 4 5 figure 31. power-up timing .................................................................................................................................... 4 6 table 11. power-up timing and vwi threshold ..................................................................................................... 4 6 initial delivery state ..................................................................................................................................... 4 6 recommended operating conditions ......................................................................................................... 4 7 figure a. ac timing at device power-up ............................................................................................................... 4 7 erase and programming performance .................................................................................................... 4 8 latch-up characteristics .............................................................................................................................. 4 8 ordering information ...................................................................................................................................... 4 9 part name description ..................................................................................................................................... 5 0 package information ........................................................................................................................................ 5 1 revision history ................................................................................................................................................. 5 3 www.datasheet.co.kr datasheet pdf - http://www..net/
5 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 4m-bit [x 1/x 2/x 4] 1.8v cmos serial flash 8m-bit [x 1/x 2/x 4] 1.8v cmos serial flash features general ? serial peripheral interface compatible -- mode 0 and mode 3 ? 4m: 4,194,304 x 1 bit structure or 2,097,152 x 2 bits (two i/o read mode) structure or 1,048,576 x 4 bits (four i/ o read mode) structure 8m: 8,388,608 x 1 bit structure or 4,194,304 x 2 bits (two i/o read mode) structure or 2,097,152 x 4 bits (four i/ o read mode) structure ? equal sectors with 4k byte each, or equal blocks with 32k byte each or equal blocks with 64k byte each - any block can be erased individually ? single power supply operation - 1.65 to 2.0 volt for read, erase, and program operations ? latch-up protected to 100ma from -1v to vcc +1v performance ? high performance - fast read - 1 i/o: 40mhz with 8 dummy cycles (30pf+1ttl load) - 2 i/o: 40mhz with 4 dummy cycles (30pf+1ttl load), equivalent to 80mhz - 4 i/o: 33mhz with 6 dummy cycles (30pf+1ttl load), equivalent to 132mhz - fast program time: 2ms(typ.) and 7ms(max.)/page (256-byte per page) - byte program time: 30us (typical) - continuously program mode (automatically increase address under word program mode) - fast erase time: 90ms (typ.)/sector (4k-byte per sector); 0.8s(typ.) /block (32k-byte per block); 1.5s(typ.) /block (64k-byte per block); 7.5s(typ.) /chip for 4m; 15s(typ.) /chip for 8m ? low power consumption - low active read current: 12ma(max.) at 40mhz, 6ma(max.) at 25mhz - low active erase/programming current: 22ma (max.) - low standby current: 5ua (max.) ? deep power down: 5ua(max.) ? typical 100,000 erase/program cycles ? 10 years data retention software features ? input data format - 1-byte command code ? advanced security features - block lock protection the bp0-bp3 status bit defnes the size of the area to be software protection against program and erase instruc - tions - additional 512-bit secured otp for unique identifer ? auto erase and auto program algorithm - automatically erases and verifes data at selected sector or block - automatically programs and verifes data at selected page by an internal algorithm that automatically times the program pulse widths (any page to be programed should have page in the erased state frst) ? status register feature ? electronic identifcation - jedec 1-byte manufacturer id and 2-byte device id www.datasheet.co.kr datasheet pdf - http://www..net/
6 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 - res command for 1-byte device id - both rems,rems2 and rems4 commands for 1-byte manufacturer id and 1-byte device id hardware features ? sclk input - serial clock input ? si/sio0 - serial data input or serial data input/output for 2 x i/o read mode and 4 x i/o read mode ? so/sio1 - serial data output or serial data input/output for 2 x i/o read mode and 4 x i/o read mode ? wp#/sio2 - hardware write protection or serial data input/output for 4 x i/o read mode ? reset#/hold#/sio3 - hardware reset/hold/serial input & output for 4 x i/o read mode, the pin defaults to be reset# ? package - 8-land uson (4x4mm) for 4m/8m - 8-pin sop (150mil) for 4m/8m - all pb-free devices are rohs compliant www.datasheet.co.kr datasheet pdf - http://www..net/
7 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 table 1. additional feature comparison general description the MX25U4035 are 4,194,304 bit serial flash memory, which is confgured as 524,288 x 8 internally. when it is in two or four i/o read mode, the structure becomes 2,097,152 bits x 2 or 1,048,576 bits x 4. the mx25u8035 are 8,388,608 bit serial flash memory, which is confgured as 1,048,576 x 8 internally. when it is in two or four i/o read mode, the structure becomes 4,194,304 bits x 2 or 2,097,152 bits x 4. when it is in two or four i/o read mode, the structure becomes 8,388,608 bits x 2 or 4,194,304 bits x 4. the MX25U4035/mx25u8035 feature a serial peripheral inter - face and software protocol allowing operation on a simple 3-wire bus while it is in single i/o mode. the three bus signals are a clock input (sclk), a serial data input (si), and a serial data output (so). serial access to the device is enabled by cs# input. when it is in two i/o read mode, the si pin and so pin become sio0 pin and sio1 pin for address/dummy bits in - put and data output. when it is in four i/o read mode, the si pin, so pin, wp# pin and reset#/hold# pin become sio0 pin, sio1 pin, sio2 pin and sio3 pin for address/dummy bits input and data output. the MX25U4035/mx25u8035 provides sequential read operation on whole chip. after program/erase command is issued, auto program/ erase algorithms which program/ erase and verify the specifed page or sector/block locations will be executed. program command is executed on byte basis, or page (256 bytes) basis, or word basis for continuously program mode, and erase command is executes on sector (4k-byte), block (32k-byte), or block (64k-byte), or whole chip basis. to provide user with ease of interface, a status register is included to indicate the status of the chip. the status read command can be issued to detect completion status of a program or erase operation via wip bit. advanced security features enhance the protection and security functions, please see security features section for more details. when the device is not in operation and cs# is high, it is put in standby mode and draws less than 5ua dc current. the MX25U4035/mx25u8035 utilizes mxic's proprietary memory cell, which reliably stores memory contents even after 100,000 program and erase cycles. additional features part name protection and security read performance identifer flexible block protection (bp0-bp3) 512-bit secured otp 2 i/o read (75 mhz) 4 i/o read (75 mhz) res (command: ab hex) rems (command: 90 hex) rems2 (command: ef hex) rems4 (command: df hex) rdid (command: 9f hex) MX25U4035 v v v v 33 (hex) c2 33 (hex) (if add=0) c2 33 (hex) (if add=0) c2 33 (hex) (if add=0) c2 25 33 (hex) mx25u8035 v v v v 34 (hex) c2 34 (hex) (if add=0) c2 34 (hex) (if add=0) c2 34 (hex) (if add=0) c2 25 34 (hex) www.datasheet.co.kr datasheet pdf - http://www..net/
8 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 pin configurations pin description 8-land uson (4x4mm) 8-pin sop (150mil) package options symbol description cs# chip select si/sio0 serial data input (for 1 x i/o)/ serial data input & output (for 2xi/o or 4xi/ o read mode) so/sio1 serial data output (for 1 x i/o)/ serial data input & output (for 2xi/o or 4xi/ o read mode) sclk clock input wp#/sio2 write protection: connect to gnd or serial data input & output (for 4xi/o read mode) reset#/ hold#/sio3 reset#/hold# or serial data input & output (for 4xi/o read mode) (default reset# for single & daul i/o) vcc + 1.8v power supply gnd ground 4m 8m 150mil 8-sop v v 4x4mm uson v v 1 2 3 4 cs# so/sio1 wp#/sio2 gnd vcc reset#/hold#/sio3 sclk si/sio0 8 7 6 5 1 2 3 4 cs# so/sio1 wp#/sio2 gnd 8 7 6 5 vcc reset#/hold#/sio3 sclk si/sio0 www.datasheet.co.kr datasheet pdf - http://www..net/
9 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 block diagram address generator memory array page buffer y-decoder x-decoder data register sram buffer si/sio0 sclk so/sio1 clock generator state machine mode logic sense amplifier hv generator output buffer cs# wp#/sio2 reset#/ hold#/sio3 www.datasheet.co.kr datasheet pdf - http://www..net/
