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M29W256GH70N6E

M29W256GH70N6E

  • 厂商:

    MICRON(镁光)

  • 封装:

    TFSOP56

  • 描述:

    IC FLASH 256MBIT PARALLEL 56TSOP

  • 数据手册
  • 价格&库存
M29W256GH70N6E 数据手册
256Mb: 3V Embedded Parallel NOR Flash Features Parallel NOR Flash Embedded Memory M29W256GH, M29W256GL Features • VPP/WP# pin protection – Protects first or last block regardless of block -protection settings • Software protection – Volatile protection – Nonvolatile protection – Password protection • Extended memory block – 128-word (256-byte) memory block for permanent, secure identification – Programmed or locked at the factory or by the customer • Common Flash interface – 64-bit security code • Low power consumption: Standby and automatic mode • JESD47H-compliant – 100,000 minimum PROGRAM/ERASE cycles per block – Data retention: 20 years (TYP) • 65nm single-level cell (SLC) process technology • Fortified BGA, TBGA, and TSOP packages • "Green" packages available – RoHS-compliant – Halogen-free • Automotive device grade (6) temperature: –40°C to +85°C (automotive grade-certified) • Automotive device grade (3) temperature: –40°C to +125°C (automotive grade-certified) • Supply voltage – VCC = 2.7–3.6V (program, erase, read) – VCCQ = 1.65–3.6V (I/O buffers) – VPPH = 12V for fast program (optional) • Asynchronous random/page read – Page size: 8 words or 16 bytes – Page access: 25ns, 30ns – Random access: 60ns1, 70ns, 80ns • Fast program commands: 32-word (64-byte) write buffer • Enhanced buffered program commands: 256-word • Program time – 16µs per byte/word (TYP) – Chip program time: 10s with V PPH and 16s without V PPH • Memory organization – Uniform blocks: 256 main blocks, 128KB, or 64Kwords each • Program/erase controller – Embedded byte/word program algorithms • Program/erase suspend and resume capability – Read from any block during a PROGRAM SUSPEND operation – Read or program another block during an ERASE SUSPEND operation • Unlock bypass, block erase, chip erase, write to buffer and program – Fast buffered/batch programming – Fast block/chip erase PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Note: 1 1. The 60ns device is available upon customer request. Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. Products and specifications discussed herein are subject to change by Micron without notice. 256Mb: 3V Embedded Parallel NOR Flash Features Part Numbering Information Available with extended memory block prelocked by Micron. Devices are shipped from the factory with memory content bits erased to 1. For available options, such as packages or high/low protection, or for further information, contact your Micron sales representative. Part numbers can be verified at www.micron.com. Feature and specification comparison by device type is available at www.micron.com/products. Contact the factory for devices not found. Table 1: Part Number Information Part Number Category Device type Category Details Notes M29W Operating voltage W = VCC = 2.7 to 3.6V Device function 256GH = 256Mb (x8/x16) page, uniform block Flash memory, highest block protected by VPP/WP# 256GL = 256Mb (x8/x16) page, uniform block Flash memory, lowest block protected by VPP/WP# Speed Package 70 = 70ns 1 60 = 60ns 1, 2 7A = 70ns 1, 3 N = 56-pin TSOP, 14mm x 20mm, lead-free, halogen-free, RoHS-compliant ZA = 64-ball TBGA, 10mm x 13mm, lead-free, halogen-free, RoHS-compliant ZS = 64-ball fortified BGA, 11mm x 13mm Temperature range 1 = 0 to 70°C 6 = –40°C to +85°C 3 = –40°C to +125°C Shipping options E = RoHS-compliant package, standard packing F = RoHS-compliant package, tape and reel packing Notes: 1. 80ns if VCCQ = 1.65V to VCC. 2. The 60ns device is available upon customer request. 3. Automotive-qualified, available only with option 6. Qualified and characterized according to AEC Q100 and Q003 or equivalent; advanced screening according to AEC Q001 and Q002 or equivalent. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 2 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Features Contents General Description ......................................................................................................................................... 7 Signal Assignments ........................................................................................................................................... 8 Signal Descriptions ......................................................................................................................................... 10 Memory Organization .................................................................................................................................... 11 Memory Configuration ............................................................................................................................... 11 Memory Map – 256Mb Density ................................................................................................................... 11 Bus Operations ............................................................................................................................................... 12 Read .......................................................................................................................................................... 12 Write .......................................................................................................................................................... 12 Standby and Automatic Standby ................................................................................................................. 12 Output Disable ........................................................................................................................................... 13 Reset .......................................................................................................................................................... 13 Registers ........................................................................................................................................................ 14 Status Register ............................................................................................................................................ 14 Lock Register .............................................................................................................................................. 18 Standard Command Definitions – Address/Data Cycles ................................................................................... 21 READ Operations ........................................................................................................................................... 23 READ/RESET Command ............................................................................................................................ 23 READ CFI Command .................................................................................................................................. 23 AUTO SELECT Operations .............................................................................................................................. 24 AUTO SELECT Command ........................................................................................................................... 24 Bypass Operations .......................................................................................................................................... 27 UNLOCK BYPASS Command ...................................................................................................................... 27 UNLOCK BYPASS RESET Command ............................................................................................................ 27 Program Operations ....................................................................................................................................... 28 PROGRAM Command ................................................................................................................................ 28 UNLOCK BYPASS PROGRAM Command ..................................................................................................... 28 WRITE TO BUFFER PROGRAM Command .................................................................................................. 28 UNLOCK BYPASS WRITE TO BUFFER PROGRAM Command ....................................................................... 31 WRITE TO BUFFER PROGRAM CONFIRM Command .................................................................................. 31 BUFFERED PROGRAM ABORT AND RESET Command ................................................................................ 31 PROGRAM SUSPEND Command ................................................................................................................ 31 PROGRAM RESUME Command .................................................................................................................. 32 ENTER and EXIT ENHANCED BUFFERED PROGRAM Command ................................................................ 32 ENHANCED BUFFERED PROGRAM Command ........................................................................................... 32 ENHANCED BUFFERED PROGRAM ABORT AND RESET Command ............................................................ 35 Erase Operations ............................................................................................................................................ 36 CHIP ERASE Command .............................................................................................................................. 36 UNLOCK BYPASS CHIP ERASE Command ................................................................................................... 36 BLOCK ERASE Command ........................................................................................................................... 36 UNLOCK BYPASS BLOCK ERASE Command ................................................................................................ 37 ERASE SUSPEND Command ....................................................................................................................... 37 ERASE RESUME Command ........................................................................................................................ 38 Block Protection Command Definitions – Address/Data Cycles ........................................................................ 39 Protection Operations .................................................................................................................................... 42 LOCK REGISTER Commands ...................................................................................................................... 42 PASSWORD PROTECTION Commands ....................................................................................................... 42 NONVOLATILE PROTECTION Commands .................................................................................................. 42 NONVOLATILE PROTECTION BIT LOCK BIT Commands ............................................................................ 44 VOLATILE PROTECTION Commands .......................................................................................................... 44 PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 3 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Features EXTENDED MEMORY BLOCK Commands .................................................................................................. EXIT PROTECTION Command .................................................................................................................... Device Protection ........................................................................................................................................... Hardware Protection .................................................................................................................................. Software Protection .................................................................................................................................... Volatile Protection Mode ............................................................................................................................. Nonvolatile Protection Mode ...................................................................................................................... Password Protection Mode .......................................................................................................................... Common Flash Interface ................................................................................................................................ Power-Up and Reset Characteristics ................................................................................................................ Absolute Ratings and Operating Conditions ..................................................................................................... DC Characteristics .......................................................................................................................................... Read AC Characteristics .................................................................................................................................. Write AC Characteristics ................................................................................................................................. Accelerated Program, Data Polling/Toggle AC Characteristics ........................................................................... Program/Erase Characteristics ........................................................................................................................ Package Dimensions ....................................................................................................................................... Revision History ............................................................................................................................................. Rev. E – 7/16 ............................................................................................................................................... Rev. D – 5/15 .............................................................................................................................................. Rev. C – 7/13 ............................................................................................................................................... Rev. B – 5/13 ............................................................................................................................................... Rev. A – 5/12 ............................................................................................................................................... PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 4 44 45 46 46 46 47 47 48 49 53 56 58 60 63 70 72 73 76 76 76 76 76 76 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Features List of Figures Figure 1: Logic Diagram ................................................................................................................................... 7 Figure 2: 56-Pin TSOP (Top View) .................................................................................................................... 8 Figure 3: 64-Ball Fortified BGA and 64-Ball TBGA ............................................................................................. 9 Figure 4: Data Polling Flowchart .................................................................................................................... 16 Figure 5: Toggle Bit Flowchart ........................................................................................................................ 17 Figure 6: Status Register Polling Flowchart ..................................................................................................... 18 Figure 7: Lock Register Program Flowchart ..................................................................................................... 20 Figure 8: WRITE TO BUFFER PROGRAM Flowchart ........................................................................................ 