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| K8D6x16UTM / K8D6x16UBM NOR FLASH MEMORY Document Title 64M Bit (8M x8/4M x16) Dual Bank NOR Flash Memory Revision History Revision No. History 0.0 1.0 1.1 Initial Draft Final Specification Revised - Release the stand-by current from typ. 5uA(max. 18uA) to typ. 10uA(max. 30uA). Not support 48TSOP1 Package Not support 16M/16M BANK partition Support 48TSOP1 Package Support 48TSOP1 Lead Free Package Support 48FBGA Leaded/Lead Free Package Draft Date January 10, 2002 May 22, 2002 June 18, 2003 Remark Preliminary Final 1.2 November 18, 2003 1.3 1.4 1.5 1.6 July 22, 2004 September 16, 2004 March 16, 2005 "Asynchronous mode may not support read following four sequential September 08, 2006 invalid read condition within 200ns." is added 1 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM NOR FLASH MEMORY 64M Bit (8M x8/4M x16) Dual Bank NOR Flash Memory FEATURES * Single Voltage, 2.7V to 3.6V for Read and Write operations * Organization 8,388,608 x 8 bit (Byte mode) / 4,194,304 x 16 bit (Word mode) * Fast Read Access Time : 70ns * Read While Program/Erase Operation * Dual Bank architectures Bank 1 / Bank 2 : 16Mb / 48Mb * Secode(Security Code) Block : Extra 64K Byte block * Power Consumption (typical value @5MHz) - Read Current : 14mA - Program/Erase Current : 15mA - Read While Program or Read While Erase Current : 25mA - Standby Mode/Auto Sleep Mode : 10A * WP/ACC input pin - Allows special protection of two outermost boot blocks at VIL, regardless of block protect status - Removes special protection of two outermost boot block at VIH, the two blocks return to normal block protect status - Program time at VHH : 9s/word * Erase Suspend/Resume * Unlock Bypass Program * Hardware RESET Pin * Command Register Operation * Block Group Protection / Unprotection * Supports Common Flash Memory Interface * Industrial Temperature : -40C to 85C * Endurance : 100,000 Program/Erase Cycles Minimum * Data Retention : 10 years * Package : 48 Pin TSOP1 : 12 x 20 mm / 0.5 mm Pin pitch 48 Ball TBGA : 6 x 9 mm / 0.8 mm Ball pitch 48 Ball FBGA : 6 x 9 mm / 0.8 mm Ball pitch GENERAL DESCRIPTION The K8D6316U featuring single 3.0V power supply, is a 64Mbit NOR-type Flash Memory organized as 8Mx8 or 4M x16. The memory architecture of the device is designed to divide its memory arrays into 135 blocks to be protected by the block group. This block architecture provides highly flexible erase and program capability. The K8D6316U NOR Flash consists of two banks. This device is capable of reading data from one bank while programming or erasing in the other bank. Access times of 70ns, 80ns and 90ns are available for the device. The devices fast access times allow high speed microprocessors to operate without wait states. The device performs a program operation in units of 8 bits (Byte) or 16 bits (Word) and erases in units of a block. Single or multiple blocks can be erased. The block erase operation is completed within typically 0.7 sec. The device requires 15mA as program/erase current in the standard and industrial temperature ranges. The K8D6316U NOR Flash Memory is created by using Samsung's advanced CMOS process technology. This device is available in 48 pin TSOP1 and 48 ball TBGA,FBGA packages. The device is compatible with EPROM applications to require high-density and cost-effective nonvolatile read/write storage solutions. PIN DESCRIPTION Pin Name A0 - A21 Pin Function Address Inputs Data Inputs / Outputs DQ15 Data Input / Output A-1 LSB Address Word / Byte Selection Chip Enable Output Enable Hardware Reset Pin Ready/Busy Output Write Enable Hardware Write Protection/Program Acceleration Power Supply Ground No Connection PIN CONFIGURATION A15 A14 A13 A12 A11 A10 A9 A8 A19 A20 WE RESET A21 WP/ACC RY/BY A18 A17 A7 A6 A5 A4 A3 A2 A1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 A16 BYTE Vss DQ15/A-1 DQ7 DQ14 DQ6 DQ13 DQ5 DQ12 DQ4 Vcc DQ11 DQ3 DQ10 DQ2 DQ9 DQ1 DQ8 DQ0 OE Vss CE A0 DQ0 - DQ14 DQ15/A-1 BYTE CE OE RESET RY/BY WE WP/ACC Vcc VSS N.C 48-pin TSOP1 Standard Type 12mm x 20mm Note : Please refer to the package dimension. SAMSUNG ELECTRONICS CO., LTD. reserves the right to change products and specifications without notice. 2 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM 48 Ball TBGA/FBGA TOP VIEW (BALL DOWN) 1 2 3 4 5 NOR FLASH MEMORY 6 A A3 A7 RY/BY WE A9 A13 B A4 A17 WP/ ACC RESET A8 A12 C A2 A6 A18 A21 A10 A14 D A1 A5 A20 A19 A11 A15 E A0 DQ0 DQ2 DQ5 DQ7 A16 F CE DQ8 DQ10 DQ12 DQ14 BYTE G OE DQ9 DQ11 VCC DQ13 DQ15/ A-1 H VSS DQ1 DQ3 DQ4 DQ6 VSS FUNCTIONAL BLOCK DIAGRAM Vcc Vss Bank1 Address X Dec Bank1 Cell Array Y Dec CE OE WE BYTE RESET RY/BY WP/ACC A0~A21 DQ15/A-1 DQ0~DQ14 Erase Control Program Control I/O Interface & Bank Control Bank1 Data-In/Out Bank2 Data-In/Out Latch & Control Y Dec Bank2 Address Latch & Control X Dec Bank2 Cell Array High Voltage Gen. 3 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM ORDERING INFORMATION NOR FLASH MEMORY K 8 D 6x 1 6 U T M - T I 0 7 Samsung NOR Flash Memory Device Type Dual Bank Boot Block Access Time 07 = 70 ns 08 = 80 ns 09 = 90 ns Operating Temperature Range C = Commercial Temp. (0 C to 70 C) I = Industrial Temp. (-40 C to 85 C) Package P = 48TSOP1(Lead-Free) Y = 48 TSOP1 D : FBGA(Lead Free) F : FBGA L : TBGA(Lead Free) T : TBGA Version M = 1st Generation Block Architecture T = Top Boot Block B = Bottom Boot Block Bank Division 63 = 16Mbits + 48Mbits Organization x8/x16 Selectable Operating Voltage Range 2.7V to 3.6V Table 1. PRODUCT LINE-UP Part No. Vcc Max. Address Access Time (ns) Max. CE Access Time (ns) Max. OE Access Time (ns) 70ns 70ns 25ns -7 -8 2.7V~3.6V 80ns 80ns 25ns 90ns 90ns 35ns -9 Table 2. K8D6316U DEVICE BANK DIVISIONS Device Part Number K8D6316U Bank 1 Mbit 16 Mbit Block Sizes Eight 8 Kbyte/4 Kword, thirty-one 64 Kbyte/32 Kword Mbit 48 Mbit Bank 2 Block Sizes Ninety-six 64 Kbyte/32 Kword 4 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 3. Top Boot Block Address (K8D6316UT) K8D6316UT Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Address Range Byte Mode Word Mode Block Size (KB/KW) BA134 BA133 BA132 BA131 BA130 BA129 BA128 BA127 BA126 BA125 BA124 BA123 BA122 BA121 BA120 BA119 BA118 Bank1 BA117 BA116 BA115 BA114 BA113 BA112 BA111 BA110 BA109 BA108 BA107 BA106 BA105 BA104 BA103 BA102 BA101 BA100 BA99 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 1 1 1 1 1 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 1 1 1 1 1 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 1 1 1 1 0 0 0 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X 1 1 0 0 1 1 0 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X 8/4 8/4 8/4 8/4 8/4 8/4 8/4 8/4 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 7FE000H-7FFFFFH 7FC000H-7FDFFFH 7FA000H-7FBFFFH 7F8000H-7F9FFFH 7F6000H-7F7FFFH 7F4000H-7F5FFFH 7F2000H-7F3FFFH 7F0000H-7F1FFFH 7E0000H-7EFFFFH 7D0000H-7DFFFFH 7C0000H-7CFFFFH 7B0000H-7BFFFFH 7A0000H-7AFFFFH 790000H-79FFFFH 780000H-78FFFFH 770000H-77FFFFH 760000H-76FFFFH 750000H-75FFFFH 740000H-74FFFFH 730000H-73FFFFH 720000H-72FFFFH 710000H-71FFFFH 700000H-70FFFFH 6F0000H-6FFFFFH 6E0000H-6EFFFFH 6D0000H-6DFFFFH 6C0000H-6CFFFFH 6B0000H-6BFFFFH 6A0000H-6AFFFFH 690000H-69FFFFH 680000H-68FFFFH 670000H-67FFFFH 660000H-66FFFFH 650000H-65FFFFH 640000H-64FFFFH 630000H-63FFFFH 3FF000H-3FFFFFH 3FE000H-3FEFFFH 3FD000H-3FDFFFH 3FC000H-3FCFFFH 3FB000H-3FBFFFH 3FA000H-3FAFFFH 3F9000H-3F9FFFH 3F8000H-3F8FFFH 3F0000H-3F7FFFH 3E8000H-3EFFFFH 3E0000H-3E7FFFH 3D8000H-3DFFFFH 3D0000H-3D7FFFH 3C8000H-3CFFFFH 3C0000H-3C7FFFH 3B8000H-3BFFFFH 3B0000H-3B7FFFH 3A8000H-3AFFFFH 3A0000H-3A7FFFH 398000H-39FFFFH 390000H-397FFFH 388000H-38FFFFH 380000H-387FFFH 378000H-37FFFFH 370000H-377FFFH 368000H-36FFFFH 360000H-367FFFH 358000H-35FFFFH 350000H-357FFFH 348000H-34FFFFH 340000H-347FFFH 338000H-33FFFFH 330000H-337FFFH 328000H-32FFFFH 320000H-327FFFH 318000H-31FFFFH 5 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 3. Top Boot Block Address (Continued) K8D6316UT Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Block Size (KB/KW) Address Range Byte Mode Word Mode BA98 Bank1 BA97 BA96 BA95 BA94 BA93 BA92 BA91 BA90 BA89 BA88 BA87 BA86 BA85 BA84 Bank2 BA83 BA82 BA81 BA80 BA79 BA78 BA77 BA76 BA75 BA74 BA73 BA72 BA71 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 620000H-62FFFFH 610000H-61FFFFH 600000H-60FFFFH 5F0000H-5FFFFFH 5E0000H-5EFFFFH 5D0000H-5DFFFFH 5C0000H-5CFFFFH 5B0000H-5BFFFFH 5A0000H-5AFFFFH 590000H-59FFFFH 580000H-58FFFFH 570000H-57FFFFH 560000H-56FFFFH 550000H-55FFFFH 540000H-54FFFFH 530000H-53FFFFH 520000H-52FFFFH 510000H-51FFFFH 500000H-50FFFFH 4F0000H-4FFFFFH 4E0000H-4EFFFFH 4D0000H-4DFFFFH 4C0000H-4CFFFFH 4B0000H-4BFFFFH 4A0000H-4AFFFFH 490000H-49FFFFH 480000H-48FFFFH 470000H-47FFFFH 310000H-317FFFH 308000H-30FFFFH 300000H-307FFFH 2F8000H-2FFFFFH 2F0000H-2F7FFFH 2E8000H-2EFFFFH 2E0000H-2E7FFFH 2D8000H-2DFFFFH 2D0000H-2D7FFFH 2C8000H20CFFFFH 2C0000H-2C7FFFH 2B8000H-2BFFFFH 2B0000H-2B7FFFH 2A8000H-2AFFFFH 2A0000H-2A7FFFH 298000H-29FFFFH 290000H-297FFFH 288000H-28FFFFH 280000H-287FFFH 278000H-27FFFFH 270000H-277FFFH 268000H-26FFFFH 260000H-267FFFH 258000H-25FFFFH 250000H-257FFFH 248000H-24FFFFH 240000H-247FFFH 238000H-23FFFFH 6 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 3. Top Boot Block Address (Continued) K8D6316UT Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Address Range Byte Mode Word Mode Block Size (KB/KW) BA70 BA69 BA68 BA67 BA66 BA65 BA64 BA63 BA62 BA61 BA60 BA59 BA58 BA57 BA56 BA55 BA54 Bank2 BA53 BA52 BA51 BA50 BA49 BA48 BA47 BA46 BA45 BA44 BA43 BA42 BA41 BA40 BA39 BA38 BA37 BA36 BA35 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 460000H-46FFFFH 450000H-45FFFFH 440000H-44FFFFH 430000H-43FFFFH 420000H-42FFFFH 410000H-41FFFFH 400000H-3FFFFFH 3F0000H-3FFFFFH 3E0000H-3EFFFFH 3D0000H-3DFFFFH 3C0000H-3CFFFFH 3B0000H-3BFFFFH 3A0000H-3AFFFFH 390000H-39FFFFH 380000H-38FFFFH 370000H-37FFFFH 360000H-36FFFFH 350000H-35FFFFH 340000H-34FFFFH 330000H-33FFFFH 320000H-32FFFFH 310000H-31FFFFH 300000H-30FFFFH 2F0000H-2FFFFFH 2E0000H-2EFFFFH 2D0000H-2DFFFFH 2C0000H-2CFFFFH 2B0000H-2BFFFFH 2A0000H-2AFFFFH 290000H-29FFFFH 280000H-28FFFFH 270000H-27FFFFH 260000H-26FFFFH 250000H-25FFFFH 240000H-24FFFFH 230000H-23FFFFH 230000H-237FFFH 228000H-22FFFFH 220000H-227FFFH 