M25P32-VMW6G Micron Technology Inc, M25P32-VMW6G Datasheet
M25P32-VMW6G
Specifications of M25P32-VMW6G
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M25P32-VMW6G Summary of contents
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... More than 20 year data retention Packages – RoHS compliant Automotive certified parts available February 2009 32-Mbit, low voltage, serial Flash memory with 75 MHz SPI bus interface = 9 V) Rev 12 M25P32 VDFPN8 (ME) 8 × (MLP8) VFQFPN8 (MP) 6 × (MLP8) SO16 (MF) 300 mils width SO8W (MW) 208 mils www ...
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Contents 1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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WEL bit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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List of tables Table 1. Signal names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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List of figures Figure 1. Logic diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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... Description The M25P32 Mbit ( Serial Flash memory, with advanced write protection mechanisms, accessed by a high speed SPI-compatible bus. The memory can be programmed 1 to 256 bytes at a time, using the Page Program instruction. An enhanced Fast Program/Erase mode is available to speed up operations in factory environment. The device enters this mode whenever the V Protect/Enhanced Program Supply Voltage pin (W/V The memory is organized as 64 sectors, each containing 256 pages ...
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... There is an exposed central pad on the underside of the MLP8 package. This is pulled, internally and must not be allowed to be connected to any other voltage or signal line on the PCB. 2. See Package mechanical section for package dimensions, and how to identify pin- M25P32 V SS AI07483b Function M25P32 HOLD W/V 3 ...
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... Figure 3. SO16 connections Don’t Use 2. See Package mechanical 8/54 M25P32 HOLD W/V section for package dimensions, and how to identify pin-1. PP AI07484c ...
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Signal description 2.1 Serial data output (Q) This output signal is used to transfer data serially out of the device. Data is shifted out on the falling edge of Serial Clock (C). 2.2 Serial data input (D) This input ...
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Write Protect/Enhanced Program supply voltage (W/V W/V is both a control input and a power supply pin. The two functions are selected by the PP voltage range applied to the pin. If the W/V input is kept in a ...
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... Serial Data Output (Q) line at a time, the other devices are high impedance. Resistors R (represented in that the M25P32 is not selected if the Bus Master leaves the S line in the high impedance state. As the Bus Master may enter a state where all inputs/outputs are in high impedance at ...
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Example pF, that is R*C p Master never leaves the SPI bus in the high impedance state for a time period shorter than 5 μs. Figure 5. SPI modes supported CPOL CPHA ...
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Operating features 4.1 Page Programming To program one data byte, two instructions are required: Write Enable (WREN), which is one byte, and a Page Program (PP) sequence, which consists of four bytes plus data. This is followed by the ...
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Active Power, Standby Power and Deep Power-down modes When Chip Select (S) is Low, the device is selected, and in the Active Power mode. When Chip Select (S) is High, the device is deselected, but could remain in the ...
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... The environments where non-volatile memory devices are used can be very noisy. No SPI device can operate correctly in the presence of excessive noise. To help combat this, the M25P32 features the following data protection mechanisms: Power On Reset and an internal timer (t inadvertent changes while the power supply is outside the operating specification. ...
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Hold condition The Hold (HOLD) signal is used to pause any serial communications with the device without resetting the clocking sequence. However, taking this signal Low does not terminate any Write Status Register, Program or Erase cycle that is ...
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Memory organization The memory is organized as: 4,194,304 bytes (8 bits each) 64 sectors (512 Kbits, 65536 bytes each) 16384 pages (256 bytes each). Each page can be individually programmed (bits are programmed from 1 to 0). The device ...
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Table 3. Memory organization Sector ...
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Table 3. Memory organization (continued) Sector Address range 1C0000h 1B0000h 1A0000h ...
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Instructions All instructions, addresses and data are shifted in and out of the device, most significant bit first. Serial Data Input (D) is sampled on the first rising edge of Serial Clock (C) after Chip Select (S) is driven ...
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Table 4. Instruction set Instruction WREN Write Enable WRDI Write Disable RDID Read Identification RDSR Read Status Register WRSR Write Status Register READ Read Data bytes Read Data bytes at higher FAST_READ speed PP Page Program SE Sector Erase BE ...