30 Figure 9: ENHANCED BUFFERED PROGRAM Flowchart ................................................................................ 34 Figure 10: Program/Erase Nonvolatile Protection Bit Algorithm ...................................................................... 43 Figure 11: Software Protection Scheme .......................................................................................................... 48 Figure 12: Power-Up Timing .......................................................................................................................... 53 Figure 13: Reset AC Timing – No PROGRAM/ERASE Operation in Progress ...................................................... 54 Figure 14: Reset AC Timing During PROGRAM/ERASE Operation .................................................................... 55 Figure 15: AC Measurement Load Circuit ....................................................................................................... 57 Figure 16: AC Measurement I/O Waveform ..................................................................................................... 57 Figure 17: Random Read AC Timing (8-Bit Mode) ........................................................................................... 61 Figure 18: Random Read AC Timing (16-Bit Mode) ......................................................................................... 61 Figure 19: Page Read AC Timing (16-Bit Mode) ............................................................................................... 62 Figure 20: WE#-Controlled Program AC Timing (8-Bit Mode) .......................................................................... 64 Figure 21: WE#-Controlled Program AC Timing (16-Bit Mode) ......................................................................... 65 Figure 22: CE#-Controlled Program AC Timing (8-Bit Mode) ........................................................................... 67 Figure 23: CE#-Controlled Program AC Timing (16-Bit Mode) ......................................................................... 68 Figure 24: Chip/Block Erase AC Timing (8-Bit Mode) ...................................................................................... 69 Figure 25: Accelerated Program AC Timing ..................................................................................................... 70 Figure 26: Data Polling AC Timing .................................................................................................................. 71 Figure 27: Toggle/Alternative Toggle Bit Polling AC Timing (8-Bit Mode) .......................................................... 71 Figure 28: 56-Pin TSOP – 14mm x 20mm ........................................................................................................ 73 Figure 29: 64-Ball TBGA – 10mm x 13mm ....................................................................................................... 74 Figure 30: 64-Ball Fortified BGA – 11mm x 13mm ........................................................................................... 75 PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 5 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Features List of Tables Table 1: Part Number Information ................................................................................................................... 2 Table 2: Signal Descriptions ........................................................................................................................... 10 Table 3: 256Mb, Blocks[255:0] ........................................................................................................................ 11 Table 4: Bus Operations ................................................................................................................................. 12 Table 5: Status Register Bit Definitions ........................................................................................................... 14 Table 6: Operations and Corresponding Bit Settings ........................................................................................ 15 Table 7: Lock Register Bit Definitions ............................................................................................................. 19 Table 8: Block Protection Status ..................................................................................................................... 19 Table 9: Standard Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit ............................................ 21 Table 10: Read Electronic Signature ............................................................................................................... 24 Table 11: Block Protection ............................................................................................................................. 26 Table 12: Block Protection Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit ............................... 39 Table 13: Extended Memory Block Address and Data ...................................................................................... 44 Table 14: V PP/WP# Functions ......................................................................................................................... 46 Table 15: Query Structure Overview ............................................................................................................... 49 Table 16: CFI Query Identification String ........................................................................................................ 49 Table 17: CFI Query System Interface Information .......................................................................................... 50 Table 18: Device Geometry Definition ............................................................................................................ 50 Table 19: Primary Algorithm-Specific Extended Query Table ........................................................................... 51 Table 20: Security Code Area .......................................................................................................................... 52 Table 21: Power-Up Wait Timing Specifications .............................................................................................. 53 Table 22: Reset AC Specifications ................................................................................................................... 54 Table 23: Absolute Maximum/Minimum Ratings ............................................................................................ 56 Table 24: Operating Conditions ...................................................................................................................... 56 Table 25: I/O Capacitance1 ............................................................................................................................ 57 Table 26: DC Current Characteristics .............................................................................................................. 58 Table 27: DC Voltage Characteristics .............................................................................................................. 59 Table 28: Read AC Characteristics .................................................................................................................. 60 Table 29: WE#-Controlled Write AC Characteristics ......................................................................................... 63 Table 30: CE#-Controlled Write AC Characteristics ......................................................................................... 66 Table 31: Accelerated Program and Data Polling/Data Toggle AC Characteristics .............................................. 70 Table 32: Program/Erase Characteristics ........................................................................................................ 72 PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 6 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash General Description General Description The M29W is an asynchronous, uniform block, parallel NOR Flash memory device manufactured on 65nm single-level cell (SLC) technology. READ, ERASE, and PROGRAM operations are performed using a single low-voltage supply. Upon power-up, the device defaults to read array mode. The main memory array is divided into uniform blocks that can be erased independently so that valid data can be preserved while old data is purged. PROGRAM and ERASE commands are written to the command interface of the memory. An on-chip program/ erase controller simplifies the process of programming or erasing the memory by taking care of all special operations required to update the memory contents. The end of a PROGRAM or ERASE operation can be detected, and any error condition can be identified. The command set required to control the device is consistent with JEDEC standards. CE#, OE#, and WE# control the bus operation of the device and enable a simple connection to most microprocessors, often without additional logic. The M29W supports asynchronous random read and page read from all blocks of the array. It features a write to buffer program capability that improves throughput by programming a buffer of 32 words in one command sequence. Also, in x16 mode, the enhanced buffered program capability improves throughput by programming 256 words in one command sequence. The device V PP/WP# signal enables faster programming. The device contains a 128-word (x16) and 256-byte (x8) extended memory block. The user can program this additional space and then protect it to permanently secure the contents. The device also features different levels of hardware and software protection to secure blocks from unwanted modification. Figure 1: Logic Diagram VCC VCCQ VPP/WP# 15 A[23:0] DQ[14:0] DQ15/A-1 WE# CE# OE# RY/BY# RST# BYTE# VSS PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 7 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Signal Assignments Signal Assignments Figure 2: 56-Pin TSOP (Top View) A23 A22 A15 A14 A13 A12 A11 A10 A9 A8 A19 A20 WE# RST# A21 VPP/WP# RY/BY# A18 A17 A7 A6 A5 A4 A3 A2 A1 RFU RFU Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 RFU RFU 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 RFU VCCQ 1. A23 = A[MAX]. 2. A-1 is the least significant address bit in x8 mode. 8 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Signal Assignments Figure 3: 64-Ball Fortified BGA and 64-Ball TBGA 1 2 RFU A3 3 4 5 6 7 8 8 7 6 A9 A13 RFU RFU A13 A9 5 4 3 2 1 A3 RFU A A A7 RY/BY# WE# WE# RY/BY# A7 B B RFU A4 A17 VPP/WP# RST# A8 A12 A22 A22 A12 A8 RST# VPP/WP# A17 A4 RFU RFU A2 A6 A18 A10 A14 A23 A23 A14 A10 A21 A2 RFU C C A21 A18 A6 D D RFU A1 A5 A20 A19 A11 A15 VCCQ VCCQ A15 A11 A19 A20 A5 A1 RFU RFU A0 D0 D2 D5 D7 A16 VSS VSS A16 D7 D5 D2 D0 A0 RFU E E F F VCCQ CE# D8 D10 D12 D14 BYTE# RFU RFU BYTE# D14 D12 D10 D8 CE# VCCQ RFU OE# D9 D11 VCC D13 D15/A-1 RFU RFU D15/A-1 D13 VCC D11 D9 OE# RFU G G H H RFU VSS D1 D3 D4 D6 VSS RFU RFU Top view – ball side down Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN VSS D6 D4 D3 D1 VSS RFU Bottom view – ball side up 1. A[23] = A[MAX]. 2. A-1 is the least significant address bit in x8 mode. 9 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Signal Descriptions Signal Descriptions The signal description table below is a comprehensive list of signals for this device family. All signals listed may not be supported on this device. See Signal Assignments for information specific to this device. Table 2: Signal Descriptions Name Type Description A[MAX:0] Input Address: Selects the cells in the array to access during READ operations. During WRITE operations, they control the commands sent to the command interface of the program/erase controller. CE# Input Chip enable: Activates the device, enabling READ and WRITE operations to be performed. When CE# is HIGH, the device goes to standby, and data outputs are at High-Z. OE# Input Output enable: Controls the bus READ operation. WE# Input Write enable: Controls the bus WRITE operation of the command interface. VPP/WP# Input VPP/write protect: Provides WRITE PROTECT function and VPPH function. These functions protect the lowest or highest block and enable the device to enter unlock bypass mode, respectively. (Refer to Hardware Protection and Bypass Operations for details.) BYTE# Input Byte/word organization select: Switches between x8 and x16 bus modes. When BYTE# is LOW, the device is in x8 mode; when HIGH, the device is in x16 mode. RST# Input Reset: Applies a hardware reset to the device, which is achieved by holding RST# LOW for at least tPLPX. After RST# goes HIGH, the device is ready for READ and WRITE operations (after tPHEL or tRHEL, whichever occurs last). (See RESET AC Specifications for more details.) DQ[7:0] I/O Data I/O: Outputs the data stored at the selected address during a READ operation. During WRITE operations, they represent the commands sent to the command interface of the internal state machine. DQ[14:8] I/O Data I/O: Outputs the data stored at the selected address during a READ operation when BYTE# is HIGH. When BYTE# is LOW, these pins are not used and are High-Z. During WRITE operations, these bits are not used. When reading the status register, these bits should be ignored. DQ15/A-1 I/O Data I/O or address input: When the device operates in x16 bus mode, this pin behaves as data I/O, together with DQ[14:8]. When the device operates in x8 bus mode, this pin behaves as the least significant bit of the address. Except where stated explicitly otherwise, DQ15 = data I/O (x16 mode); A-1 = address input (x8 mode). RY/BY# Output Ready/busy: Open-drain output that can be used to identify when the device is performing a PROGRAM or ERASE operation. During PROGRAM or ERASE operations, RY/BY# is LOW, and is High-Z during read mode, auto select mode, and erase suspend mode. After a hardware reset, READ and WRITE operations cannot begin until RY/BY# goes High-Z. (See RESET AC Specifications for more details.) The use of an open-drain output enables the RY/BY# pins from several devices to be connected to a single pull-up resistor to VCCQ. A low value will then indicate that one (or more) of the devices is (are) busy. A 10,000Ω or higher resistor is recommended as pull-up resistor to achieve 0.1V VOL. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 10 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Memory Organization Table 2: Signal Descriptions (Continued) Name Type VCC Supply Description Supply voltage: Provides the power supply for READ, PROGRAM, and ERASE operations. The command interface is disabled when VCC ≤ VLKO. This prevents WRITE operations from accidentally damaging the data during power-up, power-down, and power surges. If the program/erase controller is programming or erasing during this time, then the operation aborts, and the contents being altered will be invalid. A 0.1μF capacitor should be connected between VCC and VSS to decouple the current surges from the power supply. The PCB track widths must be sufficient to carry the currents required during PROGRAM and ERASE operations. (See DC Characteristics.) VCCQ Supply I/O supply voltage: Provides the power supply to the I/O pins and enables all outputs to be powered independently from VCC. VSS Supply Ground: All VSS pins must be connected to the system ground. RFU – Reserved for future use: RFUs should be not connected. Memory Organization Memory Configuration The main memory array is divided into 128KB or 64KW uniform blocks. Memory Map – 256Mb Density Table 3: 256Mb, Blocks[255:0] Address Range (x8) Block Block Size Start 255 128KB 1FE 0000h Address Range (x16) End Block Size Start End 1FF FFFFh 64KW 0FF 0000h 0FF FFFFh ⋮ ⋮ ⋮ ⋮ ⋮ 127 0FE 0000h 0FF FFFFh 07F 0000h 07F FFFFh ⋮ ⋮ ⋮ ⋮ ⋮ 63 07E 0000h 07F FFFFh 03F 0000h 03F FFFFh ⋮ ⋮ ⋮ ⋮ ⋮ 0 000 0000h 001 FFFFh 000 0000h 000 FFFFh PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 11 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Bus Operations Bus Operations Table 4: Bus Operations Notes 1 and 2 apply to entire table 8-Bit Mode Operation READ CE# OE# WE# RST# VPP/WP# L L H 16-Bit Mode A[MAX:0], DQ15/A-1 DQ[14:8] DQ[7:0] A[MAX:0] DQ15/A-1, DQ[14:0] Cell address High-Z Data output Cell address Data output input4 Command address Data input4 H X Command address High-Z WRITE L H L H X3 STANDBY H X X H X X High-Z High-Z X High-Z OUTPUT DISABLE L H H H X X High-Z High-Z X High-Z RESET X X X L X X High-Z High-Z X High-Z Notes: Data 1. Typical glitches of less than 5ns on CE#, WE#, and RST# are ignored by the device and do not affect bus operations. 