218000H-21FFFFH 210000H-217FFFH 208000H-20FFFFH 200000H-207FFFH 1F8000H-1FFFFFH 1F0000H-1F7FFFH 1E8000H-1EFFFFH 1E0000H-1E7FFFH 1D8000H-1DFFFFH 1D0000H-1D7FFFH 1C8000H-1CFFFFH 1C0000H-1C7FFFH 1B8000H-1BFFFFH 1B0000H-1B7FFFH 1A8000H-1AFFFFH 1A0000H-1A7FFFH 198000H-19FFFFH 190000H-197FFFH 188000H-18FFFFH 180000H-187FFFH 178000H-17FFFFH 170000H-177FFFH 168000H-16FFFFH 160000H-167FFFH 158000H-15FFFFH 150000H-157FFFH 148000H-14FFFFH 140000H-147FFFH 138000H-13FFFFH 130000H-137FFFH 128000H-12FFFFH 120000H-127FFFH 118000H-11FFFFH 7 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 3. Top Boot Block Address (Continued) K8D6316UT Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Block Size (KB/KW) Address Range Byte Mode Word Mode BA34 BA33 BA32 BA31 BA30 BA29 BA28 BA27 BA26 BA25 BA24 BA23 BA22 BA21 BA20 BA19 BA18 Bank2 BA17 BA16 BA15 BA14 BA13 BA12 BA11 BA10 BA9 BA8 BA7 BA6 BA5 BA4 BA3 BA2 BA1 BA0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 220000H-22FFFFH 210000H-21FFFFH 200000H-20FFFFH 1F0000H-1FFFFFH 1E0000H-1EFFFFH 1D0000H-1DFFFFH 1C0000H-1CFFFFH 1B0000H-1BFFFFH 1A0000H-1AFFFFH 190000H-19FFFFH 180000H-18FFFFH 170000H-17FFFFH 160000H-16FFFFH 150000H-15FFFFH 140000H-14FFFFH 130000H-13FFFFH 120000H-12FFFFH 110000H-11FFFFH 100000H-10FFFFH 0F0000H-0FFFFFH 0E0000H-0EFFFFH 0D0000H-0DFFFFH 0C0000H-0CFFFFH 0B0000H-0BFFFFH 0A0000H-0AFFFFH 090000H-09FFFFH 080000H-08FFFFH 070000H-07FFFFH 060000H-06FFFFH 050000H-05FFFFH 040000H-04FFFFH 030000H-03FFFFH 020000H-02FFFFH 010000H-01FFFFH 000000H-00FFFFH 110000H-117FFFH 108000H-10FFFFH 100000H-107FFFH 0F8000H-0FFFFFH 0F0000H-0F7FFFH 0E8000H-0EFFFFH 0E0000H-0E7FFFH 0D8000H-0DFFFFH 0D0000H-0D7FFFH 0C8000H-0CFFFFH 0C0000H-0C7FFFH 0B8000H-0BFFFFH 0B0000H-0B7FFFH 0A8000H-0AFFFFH 0A0000H-0A7FFFH 098000H-09FFFFH 090000H-097FFFH 088000H-08FFFFH 080000H-087FFFH 078000H-07FFFFH 070000H-077FFFH 068000H-06FFFFH 060000H-067FFFH 058000H-05FFFFH 050000H-057FFFH 048000H-04FFFFH 040000H-047FFFH 038000H-03FFFFH 030000H-037FFFH 028000H-02FFFFH 020000H-027FFFH 018000H-01FFFFH 010000H-017FFFH 008000H-00FFFFH 000000H-007FFFH Note : The bank address bits are A21 A20 for K8D6316UT. Table 4. Secode Block Addresses for Top Boot Devices Device K8D6316UT Block Address A21-A12 1111111xxx Block Size (KB/KW) 64/32 (X8) Address Range 7F0000H-7FFFFFH (X16) Address Range 3F8000H-3FFFFFH 8 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 5. Bottom Boot Block Address (K8D6316UB) K8D6316UB Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Block Size (KB/KW) Address Range Byte Mode Word Mode BA134 BA133 BA132 BA131 BA130 BA129 BA128 BA127 BA126 BA125 BA124 BA123 BA122 BA121 BA120 BA119 BA118 BA117 Bank2 BA116 BA115 BA114 BA113 BA112 BA111 BA110 BA109 BA108 BA107 BA106 BA105 BA104 BA103 BA102 BA101 BA100 BA99 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 7F0000H-7FFFFFH 7E0000H-7EFFFFH 7D0000H-7DFFFFH 7C0000H-7CFFFFH 7B0000H-7BFFFFH 7A0000H-7AFFFFH 790000H-79FFFFH 780000H-78FFFFH 770000H-77FFFFH 760000H-76FFFFH 750000H-75FFFFH 740000H-74FFFFH 730000H-73FFFFH 720000H-72FFFFH 710000H-71FFFFH 700000H-70FFFFH 6F0000H-6F1FFFH 6E0000H-6EFFFFH 6D0000H-6DFFFFH 6C0000H-6CFFFFH 6B0000H-6BFFFFH 6A0000H-6AFFFFH 690000H-69FFFFH 680000H-68FFFFH 670000H-67FFFFH 660000H-66FFFFH 650000H-65FFFFH 640000H-64FFFFH 630000H-63FFFFH 620000H-62FFFFH 610000H-61FFFFH 600000H-60FFFFH 5F0000H-5FFFFFH 5E0000H-5EFFFFH 5D0000H-5DFFFFH 5C0000H-5CFFFFH 3F8000H-3FFFFFH 3F0000H-3F7FFFH 3E8000H-3EFFFFH 3E0000H-3E7FFFH 3D8000H-3DFFFFH 3D0000H-3D7FFFH 3C8000H-3CFFFFH 3C0000H-3C7FFFH 3B8000H-3BFFFFH 3B0000H-3B7FFFH 3A8000H-3AFFFFH 3A0000H-3A7FFFH 398000H-39FFFFH 390000H-397FFFH 388000H-38FFFFH 380000H-387FFFH 378000H-37FFFFH 370000H-377FFFH 368000H-36FFFFH 360000H-367FFFH 358000H-35FFFFH 350000H-357FFFH 348000H-34FFFFH 340000H-347FFFH 338000H-33FFFFH 330000H-337FFFH 328000H-32FFFFH 320000H-327FFFH 318000H-31FFFFH 310000H-317FFFH 308000H-30FFFFH 300000H-307FFFH 2F8000H-2FFFFFH 2F0000H-2F7FFFH 2E8000H-2EFFFFH 2E0000H-2E7FFFH 9 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 5. Bottom Block Address (Continued) K8D6316UB Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Block Size (KB/KW) Address Range Byte Mode Word Mode BA98 BA97 BA96 BA95 BA94 BA93 BA92 BA91 BA90 BA89 BA88 BA87 BA86 Bank2 BA85 BA84 BA83 BA82 BA81 BA80 BA79 BA78 BA77 BA76 BA75 BA74 BA73 BA72 BA71 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 5B0000H-5BFFFFH 5A0000H-5AFFFFH 590000H-59FFFFH 580000H-58FFFFH 570000H-57FFFFH 560000H-56FFFFH 550000H-55FFFFH 540000H-54FFFFH 530000H-53FFFFH 520000H-52FFFFH 510000H-51FFFFH 500000H-50FFFFH 4F0000H-4FFFFFH 4E0000H-4EFFFFH 4D0000H-4DFFFFH 4C0000H-4CFFFFH 4B0000H-4BFFFFH 4A0000H-4AFFFFH 490000H-49FFFFH 480000H-48FFFFH 470000H-47FFFFH 460000H-46FFFFH 450000H-45FFFFH 440000H-44FFFFH 430000H-43FFFFH 420000H-42FFFFH 410000H-41FFFFH 400000H-40FFFFH 2D8000H-2DFFFFH 2D0000H-2D7FFFH 2C8000H-2CFFFFH 2C0000H-2C7FFFH 2B8000H-2BFFFFH 2B0000H-2B7FFFH 2A8000H-2AFFFFH 2A0000H-2A7FFFH 298000H-29FFFFH 290000H-297FFFH 288000H-28FFFFH 280000H-287FFFH 278000H-27FFFFH 270000H-277FFFH 268000H-26FFFFH 260000H-267FFFH 258000H-25FFFFH 250000H-257FFFH 248000H-24FFFFH 240000H-247FFFH 238000H-23FFFFH 230000H-237FFFH 228000H-22FFFFH 220000H-227FFFH 218000H-21FFFFH 210000H-217FFFH 208000H-20FFFFH 200000H-207FFFH 10 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 5. Bottom Boot Block Address (Continued) K8D6316UB Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Block Size (KB/KW) Address Range Byte Mode Word Mode BA70 BA69 BA68 BA67 BA66 BA65 BA64 BA63 BA62 BA61 BA60 BA59 BA58 BA57 BA56 BA55 Bank2 BA54 BA53 BA52 BA51 BA50 BA49 BA48 BA47 BA46 BA45 BA44 BA43 BA42 BA41 BA40 BA39 BA38 Bank1 BA37 BA36 BA35 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 3F0000H-3FFFFFH 3E0000H-3EFFFFH 3D0000H-3DFFFFH 3C0000H-3CFFFFH 3B0000H-3BFFFFH 3A0000H-3AFFFFH 390000H-39FFFFH 380000H-38FFFFH 370000H-37FFFFH 360000H-36FFFFH 350000H-35FFFFH 340000H-34FFFFH 330000H-33FFFFH 320000H-32FFFFH 310000H-31FFFFH 300000H-30FFFFH 2F0000H-2F1FFFH 2E0000H-2EFFFFH 2D0000H-2DFFFFH 2C0000H-2CFFFFH 2B0000H-2BFFFFH 2A0000H-2AFFFFH 290000H-29FFFFH 280000H-28FFFFH 270000H-27FFFFH 260000H-26FFFFH 250000H-25FFFFH 240000H-24FFFFH 230000H-23FFFFH 220000H-22FFFFH 210000H-21FFFFH 200000H-20FFFFH 1F0000H-1FFFFFH 1E0000H-1EFFFFH 1D0000H-1DFFFFH 1C0000H-1CFFFFH 1F8000H-1FFFFFH 1F0000H-1F7FFFH 1E8000H-1EFFFFH 1E0000H-1E7FFFH 1D8000H-1DFFFFH 1D0000H-1D7FFFH 1C8000H-1CFFFFH 1C0000H-1C7FFFH 1B8000H-1BFFFFH 1B0000H-1B7FFFH 1A8000H-1AFFFFH 1A0000H-1A7FFFH 198000H-19FFFFH 190000H-197FFFH 188000H-18FFFFH 180000H-187FFFH 178000H-17FFFFH 170000H-177FFFH 168000H-16FFFFH 160000H-167FFFH 158000H-15FFFFH 150000H-157FFFH 148000H-14FFFFH 140000H-147FFFH 138000H-13FFFFH 130000H-137FFFH 128000H-12FFFFH 120000H-127FFFH 118000H-11FFFFH 110000H-117FFFH 108000H-10FFFFH 100000H-107FFFH 0F8000H-0FFFFFH 0F0000H-0F7FFFH 0E8000H-0EFFFFH 0E0000H-0E7FFFH 11 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 5. Bottom Block Address (Continued) K8D6316UB Block Block Address A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 NOR FLASH MEMORY Block Size (KB/KW) Address Range Byte Mode Word Mode BA34 BA33 BA32 BA31 BA30 BA29 BA28 BA27 BA26 BA25 BA24 BA23 BA22 BA21 BA20 BA19 BA18 Bank1 BA17 BA16 BA15 BA14 BA13 BA12 BA11 BA10 BA9 BA8 BA7 BA6 BA5 BA4 BA3 BA2 BA1 BA0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 0 0 0 0 0 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 0 0 0 0 0 0 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X 1 1 1 1 0 0 0 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X 1 1 0 0 1 1 0 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X 1 0 1 0 1 0 1 0 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 64/32 8/4 8/4 8/4 8/4 8/4 8/4 8/4 8/4 1B0000H-1BFFFFH 1A0000H-1AFFFFH 190000H-19FFFFH 180000H-18FFFFH 170000H-17FFFFH 160000H-16FFFFH 150000H-15FFFFH 140000H-14FFFFH 130000H-13FFFFH 120000H-12FFFFH 110000H-11FFFFH 100000H-10FFFFH 0F0000H-0FFFFFH 0E0000H-0EFFFFH 0D0000H-0DFFFFH 0C0000H-0CFFFFH 0B0000H-0BFFFFH 0A0000H-0AFFFFH 090000H-09FFFFH 080000H-08FFFFH 070000H-07FFFFH 060000H-06FFFFH 050000H-05FFFFH 040000H-04FFFFH 030000H-03FFFFH 020000H-02FFFFH 010000H-01FFFFH 00E000H-00FFFFH 00C000H-00DFFFH 00A000H-00BFFFH 008000H-009FFFH 006000H-007FFFH 004000H-005FFFH 002000H-003FFFH 000000H-001FFFH 0D8000H-0DFFFFH 0D0000H-0D7FFFH 0C8000H-0CFFFFH 0C0000H-0C7FFFH 0B8000H-0BFFFFH 0B0000H-0B7FFFH 0A8000H-0AFFFFH 0A0000H-0A7FFFH 098000H-09FFFFH 090000H-097FFFH 088000H-08FFFFH 080000H-087FFFH 078000H-07FFFFH 070000H-077FFFH 068000H-06FFFFH 060000H-067FFFH 058000H-05FFFFH 050000H-057FFFH 048000H-04FFFFH 040000H-047FFFH 038000H-03FFFFH 030000H-037FFFH 028000H-02FFFFH 020000H-027FFFH 018000H-01FFFFH 010000H-017FFFH 008000H-00FFFFH 007000H-007FFFH 006000H-006FFFH 005000H-005FFFH 004000H-004FFFH 003000H-003FFFH 002000H-002FFFH 001000H-001FFFH 000000H-000FFFH Note : The bank address bits are A21 A20 for K8D6316UB. Table 6. Secode Block Addresses for Bottom Boot Devices Device K8D6316UB Block Address A21-A12 0000000xxx Block Size (KB/KW) 64/32 (X8) Address Range 000000H-00FFFFH (X16) Address Range 000000H-007FFFH 12 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM PRODUCT INTRODUCTION NOR FLASH MEMORY The K8D6316U is an 64Mbit (67,108,864 bits) NOR-type Flash memory. The device features single voltage power supply operating within the range of 2.7V to 3.6V. The device is programmed by using the Channel Hot Electron (CHE) injection mechanism which is used to program EPROMs. The device is erased electrically by using Fowler-Nordheim tunneling mechanism. To provide highly flexible erase and program capability, the device adapts a block memory architecture that divides its memory array into 135 blocks (64Kbyte x 127 , 8-Kbyte x 8). Programming is done in units of 8 bits (Byte) or 16 bits (Word). All bits of data in one or multiple blocks can be erased simultaneously when the device executes the erase operation. To prevent the device from accidental erasing or overwriting the programmed data, 135 memory blocks can be hardware protected by the block group. Byte/Word modes are available for read operation. These modes can be selected via BYTE pin. The device provides read access times of 70ns, 80ns and 90ns supporting high speed microprocessors to operate without