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Write Disable (WRDI) The Write Disable (WRDI) instruction The Write Disable (WRDI) instruction is entered by driving Chip Select (S) Low, sending the instruction code, and then driving Chip Select (S) High. The Write Enable Latch (WEL) bit is ...
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Read Identification (RDID) The Read Identification (RDID) instruction allows the device identification data to be read as explained here, with the data values shown in sequence. Manufacturer identification (1 byte): Numonyx value assigned by JEDEC. Device identification (2 bytes): ...
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Figure 10. Read Identification (RDID) instruction sequence and data-out sequence 6.4 Read Status Register (RDSR) The Read Status Register (RDSR) instruction allows the Status Register to be read. The Status Register may be read at any time, even while a ...
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BP1, BP0) bits is set to 1, the relevant memory area (as defined in protected against Page Program (PP) and Sector Erase (SE) instructions. The Block Protect (BP2, BP1, BP0) bits can be written provided that the Hardware Protected mode ...
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Write Status Register cycle, and is 0 when it is completed. When the cycle is completed, the Write Enable Latch (WEL) is reset. The Write Status Register (WRSR) instruction allows the user to change ...
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Latch (WEL) bit has previously been set by a Write Enable (WREN) instruction, regardless of the whether Write Protect (W/V When the Status Register Write Disable (SRWD) bit of the Status Register is set to 1, two cases need to ...
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Figure 13. Read Data Bytes (READ) instruction sequence and data-out sequence High Impedance Q 1. Address bits A23 to A22 are Don’t Care. 6.7 Read Data Bytes at Higher Speed (FAST_READ) The device is first ...
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Figure 14. Read Data Bytes at Higher Speed (FAST_READ) instruction sequence and data-out sequence High Impedance Address bits A23 to A22 are Don’t Care. ...
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For optimized timings recommended to use the Page Program (PP) instruction to program all consecutive targeted bytes in a single sequence versus using several Page Program (PP) sequences with each containing only a few bytes. Chip Select (S) ...
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Sector Erase (SE) The Sector Erase (SE) instruction sets to 1 (FFh) all bits inside the chosen sector. Before it can be accepted, a Write Enable (WREN) instruction must previously have been executed. After the Write Enable (WREN) instruction ...
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Bulk Erase (BE) The Bulk Erase (BE) instruction sets all bits to 1 (FFh). Before it can be accepted, a Write Enable (WREN) instruction must previously have been executed. After the Write Enable (WREN) instruction has been decoded, the ...
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Deep Power-down (DP) Executing the Deep Power-down (DP) instruction is the only way to put the device in the lowest consumption mode (the Deep Power-down mode). It can also be used as a software protection mechanism, while the device ...
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... Deep Power-down mode. The instruction can also be used to read, on Serial Data Output (Q), the old-style 8-bit Electronic Signature, whose value for the M25P32 is 15h. Please note that this is not the same as, or even a subset of, the JEDEC 16-bit Electronic Signature that is read by the Read Identifier (RDID) instruction ...
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... C Instruction D High Impedance Q 1. The value of the 8-bit Electronic Signature, for the M25P32, is 15h. Figure 20. Release from Deep Power-down (RES) instruction sequence Instruction D High Impedance Q Driving Chip Select (S) High after the 8-bit instruction byte has been received by the device, but before the whole of the 8-bit Electronic Signature has been transmitted for the first time (as shown in still ensures that the device is put into Standby Power mode ...
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Power-up and Power-down At Power-up and Power-down, the device must not be selected (that is Chip Select (S) must follow the voltage applied (min) at Power-up, and then for a further delay ...
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Figure 21. Power-up timing (max) Program, Erase and Write Commands are Rejected by the Device Chip Selection Not Allowed V CC (min) Reset State of the Device V WI Table 8. Power-up timing and V Symbol ...
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Initial delivery state The device is delivered with the memory array erased: all bits are set to 1 (each byte contains FFh). The Status Register contains 00h (all Status Register bits are 0). 9 Maximum rating Stressing the device ...