10 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 data protection the MX25U4035/mx25u8035 is designed to offer protection against accidental erasure or programming caused by spurious system level signals that may exist during power transition. during power up the device automatically resets the state machine in the standby mode. in addition, with its control register architecture, alteration of the memory contents only occurs after successful completion of specifc command sequences. ? valid command length checking: the command length will be checked whether it is at byte base and completed on byte boundary. ? write enable (wren) command: wren command is required to set the write enable latch bit (wel) before other command to change data. the wel bit will return to reset stage under following situation: - power-up - write disable (wrdi) command completion - write status register (wrsr) command completion - page program (pp) command completion - continuously program mode (cp) instruction completion - sector erase (se) command completion - block erase 32kb (be32k) command completion - block erase (be) command completion - chip erase (ce) command completion ? deep power down mode: by entering deep power down mode, the fash device also is under protected from writing all commands except release from deep power down mode command (rdp) and read electronic sig - nature command (res). ? advanced security features: there are some protection and securuity features which protect content from inad - vertent write and hostile access. i. block lock protection - the software protected mode (spm) use (bp3, bp2, bp1, bp0) bits to allow part of memory to be protected as read only. the protected area defnition is shown as table of "protected area sizes", the protected areas are more fexible which may protect various area by setting value of bp0-bp3 bits. please refer to table of "protected area sizes". - the hardware proteced mode (hpm) use wp#/sio2 to protect the (bp3, bp2, bp1, bp0) bits and srwd bit. if the system goes into four i/o read mode, the feature of hpm will be disabled. www.datasheet.co.kr datasheet pdf - http://www..net/
11 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 ii. additional 512-bit secured otp for unique identifer: to provide 512-bit one-time program area for setting device unique serial number - which may be set by factory or system customer. please refer to table 3. 512-bit secured otp defnition. - security register bit 0 indicates whether the chip is locked by factory or not. - to program the 512-bit secured otp by entering 512-bit secured otp mode (with enso command), and go - ing through normal program procedure, and then exiting 512-bit secured otp mode by writing exso command. - customer may lock-down the customer lockable secured otp by writing wrscur(write security register) command to set customer lock-down bit1 as "1". please refer to table of "security register defnition" for security register bit defnition and table of "512-bit secured otp defnition" for address range defnition. - note: once lock-down whatever by factory or customer, it cannot be changed any more. while in 512-bit se - cured otp mode, array access is not allowed. table 3. 512-bit secured otp defnition table 2. protected area sizes status bit protect level bp3 bp2 bp1 bp0 4mb 8mb 0 0 0 0 0 (none) 0 (none) 0 0 0 1 1 (1 block, 1/8 area, block#7) 1 (1 block, 1/16 area, block#15) 0 0 1 0 2 (2 blocks, 1/4 area, block#6-7) 2 (2 blocks, 1/8 area, block#14-15) 0 0 1 1 3 (4 blocks, 1/2 area, block#4-7) 3 (4 blocks, 1/4 area, block#12-15) 0 1 0 0 4 (8 blocks, all) 4 (8 blocks, 1/2 area, block#8-15) 0 1 0 1 5 (8 blocks, all) 5 (16 blocks, all) 0 1 1 0 6 (8 blocks, all) 6 (16 blocks, all) 0 1 1 1 7 (8 blocks, all) 7 (16 blocks, all) 1 0 0 0 8 (none) 8 (none) 1 0 0 1 9 (1 block, 1/8 area, block#0) 9 (1 block, 1/16 area, block#0) 1 0 1 0 10 (2 blocks, 1/4 area, block#0-1) 10 (2 blocks, 1/8 area, block#0-1) 1 0 1 1 11 (4 blocks, 1/2 area, block#0-3) 11 (4 blocks, 1/4 area, block#0-3) 1 1 0 0 12 (8 blocks, all) 12 (8 blocks, 1/2 area, block#0-7) 1 1 0 1 13 (8 blocks, all) 13 (16 blocks, all) 1 1 1 0 14 (8 blocks, all) 14 (16 blocks, all) 1 1 1 1 15 (8 blocks, all) 15 (16 blocks, all) address range size standard factory lock customer lock xxxx00~xxxx0f 128-bit esn (electrical serial number) determined by customer xxxx10~xxxx3f 384-bit n/a www.datasheet.co.kr datasheet pdf - http://www..net/
12 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 table 4-1. memory organization (4mb) memory organization block (64kb) block (32kb) sector (4kb) address range 7 15 | 14 127 07f000h 07ffffh : : : 112 070000h 070fffh 6 13 | 12 111 06f000h 06ffffh : : : 96 060000h 060fffh 5 11 | 10 95 05f000h 05ffffh : : : 80 050000h 050fffh 4 9 | 8 79 04f000h 04ffffh : : : 64 040000h 040fffh 3 7 | 6 63 03f000h 03ffffh : : : 48 030000h 030fffh 2 5 | 4 47 02f000h 02ffffh : : : 32 020000h 020fffh 1 3 | 2 31 01f000h 01ffffh : : : 16 010000h 010fffh 0 1 | 0 15 00f000h 00ffffh : : : 2 002000h 002fffh 1 001000h 001fffh 0 000000h 000fffh www.datasheet.co.kr datasheet pdf - http://www..net/
13 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 table 4-2. memory organization (8mb) block (64kb) block (32kb) sector (4kb) address range 15 31 | 30 255 0ff000h 0fffffh : : : 240 0f0000h 0f0fffh 14 29 | 28 239 0ef000h 0effffh : : : 224 0e0000h 0e0fffh 13 27 | 26 223 0df000h 0dffffh : : : 208 0d0000h 0d0fffh 12 25 | 24 207 0cf000h 0cffffh : : : 192 0c0000h 0c0fffh 11 23 | 22 191 0bf000h 0bffffh : : : 176 0b0000h 0b0fffh 10 21 | 20 175 0af000h 0affffh : : : 160 0a0000h 0a0fffh 9 19 | 18 159 09f000h 09ffffh : : : 144 090000h 090fffh 8 17 | 16 143 08f000h 08ffffh : : : 128 080000h 080fffh 7 15 | 14 127 07f000h 07ffffh : : : 112 070000h 070fffh 6 13 | 12 111 06f000h 06ffffh : : : 96 060000h 060fffh 5 11 | 10 95 05f000h 05ffffh : : : 80 050000h 050fffh 4 9 | 8 79 04f000h 04ffffh : : : 64 040000h 040fffh 3 7 | 6 63 03f000h 03ffffh : : : 48 030000h 030fffh 2 5 | 4 47 02f000h 02ffffh : : : 32 020000h 020fffh 1 3 | 2 31 01f000h 01ffffh : : : 16 010000h 010fffh 0 1 | 0 15 00f000h 00ffffh : : : 2 002000h 002fffh 1 001000h 001fffh 0 000000h 000fffh www.datasheet.co.kr datasheet pdf - http://www..net/
14 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 device operation 1. before a command is issued, status register should be checked to ensure device is ready for the intended op - eration. 2. when incorrect command is inputted to this lsi, this lsi becomes standby mode and keeps the standby mode until next cs# falling edge. in standby mode, so pin of this lsi should be high-z. 3. when correct command is inputted to this lsi, this lsi becomes active mode and keeps the active mode until next cs# rising edge. 4. input data is latched on the rising edge of serial clock(sclk) and data shifts out on the falling edge of sclk. the difference of serial mode 0 and mode 3 is shown as figure 1. "serial modes supported". 5. for the following instructions: rdid, rdsr, rdscur, read, fast_read, 2read, 4read,res, rems, rems2 and rems4 the shifted-in instruction sequence is followed by a data-out sequence. after any bit of data being shifted out, the cs# can be high. for the following instructions: wren, wrdi, wrsr, se, be32k, be, ce, pp, 4pp, cp, rdp, dp, enso, exso,and wrscur, the cs# must go high exactly at the byte boundary; otherwise, the instruction will be rejected and not executed. 6. during the progress of write status register, program, erase operation, to access the memory array is neglect - ed and not affect the current operation of write status register, program, erase. figure 1. serial modes supported note: cpol indicates clock polarity of serial master, cpol=1 for sclk high while idle, cpol=0 for sclk low while not transmitting. cpha indicates clock phase. the combination of cpol bit and cpha bit decides which serial mode is supported. sclk msb cpha shift in shift out si 0 1 cpol 0 (serial mode 0) (serial mode 3) 1 so sclk msb www.datasheet.co.kr datasheet pdf - http://www..net/
15 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 command description table 5. command set command (byte) wren (write enable) wrdi (write disable) rdid (read identifc- ation) rdsr (read status register) wrsr (write status register) read (read data) fast read (fast read data) 2read (2 x i/o read command) note1 1st byte 06 (hex) 04 (hex) 9f (hex) 05 (hex) 01 (hex) 03 (hex) 0b (hex) bb (hex) 2nd byte values ad1 (a23-a16) ad1 add(2) 3rd byte ad2 (a15-a8) ad2 add(2) & dummy(2) 4th byte ad3 (a7-a0) ad3 5th byte dummy action sets the (wel) write enable latch bit resets the (wel) write enable latch bit outputs jedec id: 1-byte manufact- urer id & 2-byte device id to read out the values of the status register to write new values of the status register n bytes read out until cs# goes high n bytes read out until cs# goes high n bytes read out by 2 x i/ o until cs# goes high command (byte) 4read (4 x i/o read command) 4pp (quad page program) se (sector erase) be 32k (block erase 32k) be (block erase) ce (chip erase) pp (page program) cp (continuously program mode) 1st byte eb (hex) 38 (hex) 20 (hex) 52 (hex) d8 (hex) 60 or c7 (hex) 02 (hex) ad (hex) 2nd byte add(4) & dummy(4) ad1 ad1 ad1 ad1 ad1 ad1 3rd byte add(4)) ad2 ad2 ad2 ad2 ad2 4th byte ad3 ad3 ad3 ad3 ad3 action n bytes read out by 4 x i/ o until cs# goes high quad input to program the selected page to erase the selected sector to erase the selected 32k block to erase the selected block to erase whole chip to program the selected page continously program whole chip, the address is automatically increase command (byte) dp (deep power down) rdp (release from deep power down) res (read electronic id) rems (read electronic manufacturer & device id) rems2 (read id for 2x i/o mode) rems4 (read id for 4x i/o mode) enso (enter secured otp) exso (exit secured otp) 1st byte b9 (hex) ab (hex) ab (hex) 90 (hex) ef (hex) df (hex) b1 (hex) c1 (hex) 2nd byte x x x x 3rd byte x x x x 4th byte x add (note 2) add (note 2) add (note 2) action enters deep power down mode release from deep power down mode to read out 1-byte device id output the manufacturer id & device id output the manufacturer id & device id output the manufacturer id & device id to enter the 512-bit secured otp mode to exit the 512-bit secured otp mode www.datasheet.co.kr datasheet pdf - http://www..net/