any wait states. The command set of K8D6316U is fully compatible with standard Flash devices. The device is controlled by chip enable (CE), output enable (OE) and write enable (WE). Device operations are executed by selective command codes. The command codes to be combined with addresses and data are sequentially written to the command registers using microprocessor write timing. The command codes serve as inputs to an internal state machine which controls the program/erase circuitry. Register contents also internally latch addresses and data necessary to execute the program and erase operations. The K8D6316U is implemented with Internal Program/ Erase Algorithms to execute the program/erase operations. The Internal Program/Erase Algorithms are invoked by program/erase command sequences. The Internal Program Algorithm automatically programs and verifies data at specified addresses. The Internal Erase Algorithm automatically pre-programs the memory cell which is not programmed and then executes the erase operation. The K8D6316U has means to indicate the status of completion of program/erase operations. The status can be indicated via the RY/BY pin, Data polling of DQ7, or the Toggle bit (DQ6). Once the operations have been completed, the device automatically resets itself to the read mode. The device requires only 14 mA as active read current and 15 mA for program/erase operations. Table 7. Operations Table Operation Read Stand-by Output Disable Reset Write word byte word byte CE L L Vcc 0.3V L X L L L L X L L OE L L X H X H H H H X L L WE H H X H X L L L L X H H BYTE H L X X X H L X X X X X WP/ ACC L/H (2) L/H L/H (4) L/H (4) (4) L/H L/H A9 A9 A9 X X X A9 A9 X X X VID VID A6 A6 A6 X X X A6 A6 L H X L L A1 A1 A1 X X X A1 A1 H H X L L A0 A0 A0 X X X A0 A0 L L X L H DQ15/ A-1 DQ15 A-1 High-Z High-Z High-Z DIN A-1 X X X X X DQ8/ DQ14 DOUT High-Z High-Z High-Z High-Z DIN High-Z X X X X X DQ0/ DQ7 DOUT DOUT High-Z High-Z High-Z DIN DIN DIN DIN X Code(See Table 9) RESET H H (2) H L H H VID VID VID H H Enable Block Group Protect (3) Enable Block Group Unprotect (3) Temporary Block Group Auto Select Manufacturer ID (5) Auto Select Device Code (5) Code(See Table 9) Notes : 1. L = VIL (Low), H = VIH (High), VID = 8.5V~12.5V, DIN = Data in, DOUT = Data out, X = Don't care. 2. WP/ACC and RESET pin are asserted at Vcc0.3 V or Vss0.3 V in the Stand-by mode. 3. Addresses must be composed of the Block address (A12 - A21). The Block Protect and Unprotect operations may be implemented via programming equipment too. Refer to the "Block Group Protection and Unprotection". 4. If WP/ACC=VIL, the two outermost boot blocks is protected. If WP/ACC=VIH, the two outermost boot block protection depends on whether those blocks were last protected or unprotected using the method described in "Block Group Protection and Unprotection". If WP/ACC=VHH, all blocks will be temporarily unprotected. 5. Manufacturer and device codes may also be accessed via a command register write sequence. Refer to Table 9. 13 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM COMMAND DEFINITIONS NOR FLASH MEMORY The K8D6316U operates by selecting and executing its operational modes. Each operational mode has its own command set. In order to select a certain mode, a proper command with specific address and data sequences must be written into the command register. Writing incorrect information which include address and data or writing an improper command will reset the device to the read mode. The defined valid register command sequences are stated in Table 8. Note that Erase Suspend (B0H) and Erase Resume (30H) commands are valid only while the Block Erase Operation is in progress. Table 8. Command Sequences Command Sequence Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data Addr Data 3 4 4 4 Cycle 1st Cycle Word RA RD XXXH F0H 555H AAAH 2AAH 55H 2AAH 555H DA/ 555H 555H DA/ 555H DA/ AAAH 90H DA/ AAAH 90H DA/ 555H DA/ AAAH 90H DA/ 555H DA/ AAAH 90H 555H AAAH 88H 555H AAAH 90H 555H AAAH XXXH 00H PA PD DA/ X00H DA/ X00H Byte 2nd Cycle Word Byte 3rd Cycle Word Byte 4th Cycle Word Byte 5th Cycle Word Byte 6th Cycle Word Byte Read 1 Reset Autoselect Manufacturer ID (2,3) Autoselect Device Code (2,3) Autoselect Block Group Protect Verify (2,3) Auto Select Secode Block Factory Protect Verify (2,3) Enter Secode Block Region Exit Secode Block Region Program 1 4 AAH 555H AAAH ECH DA/ X01H DA/ X02H AAH 555H AAAH 55H 2AAH 555H (See Table 9) BA / X02H BA/ X04H AAH 555H AAAH 55H 2AAH 555H (See Table 9) DA / X03H DA/ X06H AAH 555H AAAH 55H 2AAH 555H (See Table 9) AAH 555H AAAH 55H 2AAH 555H 4 AAH 555H AAAH 55H 2AAH 555H 4 AAH 555H AAAH 55H 2AAH 555H A0H 555H AAAH 20H Unlock Bypass Unlock Bypass Program Unlock Bypass Reset Chip Erase 3 AAH XXXH A0H XXXH 90H 555H AAAH 55H PA PD XXXH 00H 2AAH 555H 555H 2 2 6 AAAH 80H 555H AAAH 2AAH 55H 2AAH 55H 555H 555H AAAH 10H AAH 555H AAAH 55H 2AAH 555H 555H AAH 555H AAAH Block Erase Block Erase Suspend (4, 5) Block Erase Resume CFI Query (6) 6 AAAH 80H 555H BA 30H AAH XXXH B0H XXXH 30H 55H 98H AAH 55H AAH 1 1 1 14 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Notes : NOR FLASH MEMORY 1. RA : Read Address, PA : Program Address, RD : Read Data, PD : Program Data DA : Dual Bank Address (A20 - A21), BA : Block Address (A12 - A21), X = Don't care . 2. To terminate the Autoselect Mode, it is necessary to write Reset command to the register. 3. The 4th cycle data of Autoselect mode is output data. The 3rd and 4th cycle bank addresses of Autoselect mode must be same. 4. The Read / Program operations at non-erasing blocks and the autoselect mode are allowed in the Erase Suspend mode. 5. The Erase Suspend command is applicable only to the Block Erase operation. 6. Command is valid when the device is in read mode or Autoselect mode. 7. DQ8 - DQ15 are don't care in command sequence, but RD and PD is excluded. 8. A11 - A21 are also don't care, except for the case of special notice. Table 9. K8D6316U Autoselect Codes, (High Voltage Method) Description CE OE WE A21 to A12 DA DA DA BA A11 to A10 X X X X A9 A8 to A7 X X X X A6 A5 to A2 X X X X DQ8 to DQ15 A1 A0 BYTE =VIH X 22H 22H X BYTE =VIL X X X X DQ7 to DQ0 ECH E0H E2H 01H (Protected), 00H (Unprotected) 80H (Factory locked), 00H (Not factory locked) Manufacturer ID Device Code K8D6316UT (Top Boot Block) Device Code K8D6316UB (Bottom Boot Block) Block Protection Verification L L L L L L L L H H H H VID VID VID VID L L L L L L L H L H H L Secode Block (2) Indicator Bit (DQ7) L L H DA X VID X L X H H X X Notes : 1. L=Logic Low=VIL, H=Logic High=VIH, DA=Dual Bank Address, BA=Block Address, X=Don't care. 2. Secode Block : Security Code Block. 15 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM DEVICE OPERATION Byte/Word Mode NOR FLASH MEMORY If the BYTE pin is set at logical "1" , the device is in word mode, DQ0-DQ15 are active. Otherwise the BYTE pin is set at logical "0" , the device is in byte mode, DQ0-DQ7 are active. DQ8-DQ14 are in the High-Z state and DQ15 pin is used as an input for the LSB (A-1) address pin. Read Mode The K8D6316U is controlled by Chip Enable (CE), Output Enable (OE) and Write Enable (WE). When CE and OE are low and WE is high, the data stored at the specified address location,will be the output of the device. The outputs are in high impedance state whenever CE or OE is high. Standby Mode The K8D6316U features Stand-by Mode to reduce power consumption. This mode puts the device on hold when the device is deselected by making CE high (CE = VIH). Refer to the DC characteristics for more details on stand-by modes. Output Disable The device outputs are disabled when OE is High (OE = VIH). The output pins are in high impedance state. Automatic Sleep Mode K8D6316U features Automatic Sleep Mode to minimize the device power consumption. Since the device typically draws 10A of the current in Automatic Sleep Mode, this feature plays an extremely important role in battery-powered applications. When addresses remain steady for tAA+50ns, the device automatically activates the Automatic Sleep Mode. In the sleep mode, output data is latched and always available to the system. When addresses are changed, the device provides new data without wait time. tAA + 50ns Address Outputs Data Data Data Data Auto Sleep Mode Data Data Figure 1. Auto Sleep Mode Operation Autoselect Mode The K8D6316U offers the Autoselect Mode to identify manufacturer and device type by reading a binary code. The Autoselect Mode allows programming equipment to automatically match the device to be programmed with its corresponding programming algorithm. In addition, this mode allows the verification of the status of write protected blocks. This mode is used by two method. The one is high voltage method to be required VID (8.5V~12.5V) on address pin A9. When A9 is held at VID and the bank address or block address is asserted, the device outputs the valid data via DQ pins(see Table 9 and Figure 2). The rest of addresses except A0, A1 and A6 are Dont Care. The other is autoselect command method that the autoselect code is accessible by the commamd sequence without VID. The manufacturer and device code may also be read via the command register. The Command Sequence is shown in Table 8 and Figure 3. The autoselect operation of block protect verification is initiated by first writing two unlock cycle. The third cycle must contain the bank address and autoselect command (90H). If Block address while (A6, A1, A0) = (0,1,0) is finally asserted on the address pin, it will produce a logical "1" at the device output DQ0 to indicate a write protected block or a logical "0" at the device output DQ0 to indicate a write unprotected block. To terminate the autoselect operation, write Reset command (F0H) into the command register. 