2. H = Logic level HIGH (VIH); L = Logic level LOW (VIL); X = HIGH or LOW. 3. If WP# is LOW, then the highest or the lowest block remains protected, depending on line item. 4. Data input is required when issuing a command sequence or when performing data polling or block protection. Read Bus READ operations read from the memory cells, registers, or CFI space. To accelerate the READ operation, the memory array can be read in page mode where data is internally read and stored in a page buffer. The page size is 8 words (16 bytes) and is addressed by address inputs A[2:0] in x16 bus mode and A[2:0] plus DQ15/A-1 in x8 bus mode. The extended memory blocks and CFI area do not support page read mode. A valid READ operation requires setting the appropriate address on the address inputs, taking CE# and OE# LOW, and holding WE# HIGH. Data I/O signals output the value. Write Bus WRITE operations write to the command interface. A valid WRITE operation requires setting the appropriate address on the address inputs. These are latched by the command interface on the falling edge of CE# or WE#, whichever occurs last. Values on data I/O signals are latched by the command interface on the rising edge of CE# or WE#, whichever occurs first. OE# must remain HIGH during the entire operation. Standby and Automatic Standby When the device is in read mode, driving CE# HIGH places the device in standby mode and drives data I/Os to High-Z. Supply current is reduced to standby (ICC2) by holding CE# within V CC ±0.3V. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 12 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Bus Operations During PROGRAM or ERASE operations, the device continues to use the program/erase supply current (ICC3) until the operation completes. Automatic standby enables low power consumption during read mode. When CMOS levels (VCC ± 0.3 V) drive the bus, and following a READ operation and a period of inactivity specified in DC Characteristics, the memory enters automatic standby as internal supply current is reduced to ICC2. Data I/O signals still output data if a READ operation is in progress. Depending on load circuits connected with data bus, V CCQ can have a null consumption when the memory enters automatic standby. Output Disable Data I/Os are High-Z when OE# is HIGH. Reset During reset mode, the device is deselected, and outputs are High-Z. The device is in reset mode when RST# is LOW. Power consumption is reduced to standby level independently from CE#, OE#, or WE# inputs. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 13 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers Registers Status Register Table 5: Status Register Bit Definitions Note 1 applies to entire table Bit Name Settings Description Notes DQ7 Data polling 0 or 1, depending on bit operations Monitors whether the program/erase controller has successfully completed its operation, or has responded to an ERASE SUSPEND operation. 2, 3, 4 DQ6 Toggle bit Toggles: 0 to 1; 1 to 0; and so on Monitors whether the program/erase controller has successfully completed its operations, or has responded to an ERASE SUSPEND operation. During a PROGRAM/ERASE operation, DQ6 toggles from 0 to 1, 1 to 0, and so on, with each successive READ operation from any address. 3, 4, 5 DQ5 Error bit 0 = Success 1 = Failure Identifies errors detected by the program/erase controller. DQ5 is set to 1 when a PROGRAM, BLOCK ERASE, or CHIP ERASE operation fails to write the correct data to the memory. 4, 6 DQ3 Erase timer bit 0 = Erase not in progress 1 = Erase in progress Identifies the start of program/erase controller operation during a BLOCK ERASE command. Before the program/erase controller starts, this bit set to 0, and additional blocks to be erased can be written to the command interface. 4 DQ2 Alternative toggle bit Toggles: 0 to 1; 1 to 0; and so on Monitors the program/erase controller during ERASE operations. During CHIP ERASE, BLOCK ERASE, and ERASE SUSPEND operations, DQ2 toggles from 0 to 1, 1 to 0, and so on, with each successive READ operation from addresses within the blocks being erased. 3, 4 DQ1 Buffered program abort bit 1 = Abort Indicates a BUFFER PROGRAM operation abort. The BUFFERED PROGRAM ABORT and RESET command must be issued to return the device to read mode (see WRITE TO BUFFER PROGRAM command). Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. The status register can be read during PROGRAM, ERASE, or ERASE SUSPEND operations; the READ operation outputs data on DQ[7:0]. 2. For a PROGRAM operation in progress, DQ7 outputs the complement of the bit being programmed. For a READ operation from the address previously programmed successfully, DQ7 outputs existing DQ7 data. For a READ operation from addresses with blocks to be erased while an ERASE SUSPEND operation is in progress, DQ7 outputs 0; upon successful completion of the ERASE SUSPEND operation, DQ7 outputs 1. For an ERASE operation in progress, DQ7 outputs 0; upon either operation's successful completion, DQ7 outputs 1. 3. After successful completion of a PROGRAM or ERASE operation, the device returns to read mode. 4. During erase suspend mode, READ operations to addresses within blocks not being erased output memory array data as if in read mode. A protected block is treated the same as a block not being erased. See the Toggle Flowchart for more information. 5. During erase suspend mode, DQ6 toggles when addressing a cell within a block being erased. The toggling stops when the program/erase controller has suspended the ERASE operation. See the Toggle Flowchart for more information. 14 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers 6. When DQ5 is set to 1, a READ/RESET command must be issued before any subsequent command. Table 6: Operations and Corresponding Bit Settings Note 1 applies to entire table Operation Address DQ7 DQ6 DQ5 DQ3 DQ2 DQ1 RY/BY# Notes PROGRAM Any address DQ7# Toggle 0 – No toggle 0 0 2 PROGRAM during ERASE SUSPEND Any address DQ7# Toggle 0 – – – 0 ENHANCED BUFFERED PROGRAM Any address – Toggle 0 – – – 0 BUFFERED PROGRAM ABORT Any address DQ7# Toggle 0 – – 1 0 PROGRAM error Any address DQ7# Toggle 1 – – – High-Z CHIP ERASE Any address 0 Toggle 0 1 Toggle – 0 BLOCK ERASE before time-out Erasing block 0 Toggle 0 0 Toggle – 0 Non-erasing block 0 Toggle 0 0 No toggle – 0 BLOCK ERASE ERASE SUSPEND Erasing block 0 Toggle 0 1 Toggle – 0 Non-erasing block 0 Toggle 0 1 No toggle – 0 Erasing block 1 No toggle 0 – Toggle – High-Z Outputs memory array data as if in read mode – High-Z Good block address 0 Toggle 1 1 No toggle – High-Z Faulty block address 0 Toggle 1 1 Toggle – High-Z Non-erasing block BLOCK ERASE error Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 2 1. Unspecified data bits should be ignored. 2. DQ7# for buffer program is related to the last address location loaded. 15 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers Figure 4: Data Polling Flowchart Start Read DQ7, DQ5, and DQ1 at valid address1 Yes DQ7 = Data No No DQ1 = 1 No DQ5 = 1 Yes Yes Read DQ7 at valid address DQ7 = Data Yes No Failure2 Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Success 1. Valid address is the address being programmed or an address within the block being erased. 2. Failure results: DQ5 = 1 indicates an operation error; DQ1 = 1 indicates a WRITE TO BUFFER PROGRAM ABORT operation. 16 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers Figure 5: Toggle Bit Flowchart Start Read DQ6 at valid address Read DQ6, DQ5, and DQ1 at valid address DQ6 = Toggle Yes No DQ1 = 1 No No DQ5 = 1 Yes Yes Read DQ6 (twice) at valid address DQ6 = Toggle No Yes Failure1 Note: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Success 1. Failure results: DQ5 = 1 indicates an operation error; DQ1 = 1 indicates a WRITE TO BUFFER PROGRAM ABORT operation. 17 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers Figure 6: Status Register Polling Flowchart Start Read 1 DQ7 = Valid data Yes Read 2 Read 3 PROGRAM operation Yes Read 3 correct data? Yes No No No DQ5 = 1 Yes PROGRAM operation failure Read 2 No DQ6 = Toggling Yes Read2.DQ6 = Read3.DQ6 Read 3 Device error No DQ6 = Toggling Yes Read1.DQ6 = Read2.DQ6 DQ2 = Toggling Timeout failure Read2.DQ2 = Read3.DQ2 No No Yes DQ1 = 1 Erase/suspend mode No ERASE operation complete Device busy: Repolling WRITE TO BUFFER PROGRAM Yes Yes PROGRAM operation complete WRITE TO BUFFER PROGRAM abort No Device busy: Repolling Lock Register PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 18 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers Table 7: Lock Register Bit Definitions Note 1 applies to entire table Bit Name Settings Description Notes DQ2 Password 0 = Password protection protection mode enabled mode lock bit 1 = Password protection mode disabled (Default) Places the device permanently in password protection mode. 2 DQ1 Nonvolatile 0 = Nonvolatile protection protection mode enabled with passmode lock bit word protection mode permanently disabled 1 = Nonvolatile protection mode enabled (Default) Places the device in nonvolatile protection mode with password protection mode permanently disabled. When shipped from the factory, the device will operate in nonvolatile protection mode, and the memory blocks are unprotected. 2 DQ0 Extended 0 = Protected memory 1 = Unprotected (Default) block protection bit If the device is shipped with the extended memory block unlocked, the block can be protected by setting this bit to 0. The extended memory block protection status can be read in auto select mode by issuing an AUTO SELECT command. Notes: 1. The lock register is a 16-bit, one-time programmable register. DQ[15:3] are reserved and are set to a default value of 1. 2. The password protection mode lock bit and nonvolatile protection mode lock bit cannot both be programmed to 0. Any attempt to program one while the other is programmed causes the operation to abort, and the device returns to read mode. The device is shipped from the factory with the default setting. Table 8: Block Protection Status Nonvolatile Nonvolatile Volatile Protection Bit Protection Protection Lock Bit1 Bit2 Bit3 Block Protection Status Block Protection Status 1 1 1 00h Block unprotected; nonvolatile protection bit changeable. 1 1 0 01h Block protected by volatile protection bit; nonvolatile protection bit changeable. 1 0 1 01h Block protected by nonvolatile protection bit; nonvolatile protection bit changeable. 1 0 0 01h Block protected by nonvolatile protection bit and volatile protection bit; nonvolatile protection bit changeable. 0 1 1 00h Block unprotected; nonvolatile protection bit unchangeable. 0 1 0 01h Block protected by volatile protection bit; nonvolatile protection bit unchangeable. 0 0 1 01h Block protected by nonvolatile protection bit; nonvolatile protection bit unchangeable. 0 0 0 01h Block protected by nonvolatile protection bit and volatile protection bit; nonvolatile protection bit unchangeable. Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Nonvolatile protection bit lock bit: when cleared to 1, all nonvolatile protection bits are unlocked; when set to 0, all nonvolatile protection bits are locked. 19 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Registers 2. Block nonvolatile protection bit: when cleared to 1, the block is unprotected; when set to 0, the block is protected. 3. Block volatile protection bit: when cleared to 1, the block is unprotected; when set to 0, the block is protected. Figure 7: Lock Register Program Flowchart Start Enter LOCK REGISTER command set Address/data (unlock) cycle 1 Address/data (unlock) cycle 2 Address/data cycle 3 PROGRAM LOCK REGISTER Address/data cycle 1 Address/data cycle 2 Polling algorithm Yes Done? No DQ5 = 1 No Yes Success: EXIT PROTECTION command set (Returns to device read mode) Address/data cycle 1 Address/data cycle 2 Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Failure: READ/RESET (Returns device to read mode) 1. Each lock register bit can be programmed only once. 2. See the Block Protection Command Definitions table for address/data cycle details. 20 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Standard Command Definitions – Address/Data Cycles Standard Command Definitions – Address/Data Cycles Table 9: Standard Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit Note 1 applies to entire table Address and Data Cycles Command and Code/Subcode Bus Size 1st A 2nd D 3rd 4th A D A D 555 55 X F0 2AA 55 X F0 555 55 AAA 90 A 5th D A 6th D A D Notes READ and AUTO SELECT Operations READ/RESET (F0h) x8 x16 READ CFI (98h) AUTO SELECT (90h) x8 X F0 AAA AA X F0 555 AA AA 98 x16 55 x8 AAA x16 555 AA 2AA Note Note 2 2 555 2, 3, 4 BYPASS Operations UNLOCK BYPASS (20h) UNLOCK BYPASS RESET (90h/00h) x8 AAA x16 555 AA 555 55 x8 X 90 X 00 x8 AAA AA 555 55 x16 555 x8 X A0 PA PD x8 AAA AA 555 55 BAd 25 x16 555 x8 BAd 25 BAd N PA PD BAd 29 x8 AAA AA 555 55 AAA F0 x16 555 2AA AAA 20 555 x16 PROGRAM Operations PROGRAM (A0h) UNLOCK BYPASS PROGRAM (A0h) WRITE TO BUFFER PROGRAM (25h) x16 WRITE TO BUFFER PROGRAM CONFIRM (29h) x16 x8 ENTER ENHANCED BUFFERED PROGRAM (38h) x16 ENHANCED BUFFERED PROGRAM (33h) x16 PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN A0 PA PD 555 5 x16 UNLOCK BYPASS WRITE TO BUFFER PROGRAM (25h) BUFFERED PROGRAM ABORT and RESET (F0h) 2AA AAA BAd N PA PD 6, 7, 8 2AA 2AA 5 555 x8 NA 555 AA 2AA 55 555 38 BAd 33 BAd (00) Data BAd (01) Data x8 NA 21 9 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Standard Command Definitions – Address/Data Cycles Table 9: Standard Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit (Continued) Note 1 applies to entire table Address and Data Cycles Command and Code/Subcode Bus Size EXIT ENHANCED BUFFERED PROGRAM (90h) 1st 2nd 3rd A D A D X 90 X 00 A 4th D x8 x16 ENHANCED BUFFERED PROGRAM ABORT (F0h) 555 AA x8 X B0 X 30 x8 AAA AA x16 555 x8 X 80 X 10 AA 555 55 PROGRAM RESUME (30h) x16 x8 A D A D A D AAA AA 555 55 AAA 10 Notes NA x16 x16 6th NA x8 PROGRAM SUSPEND (B0h) 5th 2AA 55 555 F0 555 55 AAA 80 ERASE Operations CHIP ERASE (80/10h) 2AA UNLOCK BYPASS CHIP ERASE (80/10h) x16 BLOCK ERASE (80/30h) x8 AAA x16 555 x8 X 80 X B0 X 30 UNLOCK BYPASS BLOCK ERASE (80/30h) x16 ERASE SUSPEND (B0h) x8 555 2AA BAd 555 2AA 555 5 AAA 555 30 80 AAA 555 AA 555 55 BAd 30 10 2AA 5 x16 ERASE RESUME (30h) x8 x16 Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. A = Address; D = Data; X = "Don't Care"; BAd = Any address in the block; N = Number of bytes to be programmed; PA = Program address; PD = Program data; Gray shading = Not applicable. All values in the table are hexadecimal. Some commands require both a command code and subcode. 2. These cells represent READ cycles (versus WRITE cycles for the others). 3. AUTO SELECT enables the device to read the manufacturer code, device code, block protection status, and extended memory block protection indicator. 4. AUTO SELECT addresses and data are specified in the Electronic Signature table and the Extended Memory Block Protection table. 5. For any UNLOCK BYPASS ERASE/PROGRAM command, the first two UNLOCK cycles are unnecessary. 6. BAd must be the same as the address loaded during the WRITE TO BUFFER PROGRAM third and fourth cycles. 7. WRITE TO BUFFER PROGRAM operation: maximum cycles = 68 (x8) and 36 (x16). UNLOCK BYPASS WRITE TO BUFFER PROGRAM operation: maximum cycles = 66 (x8) and 34 22 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash READ Operations (x16). WRITE TO BUFFER PROGRAM operation: N + 1 = bytes to be programmed; maximum buffer size = 64 bytes (x8) and 32 words (x16). 8. For x8, A[MAX:5] address pins should remain unchanged while A[4:0] and A-1 pins are used to select a byte within the N + 1 byte page. For x16, A[MAX:5] address pins should remain unchanged while A[4:0] pins are used to select a word within the N + 1 word page. 9. The following is content for address/data cycles 256 through 258: BAd (FE) - Data; BAd (FF) - Data; BAd (00) - 29. 