16 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 note 1: the count base is 4-bit for add(2) and dummy(2) because of 2 x i/o. and the msb is on si/sio1 which is different from 1 x i/o condition. note 2: add=00h will output the manufacturer id frst and add=01h will output device id frst. note 3: it is not recommended to adopt any other code not in the command defnition table, which will potentially enter the hid - den mode. command (byte) rdscur (read security register) wrscur (write security register) esry (enable so to output ry/ by#) dsry (disable so to output ry/ by#) hde (hold# enable) 1st byte 2b (hex) 2f (hex) 70 (hex) 80 (hex) aa (hex) 2nd byte 3rd byte 4th byte action to read value of security register to set the lock- down bit as "1" (once lock- down, cannot be update) to enable so to output ry/ by# during cp mode to disable so to output ry/ by# during cp mode to enable hold# pin function www.datasheet.co.kr datasheet pdf - http://www..net/
17 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (1) write enable (wren) the write enable (wren) instruction is for setting write enable latch (wel) bit. for those instructions like pp, 4pp, cp, se, be32k, be, ce, and wrsr, which are intended to change the device content, should be set every time af - ter the wren instruction setting the wel bit. the sequence of issuing wren instruction is: cs# goes low sending wren instruction code cs# goes high. (see figure 10) (2) write disable (wrdi) the write disable (wrdi) instruction is for resetting write enable latch (wel) bit. the sequence of issuing wrdi instruction is: cs# goes low sending wrdi instruction code cs# goes high. (see figure 11) the wel bit is reset by following situations: - power-up - write disable (wrdi) instruction completion - write status register (wrsr) instruction completion - page program (pp) instruction completion - quad page program (4pp) instruction completion - sector erase (se) instruction completion - block erase 32kb (be32k) instruction completion - block erase (be) instruction completion - chip erase (ce) instruction completion - continuously program mode (cp) instruction completion (3) read identifcation (rdid) the rdid instruction is for reading the manufacturer id of 1-byte and followed by device id of 2-byte. the mxic manufacturer id is c2(hex), the memory type id is 25(hex) as the frst-byte device id, and the individual device id of second-byte id are listed as table of "id defnitions". (see table 7) the sequence of issuing rdid instruction is: cs# goes low sending rdid instruction code 24-bits id data out on so to end rdid operation can use cs# to high at any time during data out. (see figure 12) while program/erase operation is in progress, it will not decode the rdid instruction, so there's no effect on the cy - cle of program/erase operation which is currently in progress. when cs# goes high, the device is at standby stage. www.datasheet.co.kr datasheet pdf - http://www..net/
18 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (4) read status register (rdsr) the rdsr instruction is for reading status register bits. the read status register can be read at any time (even in program/erase/write status register condition) and continuously. it is recommended to check the write in progress (wip) bit before sending a new instruction when a program, erase, or write status register operation is in progress. the sequence of issuing rdsr instruction is: cs# goes low sending rdsr instruction code status register data out on so (see figure 13) the defnition of the status register bits is as below: wip bit. the write in progress (wip) bit, a volatile bit, indicates whether the device is busy in program/erase/write status register progress. when wip bit sets to 1, which means the device is busy in program/erase/write status register progress. when wip bit sets to 0, which means the device is not in progress of program/erase/write status register cycle. wel bit. the write enable latch (wel) bit, a volatile bit, indicates whether the device is set to internal write enable latch. when wel bit sets to 1, which means the internal write enable latch is set, the device can accept program/ erase/write status register instruction. when wel bit sets to 0, which means no internal write enable latch; the de - vice will not accept program/erase/write status register instruction. the program/erase command will be ignored and not affect value of wel bit if it is applied to a protected memory area. bp3, bp2, bp1, bp0 bits. the block protect (bp3, bp2, bp1, bp0) bits, volatile bits, indicate the protected area(as defned in table 2) of the device to against the program/erase instruction without hardware protection mode being set. to write the block protect (bp3, bp2, bp1, bp0) bits requires the write status register (wrsr) instruction to be executed. those bits defne the protected area of the memory to against page program (pp), sector erase (se), block erase 32kb (be32k), block erase (be) and chip erase(ce) instructions (only if block protect bits (bp2:bp0) set to 0, the ce instruction can be executed). the bp3, bp2, bp1, bp0 bits dfault to be "1". which is protected. qe bit. the quad enable (qe) bit, volatile bit, performs quad when it is reset to "0" (factory default) to enable wp# or is set to "1" to enable quad sio2 and sio3. srwd bit. the status register write disable (srwd) bit, volatile bit, is operated together with write protection (wp#/ sio2) pin for providing hardware protection mode. the hardware protection mode requires srwd sets to 1 and wp#/sio2 pin signal is low stage. in the hardware protection mode, the write status register (wrsr) instruction is no longer accepted for execution and the srwd bit and block protect bits (bp3, bp2, bp1, bp0) are read only. the srwd bit defaults to be "0". status register note 1: see the table 2 "protected area size". bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 srwd (status register write protect) qe (quad enable) bp3 (level of protected block) bp2 (level of protected block) bp1 (level of protected block) bp0 (level of protected block) wel (write enable latch) wip (write in progress bit) 1=status register write disable 1=quad enable 0=not quad enable (note 1) (note 1) (note 1) (note 1) 1=write enable 0=not write enable 1=write operation 0=not in write operation www.datasheet.co.kr datasheet pdf - http://www..net/
19 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (5) write status register (wrsr) the wrsr instruction is for changing the values of status register bits. before sending wrsr instruction, the write enable (wren) instruction must be decoded and executed to set the write enable latch (wel) bit in ad - vance. the wrsr instruction can change the value of block protect (bp3, bp2, bp1, bp0) bits to defne the pro - tected area of memory (as shown in table 2). the wrsr also can set or reset the quad enable (qe) bit and set or reset the status register write disable (srwd) bit in accordance with write protection (wp#/sio2) pin signal, but has no effect on bit1(wel) and bit0 (wip) of the statur register. the wrsr instruction cannot be executed once the hardware protected mode (hpm) is entered. the sequence of issuing wrsr instruction is: cs# goes low sending wrsr instruction code status register data on si-> cs# goes high. (see figure 14) the cs# must go high exactly at the byte boundary; otherwise, the instruction will be rejected and not executed. the self-timed write status register cycle time (tw) is initiated as soon as chip select (cs#) goes high. the write in progress (wip) bit still can be check out during the write status register cycle is in progress. the wip sets 1 during the tw timing, and sets 0 when write status register cycle is completed, and the write enable latch (wel) bit is reset. table 6. protection modes note: 1. as defned by the values in the block protect (bp3, bp2, bp1, bp0) bits of the status register, as shown in table 2. as the above table showing, the summary of the software protected mode (spm) and hardware protected mode (hpm). software protected mode (spm): - when srwd bit=0, no matter wp#/sio2 is low or high, the wren instruction may set the wel bit and can change the values of srwd, bp3, bp2, bp1, bp0. the protected area, which is defned by bp3, bp2, bp1, bp0, is at software protected mode (spm). - when srwd bit=1 and wp#/sio2 is high, the wren instruction may set the wel bit can change the values of srwd, bp3, bp2, bp1, bp0. the protected area, which is defned by bp3, bp2, bp1, bp0, is at software pro - tected mode (spm) note: if srwd bit=1 but wp#/sio2 is low, it is impossible to write the status register even if the wel bit has previously been set. it is rejected to write the status register and not be executed. mode status register condition wp# and srwd bit status memory software protection mode (spm) status register can be written in (wel bit is set to "1") and the srwd, bp0-bp3 bits can be changed wp#=1 and srwd bit=0, or wp#=0 and srwd bit=0, or wp#=1 and srwd=1 the protected area cannot be program or erase. hardware protection mode (hpm) the srwd, bp0-bp3 of status register bits cannot be changed wp#=0, srwd bit=1 the protected area cannot be program or erase. www.datasheet.co.kr datasheet pdf - http://www..net/