16 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM VID NOR FLASH MEMORY V = VIH or VIL A9 A6,A1,A0* DQ15-DQ0 00H ECH 01H 22E0H or 22E2H Device Code (K8D6316U) Return to Read Mode Manufacturer Code Note : The addresses other than A0 , A1 and A6 are Dont care. Please refer to Table 9 for device code. Figure 2. Autoselect Operation ( by high voltage method ) WE A21A0(x16)/* A21A-1(x8) DQ15DQ0 555H/ AAAH 2AAH/ 555H 555H/ AAAH 00H/ 00H 01H/ 02H 22E0H or 22E2H Device Code (K8D6316U) AAH 55H 90H ECH F0H Manufacturer Code Return to Read Mode Note : The 3rd Cycle and 4th Cycle address must include the same bank address. Please refer to Table 9 for device code. Figure 3. Autoselect Operation ( by command sequence method ) Write (Program/Erase) Mode The K8D6316U executes its program/erase operations by writing commands into the command register. In order to write the commands to the register, CE and WE must be low and OE must be high. Addresses are latched on the falling edge of CE or WE (whichever occurs last) and the data are latched on the rising edge of CE or WE (whichever occurs first). The device uses standard microprocessor write timing. Program The K8D6316U can be programmed in units of a word or a byte. Programming is writing 0's into the memory array by executing the Internal Program Routine. In order to perform the Internal Program Routine, a four-cycle command sequence is necessary. The first two cycles are unlock cycles. The third cycle is assigned for the program setup command. In the last cycle, the address of the memory location and the data to be programmed at that location are written. The device automatically generates adequate program pulses and verifies the programmed cell margin by the Internal Program Routine. During the execution of the Routine, the system is not required to provide further controls or timings. During the Internal Program Routine, commands written to the device will be ignored. Note that a hardware reset during a program operation will cause data corruption at the corresponding location. WE A21A0(x16)/ A21A-1(x8) DQ15-DQ0 RY/BY 555H/ AAAH AAH 2AAH/ 555H 55H 555H/ AAAH A0H Program Address Program Data Program Start Figure 4. Program Command Sequence 17 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Unlock Bypass NOR FLASH MEMORY The K8D6316U provides the unlock bypass mode to save its program time for program operation. The mode is invoked by the unlock bypass command sequence. Then, the unlock bypass program command sequence is required to program the device. Unlike the standard program command sequence that contains four bus cycles, the unlock bypass program command sequence comprises only two bus cycles. The unlock bypass mode is engaged by issuing the unlock bypass command sequence which is comprised of three bus cycles. Writing first two unlock cycles is followed by a third cycle containing the unlock bypass command (20H). Once the device is in the unlock bypass mode, the unlock bypass program command sequence is necessary to program in this mode. The unlock bypass program command sequence is comprised of only two bus cycles; writing the unlock bypass program command (A0H) is followed by the program address and data. This command sequence is the only valid one for programming the device in the unlock bypass mode. The unlock bypass reset command sequence is the only valid command sequence to exit the unlock bypass mode. The unlock bypass reset command sequence consists of two bus cycles. The first cycle must contain the data (90H). The second cycle contains only the data (00H). Then, the device returns to the read mode. Chip Erase To erase a chip is to write 1s into the entire memory array by executing the Internal Erase Routine. The Chip Erase requires six bus cycles to write the command sequence. The erase set-up command is written after first two "unlock" cycles. Then, there are two more write cycles prior to writing the chip erase command. The Internal Erase Routine automatically pre-programs and verifies the entire memory for an all zero data pattern prior to erasing. The automatic erase begins on the rising edge of the last WE or CE pulse in the command sequence and terminates when DQ7 is "1". After that the device returns to the read mode. WE A21A0(x16)/ A21A-1(x8) DQ15-DQ0 RY/BY 555H/ AAAH AAH 2AAH/ 555H 55H 555H/ AAAH 80H 555H AAAH AAH 2AAH/ 555H 55H 555H/ AAAH 10H Chip Erase Start Figure 5. Chip Erase Command Sequence Block Erase To erase a block is to write 1s into the desired memory block by executing the Internal Erase Routine. The Block Erase requires six bus cycles to write the command sequence shown in Table 8. After the first two "unlock" cycles, the erase setup command (80H) is written at the third cycle. Then there are two more "unlock" cycles followed by the Block Erase command. The Internal Erase Routine automatically pre-programs and verifies the entire memory prior to erasing it. The block address is latched on the falling edge of WE or CE, while the Block Erase command is latched on the rising edge of WE or CE. Multiple blocks can be erased sequentially by writing the six bus-cycle operation in Figure 6. Upon completion of the last cycle for the Block Erase, additional block address and the Block Erase command (30H) can be written to perform the Multi-Block Erase. An 50s (typical) "time window" is required between the Block Erase command writes. The Block Erase command must be written within the 50s "time window", otherwise the Block Erase command will be ignored. The 50s "time window" is reset when the falling edge of the WE occurs within the 50s of "time window" to latch the Block Erase command. During the 50s of "time window", any command other than the Block Erase or the Erase Suspend command written to the device will reset the device to read mode. After the 50s of "time window", the Block Erase command will initiate the Internal Erase Routine to erase the selected blocks. Any Block Erase address and command following the exceeded "time window" may or may not be accepted. No other commands will be recognized except the Erase Suspend command during Block Erase operation. 18 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM WE NOR FLASH MEMORY A21A0(x16)/ A21A-1(x8) DQ15-DQ0 RY/BY 555H/ AAAH AAH 2AAH/ 555H 55H 555H/ AAAH 80H 555H/ AAAH AAH 2AAH/ 555H 55H Block Address 30H Block Erase Start Figure 6. Block Erase Command Sequence Erase Suspend / Resume The Erase Suspend command interrupts the Block Erase to read or program data in a block that is not being erased. The Erase Suspend command is only valid during the Block Erase operation including the time window of 50s. The Erase Suspend command is not valid while the Chip Erase or the Internal Program Routine sequence is running. When the Erase Suspend command is written during a Block Erase operation, the device requires a maximum of 20s to suspend the erase operation. But, when the Erase Suspend command is written during the block erase time window (50s) , the device immediately terminates the block erase time window and suspends the erase operation. After the erase operation has been suspended, the device is availble for reading or programming data in a block that is not being erased. The system may also write the autoselect command sequence when the device is in the Erase Suspend mode. When the Erase Resume command is executed, the Block Erase operation will resume. When the Erase Suspend or Erase Resume command is executed, the addresses are in Don't Care state. WE A21A0(x16)/ A21A-1(x8) DQ15-DQ0 555H/ AAAH AAH Block Address 30H XXXH XXXH B0H 30H Block Erase Command Sequence Block Erase Start Erase Suspend Erase Resume Figure 7. Erase Suspend/Resume Command Sequence 19 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Read While Write NOR FLASH MEMORY The K8D6316U provides dual bank memory architecture that divides the memory array into two banks. The device is capable of reading data from one bank and writing data to the other bank simultaneously. This is so called the Read While Write operation with dual bank architecture; this feature provides the capability of executing the read operation during Program/Erase or Erase-SuspendProgram operation. The Read While Write operation is prohibited during the chip erase operation. It is also allowed during erase operation when either single block or multiple blocks from same bank are loaded to be erased. It means that the Read While Write operation is prohibited when blocks from Bank1 and another blocks from Bank2 are loaded all together for the multi-block erase operation. Block Group Protection & Unprotection The K8D6316U feature hardware block group protection. This feature will disable both program and erase operations in any combination of forty one block groups of memory. Please refer to Tables 10 and 11. The block group protection feature is enabled using programming equipment at the user's site. The device is shipped with all block groups unprotected. This feature can be hardware protected or unprotected. If a block is protected, program or erase command in the protected block will be ignored by the device. The protected block can only be read. This is useful method to preserve an important program data. The block group unprotection allows the protected blocks to be erased or programed. All blocks must be protected before unprotect operation is executing. The block group protection and unprotection can be implemented by two methods. The first method needs the following conditions. Operation Block Group Protect Block Group Unprotect CE L L OE H H WE L L BYTE X X A9 X X A6 L H A1 H H A0 L L DQ15/ A-1 X X DQ8/ DQ14 X X DQ0/ DQ7 DIN DIN RESET VID VID Address must be inputted to the block group address (A12~A21) during block group protection operation. Please refer to Figure 9 (Algorithm) and Switching Waveforms of Block Group Protect & Unprotect Operations. The second method needs the following conditions in order to keep backward compatibility. Please refer to Figure 8. Operation Block Group Protect Block Group Unprotect CE L L OE VID VID WE BYTE X X A9 VID VID A6 L H A1 H H A0 L L DQ15/ A-1 X X DQ8/ DQ14 X X DQ0/ DQ7 X X RESET H H The K8D6316U needs the recovery time (20s) from the rising edge of WE in order to execute its program, erase and read operations. 