10. BLOCK ERASE address cycles can extend beyond six address/data cycles, depending on the number of blocks to erase. READ Operations READ/RESET Command The READ/RESET (F0h) command returns the device to read mode and resets the errors in the status register. One or three bus WRITE operations can be used to issue the READ/RESET command. To return the device to read mode, this command can be issued between bus WRITE cycles before the start of a PROGRAM or ERASE operation. If the READ/RESET command is issued during the timeout of a BLOCK ERASE operation, the device requires up to 10μs to abort, during which time no valid data can be read. READ CFI Command The READ CFI (98h) command puts the device in read CFI mode and is valid only when the device is in read array or auto select mode. One bus WRITE cycle is required to issue the command. Once in read CFI mode, bus READ operations will output data from the CFI memory area. A READ/RESET command must be issued to return the device to the previous mode (read array or auto select ). A second READ/RESET command is required to put the device in read array mode from auto select mode. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 23 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash AUTO SELECT Operations AUTO SELECT Operations AUTO SELECT Command At power-up or after a hardware reset, the device is in read mode. It can then be put in auto select mode by issuing an AUTO SELECT (90h) command or by applying V ID to A9. Auto select mode enables the following device information to be read: • Electronic signature, which includes manufacturer and device code information, as shown in the Electronic Signature table. • Block protection, which includes the block protection status and extended memory block protection indicator, as shown in the Block Protection table. Electronic signature or block protection information is read by executing a READ operation with control signals and addresses set, as shown in the Read Electronic Signature table or the Block Protection table, respectively. Auto select mode can be used by the programming equipment to automatically match a device with the application code to be programmed. Three consecutive bus WRITE operations are required to issue an AUTO SELECT command. The device remains in auto select mode until a READ/RESET or READ CFI command is issued. The device cannot enter auto select mode when a PROGRAM or ERASE operation is in progress (RY/BY# LOW). However, auto select mode can be entered if the PROGRAM or ERASE operation has been suspended by issuing a PROGRAM SUSPEND or ERASE SUSPEND command. To enter auto select mode by appling V ID to A9, see the Read Electronic Signature table and the Block Protection table. Auto select mode is exited by performing a reset. The device returns to read mode unless it entered auto select mode after an ERASE SUSPEND or PROGRAM SUSPEND command, in which case it returns to erase or program suspend mode. Table 10: Read Electronic Signature Note 1 applies to entire table READ Cycle Manufacturer Code Device Code 1 Device Code 2 Device Code 3 CE# L L L L OE# L L L L WE# H H H H X X X X A9 VID VID VID VID A8 X X X X Signal Notes Address Input, 8-Bit and 16-Bit A[MAX:10] A[7:5] L L L L A4 X X X X A[3:1] L L H H PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 24 2 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash AUTO SELECT Operations Table 10: Read Electronic Signature (Continued) Note 1 applies to entire table READ Cycle Manufacturer Code Device Code 1 Device Code 2 Device Code 3 L H L H X X X X DQ[14:8] X X X X DQ[7:0] 20h 7Eh 22h 01h 0020h 227Eh 2222h 2201h Signal A0 Notes Address Input, 8-Bit Only DQ[15]/A-1 Data I/O, 8-Bit Only Data I/O, 16-Bit Only DQ[15]/A-1, and DQ[14:0] Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. H = Logic level HIGH (VIH); L = Logic level LOW (VIL); X = HIGH or LOW. 2. When using the AUTO SELECT command to enter auto select mode, applying VID to A9 is not required. A9 can be either VIL or VIH. 25 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash AUTO SELECT Operations Table 11: Block Protection Note 1 applies to entire table READ Cycle Extended Memory Block Verify Indicator (GL) Extended Memory Block Verify Indicator (GH) Block Protection Status Indicator CE# L L L OE# L L L WE# H H H A[MAX:16] X X Block base address A[15:10] X X X A9 VID VID VID A8 X X X A[7:5] L L L A4 X X X A[3:2] L L L A1 H H H A0 H H L X X X DQ[14:8] X X X DQ[7:0] 89h 99h 01h 3, 5 09h 19h 00h 4, 6 0089h 0099h 0001h 3, 5 0009h 0019h 0000h 4, 6 Signal Notes Address Input, 8-Bit and 16-Bit 2 Address Input, 8-Bit Only DQ[15]/A-1 Data I/O, 8-Bit Only Data I/O, 16-Bit Only DQ[15]/A-1, and DQ[14:0] Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Read cycle output to DQ7 = Extended memory block protection indicator; GH = High block protection; GL = Low block protection; BPS = Block protection status; H = Logic level HIGH (VIH); L = Logic level LOW (VIL); X = HIGH or LOW. 2. When using the AUTO SELECT command to enter auto select mode, applying VID to A9 is not required. A9 can be either VIL or VIH. 3. Extended memory blocks are Micron-prelocked (permanent). 4. Extended memory blocks are customer-lockable. 5. Block protection status = protected: 01h (in x8 mode) is output on DQ[7:0]. 6. Block protection status = unprotected: 00h (in x8 mode) is output on DQ[7:0]. 26 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Bypass Operations Bypass Operations UNLOCK BYPASS Command The UNLOCK BYPASS (20h) command is used to place the device in unlock bypass mode. Three bus WRITE operations are required to issue the UNLOCK BYPASS command. When the device enters unlock bypass mode, the two initial UNLOCK cycles required for a standard PROGRAM or ERASE operation are not needed, thus enabling faster total program or erase time. The UNLOCK BYPASS command is used in conjunction with UNLOCK BYPASS PROGRAM or UNLOCK BYPASS ERASE commands to program or erase the device faster than with standard PROGRAM or ERASE commands. Using these commands can save considerable time when the cycle time to the device is long. When in unlock bypass mode, only the following commands are valid: • The UNLOCK BYPASS PROGRAM command can be issued to program addresses within the device. • The UNLOCK BYPASS BLOCK ERASE command can then be issued to erase one or more memory blocks. • The UNLOCK BYPASS CHIP ERASE command can be issued to erase the whole memory array. • The UNLOCK BYPASS WRITE TO BUFFER PROGRAM and UNLOCK BYPASS ENHANCED WRITE TO BUFFER PROGRAM commands can be issued to speed up the programming operation. • The UNLOCK BYPASS RESET command can be issued to return the device to read mode. In unlock bypass mode, the device can be read as if in read mode. In addition to the UNLOCK BYPASS command, when V PP/WP# is raised to V PPH, the device automatically enters unlock bypass mode. When V PP/WP# returns to V IH or V IL, the device is no longer in unlock bypass mode, and normal operation resumes. The transitions from V IH to V PPH and from V PPH to V IH must be slower than tVHVPP. (See the Accelerated Program, Data Polling/Toggle AC Characteristics.) Note: Micron recommends entering and exiting unlock bypass mode using the ENTER UNLOCK BYPASS and UNLOCK BYPASS RESET commands rather than raising V PP/WP# to V PPH. V PP/WP# should never be raised to V PPH from any mode except read mode; otherwise, the device may be left in an indeterminate state. V PP/WP# should not remain at VPPH for than 80 hours cumulative. UNLOCK BYPASS RESET Command The UNLOCK BYPASS RESET (90/00h) command is used to return to read/reset mode from unlock bypass mode. Two bus WRITE operations are required to issue the UNLOCK BYPASS RESET command. The READ/RESET command does not exit from unlock bypass mode. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 27 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations Program Operations PROGRAM Command The PROGRAM (A0h) command can be used to program a value to one address in the memory array. The command requires four bus WRITE operations; the final WRITE operation latches the address and data in the internal state machine and starts the program/erase controller. After programming has started, bus READ operations output the status register content. Programming can be suspended and then resumed by issuing a PROGRAM SUSPEND command and a PROGRAM RESUME command, respectively. If the address falls in a protected block, the PROGRAM command is ignored, and the data remains unchanged. The status register is not read, and no error condition is given. After the PROGRAM operation has completed, the device returns to read mode, unless an error has occurred. When an error occurs, bus READ operations to the device continue to output the status register. A READ/RESET command must be issued to reset the error condition and return the device to read mode. The PROGRAM command cannot change a bit set to 0 back to 1, and an attempt to do so is masked during a PROGRAM operation. Instead, an ERASE command must be used to set all bits in one memory block or in the entire memory from 0 to 1. The PROGRAM operation is aborted by performing a reset or by powering-down the device. In this case, data integrity cannot be ensured, and the words or bytes that were aborted should be reprogrammed. UNLOCK BYPASS PROGRAM Command When the device is in unlock bypass mode, the UNLOCK BYPASS PROGRAM (A0h) command can be used to program one address in the memory array. The command requires two bus WRITE operations instead of four required by a standard PROGRAM command; the final WRITE operation latches the address and data and starts the program/erase controller. (The standard PROGRAM command requires four bus WRITE operations.) The PROGRAM operation using the UNLOCK BYPASS PROGRAM command behaves identically to the PROGRAM operation using the PROGRAM command. The operation cannot be aborted. A bus READ operation to the memory outputs the status register. WRITE TO BUFFER PROGRAM Command The WRITE TO BUFFER PROGRAM (25h) command makes use of the 32-word program buffer to speed up programming. A maximum of 32 words can be loaded into the program buffer. The WRITE TO BUFFER PROGRAM command dramatically reduces system programming time compared to the standard non-buffered PROGRAM command. When issuing a WRITE TO BUFFER PROGRAM command, V PP/WP# can be either held HIGH or raised to V PPH. Also, it can be held LOW if the block is not the lowest or highest block, depending on the part number. The following successive steps are required to issue the WRITE TO BUFFER PROGRAM command: First, two UNLOCK cycles are issued. Next, a third bus WRITE cycle sets up the WRITE TO BUFFER PROGRAM command. The set-up code can be addressed to any location PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 28 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations within the targeted block. Then, a fourth bus WRITE cycle sets up the number of words/ bytes to be programmed. Value n is written to the same block address, where n + 1 is the number of words/bytes to be programmed. Value n + 1 must not exceed the size of the program buffer, or the operation will abort. A fifth cycle loads the first address and data to be programmed. Last, n bus WRITE cycles load the address and data for each word/ byte into the program buffer. Addresses must lie within the range from the start address +1 to the start address + (n - 1). Optimum programming performance and lower power usage are achieved by aligning the starting address at the beginning of a 32-word boundary. Any buffer size smaller than 32 words is allowed within a 32-word boundary, while all addresses used in the operation must lie within the 32-word boundary. In addition, any crossing boundary buffer program will result in a program abort. To program the content of the program buffer, this command must be followed by a WRITE TO BUFFER PROGRAM CONFIRM command. If an address is written several times during a WRITE TO BUFFER PROGRAM operation, the address/data counter will be decremented at each data load operation, and the data will be programmed to the last word loaded into the buffer. Invalid address combinations or the incorrect sequence of bus WRITE cycles will abort the WRITE TO BUFFER PROGRAM command. The status register bits DQ1, DQ5, DQ6, DQ7 can be used to monitor the device status during a WRITE TO BUFFER PROGRAM operation. The WRITE BUFFER PROGRAM command should not be used to change a bit set to 0 back to 1, and an attempt to do so is masked during the operation. Rather than the WRITE BUFFER PROGRAM command, the ERASE command should be used to set memory bits from 0 to 1. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 29 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations Figure 8: WRITE TO BUFFER PROGRAM Flowchart Start WRITE TO BUFFER command, block address WRITE TO BUFFER confirm, block address Write n,1 block address Read data polling register (DQ1, DQ5, DQ7) at last loaded address First three cycles of the WRITE TO BUFFER PROGRAM command Write buffer data, start address DQ7 = Data X=n No No DQ1 = 1 Yes X=0 Yes No Abort WRITE TO BUFFER Yes No DQ5 = 1 Yes Check data polling register (DQ5, DQ7) at last loaded address Write to a different block address No Write next data,3 program address pair Yes WRITE TO BUFFER and PROGRAM aborted2 DQ7 = Data4 Yes No Fail or abort5 X=X-1 Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN End 1. n + 1 is the number of addresses to be programmed. 2. The BUFFERED PROGRAM ABORT and RESET command must be issued to return the device to read mode. 3. When the block address is specified, any address in the selected block address space is acceptable. However, when loading program buffer address with data, all addresses must fall within the selected program buffer page. 4. DQ7 must be checked because DQ5 and DQ7 may change simultaneously. 5. If this flowchart location is reached because DQ5 = 1, then the WRITE TO BUFFER PROGRAM command failed. If this flowchart location is reached because DQ1 = 1, then the WRITE TO BUFFER PROGRAM command aborted. In both cases, the appropriate RESET command must be issued to return the device to read mode: A RESET command if the operation failed; a WRITE TO BUFFER PROGRAM ABORT AND RESET command if the operation aborted. 6. See the Standard Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit table for details about the WRITE TO BUFFER PROGRAM command sequence. 30 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations UNLOCK BYPASS WRITE TO BUFFER PROGRAM Command When the device is in unlock bypass mode, the UNLOCK BYPASS WRITE TO BUFFER (25h) command can be used to program the device in fast program mode. The command requires two bus WRITE operations fewer than the standard WRITE TO BUFFER PROGRAM command. The UNLOCK BYPASS WRITE TO BUFFER PROGRAM command behaves the same way as the WRITE TO BUFFER PROGRAM command: the operation cannot be aborted, and a bus READ operation to the memory outputs the status register. The WRITE TO BUFFER PROGRAM CONFIRM command is used to confirm an UNLOCK BYPASS WRITE TO BUFFER PROGRAM command and to program the n + 1 words/bytes loaded in the program buffer by this command. WRITE TO BUFFER PROGRAM CONFIRM Command The WRITE TO BUFFER PROGRAM CONFIRM (29h) command is used to confirm a WRITE TO BUFFER PROGRAM command and to program the n + 1 words/bytes loaded in the program buffer by this command. BUFFERED PROGRAM ABORT AND RESET Command A BUFFERED PROGRAM ABORT AND RESET (F0h) command must be issued to reset the device to read mode when the BUFFER PROGRAM operation is aborted. The buffer programming sequence can be aborted in the following ways: • Load a value that is greater than the page buffer size during the number of locations to program in the WRITE TO BUFFER PROGRAM command. • Write to an address in a different block than the one specified during the WRITE BUFFER LOAD command. • Write an address/data pair to a different write buffer page than the one selected by the starting address during the program buffer data loading stage of the operation. • Write data other than the CONFIRM command after the specified number of data load cycles. The abort condition is indicated by DQ1 = 1, DQ7 = DQ7# (for the last address location loaded), DQ6 = toggle, and DQ5 = 0 (all of which are status register bits). A BUFFERED PROGRAM ABORT and RESET command sequence must be written to reset the device for the next operation. Note: The full three-cycle BUFFERED PROGRAM ABORT and RESET command sequence is required when using buffer programming features in unlock bypass mode. PROGRAM SUSPEND Command The PROGRAM SUSPEND (B0h) command can be used to interrupt a program operation so that data can be read from any block. When the PROGRAM SUSPEND command is issued during a program operation, the device suspends the operation within the program suspend latency time and updates the status register bits. After the program operation has been suspended, data can be read from any address. However, data is invalid when read from an address where a program operation has been suspended. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 31 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations The PROGRAM SUSPEND command may also be issued during a PROGRAM operation while an erase is suspended. In this case, data may be read from any address not in erase suspend or program suspend mode. To read from the extended memory block area (one-time programmable area), the ENTER/EXIT EXTENDED MEMORY BLOCK command sequences must be issued. The system may also issue the AUTO SELECT command sequence when the device is in program suspend mode. The system can read as many auto select codes as required. When the device exits auto select mode, the device reverts to program suspend mode and is ready for another valid operation. The PROGRAM SUSPEND operation is aborted by performing a device reset or powerdown. In this case, data integrity cannot be ensured, and the words or bytes that were aborted should be reprogrammed. PROGRAM RESUME Command The PROGRAM RESUME (30h) command must be issued to exit a program suspend mode and resume a PROGRAM operation. The controller can use DQ7 or DQ6 status bits to determine the status of the PROGRAM operation. After a PROGRAM RESUME command is issued, subsequent PROGRAM RESUME commands are ignored. Another PROGRAM SUSPEND command can be issued after the device has resumed programming. ENTER and EXIT ENHANCED BUFFERED PROGRAM Command The ENHANCED BUFFERED PROGRAM commands are available only in x16 mode. When the ENTER ENHANCED BUFFERED PROGRAM command is issued, the device accepts only these commands, which can be executed multiple times. Monitor the toggle bit to ensure successful completion of the ENTER ENHANCED BUFFERED PROGRAM command. The EXIT ENHANCED BUFFERED PROGRAM command returns the device to read mode; two bus WRITE operations are required to issue the command. ENHANCED BUFFERED PROGRAM Command The ENHANCED BUFFERED PROGRAM command makes use of a 256-word write buffer to speed up programming. Each write buffer has the same A[23:8] addresses. This command dramatically reduces system programming time compared to both the standard non-buffered PROGRAM command and the WRITE TO BUFFER command. When issuing the ENHANCED BUFFERED PROGRAM command, the V PP/WP pin can be held HIGH or raised to V PPH. (See Program/Erase Characteristics.) The following successive steps are required to issue the WRITE TO BUFFER PROGRAM command: First, the ENTER ENHANCED BUFFERED PROGRAM command is issued. Next, one bus WRITE cycle sets up the ENHANCED BUFFERED PROGRAM command. The set-up code can be addressed to any location within the targeted block. Then, a second bus WRITE cycle loads the first address and the data to be programmed. There are a total of 256 address- and data-loading cycles. When the 256 words are loaded to the buffer, a third WRITE cycle programs the content of the buffer. Last, when the command completes, the EXIT ENHANCED BUFFERED PROGRAM command is issued. Address/data cycles must be loaded in an increasing address order, from A[7:0] = 00000000 to A[7:0] = 11111111 until all 256 words are loaded. Invalid address combina- PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 32 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations tions or the incorrect sequence of bus WRITE cycles will abort the WRITE TO BUFFER PROGRAM command. The status register bits DQ1, DQ5, DQ6, DQ7 can be used to monitor the device status during a WRITE TO BUFFER PROGRAM operation. An external 12V supply can be used to improve programming efficiency. When reprogramming data in a portion of memory already programmed (changing programmed data from 0 to 1) operation failure can be detected by a logical OR between the previous and the current value. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 33 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations Figure 9: ENHANCED BUFFERED PROGRAM Flowchart Start ENHANCED BUFFERED PROGRAM command, block address ENHANCED BUFFERED PROGRAM command set First cycle of the ENHANCED BUFFERED PROGRAM command Write buffer data, start address (00), X=255 Read DQ6 at valid address Read DQ5 and DQ6 at valid address Yes X=0 No DQ6 = Abort WRITE TO BUFFER No Yes Write to a different block address toggle No Yes No ENHANCED BUFFERED PROGRAM aborted (1) Write next data, (2) program address pair DQ5 =1 Yes Write next data, (2) program address pair Read DQ6 twice at valid address X = X-1 No DQ6 = toggle ENHANCED BUFFERED PROGRAM confirm, block address Yes Fail 258th WRITE cycle of the ENHANCED BUFFERED PROGRAM command Read status register (DQ1, DQ5, DQ7) at last loaded address DQ7 = Data No DQ1 = 1 Yes No No DQ5 = 1 Yes Yes Check status register (DQ5, DQ7) at last loaded address New Program? Yes No DQ7 = Data (3) No Fail or Abort(4) Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Yes Exit ENHANCED BUFFERED PROGRAM command set End 1. The ENHANCED BUFFERED PROGRAM ABORT AND RESET command must be issued to return the device to read mode. 34 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program Operations 2. When the block address is specified, all addresses in the selected block address space must be issued starting from 00h. Furthermore, when loading the write buffer address with data, data program addresses must be consecutive. 3. DQ7 must be checked because DQ5 and DQ7 may change simultaneously. 4. If this flowchart location is reached because DQ5 = 1, then the ENHANCED WRITE TO BUFFER PROGRAM command failed. If this flowchart location is reached because DQ1 = 1, then the ENHANCED WRITE TO BUFFER PROGRAM command aborted. In both cases, the appropriate RESET command must be issued to return the device to read mode: a RESET command if the operation failed; an ENHANCED WRITE TO BUFFER PROGRAM ABORT AND RESET command if the operation aborted. ENHANCED BUFFERED PROGRAM ABORT AND RESET Command An ENHANCED BUFFERED PROGRAM ABORT AND RESET command must be issued to reset the device to read mode when the ENHANCED BUFFERED PROGRAM operation is aborted. The buffer programming sequence can be aborted in the following ways: • Write to an address in a different block than the one specified during the buffer load. • Write an address/data pair to a different write buffer page than the one selected by the starting address during the program buffer data loading stage of the operation. • Write data other than the CONFIRM command after the 256 data load cycles. • Load a value that is greater than or less than the 256 buffer size. • Load address/data pairs in an incorrect sequence. The abort condition is indicated by DQ1 = 1, DQ6 = toggle, and DQ5 = 0 (all of which are status register bits). PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 35 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Erase Operations Erase Operations CHIP ERASE Command The CHIP ERASE (80/10h) command erases the entire chip. Six bus WRITE operations are required to issue the command and start the program/erase controller. Protected blocks are not erased. If all blocks are protected, the CHIP ERASE operation appears to start, but will terminate within approximately100μs, leaving the data unchanged. No error is reported when protected blocks are not erased. During the CHIP ERASE operation, the device ignores all other commands, including ERASE SUSPEND. It is not possible to abort the operation. All bus READ operations during CHIP ERASE output the status register on the data I/Os. (See the Status Register section for more details.) After the CHIP ERASE operation completes, the device returns to read mode, unless an error has occurred. If an error occurs, the device will continue to output the status register. A READ/RESET command must be issued to reset the error condition and return to read mode. The CHIP ERASE command sets all of the bits in unprotected blocks of the device to 1. All previous data is lost. The operation is aborted by performing a reset or by powering-down the device. In this case, data integrity cannot be ensured, and the entire chip should be erased again. UNLOCK BYPASS CHIP ERASE Command When the device is in unlock bypass mode, the UNLOCK BYPASS CHIP ERASE (80/10h) command can be used to erase all memory blocks at one time. The command requires only two bus WRITE operations instead of six using the standard CHIP ERASE command. The final bus WRITE operation starts the program/erase controller. The UNLOCK BYPASS CHIP ERASE command behaves the same way as the CHIP ERASE command: the operation cannot be aborted, and a bus READ operation to the memory outputs the status register. BLOCK ERASE Command The BLOCK ERASE (80/30h) command erases a list of one or more blocks. It sets all of the bits in the unprotected selected blocks to 1. All previous data in the selected blocks is lost. Six bus WRITE operations are required to select the first block in the list. Each additional block in the list can be selected by repeating the sixth bus WRITE operation using the address of the additional block. After the command sequence is written, a block erase timeout occurs. During the timeout period, additional block addresses and BLOCK ERASE commands can be written. After the program/erase controller has started, it is not possible to select any more blocks. Each additional block must therefore be selected within the timeout period of the last block. The timeout timer restarts when an additional block is selected. After the sixth bus WRITE operation, a bus READ operation outputs the status register. (See the WE#-Controlled Program waveforms for details on how to identify if the program/erase controller has started the BLOCK ERASE operation.) PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 36 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Erase Operations After the BLOCK ERASE operation completes, the device returns to read mode, unless an error has occurred. If an error occurs, bus READ operations will continue to output the status register. A READ/RESET command must be issued to reset the error condition and return to read mode. If any selected blocks are protected, they are ignored, and all the other selected blocks are erased. If all the selected blocks are protected, the BLOCK ERASE operation appears to start, but will terminate within approximately100μs, leaving the data unchanged. No error condition is given when protected blocks are not erased. During the BLOCK ERASE operation, the device ignores all commands except the ERASE SUSPEND command and the READ/RESET command, which is accepted only during the timeout period. The operation is aborted by performing a reset or poweringdown the device. In this case, data integrity cannot be ensured, and the aborted blocks should be erased again. UNLOCK BYPASS BLOCK ERASE Command When the device is in unlock bypass mode, the UNLOCK BYPASS BLOCK ERASE (80/30h) command can be used to erase one or more memory blocks at a time. The command requires two bus WRITE operations instead of six using the standard BLOCK ERASE command. The final bus WRITE operation latches the address of the block and starts the program/erase controller. To erase multiple blocks (after the first two bus WRITE operations have selected the first block in the list), each additional block in the list can be selected by repeating the second bus WRITE operation using the address of the additional block. The UNLOCK BYPASS BLOCK ERASE command behaves the same way as the BLOCK ERASE command: the operation cannot be aborted, and a bus READ operation to the memory outputs the status register. (See the BLOCK ERASE Command section for details.) ERASE SUSPEND Command The ERASE SUSPEND (B0h) command temporarily suspends a BLOCK ERASE operation. One bus WRITE operation is required to issue the command. The block address is "Don't Care." The program/erase controller suspends the ERASE operation within the erase suspend latency time of the ERASE SUSPEND command being issued. However, when the ERASE SUSPEND command is written during the block erase timeout, the device immediately terminates the timeout period and suspends the ERASE operation. After the program/erase controller has stopped, the device operates in read mode, and the erase is suspended. During an ERASE SUSPEND operation, it is possible to read and execute PROGRAM operations or WRITE TO BUFFER PROGRAM operations in blocks that are not suspended. Both READ and PROGRAM operations behave normally on these blocks. Reading from blocks that are suspended will output the status register. If any attempt is made to program in a protected block or in the suspended block, the PROGRAM command is ignored, and the data remains unchanged. In this case, the status register is not read, and no error condition is given. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 37 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Erase Operations It is also possible to issue AUTO SELECT and UNLOCK BYPASS commands during an ERASE SUSPEND operation. The READ/RESET command must be issued to return the device to read array mode before the RESUME command will be accepted. During an ERASE SUSPEND operation, a bus READ operation to the extended memory block will output the extended memory block data. After the device enters extended memory block mode, the EXIT EXTENDED MEMORY BLOCK command must be issued before the ERASE operation can be resumed. An ERASE SUSPEND command is ignored if it is written during a CHIP ERASE operation. If the ERASE SUSPEND operation is aborted by performing a device reset or powerdown, data integrity cannot be ensured, and the suspended blocks should be erased again. ERASE RESUME Command The ERASE RESUME (30h) command restarts the program/erase controller after an ERASE SUSPEND operation. The device must be in read array mode before the RESUME command will be accepted. An erase can be suspended and resumed more than once. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 38 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Block Protection Command Definitions – Address/Data Cycles Block Protection Command Definitions – Address/Data Cycles Table 12: Block Protection Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit Notes 1 and 2 apply to entire table Address and Data Cycles Command and Code/Subcode Bus Size 1st 2nd 3rd 4th A D A D A D x8 AAA AA 555 55 AAA 40 x16 555 AA 2AA 55 555 x8 X A0 X Data X Data A nth D … A D Notes LOCK REGISTER Commands ENTER LOCK REGISTER COMMAND SET (40h) PROGRAM LOCK REGISTER (A0h) x16 READ LOCK REGISTER x8 3 5 4, 5, 6 x16 PASSWORD PROTECTION Commands ENTER PASSWORD PROTECTION COMMAND SET (60h) x8 AAA AA 555 55 AAA x16 555 AA 2AA 55 555 x8 X A0 60 3 PROGRAM PASSWORD (A0h) x16 READ PASSWORD x8 00 PWD0 01 PWD1 02 PWD2 03 PWD3 … x16 00 PWD0 01 PWD1 02 PWD2 03 PWD3 x8 00 25 00 03 00 PWD0 01 PWD1 … C0 UNLOCK PASSWORD (25h/ 03h) PWAn PWDn 7 07 00 PWD7 4, 6, 8, 9 29 8, 10 x16 NONVOLATILE PROTECTION Commands ENTER NONVOLATILE PROTECTION COMMAND SET (C0h) PROGRAM NONVOLATILE PROTECTION BIT (A0h) READ NONVOLATILE PROTECTION BIT STATUS CLEAR ALL NONVOLATILE PROTECTION BITS (80h/ 30h) x8 AAA AA 555 55 AAA x16 555 AA 2AA 55 555 x8 X A0 BAd 00 BAd READ(0) X 80 3 x16 x8 4, 6, 11 x16 x8 00 30 12 x16 NONVOLATILE PROTECTION BIT LOCK BIT Commands ENTER NONVOLATILE PROTECTION BIT LOCK BIT COMMAND SET (50h) PROGRAM NONVOLATILE PROTECTION BIT LOCK BIT (A0h) PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN x8 AAA AA 555 55 AAA x16 555 AA 2AA 55 555 x8 X A0 X 00 50 3 11 x16 39 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Block Protection Command Definitions – Address/Data Cycles Table 12: Block Protection Command Definitions – Address/Data Cycles, 8-Bit and 16-Bit (Continued) Notes 1 and 2 apply to entire table Address and Data Cycles 1st 2nd 3rd Command and Code/Subcode Bus Size A D READ NONVOLATILE PROTECTION BIT LOCK BIT STATUS x8 X READ(0) x16 x8 AAA AA 555 55 AAA x16 555 AA 2AA 55 555 x8 X A0 BAd 00 BAd READ(0) X A0 BAd 01 A D A 4th D A nth D … A D Notes 4, 6, 11 VOLATILE PROTECTION Commands ENTER VOLATILE PROTECTION COMMAND SET (E0h) PROGRAM VOLATILE PROTECTION BIT (A0h) READ VOLATILE PROTECTION BIT STATUS CLEAR VOLATILE PROTECTION BIT (A0h) E0 3 x16 x8 4, 6, 11 x16 x8 x16 EXTENDED MEMORY BLOCK Commands ENTER EXTENDED MEMORY BLOCK (88h) x8 AAA AA 555 55 AAA x16 555 AA 2AA 55 555 EXIT EXTENDED MEMORY BLOCK (90h/00h) x8 AAA AA 555 55 AAA x16 555 AA 2AA 55 555 X 90 X 00 88 90 3 X 00 EXIT PROTECTION Commands EXIT PROTECTION COMMAND SET (90h/00h) Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN x8 3 x16 1. Key: A = Address and D = Data; X = "Don’t Care"; BAd = Any address in the block; PWDn = Password bytes 0 to 7; PWAn = Password address, n = 0 to 7; Gray = Not applicable. All values in the table are hexadecimal. 