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DC and AC parameters This section summarizes the operating and measurement conditions, and the DC and AC characteristics of the device. The parameters in the DC and AC Characteristic tables that follow are derived from tests performed under the ...
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Table 13. Capacitance Symbol C Output capacitance (Q) OUT C Input capacitance (other pins Sampled only, not 100% tested Table 14. DC characteristics Symbol Parameter I Input leakage current LI I Output leakage current LO (1) ...
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Table 15. AC characteristics ( Applies only to products made with T9HX technology, identified with Process digit “4” Test conditions specified in Symbol Alt. Clock frequency for the following instructions FAST_READ, PP, SE, BE, DP, RES, WREN, WRDI, ...
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Table 15. AC characteristics ( Applies only to products made with T9HX technology, identified with Process digit “4” Test conditions specified in Symbol Alt. t Write Status Register cycle time W Page Program cycle time (256 bytes) (8) t Page ...
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Figure 24. Write Protect Setup and Hold timing during WRSR when SRWD=1 W/V PP tWHSL High Impedance Q Figure 25. Hold timing HOLD tHLCH tCHHL tCHHH tHLQZ tHHQX tSHWL AI07439b tHHCH AI02032 43/54 ...
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Figure 26. Output timing S C tCLQV tCLQX tCLQX Q ADDR.LSB IN D Figure 27. V PPH PPH W/V PP 44/54 tCLQV timing PP, SE, BE tVPPHSL tCH tCL LSB OUT tQLQH tQHQL End of PP, ...
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Package mechanical Figure 28. VDFPN8 (MLP8) 8-lead Very thin Dual Flat Package No lead, 8 × 6 mm, package outline Drawing is not to scale. 2. The circle in the top view of the package ...
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Figure 29. SO16 wide – 16-lead Plastic Small Outline, 300 mils body width, package outline B SO-H 1. Drawing is not to scale. Table 17. SO16 wide – 16-lead Plastic Small Outline, 300 mils body width, mechanical data Symbol A ...
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Figure 30. VFQFPN8 (MLP8) 8-lead Very thin Fine Pitch Quad Flat Package No lead, 6 × 5 mm, package outline Drawing is not to scale. Table 18. VFQFPN8 (MLP8) 8-lead Very thin Fine ...
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Figure 31. SO8W 8 lead Plastic Small Outline, 208 mils body width, package outline 1. Drawing is not to scale. Table 19. SO8W 8 lead Plastic Small Outline, 208 mils body width, package mechanical data Symbol Typ ...
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... Numonyx strongly recommends the use of the Automotive Grade devices for use in an automotive envirnoment. The High Reliability Certified Flow (HRCF) is described in the quality note NNEE9801. Please ask your nearest Numonyx sales office for a copy. 4. The lithography digit is present only in the automotive parts ordering scheme. M25P32 – (2) ...
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Note: For a list of available options (speed, package, etc.), for further information on any aspect of this device or when ordering parts operating at 75 MHz (0.11 μm, process digit “4”), please contact your nearest Numonyx Sales Office. The ...
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Revision history Table 21. Document revision history Date Revision 28-Apr-2003 0.1 15-May-2003 0.2 20-Jun-2003 0.3 18-Jul-2003 0.4 24-Sep-2003 0.5 04-Dec-2003 0.6 10-Dec-2003 1.0 01-Apr-2004 2.0 05-Aug-2004 3.0 01-Oct-2004 4.0 01-Apr-2005 5.0 01-Aug-2005 6.0 23-Jan-2006 7.0 10-Feb-2006 8.0 28-Nov-2006 Target ...
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Table 21. Document revision history Date Revision 15-Jun-2007 10 25-Nov-2008 11 12-Dec-2008 12 16-Feb-2009 13 52/54 Changes Section 7: Power-up and Power-down Read Identification instruction modified in (RDID). Inserted UID and CFI content columns in (RDID) data-out sequence. Modified Data ...
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... Copies of documents which have an order number and are referenced in this document, or other Numonyx literature may be obtained by visiting Numonyx's website at http://www.numonyx.com. Numonyx StrataFlash is a trademark or registered trademark of Numonyx or its subsidiaries in the United States and other countries. *Other names and brands may be claimed as the property of others. ...