20 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 hardware protected mode (hpm): - when srwd bit=1, and then wp#/sio2 is low (or wp#/sio2 is low before srwd bit=1), it enters the hardware protected mode (hpm). the data of the protected area is protected by software protected mode by bp3, bp2, bp1, bp0 and hardware protected mode by the wp#/sio2 to against data modifcation. note: to exit the hardware protected mode requires wp#/sio2 driving high once the hardware protected mode is entered. if the wp#/sio2 pin is permanently connected to high, the hardware protected mode can never be entered; only can use software protected mode via bp3, bp2, bp1, bp0. if the system goes into four i/o read mode, the feature of hpm will be disabled. (6) read data bytes (read) the read instruction is for reading data out. the address is latched on rising edge of sclk, and data shifts out on the falling edge of sclk at a maximum frequency fr. the frst address byte can be at any location. the address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single read instruction. the address counter rolls over to 0 when the highest address has been reached. the sequence of issuing read instruction is: cs# goes low sending read instruction code 3-byte address on si data out on so to end read operation can use cs# to high at any time during data out. (see figure 15) (7) read data bytes at higher speed (fast_read) the fast_read instruction is for quickly reading data out. the address is latched on rising edge of sclk, and data of each bit shifts out on the falling edge of sclk at a maximum frequency fc. the frst address byte can be at any location. the address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single fast_read instruction. the address counter rolls over to 0 when the highest address has been reached. the sequence of issuing fast_read instruction is: cs# goes low-> sending fast_read instruction code3- byte address on si1-dummy byte (default) address on sidata out on so to end fast_read operation can use cs# to high at any time during data out. (see figure 16) while program/erase/write status register cycle is in progress, fast_read instruction is rejected without any im - pact on the program/erase/write status register current cycle. (8) 2 x i/o read mode (2read) the 2read instruction enable double throughput of serial flash in read mode. the address is latched on rising edge of sclk, and data of every two bits(interleave on 2 i/o pins) shift out on the falling edge of sclk at a maxi - mum frequency ft. the frst address byte can be at any location. the address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single 2read instruc - tion. the address counter rolls over to 0 when the highest address has been reached. once writing 2read instruc - tion, the following address/dummy/data out will perform as 2-bit instead of previous 1-bit. the sequence of issuing 2read instruction is: cs# goes low sending 2read instruction 24-bit address inter - leave on sio1 & sio0 4-bit dummy cycle on sio1 & sio0 data out interleave on sio1 & sio0 to end 2read operation can use cs# to high at any time during data out (see figure 17 for 2 x i/o read mode timing waveform). while program/erase/write status register cycle is in progress, 2read instruction is rejected without any impact www.datasheet.co.kr datasheet pdf - http://www..net/
21 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 on the program/erase/write status register current cycle. (9) 4 x i/o read mode (4read) the 4read instruction enable quad throughput of serial flash in read mode. a quad enable (qe) bit of status register must be set to "1" before seding the 4read instruction.the address is latched on rising edge of sclk, and data of every four bits(interleave on 4 i/o pins) shift out on the falling edge of sclk at a maximum frequency fq. the frst address byte can be at any location. the address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single 4read instruction. the ad - dress counter rolls over to 0 when the highest address has been reached. once writing 4read instruction, the fol - lowing address/dummy/data out will perform as 4-bit instead of previous 1-bit. the sequence of issuing 4read instruction is: cs# goes low sending 4read instruction 24-bit address in - terleave on sio3, sio2, sio1 & sio0 6 dummy cycles data out interleave on sio3, sio2, sio1 & sio0 to end 4read operation can use cs# to high at any time during data out (see figure 18 for 4 x i/o read mode tim - ing waveform). another sequence of issuing 4 read instruction especially useful in random access is : cs# goes low sending 4 read instruction 3-bytes address interleave on sio3, sio2, sio1 & sio0 performance enhance toggling bit p[7:0] 4 dummy cycles data out still cs# goes high cs# goes low (reduce 4 read instruction) 24-bit ran - dom access address (see fgure 19 for 4x i/o read enhance performance mode timing waveform). in the performance-enhancing mode, p[7:4] must be toggling with p[3:0] ; likewise p[7:0]=a5h,5ah,f0h or 0fh can make this mode continue and reduce the next 4read instruction. once p[7:4] is no longer toggling with p[3:0]; like - wise p[7:0]=ffh,00h,aah or 55h and afterwards cs# is raised and then lowered, the system then will escape from performance enhance mode and return to normal operation. while program/erase/write status register cycle is in progress, 4read instruction is rejected without any impact on the program/erase/write status register current cycle. (10) sector erase (se) the sector erase (se) instruction is for erasing the data of the chosen sector to be "1". the instruction is used for any 4k-byte sector. a write enable (wren) instruction must execute to set the write enable latch (wel) bit before sending the sector erase (se). any address of the sector (see table of memory organization) is a valid address for sector erase (se) instruction. the cs# must go high exactly at the byte boundary (the latest eighth of address byte been latched-in); otherwise, the instruction will be rejected and not executed. address bits [am-a12] (am is the most signifcant address) select the sector address. the sequence of issuing se instruction is: cs# goes low sending se instruction code 3-byte address on si cs# goes high. (see figure 23) the self-timed sector erase cycle time (tse) is initiated as soon as chip select (cs#) goes high. the write in progress (wip) bit still can be check out during the sector erase cycle is in progress. the wip sets 1 during the tse timing, and sets 0 when sector erase cycle is completed, and the write enable latch (wel) bit is reset. if the sector is protected by bp3, bp2, bp1, bp0 bits, the sector erase (se) instruction will not be executed on the sec - tor. www.datasheet.co.kr datasheet pdf - http://www..net/
22 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (11) block erase (be32k) the block erase (be32k) instruction is for erasing the data of the chosen block to be "1". the instruction is used for 32k-byte block erase operation. a write enable (wren) instruction must execute to set the write enable latch (wel) bit before sending the block erase (be32k). any address of the block (see table of memory organization) is a valid address for block erase (be32k) instruction. the cs# must go high exactly at the byte boundary (the latest eighth of address byte been latched-in); otherwise, the instruction will be rejected and not executed. the sequence of issuing be32k instruction is: cs# goes low sending be32k instruction code 3-byte address on si cs# goes high. (see figure 24) the self-timed block erase cycle time (tbe32k) is initiated as soon as chip select (cs#) goes high. the write in progress (wip) bit still can be check out during the block erase cycle is in progress. the wip sets 1 during the tbe32k timing, and sets 0 when block erase cycle is completed, and the write enable latch (wel) bit is reset. if the block is protected by bp3, bp2, bp1, bp0 bits, the block erase (tbe32k) instruction will not be executed on the block. (12) block erase (be) the block erase (be) instruction is for erasing the data of the chosen block to be "1". the instruction is used for 64k-byte block erase operation. a write enable (wren) instruction must execute to set the write enable latch (wel) bit before sending the block erase (be). any address of the block (see table of memory organization) is a valid ad - dress for block erase (be) instruction. the cs# must go high exactly at the byte boundary (the latest eighth of ad - dress byte been latched-in); otherwise, the instruction will be rejected and not executed. the sequence of issuing be instruction is: cs# goes low sending be instruction code 3-byte address on si cs# goes high. (see figure 25) the self-timed block erase cycle time (tbe) is initiated as soon as chip select (cs#) goes high. the write in progress (wip) bit still can be check out during the block erase cycle is in progress. the wip sets 1 during the tbe timing, and sets 0 when block erase cycle is completed, and the write enable latch (wel) bit is reset. if the block is protected by bp3, bp2, bp1, bp0 bits, the block erase (be) instruction will not be executed on the block. (13) chip erase (ce) the chip erase (ce) instruction is for erasing the data of the whole chip to be "1". a write enable (wren) instruc - tion must execute to set the write enable latch (wel) bit before sending the chip erase (ce). the cs# must go high exactly at the byte boundary, otherwise the instruction will be rejected and not executed. the sequence of issuing ce instruction is: cs# goes low sending ce instruction code cs# goes high. (see fig - ure 26) the self-timed chip erase cycle time (tce) is initiated as soon as chip select (cs#) goes high. the write in progress (wip) bit still can be check out during the chip erase cycle is in progress. the wip sets 1 during the tce timing, and sets 0 when chip erase cycle is completed, and the write enable latch (wel) bit is reset. if the chip is protected by bp2, bp1, bp0 bits, the chip erase (ce) instruction will not be executed. it will be only executed when bp2, bp1, bp0 all set to "0". www.datasheet.co.kr datasheet pdf - http://www..net/