500ns Block Group Protect:150s Block Group Unprotect:500ms VID 500ns A9 Don't Care VID Don't Care OE WE Address Low Block Group Address* Notes : * Block Group Address is Don't Care during Block Group Unprotection. Figure 8. Block Group Protect Sequence (The second method) 20 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM START COUNT = 1 RESET=VID Wait 1s NOR FLASH MEMORY First Write Cycle=60h? Yes Yes Block Group Protection ? No No All Block Groups Protected ? No Temporary Block Group Unprotect Mode Block Protect Algorithm Set up Block Group address Block Group Protect: Write 60H to Block Group address with A6=0,A1=1 A0=0 Wait 150s Verify Block Group Protect:Write 40H to Block Group address with A6=0, A1=1,A0=0 Read from Block Group address with A6=0, A1=1,A0=0 Yes Block Unprotect Algorithm Block Group , i= 0 Block Group Unprotect Write 60H with A6=1,A1=1 A0=0 Wait 15ms Reset COUNT=1 Increment COUNT Increment COUNT Verify Block Group Unprotect:Write 40H to Block Group address with A6=1, A1=1,A0=0 Read from Block Group address with A6=1, A1=1,A0=0 No COUNT =25? No No COUNT =1000? No Set up next Block Group address Data=01h? Data=00h? Yes Last Block Group verified ? Yes Remove VID from RESET Write RESET command END No Yes Yes Device failed Protect another Block Group? No Remove VID from RESET Write RESET command END Yes Yes Device failed Note : All blocks must be protected before unprotect operation is executing. Figure 9. Block Group Protection & Unprotection Algorithms 21 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 10. Block Group Address (Top Boot Block) Block Group BGA0 Block Address A21 0 A20 0 A19 0 A18 0 A17 0 A16 0 0 BGA1 0 0 0 0 0 1 1 BGA2 BGA3 BGA4 BGA5 BGA6 BGA7 BGA8 BGA9 BGA10 BGA11 BGA12 BGA13 BGA14 BGA15 BGA16 BGA17 BGA18 BGA19 BGA20 BGA21 BGA22 BGA23 BGA24 BGA25 BGA26 BGA27 BGA28 BGA29 BGA30 BGA31 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0 BGA32 1 1 1 1 1 0 1 BGA33 BGA34 BGA35 BGA36 BGA37 BGA38 BGA39 BGA40 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 A15 0 1 0 1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0 1 0 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X A14 X NOR FLASH MEMORY A13 X A12 X Block BA0 X X BA1 to BA3 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X BA4 to BA7 BA8 to BA11 BA12 to BA15 BA16 to BA19 BA20 to BA23 BA24 to BA27 BA28 to BA31 BA32 to BA35 BA36 to BA39 BA40 to BA43 BA44 to BA47 BA48 to BA51 BA52 to BA55 BA56 to BA59 BA60 to BA63 BA64 to BA67 BA68 to BA71 BA72 to BA75 BA76 to BA79 BA80 to BA83 BA84 to BA87 BA88 to BA91 BA92 to BA95 BA96 to BA99 BA100 to BA103 BA104 to BA107 BA108 to BA111 BA112 to BA115 BA116 to BA119 BA120 to BA123 BA124 to BA126 X X 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 BA127 BA128 BA129 BA130 BA131 BA132 BA133 BA134 22 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 11. Block Group Address (Bottom Boot Block) Block Group BGA0 BGA1 BGA2 BGA3 BGA4 BGA5 BGA6 BGA7 Block Address A21 0 0 0 0 0 0 0 0 A20 0 0 0 0 0 0 0 0 A19 0 0 0 0 0 0 0 0 A18 0 0 0 0 0 0 0 0 A17 0 0 0 0 0 0 0 0 A16 0 0 0 0 0 0 0 0 0 BGA8 0 0 0 0 0 1 1 BGA9 BGA10 BGA11 BGA12 BGA13 BGA14 BGA15 BGA16 BGA17 BGA18 BGA19 BGA20 BGA21 BGA22 BGA23 BGA24 BGA25 BGA26 BGA27 BGA28 BGA29 BGA30 BGA31 BGA32 BGA33 BGA34 BGA35 BGA36 BGA37 BGA38 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0 BGA39 1 1 1 1 1 0 1 BGA40 1 1 1 1 1 1 A15 0 0 0 0 0 0 0 0 1 0 1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0 1 0 1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X A14 0 0 0 0 1 1 1 1 NOR FLASH MEMORY A13 0 0 1 1 0 0 1 1 A12 0 1 0 1 0 1 0 1 Block BA0 BA1 BA2 BA3 BA4 BA5 BA6 BA7 X X BA8 to BA10 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X BA11 to BA14 BA15 to BA18 BA19 to BA22 BA23 to BA26 BA27 to BA30 BA31 to BA34 BA35 to BA38 BA39 to BA42 BA43 to BA46 BA47 to BA50 BA51 to BA54 BA55 to BA58 BA59 to BA62 BA63 to BA66 BA67 to BA70 BA71 to BA74 BA75 to BA78 BA79 to BA82 BA83 to BA86 BA87to BA90 BA91 to BA94 BA95 to BA98 BA99 to BA102 BA103 to BA106 BA107 to BA110 BA111 to BA114 BA115 to BA118 BA119 to BA122 BA123 to BA126 BA127 to BA130 BA131 to BA133 X X X X BA134 23 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Temporary Block Group Unprotect NOR FLASH MEMORY The protected blocks of the K8D6316U can be temporarily unprotected by applying high voltage (VID = 8.5V~12.5V) to the RESET pin. In this mode, previously protected blocks can be programmed or erased with the program or erase command routines. When the RESET pin goes high (RESET = VIH), all the previously protected blocks will be protected again. If the WP/ACC pin is asserted at VIL , the two outermost boot blocks remain protected. VID V = VIH or VIL RESET CE WE Program & Erase Operation at Protected Block Figure 10. Temporary Block Group Unprotect Sequence Write Protect (WP) The WP/ACC pin has two useful functions. The one is that certain boot block is protected by the hardware method not to use VID. The other is that program operation is accelerated to reduce the program time (Refer to Accelerated program Operation Paragraph). When the WP/ACC pin is asserted at VIL, the device can not perform program and erase operation in the two "outermost" 8K byte boot blocks independently of whether those blocks were protected or unprotected using the method described in "Block Group protection/Unprotection". The write protected blocks can only be read. This is useful method to preserve an important program data. The two outermost 8K byte boot blocks are the two blocks containing the lowest addresses in a bottom-boot-configured device, or the two blocks containing the highest addresses in a top-boot-congfigured device. (K8D6316UT : BA133 and BA134, K8D6316UB : BA0 and BA1) When the WP/ACC pin is asserted at VIH, the device reverts to whether the two outermost 8K byte boot blocks were last set to be protected or unprotected. That is, block protection or unprotection for these two blocks depends on whether they were last protected or unprotected using the method described in "Block Group protection/unprotection". Recommend that the WP/ACC pin must not be in the state of floating or unconnected, or the device may be led to malfunction. Secode(Security Code) Block Region The Secode Block feature provides a Flash memory region to be stored unique and permanent identification code, that is, Electronic Serial Number (ESN), customer code and so on. This is primarily intended for customers who wish to use an Electronic Serial Number (ESN) in the device with the ESN protected against modification. Once the Secode Block region is protected, any further modification of that region is impossible. This ensures the security of the ESN once the product is shipped to the field. The Secode Block is factory locked or customer lockable. Before the device is shipped, the factory locked Secode Block is written on the special code and it is protected. The Secode Indicator bit (DQ7) is permanently fixed at "1" and it is not changed. The customer lockable Secode Block is unprotected, therefore it is programmed and erased. The Secode Indicator bit (DQ7) of it is permanently fixed at "0" and it is not changed. but Once it is protected, there is no procedure to unprotect and modify the Secode Block. The Secode Block region is 64K bytes in length and is accessed through a new command sequence (see Table 8). After the system has written the Enter Secode Block command sequence, the system may read the Secode Block region by using the same addresses of the boot blocks (8KBx8). The K8D6316UT occupies the address of the byte mode 7F0000H to 7FFFFFH (word mode 3F8000H to 3FFFFFH) and the K8D6316UB type occupies the address of the byte mode 000000H to 00FFFFH (word mode 000000H to 007FFFH). This mode of operation continues until the system issues the Exit Secode Block command sequence, or until power is removed from the device. On power-up, or following a hardware reset, the device reverts to read mode. 24 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Accelerated Program Operation NOR FLASH MEMORY Accelerated program operation reduces the program time. This is one of two functions provided by the WP/ACC pin. When the WP/ ACC pin is asserted as VHH, the device automatically enters the aforementioned Unlock Bypass mode, temporarily unprotecting any protected blocks, and reduces the program operation time. The system would use a two-cycle program command sequence as required by the Unlock Bypass mode. Removing VHH from the WP/ACC pin returns the device to normal operation. Recommend that the WP/ACC pin must not be asserted at VHH except accelerated program operation, or the device may be damaged. In addition, the WP/ACC pin must not be in the state of floating or unconnected, otherwise the device may be led to malfunction. Software Reset The reset command provides that the bank is reseted to read mode or erase-suspend-read mode. The addresses are in Don't Care state. The reset command is vaild between the sequence cycles in an erase command sequence before erasing begins, or in a program command sequence before programming begins. This resets the bank in which was operating to read mode. if the device is be erasing or programming, the reset command is invalid until the operation is completed. Also, the reset command is valid between the sequence cycles in an autoselect command sequence. In the autoselect mode, the reset command returns the bank to read mode. If a bank entered the autoselect mode in the Erase Suspend mode, the reset command returns the bank to erase-suspend-read mode. If DQ5 is high on erase or program operation, the reset command return the bank to read mode or erase-suspend-read mode if the bank was in the Erase Suspend state. Hardware Reset The K8D6316U offers a reset feature by driving the RESET pin to VIL. The RESET pin must be kept low (VIL) for at least 500ns. When the RESET pin is driven low, any operation in progress will be terminated and the internal state machine will be reset to the standby mode after 20s. If a hardware reset occurs during a program operation, the data at that particular location will be lost. Once the RESET pin is taken high, the device requires 200ns of wake-up time until outputs are valid for read access. Also, note that all the data output pins are tri-stated for the duration of the RESET pulse. The RESET pin may be tied to the system reset pin. If a system reset occurs during the Internal Program and Erase Routine, the device will be automatically reset to the read mode ; this will enable the systems microprocessor to read the boot-up firmware from the Flash memory. Power-up Protection To avoid initiation of a write cycle during Vcc Power-up, RESET low