2. DQ[15:8] are "Don’t Care" during UNLOCK and COMMAND cycles. A[MAX:16] are "Don’t Care" during UNLOCK and COMMAND cycles, unless an address is required. 3. The ENTER command sequence must be issued prior to any operation. It disables READ and WRITE operations from and to block 0. READ and WRITE operations from and to any other block are allowed. Also, when an ENTER COMMAND SET command is issued, an EXIT PROTECTION COMMAND SET command must be issued to return the device to READ mode. 4. READ REGISTER/PASSWORD commands have no command code; CE# and OE# are driven LOW, and data is read according to a specified address. 5. Data = Lock register content. 6. All address cycles shown for this command are READ cycles. 7. Only one portion of the password can be programmed or read by each PROGRAM PASSWORD command. 8. Each portion of the password can be entered or read in any order as long as the entire 64-bit password is entered or read. 40 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Block Protection Command Definitions – Address/Data Cycles 9. For the x8 READ PASSWORD command, the nth (and final) address cycle equals the eighth address cycle. From the fifth to the eighth address cycle, the values for each address and data pair continue the pattern shown in the table as follows: for x8, address and data = 04 and PWD4; 05 and PWD5; 06 and PWD6; 07 and PWD7. 10. For the x8 UNLOCK PASSWORD command, the nth (and final) address cycle equals the eleventh address cycle. From the fifth to the tenth address cycle, the values for each address and data pair continue the pattern shown in the table as follows: address and data = 02 and PWD2; 03 and PWD3; 04 and PWD4; 05 and PWD5; 06 and PWD6; 07 and PWD7. For the x16 UNLOCK PASSWORD command, the nth (and final) address cycle equals the seventh address cycle. For the fifth and sixth address cycles, the values for the address and data pair continue the pattern shown in the table as follows: address and data = 02 and PWD2; 03 and PWD3. 11. Both nonvolatile and volatile protection bit settings are as follows: Protected state = 00; Unprotected state= 01. 12. The CLEAR ALL NONVOLATILE PROTECTION BITS command programs all nonvolatile protection bits before erasure. This prevents over-erasure of previously cleared nonvolatile protection bits. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 41 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Protection Operations Protection Operations Blocks can be protected individually against accidental PROGRAM, ERASE, or READ operations on both 8-bit and 16-bit configurations. The block protection scheme is shown in the Software Protection Scheme figure. Memory block and extended memory block protection is configured through the lock register. LOCK REGISTER Commands The ENTER LOCK REGISTER COMMAND SET (40h) command enables execution of all READ or PROGRAM LOCK REGISTER commands. PROGRAM LOCK REGISTER (A0h) configures the lock register, and READ LOCK REGISTER reads/confirms programmed data. PASSWORD PROTECTION Commands The ENTER PASSWORD PROTECTION COMMAND SET (60h) command enables execution of password protection commands. PROGRAM PASSWORD (A0h) programs the 64bit password used in the password protection mode. To program the 64-bit password in 8-bit mode, the complete command sequence must be entered eight times at eight consecutive addresses selected by A[1:0] plus DQ15/A-1; in 16-bit mode, the command sequence must be entered four times at four consecutive addresses selected by A[1:0]. By default, all password bits are set to 1. The password can be checked by issuing a READ PASSWORD command. READ PASSWORD verifies the password used in password protection mode. To verify the 64-bit password in 8-bit mode, the complete command sequence must be entered eight times at eight consecutive addresses selected by A[1:0] plus DQ15/A-1. In 16-bit mode, the command sequence must be entered four times at four consecutive addresses selected by A[1:0]. If the password mode lock bit is programmed, and a user attempts to read the password, the device outputs FFh. UNLOCK PASSWORD (25/03h) clears the nonvolatile protection bit lock bit, allowing the nonvolatile protection bits to be modified. UNLOCK PASSWORD must be issued with the correct password and requires a 1μs delay between successive UNLOCK PASSWORD commands. The delay helps prevent password intruders from trying all possible 64-bit combinations. If the delay does not occur, the latest command is ignored. After a valid 64-bit password is entered, approximately 1μs is required to unlock the device. NONVOLATILE PROTECTION Commands The ENTER NONVOLATILE PROTECTION COMMAND SET (C0h) command enables nonvolatile protection mode commands to be issued to the device. A block can be protected from PROGRAM or ERASE operations using a PROGRAM NONVOLATILE PROTECTION BIT (A0h) command, along with the block address. This command sets the nonvolatile protection bit to 0 for a given block. The status of a nonvolatile protection bit for a given block or group of blocks can be read using a READ NONVOLATILE MODIFY PROTECTION BIT command, along with the block address. The nonvolatile protection bits are erased simultaneously using a CLEAR ALL NONVOLATILE PROTECTION BITS (80/30h) command. No specific block address is required. If the nonvolatile protection bit lock bit is set to 0, the command fails. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 42 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Protection Operations Figure 10: Program/Erase Nonvolatile Protection Bit Algorithm Start ENTER NONVOLATILE PROTECTION command set PROGRAM NONVOLATILE PROTECTION BIT Addr = BAd Read byte twice Addr = BAd DQ6 = Toggle No Yes No DQ5 = 1 Wait 500µs Yes Read byte twice Addr = BAd DQ6 = Toggle No Read byte twice Addr = BAd Yes No DQ0 = 1 (erase) 0 (program) Yes Fail Reset Pass EXIT PROTECTION command set PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 43 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Protection Operations NONVOLATILE PROTECTION BIT LOCK BIT Commands After the ENTER NONVOLATILE PROTECTION BIT LOCK BIT COMMAND SET (50h) command has been issued, the commands that allow the nonvolatile protection bit lock bit to be set can be issued to the device. The PROGRAM NONVOLATILE PROTECTION BIT LOCK BIT (A0h) command is used to set the nonvolatile protection bit lock bit to 0, thus locking the nonvolatile protection bits and preventing them from being modified. The READ NONVOLATILE PROTECTION BIT LOCK BIT STATUS command is used to read the status of the nonvolatile protection bit lock bit. VOLATILE PROTECTION Commands After the ENTER VOLATILE PROTECTION COMMAND SET (E0h) command has been issued, commands related to the volatile protection mode can be issued to the device. The PROGRAM VOLATILE PROTECTION BIT (A0h) command individually sets a volatile protection bit to 0 for a given block. If the nonvolatile protection bit for the same block is set, the block is locked regardless of the value of the volatile protection bit. (See the Block Protection Status table.) The status of a volatile protection bit for a given block can be read by issuing a READ VOLATILE PROTECTION BIT STATUS command along with the block address. The CLEAR VOLATILE PROTECTION BIT (A0h) command individually clears (sets to 1) the volatile protection bit for a given block. If the nonvolatile protection bit for the same block is set, the block is locked regardless of the value of the volatile protection bit. (See the Block Protection Status table.) EXTENDED MEMORY BLOCK Commands The device has one extra 128-word extended memory block that can be accessed only by the ENTER EXTENDED MEMORY BLOCK (88h) command. The extended memory block is 128 words (x16) or 256 bytes (x8). It is used as a security block to provide a permanent 128-bit security identification number or to store additional information. The device can be shipped with the extended memory block prelocked permanently by Micron, including the 128-bit security identification number. Or, the device can be shipped with the extended memory block unlocked, enabling customers to permanently program and lock it. (See Lock Register, the AUTO SELECT command, and the Block Protection table.) Table 13: Extended Memory Block Address and Data Address Data x8 x16 Micron-Prelocked Customer-Lockable 000000h–0000FFh 000000h–00007Fh Secure ID number Determined by customer After the ENTER EXTENDED MEMORY BLOCK command has been issued, the device enters the extended memory block mode. All bus READ or PROGRAM operations are conducted on the extended memory block, and the extended memory block is addressed using the addresses occupied by block 0 in the other operating modes. (See the Memory Map table.) PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 44 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Protection Operations In extended memory block mode, ERASE, CHIP ERASE, ERASE SUSPEND, and ERASE RESUME commands are not allowed. The extended memory block cannot be erased, and each bit of the extended memory block can only be programmed once. The extended memory block is protected from further modification by programming lock register bit 0. Once invoked, this protection cannot be undone. The device remains in extended memory block mode until the EXIT EXTENDED MEMORY BLOCK (90/00h) command is issued, which returns the device to read mode, or until power is removed from the device. After a power-up sequence or hardware reset, the device will revert to reading memory blocks in the main array. EXIT PROTECTION Command The EXIT PROTECTION COMMAND SET (90/00h) command is used to exit the lock register, password protection, nonvolatile protection, volatile protection, and nonvolatile protection bit lock bit command set modes and return the device to read mode. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 45 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Device Protection Device Protection Hardware Protection The V PP/WP# function provides a hardware method of protecting the highest or lowest block. When V PP/WP# is LOW, PROGRAM and ERASE operations on either of these blocks is ignored to provide protection. When V PP/WP# is HIGH, the device reverts to the previous protection status for the highest or lowest block. PROGRAM and ERASE operations can modify the data in this block unless the block is protected using block protection. When V PP/WP# protect is raised to V PPH, the device automatically enters the unlock bypass mode, and command execution time is faster. This must never be done from any mode except read mode; otherwise, the device might be left in an indeterminate state. A 0.1μF capacitor should be connected between V PP/WP# and the V SS ground pin to decouple the current surges from the power supply. The PCB track widths must be sufficient to carry the currents required during unlock bypass program. When V PP/WP# returns to HIGH or LOW, normal operation resumes. When operations execute in unlock bypass mode, the device draws IPP from the pin to supply the programming circuits. Transitions from HIGH to V PPH and from V PPH to LOW must be slower than tVHVPP. Note: Micron highly recommends driving V PP/WP# HIGH or LOW. If a system needs to float V PP/WP#, without a pull-up/pull-down resistor and no capacitor, then an internal pull-up resistor is enabled. Table 14: VPP/WP# Functions VPP/WP# Settings Function VIL Highest (29WxxxGH) or lowest (29WxxxGL) block is protected. VIH Highest or lowest block is unprotected unless software protection is activated. VPPH Unlock bypass mode supplies current necessary to speed up PROGRAM execution time. Software Protection Software protection includes volatile, nonvolatile, and password protection as well as password access. The device is shipped with all blocks unprotected. On first use, the device defaults to the nonvolatile protection mode but can be activated in either the nonvolatile protection or password protection mode. The desired protection mode is activated by setting either the nonvolatile protection mode lock bit or the password protection mode lock bit of the lock register. (See the Lock Register section.) Both bits are one-time-programmable and nonvolatile; therefore, after the protection mode has been activated, it cannot be changed, and the device is set permanently to operate in the selected protection mode. It is recommended that the desired software protection mode be activated when first programming the device. For the lowest and highest blocks, a higher level of block protection can be achieved by locking the blocks using nonvolatile protection mode and holding V PP /WP# LOW. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 46 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Device Protection Blocks with volatile protection and nonvolatile protection can coexist within the memory array. If the user attempts to program or erase a protected block, the device ignores the command and returns to read mode. The block protection status can be read by performing a read electronic signature or by issuing an AUTO SELECT command. (See the Block Protection table.) Refer to the Block Protection Status table and the Software Protection Scheme figure for details on the block protection scheme. Refer to the Protection Operations section for a description of the command sets. Volatile Protection Mode Volatile protection enables the software application to protect blocks against inadvertent change and can be disabled when changes are needed. Volatile protection bits are unique for each block and can be individually modified. Volatile protection bits control the protection scheme only for unprotected blocks whose nonvolatile protection bits are cleared to 1. Issuing a PROGRAM VOLATILE PROTECTION BIT or CLEAR VOLATILE PROTECTION BIT command sets to 0 or clears to 1 the volatile protection bits and places the associated blocks in the protected (0) or unprotected (1) state, respectively. The volatile protection bit can be set or cleared as often as needed. When the device is first shipped, or after a power-up or hardware reset, the volatile protection bits default to 1 (unprotected). Nonvolatile Protection Mode A nonvolatile protection bit is assigned to each block. Each of these bits can be set for protection individually by issuing a PROGRAM NONVOLATILE PROTECTION BIT command. Also, each device has one global volatile bit called the nonvolatile protection bit lock bit; it can be set to protect all nonvolatile protection bits at once. This global bit must be set to 0 only after all nonvolatile protection bits are configured to the desired settings. When set to 0, the nonvolatile protection bit lock bit prevents changes to the state of the nonvolatile protection bits. When cleared to 1, the nonvolatile protection bits can be set and cleared using the PROGRAM NONVOLATILE PROTECTION BIT and CLEAR ALL NONVOLATILE PROTECTION BITS commands, respectively. No software command unlocks the nonvolatile protection bit lock bit unless the device is in password protection mode; in nonvolatile protection mode, the nonvolatile protection bit lock bit can be cleared only by taking the device through a hardware reset or power-up. Nonvolatile protection bits cannot be cleared individually; they must be cleared all at once using a CLEAR ALL NONVOLATILE PROTECTION BITS command. They will remain set through a hardware reset or a power-down/power-up sequence. If one of the nonvolatile protection bits needs to be cleared (unprotected), additional steps are required. First, the nonvolatile protection bit lock bit must be cleared to 1, using either a power-cycle or hardware reset. Then, the nonvolatile protection bits can be changed to reflect the desired settings. Finally, the nonvolatile protection bit lock bit must be set to 0 to lock the nonvolatile protection bits. The device now will operate normally. To achieve the best protection, the PROGRAM NONVOLATILE PROTECTION LOCK BIT command should be executed early in the boot code, and the boot code should be protected by holding V PP/WP# LOW. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 47 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Device Protection Nonvolatile protection bits and volatile protection bits have the same function when VPP/WP# is HIGH or when V PP/WP# is at the voltage for program acceleration (VPPH ). Password Protection Mode Password protection mode provides a higher level of security than the nonvolatile protection mode by requiring a 64-bit password to unlock the nonvolatile protection bit lock bit. In addition to this password requirement, the nonvolatile protection bit lock bit is set to 0 after power-up and reset to maintain the device in password protection mode. Executing the UNLOCK PASSWORD command by entering the correct password clears the nonvolatile protection bit lock bit, enabling the block nonvolatile protection bits to be modified. If the password provided is incorrect, the nonvolatile protection bit lock bit remains locked, and the state of the nonvolatile protection bits cannot be modified. To place the device in password protection mode, the following two steps are required: First, before activating the password protection mode, a 64-bit password must be set and the setting verified. Password verification is allowed only before the password protection mode is activated. Next, password protection mode is activated by programming the password protection mode lock bit to 0. This operation is irreversible. After the bit is programmed, it cannot be erased, the device remains permanently in password protection mode, and the 64-bit password can be neither retrieved nor reprogrammed. In addition, all commands to the address where the password is stored are disabled. Note: There is no means to verify the password after password protection mode is enabled. If the password is lost after enabling the password protection mode, there is no way to clear the nonvolatile protection bit lock bit. Figure 11: Software Protection Scheme Volatile protection bit 1 = unprotected 0 = protected (Default setting depends on the product order option) Volatile protection Nonvolatile protection bit 1 = unprotected (default) 0 = protected Nonvolatile protection Nonvolatile protection bit lock bit (volatile) Array block 1 = unlocked (default, after power-up or hardware reset) 0 = locked Nonvolatile protection mode Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Password protection mode 1. Volatile protection bits are programmed and cleared individually. Nonvolatile protection bits are programmed individually and cleared collectively. 2. Once programmed to 0, the nonvolatile protection bit lock bit can be reset to 1 only by taking the device through a power-up or hardware reset. 48 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Common Flash Interface Common Flash Interface The common Flash interface (CFI) is a JEDEC-approved, standardized data structure that can be read from the Flash memory device. It allows a system's software to query the device to determine various electrical and timing parameters, density information, and functions supported by the memory. The system can interface easily with the device, enabling the software to upgrade itself when necessary. When the READ CFI command is issued, the device enters CFI query mode, and the data structure is read from memory. The following tables show the addresses (A-1, A[7:0]) used to retrieve the data. The query data is always presented on the lowest order data outputs (DQ[7:0]), and the other data outputs (DQ[15:8]) are set to 0. Table 15: Query Structure Overview Note 1 applies to entire table Address x16 x8 Subsection Name Description 10h 20h CFI query identification string Command set ID and algorithm data offset 1Bh 36h System interface information Device timing and voltage information 27h 4Eh Device geometry definition Flash device layout 40h 80h Primary algorithm-specific extended query table Additional information specific to the primary algorithm (optional) 61h C2h Security code area 64-bit unique device number Note: 1. Query data are always presented on the lowest order data outputs (DQ[7:0]). DQ[15:8] are set to 0. Table 16: CFI Query Identification String Note 1 applies to entire table Address x16 x8 Data Description 10h 20h 0051h Query unique ASCII string "QRY" 11h 22h 0052h "R" 12h 24h 0059h "Y" 13h 14h 26h 28h 0002h 0000h Primary algorithm command set and control interface ID code 16-bit ID code defining a specific algorithm 15h 16h 2Ah 2Ch 0040h 0000h Address for primary algorithm extended query table (See the Primary Algorithm-Specific Extended Query Table.) 17h 18h 2Eh 30h 0000h 0000h Alternate vendor command set and control interface ID code second vendor-specified algorithm supported – 19h 1Ah 32h 34h 0000h 0000h Address for alternate algorithm extended query table – Note: 1. Query data are always presented on the lowest-order data outputs (DQ[7:0]). DQ[15:8] are set to 0. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Value 49 "Q" – P = 40h Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Common Flash Interface Table 17: CFI Query System Interface Information Note 1 applies to entire table Address x16 x8 Data Description Value 1Bh 36h 0027h VCC logic supply minimum program/erase voltage Bits[7:4] BCD value in volts Bits[3:0] BCD value in 100mV 2.7V 1Ch 38h 0036h VCC logic supply maximum program/erase voltage Bits[7:4] BCD value in volts Bits[3:0] BCD value in 100mV 3.6V 1Dh 3Ah 00B5h VPPH (programming) supply minimum program/erase voltage Bits[7:4] hex value in volts Bits[3:0] BCD value in 100mV 11.5V 1Eh 3Ch 00C5h VPPH (programming) supply maximum program/erase voltage Bits[7:4] hex value in volts Bits[3:0] BCD value in 100mV 12.5V 1Fh 3Eh 0004h Typical timeout for single byte/word program = 2nμs 16µs 20h 40h 0004h Typical timeout for maximum size buffer program = 21h 42h 0009h Typical timeout per individual block erase = 2nms 22h 23h 44h 46h 0011h 0004h Typical timeout for full chip erase = 2nμs 2nms 2n times typical 24h 48h 0004h Maximum timeout for buffer program = 25h 4Ah 0003h Maximum timeout per individual block erase = 2n times typical 26h 4Ch 0004h Note: Maximum timeout for chip erase = 2n 0.5s 80s Maximum timeout for byte/word program = 2n 16µs times typical times typical 200µs 200µs 2.3s 800s 1. The values in this table are valid for both packages. Table 18: Device Geometry Definition Address x16 x8 Data Description Value 27h 4Eh 0019h Device size = 2n in number of bytes 32MB 28h 29h 50h 52h 0002h 0000h Flash device interface code description 2Ah 2Bh 54h 56h 0006h 0000h Maximum number of bytes in multibyte program or page = 2n 64B 2Ch 58h 0001h Number of erase block regions. It specifies the number of regions containing contiguous erase blocks of the same size. 1 2Dh 2Eh 5Ah 5Ch 00FFh 0000h Erase block region 1 information Number of identical-size erase blocks = 00FFh + 1 2Fh 30h 5Eh 60h 0000h 0002h Erase block region 1 information Block size in region 1 = 0200h × 256 bytes PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 50 x8, x16 asynchronous 256 block 128KB Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Common Flash Interface Table 18: Device Geometry Definition (Continued) Address x16 x8 Data Description Value 31h 32h 33h 34h 62h 64h 66h 68h 0000h 0000h 0000h 0000h Erase block region 2 information 0 35h 36h 37h 38h 6Ah 6Ch 6Eh 70h 0000h 0000h 0000h 0000h Erase block region 3 information 0 39h 3Ah 3Bh 3Ch 72h 74h 76h 78h 0000h 0000h 0000h 0000h Erase block region 4 information 0 Table 19: Primary Algorithm-Specific Extended Query Table Note 1 applies to entire table Address x16 x8 Data Description 40h 80h 0050h Primary algorithm extended query table unique ASCII string “PRI” 41h 82h 0052h "R" 42h 84h 0049h "I" 43h 86h 0031h Major version number, ASCII "1" 44h 88h 0033h Minor version number, ASCII "3" 45h 8Ah 0010h Address-sensitive unlock (bits[1:0]): 00 = Required 01 = Not required Silicon revision number (bits[7:2]) 46h 8Ch 0002h Erase suspend: 00 = Not supported 01 = Read only 02 = Read and write 2 47h 8Eh 0001h Block protection: 00 = Not supported x = Number of blocks per group 1 48h 90h 0000h Temporary block unprotect: 00 = Not supported 01 = Supported 00 49h 92h 0008h Block protect/unprotect: 06 = M29W256GH/M29W256GL 06 4Ah 94h 0000h Simultaneous operations: Not supported PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Value 51 "P" Yes 65nm – Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Common Flash Interface Table 19: Primary Algorithm-Specific Extended Query Table (Continued) Note 1 applies to entire table Address x16 x8 Data Description 4Bh 96h 0000h Burst mode: 00 = Not supported 01 = Supported 00 4Ch 98h 0002h Page mode: 00 = Not supported 02 = 8-word page 02 4Dh 9Ah 00B5h VPPH supply minimum program/erase voltage: Bits[7:4] hex value in volts Bits[3:0] BCD value in 100mV 11.5V 4Eh 9Ch 00C5h VPPH supply maximum program/erase voltage: Bits[7:4] hex value in volts Bits[3:0] BCD value in 100mV 12.5V 4Fh 9Eh 00xxh Top/bottom boot block flag: xx = 04h: M29W256GL, first block protected by VPP/WP# xx = 05h: M29W256GH, last block protected by VPP/WP# 50h A0h 0001h Program suspend: 00 = Not supported 01 = Supported Note: Value Uniform + VPP/WP# protecting highest or lowest block 01 1. The values in this table are valid for both packages. Table 20: Security Code Area Address x16 x8 Data Description 61h C3h, C2h XXXX 64-bit unique device number 62h C5h, C4h XXXX 63h C7h, C6h XXXX 64h C9h, C8h XXXX PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 52 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Power-Up and Reset Characteristics Power-Up and Reset Characteristics Table 21: Power-Up Wait Timing Specifications Note 1 applies to entire table Symbol Parameter VCC HIGH to CE# LOW VCCQ HIGH to CE# LOW VCC HIGH to WE# LOW VCCQ HIGH to WE# LOW Notes: Legacy JEDEC Min Unit Notes tVCH tVCHEL 55 µs 2, 3 – tVCQHEL 55 µs 2, 3 – tVCHWL 500 µs – tVCQHWL 500 ns 1. Specifications apply to 60, 70, and 80ns devices unless otherwise noted. The 60ns device is available upon customer request. 2. VCC and VCCQ ramps must be synchronized during power-up. 3. If RST# is not stable for tVCS or tVIOS, the device will not allow any READ or WRITE operations, and a hardware reset is required. Figure 12: Power-Up Timing tVCHEL VCC VCCQ tVCQHEL CE# WE# tVCHWL tVCQHWL RST# tRH PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 53 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Power-Up and Reset Characteristics Table 22: Reset AC Specifications Note 1 applies to entire table Symbol Condition/Parameter Legacy JEDEC Min Max Unit Notes RST# LOW to read mode during program or erase tREADY tPLRH – 55 µs 2 RST# pulse width tRP tPLPH 20 – µs RST# HIGH to CE# LOW, OE# LOW tRH tPHEL, 55 – ns 20 – µs 55 – µs 0 – ns 2 tPHGL, tPHWL tRPD RST# LOW to standby mode during read mode – RST# LOW to standby mode during program or erase tRB RY/BY# HIGH to CE# LOW, OE# LOW tRHEL, 2 tRHGL, tRHWL Notes: 1. Specifications apply to 60, 70, and 80ns devices unless otherwise noted. The 60ns device is available upon customer request. 2. Sampled only; not 100% tested. Figure 13: Reset AC Timing – No PROGRAM/ERASE Operation in Progress RY/BY# CE#, OE#, WE# tRH RST# tRP PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 54 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Power-Up and Reset Characteristics Figure 14: Reset AC Timing During PROGRAM/ERASE Operation tREADY RY/BY# tRB CE#, OE#, WE# tRH RST# tRP PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 55 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Absolute Ratings and Operating Conditions Absolute Ratings and Operating Conditions Stresses greater than those listed may cause permanent damage to the device. This is a stress rating only, and functional operation of the device at these or any other conditions outside those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may adversely affect reliability. Table 23: Absolute Maximum/Minimum Ratings Parameter Symbol Min Max Unit Temperature under bias TBIAS –50 125 °C Storage temperature TSTG –65 150 °C I/O voltage VIO –0.6 VCC + 0.6 V Supply voltage VCC –0.6 4 V I/O supply voltage VCCQ –0.6 4 V VID –0.6 13.5 V VPPH –0.6 13.5 V Identification voltage Program voltage Notes: Notes 1, 2 3 1. During signal transitions, minimum voltage may undershoot to −2V for periods less than 20ns. 2. During signal transitions, maximum voltage may overshoot to VCC + 2V for periods less than 20ns. 3. VPPH must not remain at 12V for more than 80 hours cumulative. Table 24: Operating Conditions Note 1 applies to entire table Parameter Symbol Min Max Unit Supply voltage VCC 2.7 3.6 V Input/output supply voltage (VCCQ ≤ VCC) VCCQ 1.65 3.6 V Ambient operating temperature (range 1) TA 0 70 °C Ambient operating temperature (range 6) TA –40 125 °C Load capacitance CL Input rise and fall times – Input pulse voltages – 0 to VCCQ V Input and output timing reference voltages – VCCQ/2 V Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 30 – Notes 2 pF 10 ns 1. Specifications apply to 60, 70, and 80ns devices unless otherwise noted. The 60ns device is available upon customer request. 2. For the 80ns device, I/O supply voltage (VCCQ ≤ VCC) = 1.65V (MIN) and 3.6V (MAX). For the 60ns and 70ns devices, I/O supply voltage (VCCQ ≤ VCC) = 2.7V (MIN) and 3.6V (MAX). 56 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Absolute Ratings and Operating Conditions Figure 15: AC Measurement Load Circuit VCCQ VPP VCC 25kΩ Device under test CL 0.1µF 25kΩ 0.1µF Note: 1. CL includes jig capacitance. Figure 16: AC Measurement I/O Waveform VCCQ VCCQ/2 0V Table 25: I/O Capacitance1 Parameter Input capacitance Output capacitance Note: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Symbol Test Condition Min Max Unit CIN VIN = 0V – 6 pF COUT VOUT = 0V – 12 pF 1. Sampled only; not 100% tested. 57 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash DC Characteristics DC Characteristics Table 26: DC Current Characteristics Parameter Input leakage current Symbol Conditions Min Typ Max Unit Notes ILI 0V ≤ VIN ≤ VCC – – ±1 µA 1 Output leakage current ILO 0V ≤ VOUT ≤ VCC – – ±1 µA VCC read current ICC1 CE# = VIL, OE# = VIH, f = 6 MHz – – 10 mA CE# = VIL, OE# = VIH, f = 10 MHz – – 1 mA CE# = VCCQ ±0.2V, RST# = VCCQ ±0.2V – – 100 µA Random read Page read VCC standby current Grade 6 ICC2 Grade 3 VCC program/erase current VPP current ICC3 Program/ erase controller active – – 200 µA 2 VPP/WP# = VIL or VIH – – 20 mA 3 VPP/WP# = VPPH – – 15 mA 5 µA IPP1 VPP/WP# ≤ VCC – 1 – 1 5 µA Reset IPP2 RST# = VSS ±0.2V – 1 5 µA PROGRAM operation ongoing IPP3 VPP/WP# = 12V ±5% – 1 10 mA VPP/WP# = VCC – 1 5 µA ERASE operation ongoing IPP4 Read Standby Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 2 VPP/WP# = 12V ±5% – 3 10 mA VPP/WP# = VCC – 1 5 µA 1. The maximum input leakage current is ±5µA on the VPP/WP# pin. 2. When the bus is inactive for tAVQV + 30ns or more, the memory enters automatic standby. 3. Sampled only; not 100% tested. 