23 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (14) page program (pp) the page program (pp) instruction is for programming the memory to be "0". a write enable (wren) instruction must execute to set the write enable latch (wel) bit before sending the page program (pp). the device pro - grams only the last 256 data bytes sent to the device. if the entire 256 data bytes are going to be programmed, a7- a0 (the eight least signifcant address bits) should be set to 0. if the eight least signifcant address bits (a7-a0) are not all 0, all transmitted data going beyond the end of the current page are programmed from the start address of the same page (from the address a7-a0 are all 0). if more than 256 bytes are sent to the device, the data of the last 256-byte is programmed at the request page and previous data will be disregarded. if less than 256 bytes are sent to the device, the data is programmed at the requested address of the page without effect on other address of the same page. the sequence of issuing pp instruction is: cs# goes low sending pp instruction code3-byte address on si at least 1-byte on data on si cs# goes high. (see figure 20) the cs# must be kept to low during the whole page program cycle; the cs# must go high exactly at the byte boundary( the latest eighth bit of data being latched in), otherwise the instruction will be rejected and will not be ex - ecuted. the self-timed page program cycle time (tpp) is initiated as soon as chip select (cs#) goes high. the write in progress (wip) bit still can be check out during the page program cycle is in progress. the wip sets 1 during the tpp timing, and sets 0 when page program cycle is completed, and the write enable latch (wel) bit is reset. if the page is protected by bp3, bp2, bp1, bp0 bits, the page program (pp) instruction will not be executed. (15) 4 x i/o page program (4pp) the quad page program (4pp) instruction is for programming the memory to be "0". a write enable (wren) in - struction must execute to set the write enable latch (wel) bit and quad enable (qe) bit must be set to "1" before sending the quad page program (4pp). the quad page programming takes four pins: sio0, sio1, sio2, and sio3 as address and data input, which can improve programer performance and the effectiveness of application of lower clock less than 20mhz. for system with faster clock, the quad page program cannot provide more actual favors, because the required internal page program time is far more than the time data fows in. therefore, we sug - gest that while executing this command (especially during sending data), user can slow the clock speed down to 20mhz below. the other function descriptions are as same as standard page program. the sequence of issuing 4pp instruction is: cs# goes lowsending 4pp instruction code3-byte address on sio[3:0] at least 1-byte on data on sio[3:0]cs# goes high. (see figure 21) (16) continuously program mode (cp mode) the cp mode may enhance program performance by automatically increasing address to the next higher address after each byte data has been programmed. the continuously program (cp) instruction is for multiple byte program to flash. a write enable (wren) instruction must execute to set the write enable latch(wel) bit before sending the continuously program (cp) instruction. cs# requires to go high before cp instruction is executing. after cp instruction and address input, two bytes of data is input sequentially from msb(bit7) to lsb(bit0). the frst byte data will be programmed to the initial address range with a0=0 and second byte data with a0=1. if only one byte data is input, the cp mode will not process. if more than two bytes data are input, the additional data will be ignored and only two byte data are valid. the cp program instruction will be ignored and not affect the wel bit if it is applied to a protected memory area. any byte to be programmed should be in the erase state (ff) frst. it will not roll over during the cp mode, once the last unpro - www.datasheet.co.kr datasheet pdf - http://www..net/
24 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 tected address has been reached, the chip will exit cp mode and reset write enable latch bit (wel) as "0" and cp mode bit as "0". please check the wip bit status if it is not in write progress before entering next valid instruction. during cp mode, the valid commands are cp command (ad hex), wrdi command (04 hex), rdsr command (05 hex), and rdscur command (2b hex). and the wrdi command is valid after completion of a cp programming cy - cle, which means the wip bit=0. the sequence of issuing cp instruction is : cs# high to low-> sending cp instruction code 3-byte address on si data byte on sics# goes high to low sending cp instruction...... last desired byte programmed or send - ing write disable (wrdi) instruction to end cp mode-> sending rdsr instruction to verify if cp mode is ended. (see figure 22 of cp mode timing waveform) three methods to detect the completion of a program cycle during cp mode: 1) software method-i: by checking wip bit of status register to detect the completion of cp mode. 2) software method-ii: by waiting for a tbp time out to determine if it may load next valid command or not. 3) hardware method: by writing esry (enable so to output ry/by#) instruction to detect the completion of a program cycle during cp mode. the esry instruction must be executed before cp mode execution. once it is enable in cp mode, the cs# goes low will drive out the ry/by# status on so, "0" indicates busy stage, "1" indi - cates ready stage, so pin outputs tri-state if cs# goes high. dsry (disable so to output ry/by#) instruction to disable the so to output ry/by# and return to status register data output during cp mode. please note that the esry/dsry command are not accepted unless the completion of cp mode. (17) deep power-down (dp) the deep power-down (dp) instruction is for setting the device on the minimizing the power consumption (to enter - ing the deep power-down mode), the standby current is reduced from isb1 to isb2). the deep power-down mode requires the deep power-down (dp) instruction to enter, during the deep power-down mode, the device is not ac - tive and all write/program/erase instruction are ignored. when cs# goes high, it's only in standby mode not deep power-down mode. it's different from standby mode. the sequence of issuing dp instruction is: cs# goes low sending dp instruction codecs# goes high. (see fig - ure 27) once the dp instruction is set, all instruction will be ignored except the release from deep power-down mode (rdp) and read electronic signature (res) instruction. (those instructions allow the id being reading out). when power- down, the deep power-down mode automatically stops, and when power-up, the device automatically is in standby mode. for rdp instruction the cs# must go high exactly at the byte boundary (the latest eighth bit of instruction code been latched-in); otherwise, the instruction will not executed. as soon as chip select (cs#) goes high, a delay of tdp is required before entering the deep power-down mode. (18) release from deep power-down (rdp), read electronic signature (res) the release from deep power-down (rdp) instruction is terminated by driving chip select (cs#) high. when chip select (cs#) is driven high, the device is put in the stand-by power mode. if the device was not previously in the deep power-down mode, the transition to the stand-by power mode is immediate. if the device was previously in the deep power-down mode, though, the transition to the stand-by power mode is delayed by tres2, and chip select (cs#) must remain high for at least tres2(max), as specifed in table 10.ac characteristics. once in the stand-by power mode, the device waits to be selected, so that it can receive, decode and execute instructions. the rdp instruction is only for releasing from deep power down mode. res instruction is for reading out the old style of 8-bit electronic signature, whose values are shown as table of id defnitions on next page. this is not the same as rdid instruction. it is not recommended to use for new design. www.datasheet.co.kr datasheet pdf - http://www..net/