must be asserted during power-up. After RESET goes high, the device is reset to the read mode. Low Vcc Write Inhibit To avoid initiation of a write cycle during Vcc power-up and power-down, a write cycle is locked out for Vcc less than 1.8V. If Vcc < VLKO (Lock-Out Voltage), the command register and all internal program/erase circuits are disabled. Under this condition the device will reset itself to the read mode. Subsequent writes will be ignored until the Vcc level is greater than VLKO. It is the users responsibility to ensure that the control pins are logically correct to prevent unintentional writes when Vcc is above 1.8V. Write Pulse Glitch Protection Noise pulses of less than 5ns(typical) on CE, OE, or WE will not initiate a write cycle. Logical Inhibit Writing is inhibited under any one of the following conditions : OE = VIL, CE = VIH or WE = VIH. To initiate a write, CE and WE must be "0", while OE is "1". Commom Flash Memory Interface Common Flash Momory Interface is contrived to increase the compatibility of host system software. It provides the specific information of the device, such as memory size, byte/word configuration, and electrical features. Once this information has been obtained, the system software will know which command sets to use to enable flash writes, block erases, and control the flash component. When the system writes the CFI command(98H) to address 55H in word mode(or address AAH in byte mode), the device enters the CFI mode. And then if the system writes the address shown in Table 12, the system can read the CFI data. Query data are always presented on the lowest-order data outputs(DQ0-7) only. In word(x16) mode, the upper data outputs(DQ8-15) is 00h. To terminate this operation, the system must write the reset command. 25 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 12. Common Flash Memory Interface Code Description NOR FLASH MEMORY Addresses (Word Mode) 10H 11H 12H 13H 14H 15H 16H 17H 18H 19H 1AH 1BH 1CH 1DH 1EH 1FH 20H 21H 22H 23H 24H 25H 26H 27H 28H 29H 2AH 2BH 2CH 2DH 2EH 2FH 30H 31H 32H 33H 34H 35H 36H 37H 38H 39H 3AH 3BH 3CH Addresses (Byte Mode) 20H 22H 24H 26H 28H 2AH 2CH 2EH 30H 32H 34H 36H 38H 3AH 3CH 3EH 40H 42H 44H 46H 48H 4AH 4CH 4EH 50H 52H 54H 56H 58H 5AH 5CH 5EH 60H 62H 64H 66H 68H 6AH 6CH 6EH 70H 72H 74H 76H 78H Data 0051H 0052H 0059H 0002H 0000H 0040H 0000H 0000H 0000H 0000H 0000H 0027H 0036H 0000H 0000H 0004H 0000H 000AH 0000H 0005H 0000H 0004H 0000H 0017H 0002H 0000H 0000H 0000H 0002H 0007H 0000H 0020H 0000H 007EH 0000H 0000H 0001H 0000H 0000H 0000H 0000H 0000H 0000H 0000H 0000H Query Unique ASCII string "QRY" Primary OEM Command Set Address for Primary Extended Table Alternate OEM Command Set (00h = none exists) Address for Alternate OEM Extended Table (00h = none exists) Vcc Min. (write/erase) D7-D4: volt, D3-D0: 100 millivolt Vcc Max. (write/erase) D7-D4: volt, D3-D0: 100 millivolt Vpp Min. voltage(00H = no Vpp pin present) Vpp Max. voltage(00H = no Vpp pin present) Typical timeout per single byte/word write 2N us Typical timeout for Min. size buffer write 2 us(00H = not supported) N Typical timeout per individual block erase 2 ms N Typical timeout for full chip erase 2N ms(00H = not supported) Max. timeout for byte/word write 2 times typical N Max. timeout for buffer write 2N times typical Max. timeout per individual block erase 2 times typical N Max. timeout for full chip erase 2N times typical(00H = not supported) Device Size = 2 byte N Flash Device Interface description Max. number of byte in multi-byte write = 2N Number of Erase Block Regions within device Erase Block Region 1 Information Erase Block Region 2 Information Erase Block Region 3 Information Erase Block Region 4 Information 26 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Table 12. Common Flash Memory Interface Code Description NOR FLASH MEMORY Addresses (Word Mode) 40H 41H 42H 43H 44H 45H Addresses (Byte Mode) 80H 82H 84H 86H 88H 8AH Data 0050H 0052H 0049H 0030H 0030H 0000H Query-unique ASCII string "PRI" Major version number, ASCII Minor version number, ASCII Address Sensitive Unlock(Bits 1-0) 0 = Required, 1= Not Required Silcon Revision Number(Bits 7-2) Erase Suspend 0 = Not Supported, 1 = To Read Only, 2 = To Read & Write Block Protect 0 = Not Supported, 1 = Supported Block Temporary Unprotect 00 = Not Supported, 01 = Supported Block Protect/Unprotect scheme 04 = K8D1x16U mode Simultaneous Operation (1) 00 = Not Supported, XX = Number of Blocks in Bank2 Burst Mode Type 00 = Not Supported, 01 = Supported Page Mode Type 00=Not supported, 01=4word page, 02=8word page ACC(Acceleration) Supply Minimum 00 = Not Supported, D7 - D4 : Volt, D3 - D0 : 100mV ACC(Acceleration) Supply Maximum 00 = Not Supported, D7 - D4 : Volt, D3 - D0 : 100mV Top/Bottom Boot Block Flag 02H = Bottom Boot , 03H = Top Boot Note : 1. The number of blocks in Bank2 is device dependent. K8D6316U(16Mb/48Mb) = 60h (96blocks) 46H 47H 48H 49H 4AH 4BH 4CH 4DH 4EH 4FH 8CH 8EH 90H 92H 94H 96H 98H 9AH 9CH 9EH 0002H 0001H 0001H 0004H 00XXH 0000H 0000H 0085H 00C5H 000XH 27 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM DEVICE STATUS FLAGS NOR FLASH MEMORY The K8D6316U has means to indicate its status of operation in the bank where a program or erase operation is in processes. Address must include bank address being excuted internal routine operation. The status is indicated by raising the device status flag via corresponding DQ pins or the RY/ BY pin. The corresponding DQ pins are DQ7, DQ6, DQ5, DQ3 and DQ2. The statuses are as follows : Table 13. Hardware Sequence Flags Status Programming Block Erase or Chip Erase Erase Suspend Read In Progress Erase Suspend Read Erase Suspend Program Programming Exceeded Time Limits Block Erase or Chip Erase Erase Suspend Program Erase Suspended Block Non-Erase Suspended Block Non-Erase Suspended Block DQ7 DQ7 0 1 Data DQ7 DQ7 0 DQ7 DQ6 Toggle Toggle 1 Data Toggle Toggle Toggle Toggle DQ5 0 0 0 Data 0 1 1 1 DQ3 0 1 0 Data 0 0 1 0 DQ2 1 Toggle Toggle (Note 1) Data 1 No Toggle (Note 2) No Toggle RY/BY 0 0 1 1 0 0 0 0 Notes : 1. DQ2 will toggle when the device performs successive read operations from the erase suspended block. 2. If DQ5 is High (exceeded timing limits), successive reads from a problem block will cause DQ2 to toggle. DQ7 : Data Polling When an attempt to read the device is made while executing the Internal Program, the complement of the data is written to DQ7 as an indication of the Routine in progress. When the Routine is completed an attempt to access to the device will produce the true data written to DQ7. When a user attempts to read the device during the Erase operation, DQ7 will be low. If the device is placed in the Erase Suspend Mode, the status can be detected via the DQ7 pin. If the system tries to read an address which belongs to a block that is being erased, DQ7 will be high. If a non-erased block address is read, the device will produce the true data to DQ7. If an attempt is made to program a protected block, DQ7 outputs complements the data for approximately 1s and the device then returns to the Read Mode without changing data in the block. If an attempt is made to erase a protected block, DQ7 outputs complement data in approximately 100us and the device then returns to the Read Mode without erasing the data in the block. DQ6 : Toggle Bit Toggle bit is another option to detect whether an Internal Routine is in progress or completed. Once the device is at a busy state, DQ6 will toggle. Toggling DQ6 will stop after the device completes its Internal Routine. If the device is in the Erase Suspend Mode, an attempt to read an address that belongs to a block that is being erased will produce a high output of DQ6. If an address belongs to a block that is not being erased, toggling is halted and valid data is produced at DQ6. If an attempt is made to program a protected block, DQ6 toggles for approximately 1us and the device then returns to the Read Mode without changing the data in the block. If an attempt is made to erase a protected block, DQ6 toggles for approximately 100s and the device then returns to the Read Mode without erasing the data in the block. DQ5 : Exceed Timing Limits If the Internal Program/Erase Routine extends beyond the timing limits, DQ5 will go High, indicating program/erase failure. 28 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM DQ3 : Block Erase Timer NOR FLASH MEMORY The status of the multi-block erase operation can be detected via the DQ3 pin. DQ3 will go High if 50s of the block erase time window expires. In this case, the Internal Erase Routine will initiate the erase operation.Therefore, the device will not accept further write commands until the erase operation is completed. DQ3 is Low if the block erase time window is not expired. Within the block erase time window, an additional block erase command (30H) can be accepted. To confirm that the block erase command has been accepted, the software may check the status of DQ3 following each block erase command. DQ2 : Toggle Bit 2 The device generates a toggling pulse in DQ2 only if an Internal Erase Routine or an Erase Suspend is in progress. When the device executes the Internal Erase Routine, DQ2 toggles only if an erasing block is read. Although the Internal Erase Routine is in the Exceeded Time Limits, DQ2 toggles only if an erasing block in the Exceeded Time Limits is read. When the device is in the Erase Suspend mode, DQ2 toggles only if an address in the erasing block is read. If a non-erasing block address is read during the Erase Suspend mode, then DQ2 will produce valid data. DQ2 will go High if the user tries to program a non-erase suspend block while the device is in the Erase Suspend mode. Combination of the status in DQ6 and DQ2 can be used to distinguish the erase operation from the program operation. RY/BY : Ready/Busy The K8D6316U has a Ready / Busy output that indicates either the completion of an operation or the status of Internal Algorithms. If the output is Low, the device is busy with either a program or an erase operation. If the output is High, the device is ready to accept any read/write or erase operation. When the RY/ BY pin is low, the device will not accept any additional program or erase commands with the exception