58 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash DC Characteristics Table 27: DC Voltage Characteristics Parameter Input LOW voltage Symbol Conditions Min Typ Max Unit VIL VCC ≥ 2.7V –0.5 – 0.3VCCQ V Input HIGH voltage VIH VCC ≥ 2.7V 0.7VCCQ – VCCQ + 0.4 V Output LOW voltage VOL IOL = 100µA, VCC = VCC,min, VCCQ = VCCQ,min – – 0.15VCCQ V Output HIGH voltage VOH IOH = 100µA, VCC = VCC,min, VCCQ = VCCQ,min 0.85VCCQ – – V Identification voltage VID – 11.5 – 12.5 V Voltage for VPP/WP# program acceleration VPPH – 11.5 – 12.5 V Program/erase lockout supply voltage VLKO – 1.8 – 2.5 V Note: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Notes 1 1. Sampled only; not 100% tested. 59 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Read AC Characteristics Read AC Characteristics Table 28: Read AC Characteristics Symbol Parameter 60ns VCCQ = VCC 70ns VCCQ = VCC 80ns VCCQ = 1.65V to VCC Legacy JEDEC Condition Min Max Min Max Min Max Unit tRC tAVAV CE# = VIL, OE# = VIL 60 – 70 – 80 – ns Address valid to output valid tACC tAVQV CE# = VIL, OE# = VIL – 60 – 70 – 80 ns Address valid to output valid (page) tPAGE tAVQV1 CE# = VIL, OE# = VIL – 25 – 25 – 30 ns tLZ tELQX OE# = VIL 0 – 0 – 0 – ns tE tELQV OE# = VIL – 60 – 70 – 80 ns tOLZ tGLQX CE# = VIL 0 – 0 – 0 – ns OE# LOW to output valid tOE tGLQV CE# = VIL – 25 – 25 – 30 ns CE# HIGH to output High-Z tHZ tEHQZ OE# = VIL – 25 – 25 – 30 ns 2 OE# HIGH to output High-Z tDF tGHQZ CE# = VIL – 25 – 25 – 30 ns 2 CE#, OE#, or address transition to output transition tOH tEHQX, – 0 – 0 – 0 – ns Address valid to next address valid CE# LOW to output transition CE# LOW to output valid OE# LOW to output transition Notes 2 2 tGHQX, tAXQX tEHQV CE# to BYTE# LOW tELFL tELBL – – 5 – 5 – 5 ns CE# to BYTE# HIGH tELFH tELBH – – 5 – 5 – 5 ns tELQZ BYTE# LOW to output High-Z tFLQZ tBLQZ – – 25 – 25 – 30 ns BYTE# HIGH to output valid tFHQV tBHQV – – 30 – 30 – 30 ns Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. The 60ns device is available upon customer request. 2. Sampled only; not 100% tested. 60 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Read AC Characteristics Figure 17: Random Read AC Timing (8-Bit Mode) tRC A[MAX:0]/A-1 Valid tACC tOH CE# tCE tOH tLZ tHZ OE# tOLZ tOH tOE tDF DQ[7:0] Valid BYTE# tELFL Note: 1. BYTE# = VIL Figure 18: Random Read AC Timing (16-Bit Mode) tRC A[MAX:0] Valid tACC tOH CE# tE tOH tLZ tHZ OE# tOLZ tOH tOE tDF DQ[14:0] DQ15A-1 Valid BYTE# tELFH PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 61 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Read AC Characteristics Figure 19: Page Read AC Timing (16-Bit Mode) A[MAX:3] A[2:0] Valid Valid Valid Valid Valid Valid Valid Valid tACC CE# tE tOH tHZ OE# tPAGE tOE tOH tDF DQ[15:0] DQ15A-1 Valid Note: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Valid Valid Valid Valid Valid Valid 1. Page size is 8 words (16 bytes) and is addressed by address inputs A[2:0] in x16 bus mode and A[2:0] plus DQ15/A−1 in x8 bus mode. 62 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Write AC Characteristics Table 29: WE#-Controlled Write AC Characteristics Symbol Parameter Address valid to next address valid 60ns2 VCCQ = VCC 70ns VCCQ = VCC 80ns VCCQ = 1.65V to VCC Unit Legacy JEDEC Min Max Min Max Min Max tWC tAVAV 65 – 75 – 85 – ns CE# LOW to WE# LOW tCS tELWL 0 – 0 – 0 – ns WE# LOW to WE# HIGH tWP tWLWH 35 – 35 – 35 – ns Input valid to WE# HIGH tDS tDVWH 45 – 45 – 45 – ns WE# HIGH to input transition tDH tWHDX 0 – 0 – 0 – ns WE# HIGH to CE# HIGH tCH tWHEH 0 – 0 – 0 – ns WE# HIGH to WE# LOW tWPH tWHWL 30 – 30 – 30 – ns Address valid to WE# LOW tAS tAVWL 0 – 0 – 0 – ns WE# LOW to address transition tAH tWLAX 45 – 45 – 45 – ns OE# HIGH to WE# LOW – tGHWL 0 – 0 – 0 – ns WE# HIGH to OE# LOW tOEH tWHGL 0 – 0 – 0 – ns Program/erase valid to RY/BY# LOW tBUSY tWHRL – 30 – 30 – 30 ns VCC HIGH to CE# LOW tVCS tVCHEL 50 – 50 – 50 – µs Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Notes 2 3 1. The 60ns device is available upon customer request. 2. The user's write timing must comply with this specification. Any violation of this write timing specification may result in permanent damage to the NOR Flash device. 3. Sampled only; not 100% tested. 63 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Figure 20: WE#-Controlled Program AC Timing (8-Bit Mode) 3rd Cycle 4th Cycle Data Polling tWC A[MAX:0]/A-1 READ Cycle tWC AAAh PA PA tAH tAS tCH tCS tCE CE# tOE tGHWL OE# tWPH tWP WE# tWHWH1 tDS DQ[7:0] A0h PD DQ7# tDF DOUT tOH DOUT tDH Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Only the third and fourth cycles of the PROGRAM command are represented. The PROGRAM command is followed by checking of the status register data polling bit and by a READ operation that outputs the data (DOUT) programmed by the previous PROGRAM command. 2. PA is the address of the memory location to be programmed. PD is the data to be programmed. 3. DQ7 is the complement of the data bit being programmed to DQ7. (See Data Polling Bit [DQ7].) 4. See the following tables for timing details: Read AC Characteristics, WE#-Controlled Write AC Characteristics, and CE#-Controlled Write AC Characteristics. 64 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Figure 21: WE#-Controlled Program AC Timing (16-Bit Mode) 3rd Cycle 4th Cycle Data Polling READ Cycle tWC tWC A[MAX:0] 555h PA PA tAS tAH tCH tCS tE CE# tGHWL tOE OE# tWP tWPH WE# tWHWH1 tDS DQ[14:0]/A-1 AOh PD DQ7# tDF DOUT tOH DOUT tDH Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Only the third and fourth cycles of the PROGRAM command are represented. The PROGRAM command is followed by checking of the status register data polling bit and by a READ operation that outputs the data (DOUT) programmed by the previous PROGRAM command. 2. PA is the address of the memory location to be programmed. PD is the data to be programmed. 3. DQ7 is the complement of the data bit being programmed to DQ7. (See Data Polling Bit [DQ7].) 4. See the following tables for timing details: Read AC Characteristics, WE#-Controlled Write AC Characteristics, and CE#-Controlled Write AC Characteristics. 65 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Table 30: CE#-Controlled Write AC Characteristics Parameter Symbol 60ns2 VCCQ = VCC 70ns VCCQ = VCC 80ns VCCQ = 1.65V to VCC Unit Legacy JEDEC Min Max Min Max Min Max Address valid to next address valid tWC tAVAV 65 – 75 – 85 – ns WE# LOW to CE# LOW tWS tWLEL 0 – 0 – 0 – ns CE# LOW to CE# HIGH tCP tELEH 35 – 35 – 35 – ns Input valid to CE# HIGH tDS tDVEH 45 – 45 – 45 – ns CE# HIGH to input transition tDH tEHDX 0 – 0 – 0 – ns CE# HIGH to WE# HIGH tWH tEHWH 0 – 0 – 0 – ns CE# HIGH to CE# LOW tCPH tEHEL 30 – 30 – 30 – ns Address valid to CE# LOW tAS tAVEL 0 – 0 – 0 – ns CE# LOW to address transition tAH tELAX 45 – 45 – 45 – ns – tGHEL 0 – 0 – 0 – ns OE# HIGH to CE# LOW Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN Notes 2 1. The 60ns device is available upon customer request. 2. The user's write timing must comply with this specification. Any violation of this write timing specification may result in permanent damage to the NOR Flash device. 66 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Figure 22: CE#-Controlled Program AC Timing (8-Bit Mode) 3rd Cycle 4th Cycle Data Polling AAAh PA PA tWC A[MAX:0]/A-1 tAS tAH tWH tWS WE# tGHEL OE# tCP tCPH CE# tWHWH1 tDS DQ[7:0] A0h PD DQ7# DOUT tDH Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Only the third and fourth cycles of the PROGRAM command are represented. The PROGRAM command is followed by checking of the status register data polling bit. 2. PA is the address of the memory location to be programmed. PD is the data to be programmed. 3. DQ7 is the complement of the data bit being programmed to DQ7. (See Data Polling Bit [DQ7].) 4. See the following tables for timing details: Read AC Characteristics, WE#-Controlled Write AC Characteristics, and CE#-Controlled Write AC Characteristics. 67 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Figure 23: CE#-Controlled Program AC Timing (16-Bit Mode) 3rd Cycle 4th Cycle Data Polling 555h PA PA tWC A[MAX:0] tAH tAS tWH tWS WE# tGHEL OE# tCPH tCP CE# tWHWH1 tDS DQ[14:0]/A-1 AOh PD DQ7# DOUT tDH Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Only the third and fourth cycles of the PROGRAM command are represented. The PROGRAM command is followed by checking of the status register data polling bit. 2. PA is the address of the memory location to be programmed. PD is the data to be programmed. 3. DQ7 is the complement of the data bit being programmed to DQ7. (See Data Polling Bit [DQ7].) 4. See the following tables for timing details: Read AC Characteristics, WE#-Controlled Write AC Characteristics, and CE#-Controlled Write AC Characteristics. 68 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Write AC Characteristics Figure 24: Chip/Block Erase AC Timing (8-Bit Mode) tWC A[MAX:0]/ A–1 AAAh 555h tAS AAAh AAAh AAAh BAh1 555h tAH tCH tCS CE# tGHWL OE# tWP tWPH WE# tDS DQ[7:0] AAh 55h 80h AAh 55h 10h/ 30h tDH Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. For a CHIP ERASE command, the address is AAAh, and the data is 10h; for a BLOCK ERASE command, the address is BAd, and the data is 30h. 2. BAd is the block address. 3. See the following tables for timing details: Read AC Characteristics, WE#-Controlled Write AC Characteristics, and CE#-Controlled Write AC Characteristics. 69 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Accelerated Program, Data Polling/Toggle AC Characteristics Accelerated Program, Data Polling/Toggle AC Characteristics Table 31: Accelerated Program and Data Polling/Data Toggle AC Characteristics Note 1 and 2 apply to entire table Symbol Parameter Legacy JEDEC Min Max Unit – tVHVPP 250 – ns Address setup time to OE# LOW during toggle bit polling tASO tAXGL 10 – ns Address hold time from OE# during toggle bit polling tAHT tGHAX, tEHAX 10 – ns CE# HIGH during toggle bit polling tEPH tEHEL2 10 – ns Output hold time during data and toggle bit polling tOEH tWHGL2, 20 – ns Program/erase valid to RY/BY# LOW tBUSY – 30 ns VPP/WP# rising or falling time tGHGL2 Notes: tWHRL 1. Specifications apply to 60, 70, and 80ns devices unless otherwise noted. The 60ns device is available upon customer request. 2. Sampled only; not 100% tested. Figure 25: Accelerated Program AC Timing VPP/WP# VPPH VIL or VIH tVHVPP PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 70 tVHVPP Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Accelerated Program, Data Polling/Toggle AC Characteristics Figure 26: Data Polling AC Timing tCE tCH tHZ/tDF CE# tOPH tOE OE# tOEH WE# DQ7 Data DQ7# DQ7# Valid DQ7 Data DQ[6:0] Data Output flag Output flag Valid DQ[6:0] Data tBUSY RY/BY# Notes: 1. DQ7 returns a valid data bit when the PROGRAM or ERASE command has completed. 2. See the following tables for timing details: Read AC Characteristics, Accelerated Program and Data Polling/Data Toggle AC Characteristics. Figure 27: Toggle/Alternative Toggle Bit Polling AC Timing (8-Bit Mode) A[MAX:0]/ A–1 tAHT tASO CE# tOEH tASO tAHT WE# tOPH tEPH tOPH OE# tDH DQ6/DQ2 tCE tOE Data Toggle Toggle Toggle Stop toggling Output Valid tBUSY RY/BY# Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. DQ6 stops toggling when the PROGRAM or ERASE command has completed. DQ2 stops toggling when the CHIP ERASE or BLOCK ERASE command has completed. 2. See the following tables for timing details: Read AC Characteristics, Accelerated Program and Data Polling/Data Toggle AC Characteristics. 71 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Program/Erase Characteristics Program/Erase Characteristics Table 32: Program/Erase Characteristics Notes 1 and 2 apply to entire table Parameter Min Typ Max Unit Notes – 145 – 125 400 s 3, 4 400 s 4 Block erase (128KB) – 0.5 2 s 4, 5 Erase suspend latency time – 25 45 µs 50 – – µs – 1 – ms 6 – 16 200 µs 4 VPP/WP# = VPPH – 50 200 µs 4 VPP/WP# = VIH – 70 200 µs 4 – 16 200 µs 4 VPP/WP# = VPPH – 50 200 µs 4 VPP/WP# = VIH – 70 200 µs 4 Chip erase Chip erase VPP/WP# = VPPH Block erase timeout Erase to suspend Byte program Single-byte program Write to buffer program (64 bytes at a time) Word program Single-word program Write to buffer program (32 words at a time) Chip program (byte by byte) – 540 800 s 4 Chip program (word by word) – 270 400 s 4 Chip program (write to buffer program) – 25 200 s 4, 7 Chip program (write to buffer program with VPP/WP# = VPPH) – 13 50 s 4, 7 Chip program (enhanced buffered program) – 15 60 s 7 Chip program (enhanced buffered program with VPP/WP# = VPPH) – 10 40 s 7 Program suspend latency time – 5 15 µs 100,000 – – cycles 20 – – years PROGRAM/ERASE cycles (per block) Data retention Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. Typical values are measured at room temperature and nominal voltages and are not for cycled devices. 2. Typical and maximum values are sampled, but not 100% tested. 3. Time needed to program the whole array at 0 is included. 4. Maximum value measured at worst case conditions for both temperature and VCC after 100,000 PROGRAM/ERASE cycles. 5. Block erase polling cycle time. (See the Data Polling AC Waveforms figure.) 6. Erase to suspend is the typical time between an initial BLOCK ERASE or ERASE RESUME command and a subsequent ERASE SUSPEND command. Violating the specification repeatedly during any particular block erase may cause erase failures. 7. Intrinsic program timing means without the time required to execute the bus cycles to load the PROGRAM commands. 72 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Package Dimensions Package Dimensions Figure 28: 56-Pin TSOP – 14mm x 20mm 1.1 ±0.1 Pin A1 ID 1 56 0.5 TYP 56X 0.22 ±0.05 28 14 ±0.1 29 18.4 ±0.1 56X 0.1 ±0.05 20 ±0.2 Plating material composition: Ni/Pd/Au. Plastic package material: epoxy novolac. Package width and length include mold flash. 0.1 A 0.15 ±0.05 See Detail A 0.25 gage plane Seating plane (0.1 ±0.05) A 0.6 ±0.1 Detail A Notes: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. All dimensions are in millimeters. 2. For the lead width value of 0.22 ±0.05, there is also a legacy value of 0.15 ±0.05. 73 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Package Dimensions Figure 29: 64-Ball TBGA – 10mm x 13mm 10.00 ±0.10 1.50 TYP 7.00 TYP 3.00 TYP 0.50 TYP 7.00 TYP 0.50 TYP 13.00 ±0.10 0.10 MAX BALL "A1" 1.00 TYP 0.35 MIN/ 0.50 MAX 0.30 -0.10 +0.05 1.20 MAX Note: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 0.80 TYP 1. All dimensions are in millimeters. 74 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Package Dimensions Figure 30: 64-Ball Fortified BGA – 11mm x 13mm 0.80 TYP Seating plane 0.10 64X Ball A1 ID 8 7 6 5 4 3 2 1 3.00 TYP A B C 13.00 ±0.10 D 7.00 TYP E F G H 1.00 TYP 1.00 TYP 0.60 ±0.05 2.00 TYP 1.40 MAX 0.48 ±0.05 7.00 TYP 11.00 ±0.10 Note: PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 1. All dimensions are in millimeters. 75 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved. 256Mb: 3V Embedded Parallel NOR Flash Revision History Revision History Rev. E – 7/16 • Corrected Device ID Rev. D – 5/15 • Updated TSOP package Rev. C – 7/13 • Minor text edits • Added Erase to suspend specifications to Program/Erase Characteristics Rev. B – 5/13 • Synchronized TBGA (ZA) package dimensions in the order information table with dimensions in the package diagram Rev. A – 5/12 • Initial Micron brand release 8000 S. Federal Way, P.O. Box 6, Boise, ID 83707-0006, Tel: 208-368-4000 www.micron.com/products/support Sales inquiries: 800-932-4992 Micron and the Micron logo are trademarks of Micron Technology, Inc. All other trademarks are the property of their respective owners. This data sheet contains minimum and maximum limits specified over the power supply and temperature range set forth herein. Although considered final, these specifications are subject to change, as further product development and data characterization sometimes occur. PDF: 09005aef84bd3b68 m29w_256mb.pdf - Rev. E 7/16 EN 76 Micron Technology, Inc. reserves the right to change products or specifications without notice. © 2013 Micron Technology, Inc. All rights reserved.
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M29W256GH70N6E
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M29W256GH70N6E
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