25 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 for new design, please use rdid instruction. the sequence is shown as figure 28,29. even in deep power-down mode, the rdp and res are also allowed to be executed, only except the device is in progress of program/erase/write cycle; there's no effect on the current program/erase/write cycle in progress. the res instruction is ended by cs# goes high after the id been read out at least once. the id outputs repeat - edly if continuously send the additional clock cycles on sclk while cs# is at low. if the device was not previously in deep power-down mode, the device transition to standby mode is immediate. if the device was previously in deep power-down mode, there's a delay of tres2 to transit to standby mode, and cs# must remain to high at least tres2(max). once in the standby mode, the device waits to be selected, so it can be receive, decode, and execute instruction. (19) read electronic manufacturer id & device id (rems), (rems2), (rems4) the rems, rems2 & rems4 instruction is an alternative to the release from power-down/device id instruction that provides both the jedec assigned manufacturer id and the specifc device id. the rems4 instruction is rec - ommended to use for 4 i/o identifcation and rems2 instruction is recommended to use for 2 i/o identifcation. the rems, rems2 & rems4 instruction is very similar to the release from power-down/device id instruction. the instruction is initiated by driving the cs# pin low and shift the instruction code "90h" or "efh" or "dfh"followed by two dummy bytes and one bytes address (a7~a0). after which, the manufacturer id for mxic (c2h) and the device id are shifted out on the falling edge of sclk with most signifcant bit (msb) frst as shown in fgure 30. the device id values are listed in table 7 of id defnitions. if the one-byte address is initially set to 01h, then the device id will be read frst and then followed by the manufacturer id. the manufacturer and device ids can be read continuously, alternating from one to the other. the instruction is completed by driving cs# high. table 7. id defnitions command type MX25U4035 mx25u8035 rdid (jedec id) manufactuer id memory type memory density manufacturer id memory type memory density c2 25 33 c2 25 34 res electronic id electronic id 33 34 rems/rems2/ rems4 manufacturer id device id manufacturer id device id c2 33 c2 34 www.datasheet.co.kr datasheet pdf - http://www..net/
26 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (20) enter secured otp (enso) the enso instruction is for entering the additional 512-bit secured otp mode. the additional 512-bit secured otp is independent from main array, which may use to store unique serial number for system identifer. after entering the secured otp mode, and then follow standard read or program, procedure to read out the data or update data. the secured otp data cannot be updated again once it is lock-down. the sequence of issuing enso instruction is: cs# goes low sending enso instruction to enter secured otp mode cs# goes high. please note that wrsr/wrscur commands are not acceptable during the access of secure otp region, once se - curity otp is lock down, only read related commands are valid. (21) exit secured otp (exso) the exso instruction is for exiting the additional 512-bit secured otp mode. the sequence of issuing exso instruction is: cs# goes low sending exso instruction to exit secured otp mode cs# goes high. (22) read security register (rdscur) the rdscur instruction is for reading the value of security register bits. the read security register can be read at any time (even in program/erase/write status register/write security register condition) and continuously. the sequence of issuing rdscur instruction is : cs# goes low send ing rdscur instruction security regis - ter data out on so cs# goes high. the defnition of the security register bits is as below: secured otp indicator bit. the secured otp indicator bit shows the chip is locked by factory before ex- factory or not. when it is "0", it indicates non- factory lock; "1" indicates factory- lock. lock-down secured otp (ldso) bit. by writing wrscur instruction, the ldso bit may be set to "1" for custom - er lock-down purpose. however, once the bit is set to "1" (lock-down), the ldso bit and the 512-bit secured otp area cannot be update any more. while it is in 512-bit secured otp mode, main array access is not allowed. continuously program mode( cp mode) bit. the continuously program mode bit indicates the status of cp mode, "0" indicates not in cp mode; "1" indicates in cp mode. www.datasheet.co.kr datasheet pdf - http://www..net/
27 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 (23) write security register (wrscur) the wrscur instruction is for changing the values of security register bits. unlike write status register, the wren instruction is not required before sending wrscur instruction. the wrscur instruction may change the values of bit1 (ldso bit) for customer to lock-down the 512-bit secured otp area. once the ldso bit is set to "1", the se - cured otp area cannot be updated any more. the sequence of issuing wrscur instruction is :cs# goes lowsending wrscur instruction cs# goes high. the cs# must go high exactly at the boundary; otherwise, the instruction will be rejected and not executed. (24) hold# pin function enable (hde) the hde instruction is for enabling the hold# pin function. the reset#/hold#/sio# pin defaults to be as re - set# pin function. when hde instruction is writing to the flash, and then pin is set to be hold# pin. the hold mode will continue until power off. the pin is reset# pin while power on stage. the hde instruction is invalid dur - ing deep power down mode. bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 x x x continuously program mode (cp mode) x x ldso (indicate if lock-down secrured otp indicator bit reserved reserved reserved 0=normal program mode 1=cp mode (default=0) reserved reserved 0 = not lock- down 1 = lock-down (cannot program/erase otp) 0 = non-factory lock 1 = factory lock volatile bit volatile bit volatile bit volatile bit volatile bit volatile bit non-volatile bit non-volatile bit table 8. security register defnition www.datasheet.co.kr datasheet pdf - http://www..net/
28 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 power-on state the device is at below states when power-up: - standby mode ( please note it is not deep power-down mode) - write enable latch (wel) bit is reset the device must not be selected during power-up and power-down stage unless the vcc achieves below correct level: - vcc minimum at power-up stage and then after a delay of tvsl - gnd at power-down please note that a pull-up resistor on cs# may ensure a safe and proper power-up/down level. an internal power-on reset (por) circuit may protect the device from data corruption and inadvertent data change during power up state. for further protection on the device, if the vcc does not reach the vcc minimum level, the correct operation is not guaranteed. the read, write, erase, and program command should be sent after the below time delay: - tvsl after vcc reached vcc minimum level the device can accept read command after vcc reached vcc minimum and a time delay of tvsl. please refer to the fgure of "power-up timing". note: - to stabilize the vcc level, the vcc rail decoupled by a suitable capacitor close to package pins is recommend - ed. (generally around 0.1uf) www.datasheet.co.kr datasheet pdf - http://www..net/
29 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 notice: 1. stresses greater than those listed under absolute maximum ratings may cause permanent damage to the device. this is stress rating only and functional operational sections of this specifcation is not implied. exposure to absolute maximum rating conditions for extended period may affect reliability. 2. specifcations contained within the following tables are subject to change. 3. during voltage transitions, all pins may overshoot to vcc+1.0v to vcc or -0.5v to gnd for period up to 20ns. absolute maximum ratings electrical specifications capacitance ta = 25c, f = 1.0 mhz figure 2.maximum negative overshoot waveform figure 3. maximum positive overshoot waveform rating value ambient operating temperature -40c to 85c storage temperature -65c to 150c applied input voltage -0.5v to vcc+0.5v applied output voltage -0.5v to vcc+0.5v vcc to ground potential -0.5v to vcc+0.5v 0v -0.5v 20ns vcc+1.0v vcc 20ns symbol parameter min. typ max. unit conditions cin input capacitance 6 pf vin = 0v cout output capacitance 8 pf vout = 0v www.datasheet.co.kr datasheet pdf - http://www..net/
30 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 4. input test waveforms and measurement level figure 5. output loading ac measurement level input timing referance level output timing referance level 0.8vcc 0.7vcc 0.3vcc 0.5vcc 0.2vcc note: input pulse rise and fall time are <5ns device under test cl 25k ohm 25k ohm +1.8v cl=30pf including jig capacitance www.datasheet.co.kr datasheet pdf - http://www..net/