of the Erase Suspend command. If the K8D6316U is placed in an Erase Suspend mode, the RY/ BY output will be High. For programming, the RY/ BY is valid (RY/ BY = 0) after the rising edge of the fourth WE pulse in the four write pulse sequence. For Chip Erase, RY/ BY is also valid after the rising edge of WE pulse in the six write pulse sequence. For Block Erase, RY/ BY is also valid after the rising edge of the sixth WE pulse. The pin is an open drain output, allowing two or more Ready/ Busy outputs to be OR-tied. An appropriate pull-up resistor is required for proper operation. Rp VccF Rp = Ready / Busy open drain output VccF (Max.) - VOL (Max.) IOL + 3.2V = 2.1mA + IL IL where IL is the sum of the input currents of all devices tied to the Ready / Busy ball. Vss Device 29 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM NOR FLASH MEMORY Start Read(DQ0~DQ7) Valid Address Read(DQ0~DQ7) Valid Address Start Read(DQ0~DQ7) Valid Address DQ7 = Data ? No No Yes DQ6 = Toggle ? Yes No No DQ5 = 1 ? Yes DQ5 = 1 ? Yes Read(DQ0~DQ7) Valid Address Yes Read twice(DQ0~DQ7) Valid Address No DQ7 = Data ? No DQ6 = Toggle ? Yes Fail Pass Fail Pass Figure 11. Data Polling Algorithms Figure 12. Toggle Bit Algorithms Start RESET=VID (Note 1) Perform Erase or Program Operations RESET=VIH Temporary Block Unprotect Completed (Note 2) Notes : 1. All protected block groups are unprotected. ( If WP/ACC = VIL , the two outermost boot blocks remain protected ) 2. All previously protected block groups are protected once again. Figure 13. Temporary Block Group Unprotect Routine 30 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM ABSOLUTE MAXIMUM RATINGS Parameter Vcc Voltage on any pin relative to VSS A9, OE , RESET WP/ACC All Other Pins Temperature Under Bias Storage Temperature Short Circuit Output Current Operating Temperature Commercial Industrial Tbias Tstg IOS TA (Commercial Temp.) TA (Industrial Temp.) VIN Symbol Vcc NOR FLASH MEMORY Rating -0.5 to +4.0 -0.5 to +12.5 -0.5 to +12.5 -0.5 to +4.0 -10 to +125 -40 to +125 -65 to +150 5 0 to +70 -40 to + 85 C C mA C C V Unit Notes : 1. Minimum DC voltage is -0.5V on Input/ Output pins. During transitions, this level may fall to -2.0V for periods <20ns. Maximum DC voltage on input / output pins is Vcc+0.5V which, during transitions, may overshoot to Vcc+2.0V for periods <20ns. 2. Minimum DC voltage is -0.5V on A9, OE, RESET and WP/ACC pins. During transitions, this level may fall to -2.0V for periods <20ns. Maximum DC voltage on A9, OE, RESET pins is 12.5V which, during transitions, may overshoot to 14.0V for periods <20ns. 3. Permanent device damage may occur if ABSOLUTE MAXIMUM RATINGS are exceeded. Functional operation should be restricted to the conditions detailed in the operational sections of this data sheet. Exposure to absolute maximum rating conditions for extended periods may affect reliability. RECOMMENDED OPERATING CONDITIONS ( Voltage reference to Vss ) Parameter Supply Voltage Supply Voltage Symbol VCC VSS Min 2.7 0 Typ. 3.0 0 Max 3.6 0 Unit V V DC CHARACTERISTICS Parameter Input Leakage Current A9,OE,RESET Input Leakage Current WP/ACC Input Leakage Current Output Leakage Current Active Read Current (1) Active Write Current (2) Read While Program Current (3) Read While Erase Current (3) Program While Erase Suspend Current Symbol ILI ILIT ILIW ILO ICC1 ICC2 ICC3 ICC4 ICC5 IACC ISB1 ISB2 ISB3 VIL VIH VHH Test Conditions VIN=VSS to VCC, VCC=VCCmax VCC=VCCmax, A9,OE,RESET=12.5V VCC=VCCmax, WP/ACC=12.5V VOUT=VSS to VCC,VCC=VCCmax,OE=VIH CE=VIL, OE=VIH CE=VIL, OE=VIH, WE=VIL CE=VIL, OE=VIH CE=VIL, OE=VIH CE=VIL, OE=VIH CE=VIL, OE=VIH ACC Pin Vcc Pin Min - 1.0 - 1.0 -0.5 0.7xVcc Typ 14 3 15 25 25 15 5 15 10 10 10 - Max + 1.0 35 35 + 1.0 20 6 30 50 50 35 10 30 30 30 30 0.8 VCC+0.3 Unit A A A A mA mA mA mA mA mA A A A V V V 5MHz 1MHz ACC Accelerated Program Current Standby Current Standby Current During Reset Automatic Sleep Mode Input Low Level Input High Level Voltage for WP/ACC Block Temporarily Unprotect and Program Acceleration (4) VCC=VCCmax,CE, RESET=VCC0.3V WP/ACC= VCC 0.3V or Vss0.3V VCC=VCCmax, RESET=Vss 0.3V, WP/ACC=VCC 0.3V or Vss0.3V VIH=VCC0.3V, VIL=VSS0.3V, OE=VIL, IOL=IOH=0 VCC = 3.0V 0.3V 8.5 12.5 31 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM Parameter Voltage for Autoselect and Block Protect (4) NOR FLASH MEMORY Test Conditions Min 8.5 VCC-0.4 1.8 Typ Max 12.5 0.4 2.5 Unit V V V V Symbol VID VOL VOH VLKO VCC = 3.0V 0.3V IOL=100A, VCC=VCCmin IOH=-100A, Vcc = VCCmin Output Low Level Output High Level Low Vcc Lock-out Voltage (5) Notes : 1. The ICC current listed includes both the DC operating current and the frequency dependent component(at 5 MHz). The read current is typically 14 mA (@ VCC=3.0V , OE at VIH.) 2. ICC active during Internal Routine(program or erase) is in progress. 3. ICC active during Read while Write is in progress. 4. The high voltage ( VHH or VID ) must be used in the range of Vcc = 3.0V 0.3V 5. Not 100% tested. 6. Typical value are measured at Vcc = 3.0V,TA=25C , Not 100% tested. CAPACITANCE(TA = 25 C, VCC = 3.3V, f = 1.0MHz) Item Input Capacitance Output Capacitance Control Pin Capacitance Symbol CIN COUT CIN2 Test Condition VIN=0V VOUT=0V VIN=0V Min Max 10 10 10 Unit pF pF pF Note : Capacitance is periodically sampled and not 100% tested. AC TEST CONDITION Parameter Input Pulse Levels Input Rise and Fall Times Input and Output Timing Levels Output Load Value 0V to Vcc 5ns Vcc/2 CL = 30pF Vcc Vcc/2 0V Input & Output Test Point Device Vcc/2 CL * CL= 30pF including Scope and Jig Capacitance Input Pulse and Test Point Output Load AC CHARACTERISTICS Read Operations VCC=2.7V~3.6V Parameter Read Cycle Time (1) Address Access Time Chip Enable Access Time Output Enable Time CE & OE Disable Time (1) Output Hold Time from Address, CE or OE (1) Note : 1. Not 100% tested. Symbol Min tRC tAA tCE tOE tDF tOH 70 0 -7 Max 70 70 25 16 Min 80 0 -8 Max 80 80 25 16 Min 90 0 -9 Max 90 90 35 16 - Unit ns ns ns ns ns ns 32 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM AC CHARACTERISTICS Write(Erase/Program)Operations Alternate WE Controlled Write NOR FLASH MEMORY VCC=2.7V~3.6V Parameter Write Cycle Time (1) Address Setup Time Address Hold Time Data Setup Time Data Hold Time Output Enable Setup Time (1) Output Enable Hold Time CE Hold Time Write Pulse Width Write Pulse Width High Programming Operation Accelerated Programming Operation Block Erase Operation (2) VCC Set Up Time Write Recovery Time from RY/BY RESET High Time Before Read RESET to Power Down Time Program/Erase Valid to RY/BY Delay VID Rising and Falling Time RESET Pulse Width RESET Low to RY/BY High RESET Setup Time for Temporary Unprotect RESET Low Setup Time RESET High to Address Valid Read Recovery Time Before Write CE High during toggling bit polling OE High during toggling bit polling Word Byte Word Byte Read (1) Toggle and Data Polling (1) Symbol Min tWC tAS tASO tAH tAHT tDS tDH tOES tOEH1 tOEH2 tCS tCH tWP tWPH tPGM tACCPGM tBERS tVCS tRB tRH tRPD tBUSY tVID tRP tRRB tRSP tRSTS tRSTW tGHWL tCEPH tOEPH 70 0 55 45 0 35 0 0 0 10 0 0 35 25 14(typ.) 9(typ.) 9(typ.) 7(typ.) 0.7(typ.) 50 0 50 20 90 500 500 1 500 200 0 20 20 20 50 0 50 20 90 500 500 1 500 200 0 20 20 -7 Max Min 80 0 55 45 0 35 0 0 0 10 0 0 35 25 14(typ.) 9(typ.) 9(typ.) 7(typ.) 0.7(typ.) 20 50 0 50 20 90 500 500 1 500 200 0 20 20 -8 Max Min 90 0 55 45 0 45 0 0 0 10 0 0 45 30 14(typ.) 9(typ.) 9(typ.) 7(typ.) 0.7(typ.) 20 -9 Max ns ns ns ns ns ns ns ns ns ns ns ns ns ns s s s s sec s ns ns s ns ns ns s s ns ns ns ns ns Unit CE Setup Time Notes : 1. Not 100% tested. 2. The duration of the Program or Erase operation varies and is calculated in the internal algorithms. 33 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM AC CHARACTERISTICS Write(Erase/Program)Operations Alternate CE Controlled Writes NOR FLASH MEMORY VCC=2.7V~3.6V Parameter Write Cycle Time (1) Address Setup Time Address Hold Time Data Setup Time Data Hold Time Output Enable Setup Time (1) Output Enable Hold Time Read (1) Toggle and Data Polling (1) Symbol Min tWC tAS tAH tDS tDH tOES tOEH1 tOEH2 tWS tWH tCP tCPH Word Byte Word Byte tPGM tACCPGM tBERS tFLQZ 70 0 45 35 0 0 0 10 0 0 35 25 14(typ.) 9(typ.) 9(typ.) 7(typ.) 0.7(typ.) 25 25 -7 Max Min 80 0 45 35 0 0 0 10 0 0 35 25 14(typ.) 9(typ.) 9(typ.) 7(typ.) 0.7(typ.) 30 -8 Max Min 90 0 45 45 0 0 0 10 0 0 45 30 14(typ.) 9(typ.) 9(typ.) 7(typ.) 0.7(typ.) -9 Max ns ns ns ns ns ns ns ns ns ns ns ns s s s s sec ns Unit WE Setup Time WE Hold Time CE Pulse Width CE Pulse Width High Programming Operation Accelerated Programming Operation Block Erase Operation (2) BYTE Switching Low to Output HIGH-Z Notes : 1. Not 100% tested. 2.This does not include the preprogramming time. ERASE AND PROGRAM PERFORMANCE Parameter Block Erase Time Chip Erase Time Word Programming Time Byte Programming Time Accelerated Byte/Word Program Time Chip Programming Time Erase/Program Endurance Word Mode Byte Mode Word Mode Byte Mode Limits Min 100,000 Typ 0.7 98 14 9 9 7 59 75 Max 15 330 210 210 150 177 225 Unit sec sec s s s s sec sec cycles Excludes system-level overhead Excludes system-level overhead Excludes system-level overhead Excludes system-level overhead Excludes system-level overhead Minimum 100,000 cycles guaranteed Comments Excludes 00H programming prior to erasure Notes : 1. 25 C, VCC = 3.0V 100,000 cycles, typical pattern. 2. System-level overhead is defined as the time required to execute the four bus cycle command necessary to program each byte. In the preprogramming step of the Internal Erase Routine, all bytes are programmed to 00H before erasure. 