31 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 table 9. dc characteristics (temperature = -40 c to 85 c, vcc = 1.65v ~ 2.0v) notes : 1. typical values at vcc = 1.8v, t = 25 c. these currents are valid for all product versions (package and speeds). 2. typical value is calculated by simulation. symbol parameter notes min. typ. max. units test conditions ili input load current 1 1 ua vcc = vcc max, vin = vcc or gnd ilo output leakage current 1 1 ua vcc = vcc max, vin = vcc or gnd isb1 vcc standby current 1 1 5 ua vin = vcc or gnd, cs# = vcc isb2 deep power-down current 1 5 ua vin = vcc or gnd, cs# = vcc icc1 vcc read 1 12 ma f=40mhz, fq=33mhz (4 x i/o read) sclk=0.1vcc/0.9vcc, so=open 6 ma f=25mhz, sclk=0.1vcc/0.9vcc, so=open icc2 vcc program current (pp) 1 15 22 ma program in progress, cs# = vcc icc3 vcc write status register (wrsr) current 15 22 ma program status register in progress, cs#=vcc icc4 vcc sector/block (32k, 64k) erase current (se/be/be32k) 1 15 22 ma erase in progress, cs#=vcc icc5 vcc chip erase current (ce) 1 15 22 ma erase in progress, cs#=vcc vil input low voltage -0.5 0.3vcc v vih input high voltage 0.7vcc vcc+0.4 v vol output low voltage 0.2 v iol = 100ua voh output high voltage vcc-0.2 v ioh = -100ua www.datasheet.co.kr datasheet pdf - http://www..net/
32 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 table 10. ac characteristics (temperature = -40 c to 85 c, vcc = 1.65v ~ 2.0v) symbol alt. parameter min. typ. max. unit fsclk fc clock frequency for the following instructions: fast_read, pp, se, be, ce, dp, res,rdp wren, wrdi, rdid, rdsr, wrsr 1khz 40 (condition:30pf) mhz frsclk fr clock frequency for read instructions 1khz 25 mhz ftsclk ft clock frequency for 2read instructions 1khz 40 mhz fq clock frequency for 4read instructions 1khz 33 (condition:30pf) mhz tch(1) tclh clock high time 25mhz 16 ns 33mhz 12 ns 40mhz 10 ns tcl(1) tcll clock low time 25mhz 16 ns 33mhz 12 ns 40mhz 10 ns tclch(2) clock rise time (3) (peak to peak) 0.1 v/ns tchcl(2) clock fall time (3) (peak to peak) 0.1 v/ns tslch tcss cs# active setup time (relative to sclk) 25mhz 16 ns 33mhz 12 ns 40mhz 8 ns tchsl cs# not active hold time (relative to sclk) 10 ns tdvch tdsu data in setup time 25mhz 5 ns 33mhz 3 ns 40mhz 2 ns tchdx tdh data in hold time 5 ns tchsh cs# active hold time (relative to sclk) 25mhz 16 ns 33mhz 12 ns 40mhz 8 ns tshch cs# not active setup time (relative to sclk) 10 ns tshsl(3) tcsh cs# deselect time 30 ns tshqz(2) tdis output disable time 25mhz 20 ns 33mhz 19 ns 40mhz 19 ns tclqv tv clock low to output valid single i/o loading: 30pf 10 ns loading: 15pf 9 ns multi-i/o loading: 30pf 12 ns loading: 15pf 10 ns tclqx tho output hold time 0 ns twhsl write protect setup time 20 ns tshwl write protect hold time 100 ns tdp(2) cs# high to deep power-down mode 10 us tres1(2) cs# high to standby mode without electronic signature read 8.8 us tres2(2) cs# high to standby mode with electronic signature read 8.8 us treset pulse width of reset 100 ns trcr recovery time to read 100 ns trcp recovery time to program 10 us trce recovery time to erase 1 ms trehz time from reset to high-z output 100 ns www.datasheet.co.kr datasheet pdf - http://www..net/
33 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 notes: 1. tch + tcl must be greater than or equal to 1/ frequency. 2. value guaranteed by characterization, not 100% tested in production. 3. tshsl=30ns for read instruction, tshsl=50ns for write/erase/program instruction. 4. only applicable as a constraint for a wrsr instruction when srwd is set at 1. 5. test condition is shown as figure 4, 5. symbol alt. parameter min. typ. max. unit tw write status register cycle time 200 ns tbp byte-program 30 300 us tpp page program cycle time 2 7 ms tse sector erase cycle time 90 220 ms tbe32 block erase (32kb) cycle time 0.8 1.6 s tbe block erase (64kb) cycle time 1.5 3 s tce chip erase cycle time 4mb 7.5 13 s 8mb 15 25 s www.datasheet.co.kr datasheet pdf - http://www..net/
34 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 6. serial input timing timing analysis figure 7. output timing sclk si cs# msb so tdvch high-z lsb tslch tchdx tchcl tclch tshch tshsl tchsh tchsl lsb addr.lsb in tshqz tch tcl tqlqh tqhql tclqx tclqv tclqx tclqv sclk so cs# si www.datasheet.co.kr datasheet pdf - http://www..net/
35 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 8. wp# setup timing and hold timing during wrsr when srwd=1 figure 9. hardware reset timing high-z 01 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 twhsl tshwl sclk si cs# wp# so trcr trcp trce treset trehz reset# cs# sclk so si www.datasheet.co.kr datasheet pdf - http://www..net/
36 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 11. write disable (wrdi) sequence (command 04) figure 10. write enable (wren) sequence (command 06) figure 12. read identifcation (rdid) sequence (command 9f) 2 1 34567 high-z 0 06 command sclk si cs# so 2 1 34567 high-z 0 04 command sclk si cs# so 2 1 3456789 10 11 12 13 14 15 command 0 manufacturer identification high-z msb 15 14 13 3210 device identification msb 7 6 5 3 2 1 0 16 17 18 28 29 30 31 sclk si cs# so 9f www.datasheet.co.kr datasheet pdf - http://www..net/
37 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 13. read status register (rdsr) sequence (command 05) figure 14. write status register (wrsr) sequence (command 01) figure 15. read data bytes (read) sequence (command 03) 2 1 345678 9 10 11 12 13 14 15 command 0 7 6543210 status register out high-z msb 7 6543210 status register out msb 7 sclk si cs# so 05 2 1 345678 9 10 11 12 13 14 15 status register in 0 76543 2 0 1 msb sclk si cs# so 01 high-z command sclk si cs# so 23 2 1 3456789 10 28 29 30 31 32 33 34 35 22 21 3210 36 37 38 76543 1 7 0 data out 1 24-bit address 0 msb msb 2 39 data out 2 03 high-z command www.datasheet.co.kr datasheet pdf - http://www..net/
38 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 16. read at higher speed (fast_read) sequence (command 0b) 23 2 1 3456789 10 28 29 30 31 22 21 3210 high-z 24 bit address 0 32 33 34 36 37 38 39 40 41 42 43 44 45 46 765432 0 1 data out 1 configurable dummy cycle msb 7 6543210 data out 2 msb msb 7 47 765432 0 1 35 sclk si cs# so sclk si cs# so 0b command www.datasheet.co.kr datasheet pdf - http://www..net/
39 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 17. 2 x i/o read mode sequence (command bb) figure 18. 4 x i/o read mode sequence (command eb) high impedance 2 1 345678 0 sclk si/sio0 so/sio1 cs# 9 10 11 18 19 20 bb(hex) dummy dummy address bit22, bit20, bit18...bit0 data bit6, bit4, bit2...bit0, bit6, bit4.... data bit7, bit5, bit3...bit1, bit7, bit5.... address bit23, bit21, bit19...bit1 21 22 23 24 25 26 27 8 bit instruction 12 bit address 4 dummy cycle data output high impedance 2 1 345678 0 sclk si/sio0 so/sio1 cs# 9 12 10 11 13 14 eb(hex) address bit20, bit16..bit0 address bit21, bit17..bit1 p4 p0 p5 p1 p6 p2 p7 p3 data bit4, bit0, bit4.... data bit5 bit1, bit5.... 15 16 17 18 19 20 21 22 23 n high impedance wp#/sio2 address bit22, bit18..bit2 data bit6 bit2, bit6.... high impedance nc/sio3 address bit23, bit19..bit3 data bit7 bit3, bit7.... 8 bit instruction 6 address cycles 4 dummy cycles performance enhance indicator (note) data output note: 1. hi-impedance is inhibited for the two clock cycles. 2. p7p3, p6p2, p5p1 & p4p0 (toggling) is inhibited. www.datasheet.co.kr datasheet pdf - http://www..net/
40 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 19. 4 x i/o read enhance performance mode sequence (command eb) high impedance 2 1 345678 0 sclk si/sio0 so/sio1 cs# 9 12 10 11 13 14 eb(hex) address bit20, bit16..bit0 address bit21, bit17..bit1 p4 p0 p5 p1 p6 p2 p7 p3 data bit4, bit0, bit4.... data bit5 bit1, bit5.... 15 16 n+1 ........... ...... ........... ........... n+7 n+9 n+13 17 18 19 20 21 22 23 n high impedance wp#/sio2 address bit22, bit18..bit2 data bit6 bit2, bit6.... high impedance nc/sio3 address bit23, bit19..bit3 data bit7 bit3, bit7.... 8 bit instruction 6 address cycles 4 dummy cycles performance enhance indicator (note) data output sclk note: performance enhance mode, if p7=p3 & p6=p2 & p5=p1 & p4=p0 (toggling), ex: a5, 5a, 0f reset the performance enhance mode, if p7=p3 or p6=p2 or p5=p1 or p4=p0, ex: aa, 00, ff si/sio0 so/sio1 cs# address bit20, bit16..bit0 address bit21, bit17..bit1 p4 p0 p5 p1 p6 p2 p7 p3 data bit4, bit0, bit4.... data bit5 bit1, bit5.... wp#/sio2 address bit22, bit18..bit2 data bit6 bit2, bit6.... nc/sio3 address bit23, bit19..bit3 data bit7 bit3, bit7.... 6 address cycles 4 dummy cycles performance enhance indicator (note) data output www.datasheet.co.kr datasheet pdf - http://www..net/
41 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 20. page program (pp) sequence (command 02) figure 21. 4 x i/o page program (4pp) sequence (command 38) 42 41 43 44 45 46 47 48 49 50 52 53 54 55 40 23 2 1 3456789 10 28 29 30 31 32 33 34 35 22 21 3210 36 37 38 24-bit address 0 765432 0 1 data byte 1 39 51 765432 0 1 data byte 2 765432 0 1 data byte 3 data byte 256 2079 2078 2077 2076 2075 2074 2073 765432 0 1 2072 msb msb msb msb msb sclk cs# si sclk cs# si 02 command 20 21 17 16 12 8 4 0 13 9 5 1 4 4 4 4 0 0 0 0 5 5 5 5 1 1 1 1 2 1 3456789 6 address cycle data byte 1 data byte 2 data byte 3 data byte 4 0 22 18 14 10 6 2 23 19 15 11 7 3 6 6 6 6 2 2 2 2 7 7 7 7 3 3 3 3 sclk cs# si/sio0 so/sio1 nc/sio3 wp#/sio2 38 command 10 11 12 13 14 15 16 17 18 19 20 21 www.datasheet.co.kr datasheet pdf - http://www..net/
42 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 23. sector erase (se) sequence (command 20) figure 22. continously program (cp) mode sequence with hardware detection (command ad) note: (1) during cp mode, the valid commands are cp command (ad hex), wrdi command (04 hex), rdsr com - mand (05 hex), and rdscur command (2b hex). (2) once an internal programming operation begins, cs# goes low will drive the status on the so pin and cs# goes high will return the so pin to tri-state. (3) to end the cp mode, either reaching the highest unprotected address or sending write disable (wrdi) command (04 hex) may achieve it and then it is recommended to send rdscur command (2b hex) to verify if cp mode is ended note: se command is 20(hex). cs# sclk 0 1 6 7 8 9 si command ad (hex) 30 31 31 s0 high impedance 32 47 48 status (2) data in 24-bit address byte 0, byte1 0 1 valid command (1) data in byte n-1, byte n 6 7 8 20 21 22 23 0 04 (hex) 24 7 0 7 05 (hex) 8 24 bit address 2 1 3456789 29 30 31 0 7 6 2 1 0 msb sclk cs# si 20 command www.datasheet.co.kr datasheet pdf - http://www..net/
43 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 24. block erase 32kb (be32k) sequence (command 52) note: be32k command is 52(hex). figure 25. block erase (be) sequence (command d8) note: be command is d8(hex). figure 26. chip erase (ce) sequence (command 60 or c7) note: ce command is 60(hex) or c7(hex). 24 bit address 2 1 3456789 29 30 31 0 23 22 2 0 1 msb sclk cs# si 52 command 24 bit address 2 1 3456789 29 30 31 0 23 22 2 0 1 msb sclk cs# si d8 command 2 1 34567 0 60 or c7 sclk si cs# command www.datasheet.co.kr datasheet pdf - http://www..net/
44 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 27. deep power-down (dp) sequence (command b9) figure 28. release from deep power-down and read electronic signature (res) sequence (command ab) 2 1 34567 0 t dp deep power-down mode stand-by mode sclk cs# si b9 command 23 2 1 3456789 10 28 29 30 31 32 33 34 35 22 21 3210 36 37 38 765432 0 1 high-z electronic signature out 3 dummy bytes 0 msb stand-by mode deep power-down mode msb t res2 sclk cs# si so ab command www.datasheet.co.kr datasheet pdf - http://www..net/
45 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 notes: (1) add=00h will output the manufacturer's id frst and add=01h will output device id frst (2) instruction is either 90(hex) or ef(hex) or df(hex). figure 29. release from deep power-down (rdp) sequence (command ab) figure 30. read electronic manufacturer & device id (rems) sequence (command 90 or ef or df) 2 1 34567 0 t res1 stand-by mode deep power-down mode high-z sclk cs# si so ab command 15 14 13 3 2 1 0 2 1 3456789 10 2 dummy bytes 0 32 33 34 36 37 38 39 40 41 42 43 44 45 46 765432 0 1 manufacturer id add (1) msb 7 6543210 device id msb msb 7 47 765432 0 1 35 31 30 29 28 sclk si cs# so sclk si cs# so x 90 high-z command www.datasheet.co.kr datasheet pdf - http://www..net/
46 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 figure 31. power-up timing note: vcc (max.) is 2.0v and vcc (min.) is 1.65v. initial delivery state the device is delivered with the memory array erased: all bits are set to 1 (each byte contains ffh). the status register contains 00h (all status register bits are 0). note: 1. these parameters are characterized only. table 11. power-up timing v cc v cc (min) chip selection is not allowed tvsl time device is fully accessible v cc (max) symbol parameter min. max. unit tvsl(1) vcc(min) to cs# low 50 us www.datasheet.co.kr datasheet pdf - http://www..net/
47 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 recommended operating conditions at device power-up ac timing illustrated in figure a is recommended for the supply voltages and the control signals at device power-up. if the timing in the fgure is ignored, the device may not operate correctly . figure a. ac timing at device power-up notes : 1. sampled, not 100% tested. 2. for ac spec tchsl, tslch, tdvch, tchdx, tshsl, tchsh, tshch, tchcl, tclch in the fgure, please refer to "ac characteristics" table. sclk si cs# vcc msb in so tdvch high impedance lsb in tslch tchdx tchcl tclch tshch tshsl tchsh tchsl tvr tvsl vcc(min) gnd symbol parameter notes min. max. unit tvr vcc set up time 1 20 500000 us/v tvsl vcc (min) to cs# low 50 us www.datasheet.co.kr datasheet pdf - http://www..net/
48 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 erase and programming performance note: 1. typical program and erase time assumes the following conditions: 25 c, 1.8v, and checker board pattern. 2. under worst conditions of 85 c and 1.65v. 3. system-level overhead is the time required to execute the frst-bus-cycle sequence for the programming com - mand. 4. the maximum chip programming time is evaluated under the worst conditions of 0c, vcc=1.8v, and 100k cycle with 90% confdence level. latch-up characteristics parameter min. typ. (1) max. (2) unit write status register cycle time 200 ns sector erase cycle time (4kb) 90 220 ms block erase cycle time (32kb) 0.8 1.6 s block erase cycle time (64kb) 1.5 3 s chip erase cycle time 4m 7.5 13 s 8m 15 25 s byte program time (via page program command) 30 300 us page program cycle time 2 7 ms erase/program cycle 100,000 cycles min. max. input voltage with respect to gnd on all power pins, si, cs# -1.0v 2 vccmax input voltage with respect to gnd on so -1.0v vcc + 1.0v current -100ma +100ma includes all pins except vcc. test conditions: vcc = 1.8v, one pin at a time. www.datasheet.co.kr datasheet pdf - http://www..net/
49 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 * preliminary information ordering information part no. clock (mhz) operating current max. (ma) standby current max. (ua) temperature package remark MX25U4035mi-25g* 40 12 5 -40 c~85 c 8-sop (150mil) pb-free mx25u8035mi-25g 40 12 5 -40 c~85 c 8-sop (150mil) pb-free MX25U4035zui-25g* 40 12 5 -40 c~85 c 8-uson (4x4mm) pb-free mx25u8035zui-25g 40 12 5 -40 c~85 c 8-uson (4x4mm) pb-free www.datasheet.co.kr datasheet pdf - http://www..net/
50 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 part name description mx 25 u 25 m i g option: g: pb-free speed: 25: 40mhz temperature range: i: industrial (-40c to 85c) package: m: 150mil 8-sop zu: uson density & mode: 4035: 4mb 8035: 8mb type: u: 1.8v device: 25: serial flash 4035 www.datasheet.co.kr datasheet pdf - http://www..net/
51 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 package information www.datasheet.co.kr datasheet pdf - http://www..net/
52 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 www.datasheet.co.kr datasheet pdf - http://www..net/
53 MX25U4035 mx25u8035 p/n: pm1394 rev. 1.0, mar. 09, 2009 revision history revision no. description page date 1.0 1. removed title of "advanced information" p5 mar/09/2009 2. revised 4kb erase time p48 3. modifed erase/program cycle to be typical 100,000 times p1,48 4. revised qe bit attribute from non-volatile to volatile p18 www.datasheet.co.kr datasheet pdf - http://www..net/
54 MX25U4035 mx25u8035 m acronix i nternational c o., l td. macronix offces : taiwan headquarters, fab2 macronix, international co., ltd. 16, li-hsin road, science park, hsinchu, taiwan, r.o.c. tel: +886-3-5786688 fax: +886-3-5632888 taipei offce macronix, international co., ltd. 19f, 4, min-chuan e. road, sec. 3, taipei, taiwan, r.o.c. tel: +886-2-2509-3300 fax: +886-2-2509-2200 macronix offces : china macronix (hong kong) co., limited. 702-703, 7/f, building 9, hong kong science park, 5 science park west avenue, sha tin, n.t. tel: +86-852-2607-4289 fax: +86-852-2607-4229 macronix (hong kong) co., limited, suzhou offce no.5, xinghai rd, suzhou industrial park, suzhou china 215021 tel: +86-512-62580888 ext: 3300 fax: +86-512-62586799 macronix (hong kong) co., limited, shenzhen offce room 1401 & 1404, blcok a, tianan hi-tech plaza tower, che gong miao, futiandistrict, shenzhen prc 518040 tel: +86-755-83433579 fax: +86-755-83438078 http : //www.macronix.com macronix international co., ltd. reserves the right to change product and specifcations without notice. macronix offces : japan macronix asia limited. nkf bldg. 5f, 1-2 higashida-cho, kawasaki-ku kawasaki-shi, kanagawa pref. 210-0005, japan tel: +81-44-246-9100 fax: +81-44-246-9105 macronix offces : korea macronix asia limited. #906, 9f, kangnam bldg., 1321-4, seocho-dong, seocho-ku, 135-070, seoul, korea tel: +82-02-588-6887 fax: +82-02-588-6828 macronix offces : singapore macronix pte. ltd. 1 marine parade central, #11-03 parkway centre, singapore 449408 tel: +65-6346-5505 fax: +65-6348-8096 macronix offces : europe macronix europe n.v. koningin astridlaan 59, bus 1 1780 wemmel belgium tel: +32-2-456-8020 fax: +32-2-456-8021 macronix offces : usa macronix america, inc. 680 north mccarthy blvd. milpitas, ca 95035, u.s.a. tel: +1-408-262-8887 fax: +1-408-262-8810 macronix's products are not designed, manufactured, or intended for use for any high risk applications in which the failure of a single component could cause death, personal injury, severe physical damage, or other substan - tial harm to persons or property, such as life-support systems, high temperature automotive, medical, aircraft and military application. macronix and its suppliers will not be liable to you and/or any third party for any claims, injuries or damages that may be incurred due to use of macronix's products in the prohibited applications. copyright? macronix international co. ltd. 2008~2009. all rights reserved. macronix, mxic, mxic logo, mx logo, are trademarks or registered trademarks of macronix international co., ltd.. the names and brands of other companies are for identifcation purposes only and may be claimed as the property of the respective companies. www.datasheet.co.kr datasheet pdf - http://www..net/

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