34 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Read Operations tRC NOR FLASH MEMORY Address tAA Address Stable CE tOE tDF OE tOEH1 WE tCE tOH Outputs HIGH-Z Output Valid HIGH-Z RY/BY HIGH NOTE Asynchronous mode may not support read following four sequential invalid read condition within 200ns. Parameter Read Cycle Time Address Access Time Chip Enable Access Time Output Enable Time CE & OE Disable Time (1) Output Hold Time from Address, CE or OE OE Hold Time Note : 1. Not 100% tested. Symbol tRC tAA tCE tOE tDF tOH tOEH1 -7 Min 70 0 0 Max 70 70 25 16 Min 80 0 0 -8 Max 80 80 25 16 Min 90 0 0 -9 Max 90 90 35 16 - Unit ns ns ns ns ns ns ns 35 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Hardware Reset/Read Operations NOR FLASH MEMORY tRC Address tAA Address Stable CE tRH tRP tRH tCE RESET tOH Outputs High-Z Output Valid Parameter Read Cycle Time Address Access Time Chip Enable Access Time Output Hold Time from Address, CE or OE RESET Pulse Width RESET High Time Before Read Symbol tRC tAA tCE tOH tRP tRH -7 Min 70 0 500 50 Max 70 70 Min 80 0 500 50 -8 Max 80 80 Min 90 0 500 50 -9 Max 90 90 - Unit ns ns ns ns ns ns 36 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Alternate WE Controlled Program Operations tAS NOR FLASH MEMORY Data Polling PA tAH PA tRC Address 555H CE tOES OE tCH tWP tWC tPGM WE tWPH tCS tDH A0H tDS PD tBUSY Status DOUT tRB tCE tOH tOE tDF DATA RY/BY Notes : 1. DQ7 is the output of the complement of the data written to the device. 2. DOUT is the output of the data written to the device. 3. PA : Program Address, PD : Program Data 4. The illustration shows the last two cycles of the program command sequence. Parameter Write Cycle Time Address Setup Time Address Hold Time Data Setup Time Data Hold Time CE Setup Time CE Hold Time OE Setup Time Write Pulse Width Write Pulse Width High Programming Operation Accelerated Programming Operation Read Cycle Time Chip Enable Access Time Output Enable Time CE & OE Disable Time Output Hold Time from Address, CE or OE Program/Erase Valide to RY/BY Delay Recovery Time from RY/BY Word Byte Word Byte Symbol tWC tAS tAH tDS tDH tCS tCH tOES tWP tWPH tPGM tACCPGM tRC tCE tOE tDF tOH tBUSY tRB -7 Min 70 0 45 35 0 0 0 0 35 25 14(typ.) 9(typ.) 9(typ.) 7(typ.) 70 0 90 0 70 25 16 80 0 90 0 Max Min 80 0 45 35 0 0 0 0 35 25 -8 Max 9(typ.) 9(typ.) 7(typ.) 80 25 16 90 0 90 0 Min 90 0 45 45 0 0 0 0 45 30 -9 Max 9(typ.) 9(typ.) 7(typ.) 90 35 16 - Unit ns ns ns ns ns ns ns ns ns ns us us s s ns ns ns ns ns ns ns 14(typ.) 14(typ.) 37 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Alternate CE Controlled Program Operations tAS NOR FLASH MEMORY Data Polling PA tAH PA Address 555H WE tOES OE tWC tCP tPGM tCPH tDH CE tWS DATA A0H tDS PD Status tBUSY DOUT RY/BY tRB Notes : 1. DQ7 is the output of the complement of the data written to the device. 2. DOUT is the output of the data written to the device. 3. PA : Program Address, PD : Program Data 4. The illustration shows the last two cycles of the program command sequence. Parameter Write Cycle Time Address Setup Time Address Hold Time Data Setup Time Data Hold Time OE Setup Time WE Setup Time WE Hold Time CE Pulse Width CE Pulse Width High Programming Operation Accelerated Programming Operation Word Byte Word Byte Symbol tWC tAS tAH tDS tDH tOES tWS tWH tCP tCPH tPGM tACCPGM tBUSY tRB -7 Min 70 0 45 35 0 0 0 0 35 25 14(typ.) 9(typ.) 9(typ.) 7(typ.) 90 0 90 0 Max Min 80 0 45 35 0 0 0 0 35 25 -8 Max 9(typ.) 9(typ.) 7(typ.) 90 0 Min 90 0 45 45 0 0 0 0 45 30 -9 Max 9(typ.) 9(typ.) 7(typ.) - Unit ns ns ns ns ns ns ns ns ns ns s s s s ns ns 14(typ.) 14(typ.) Program/Erase Valide to RY/BY Delay Recovery Time from RY/BY 38 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Word to Byte Timing Diagram for Read Operation CE OE BYTE DQ0-DQ7 DQ8-DQ14 DQ15/A-1 tELFL tCE NOR FLASH MEMORY Data Output (DQ0-DQ7) Data Output (DQ8-DQ14) Data Output (DQ15) tFLQZ Address Input (A-1) Byte to Word Timing Diagram for Read Operation CE OE BYTE tELFH Data Output (DQ0-DQ7) Data Output (DQ8-DQ14) Address Input (A-1) tFHQV Data Output (DQ15) tCE DQ0-DQ7 DQ8-DQ14 DQ15/A-1 BYTE Timing Diagram for Write Operation CE The falling edge of the last WE signal WE BYTE tSET (tAS) tHOLD(tAH) Parameter Chip Enable Access Time CE to BYTE Switching Low or High BYTE Switching Low to Output HIGH-Z BYTE Switching High to Output Active Symbol tCE tELFL/tELFH tFLQZ tFHQV -7 Min Max 70 5 25 25 Min - -8 Max 80 5 25 25 Min - -9 Max 90 5 30 35 Unit ns ns ns ns 39 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Chip/Block Erase Operations NOR FLASH MEMORY tAS 555H for Chip Erase 2AAH tAH Address 555H 555H 555H 2AAH BA tRC CE tOES OE tWP tWC WE tCS tWPH tDH 10H for Chip Erase 55H 80H AAH 55H 30H DATA RY/BY AAH tDS Vcc tVCS Note : BA : Block Address Parameter Write Cycle Time Address Setup Time Address Hold Time Data Setup Time Data Hold Time OE Setup Time CE Setup Time Write Pulse Width Write Pulse Width High Read Cycle Time VCC Set Up Time Symbol tWC tAS tAH tDS tDH tOES tCS tWP tWPH tRC tVCS -7 Min 70 0 45 35 0 0 0 35 25 70 50 Max Min 80 0 45 35 0 0 0 35 25 80 50 -8 Max Min 90 0 45 45 0 0 0 45 30 90 50 -9 Max - Unit ns ns ns ns ns ns ns ns ns ns s 40 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Read While Write Operations Read tRC Command tWC DA2 (555H) tAS tAH tAA tCE Read tRC DA1 Command tWC DA2 (PA) NOR FLASH MEMORY Read tRC DA1 tAS tAHT Read tRC DA2 (PA) Address DA1 CE tOE tCEPH OE tOES tWP tOEH2 tDF WE tDS tDH tDF Valid Output Valid Input (PD) Valid Output DQ Valid Output Valid Input (A0H) Status Note : This is an example in the program-case of the Read While Write function. DA1 : Address of Bank1, DA2 : Address of Bank 2 PA = Program Address at one bank , RA = Read Address at the other bank, PD = Program Data In , RD = Read Data Out Parameter Write Cycle Time Write Pulse Width Write Pulse Width High Address Setup Time Address Hold Time Data Setup Time Data Hold Time Read Cycle Time Chip Enable Access Time Address Access Time Output Enable Access Time OE Setup Time OE Hold Time CE & OE Disable Time Address Hold Time CE High during toggle bit polling Symbol tWC tWP tWPH tAS tAH tDS tDH tRC tCE tAA tOE tOES tOEH2 tDF tAHT tCEPH -7 Min 70 35 25 0 45 35 0 70 0 10 0 20 Max 70 70 25 16 Min 80 35 25 0 45 35 0 80 0 10 0 20 -8 Max 80 80 25 16 Min 90 45 30 0 45 45 0 90 0 10 0 20 -9 Max 90 90 35 16 - Unit ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns 41 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Data Polling During Internal Routine Operation CE tOE NOR FLASH MEMORY tDF OE tOEH2 WE tCE tOH DQ7 Data In tPGM or tBERS DQ7 *DQ7 = Valid Data HIGH-Z DQ0-DQ6 Data In Status Data Valid Data HIGH-Z Note : *DQ7=Vaild Data (The device has completed the internal operation). RY/BY Timing Diagram During Program/Erase Operation CE The rising edge of the last WE signal WE Entire progrming or erase operation RY/BY tBUSY Parameter Program/Erase Valid to RY/BY Delay Chip Enable Access Time Output Enable Time CE & OE Disable Time Output Hold Time from Address, CE or OE OE Hold Time Symbol tBUSY tCE tOE tDF tOH tOEH2 -7 Min 90 0 10 Max 70 25 16 Min 90 0 10 -8 Max 80 25 16 Min 90 0 10 -9 Max 90 35 16 - Unit ns ns ns ns ns ns 42 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Toggle Bit During Internal Routine Operation tAHT Address* tASO CE tOEH2 WE tOEPH OE tDH DQ6/DQ2 Data In Status Data tOE NOR FLASH MEMORY tAS tAHT tCEPH Status Data Status Data Array Data Out RY/BY Note : Address for the write operation must include a bank address (A20~A21) where the data is written. Enter Embedded Erasing Erase Suspend Erase Erase Suspend Read Enter Erase Suspend Program Erase Suspend Program Erase Suspend Read Erase Resume Erase Erase Complete WE DQ6 DQ2 Toggle DQ2 and DQ6 with OE or CE Note : DQ2 is read from the erase-suspended block. Parameter Output Enable Access Time OE Hold Time Address Hold Time Address Setup Address Setup Time Data Hold Time CE High during toggle bit polling OE High during toggle bit polling Symbol tOE tOEH2 tAHT tASO tAS tDH tCEPH tOEPH -7 Min 10 0 55 0 0 20 20 Max 25 Min 10 0 55 0 0 20 20 -8 Max 25 Min 10 0 55 0 0 20 20 -9 Max 35 - Unit ns ns ns ns ns ns ns ns 43 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS RESET Timing Diagram RY/BY High NOR FLASH MEMORY CE or OE tRH RESET tRP tREADY Reset Timings NOT during Internal Routine tREADY RY/BY tRB CE or OE tRP RESET Reset Timings during Internal Routine Power-up and RESET Timing Diagram tRSTS RESET Vcc Address DATA tAA Parameter RESET Pulse Width RESET Low to Valid Data (During Internal Routine) RESET Low to Valid Data (Not during Internal Routine) RESET High Time Before Read RY/BY Recovery Time RESET High to Address Valid RESET Low Set-up Time Symbol tRP tREADY tREADY tRH tRB tRSTW tRSTS -7 Min 500 50 0 200 500 Max 20 500 Min 500 50 0 200 500 -8 Max 20 500 Min 500 50 0 200 500 -9 Max 20 500 - Unit ns s ns ns ns ns ns 44 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM SWITCHING WAVEFORMS Block Group Protect & Unprotect Operations VID RESET NOR FLASH MEMORY Vss,VIL, or VIH Vss,VIL, or VIH BGA,A6 A1,A0 Valid Block Group Protect / Unprotect Valid Verify 40H Block Group Protect:150s Block Group UnProtect:15ms Valid DATA 60H 1s 60H Status* CE WE tRB OE tBUSY RY/BY Notes : Block Group Protect (A6=VIL , A1=VIH , A0=VIL) , Status=01H Block Group Unprotect (A6=VIH , A1=VIH, A0=VIL) , Status=00H BGA = Block Group Address (A12 ~ A21) Temporary Block Group Unprotect VID RESET Vss,VIL, or VIH Vss,VIL, or VIH CE WE tVID tRSP Program or Erase Command Sequence tRRB tVID RY/BY 45 Revision 1.6 September, 2006 K8D6x16UTM / K8D6x16UBM PACKAGE DIMENSIONS NOR FLASH MEMORY 48-Ball Tape Ball Grid Array Package (measured in millimeters) Top View Bottom View 6.000.10 (Datum A) 6 6.000.10 0.80 x 5=4.00 5 4 3 2 1 A B 0.80 #A1 A (Datum B) C 9.000.10 D E 2.80 F G H 0.80 0.80x7=5.60 2.00 0.320.05 0.900.10 B 48- 0.450.05 0.20 M A B Side View 0.450.05 0.08MAX 9.000.10 46 Revision 1.6 September, 2006 9.000.10 K8D6x16UTM / K8D6x16UBM PACKAGE DIMENSIONS 48-PIN LEAD PLASTIC THIN SMALL OUT-LINE PACKAGE TYPE(I) 48 - TSOP1 - 1220F NOR FLASH MEMORY Unit :mm/Inch 20.000.20 0.7870.008 0.008-0.001 +0.003 +0.07 0.20 -0.03 #1 #48 ( 0.25 ) 0.010 12.40 0.488 MAX 0.50 0.0197 #24 #25 1.000.05 0.0390.002 1.20 0.047MAX 0.05 0.002 MIN 0.25 0.010 TYP 0.125 -0.035 +0.075 0~8'C 0.45~0.75 0.018~0.030 ( 0.50 ) 0.020 +0.003 0.005-0.001 18.400.10 0.7240.004 47 12.00 0.472 Revision 1.6 September, 2006 0.10 MAX 0.004 K8D6x16UTM / K8D6x16UBM PACKAGE DIMENSIONS NOR FLASH MEMORY 48-Ball Fine Ball Grid Array Package (measured in millimeters) Top View Bottom View 6.000.10 (Datum A) 6 6.000.10 0.80 x 5=4.00 5 4 3 2 1 A B 0.80 #A1 A (Datum B) C 9.000.10 D E 2.80 F G H 0.80 0.80x7=5.60 2.00 0.320.05 0.900.10 B 48- 0.450.05 0.20 M A B Side View 0.450.05 0.08MAX 9.000.10 48 Revision 1.6 September, 2006 9.000.10 |
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