w25q40bv Winbond Electronics Corp America, w25q40bv Datasheet

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... SERIAL FLASH MEMORY WITH DUAL AND QUAD SPI Publication Release Date: March 26,2009 - 1 - Preliminary - Revision A W25Q40BV ...

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... Status Register Memory Protection (CMP = 0) 8.1.12 Status Register Memory Protection (CMP = 1) 8.2 INSTRUCTIONS 8.2.1 Manufacturer and Device Identification 8.2.2 Instruction Set Table 1 (Erase, Program Instructions) Table of Contents ............................................................................................................... 5 ................................................................................... 6 ........................................................................................ 6 ..................................................................................................................... 7 .................................................................................................................. 7 ............................................................................................................... 7 ..................................................................................................................... 7 ................................................................................................................ 7 ......................................................................................................... 9 ............................................................................................................... 9 .......................................................................................................9 ..............................................................................................................9 ............................................................................................................9 .........................................................................................................................9 ....................................................................................................... 10 .........................................................................................................10 ........................................................................................ 11 .......................................................................................................... 11 ....................................................................................................11 ......................................................................................11 .............................................................................................11 ..................................................................................................11 .................................................................................................12 ................................................................................12 ................................................................................12 ..............................................................................................................13 ................................................................................................................. 16 ................................................................................ W25Q40BV ...................................................... 6 .................................... 7 ................................................................12 ...................................................................14 ...................................................................15 ..........................................................17 ...

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... ELECTRICAL CHARACTERISTICS 9.1 Absolute Maximum Ratings 9.2 Operating Ranges 9.3 Power-up Timing and Write Inhibit Threshold ..........................................................................18 ...............................................................................................................20 ....................................................................20 ...............................................................................................................21 ..................................................................................................22 .................................................................................................................24 .................................................................................................................25 .............................................................................................26 ............................................................................................27 ...................................................................................................28 .................................................................................................30 ................................................................................................32 .......................................................................................34 ..................................................................................................36 ...................................................................................37 ...........................................................................................................38 ........................................................................................39 .............................................................................................................40 .....................................................................................................41 .....................................................................................................42 .......................................................................................................43 .........................................................................................44 .........................................................................................45 ..............................................................................................................46 .............................................................................47 .................................................................................49 ...................................................................50 ..........................................................................................52 ........................................................................................................53 ...........................................................................................54 ......................................................................................55 ...........................................................................................56 .............................................................................................. 57 ................................................................................................ 57 .............................................................................................................. 57 .................................................................... W25Q40BV ................................................................19 .........................................22 ..................................................................37 .................................................................51 Publication Release Date: March 26,2009 Preliminary - Revision A ...

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... Input Timing ........................................................................................................................ 63 9.10 Hold Timing ........................................................................................................................ 63 10. PACKAGE SPECIFICATION 10.1 8-Pin SOIC 150-mil (Package Code SN) 10.2 8-Pin SOIC 208-mil (Package Code SS) 10.3 8-Contact 6x5mm WSON (Package Code ZP) 11. ORDERING INFORMATION 11.1 Valid Part Numbers and Top Side Marking 12. REVISION HISTORY ...................................................................................................................... 70 .............................................................................................. 59 ............................................................................................. 60 .............................................................................................. 61 ................................................................................. 62 ........................................................................................................... 63 .......................................................................................................... 64 ........................................................................... 64 ........................................................................... 65 .................................................................. 66 .......................................................................................................... 68 ........................................................................ W25Q40BV ...

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... Pages can be erased in groups of 16 (4KB sector erase), groups of 128 (32KB block erase), groups of 256 (64KB block erase) or the entire chip (chip erase). The W25Q40BV has 128 erasable sectors and 8 erasable blocks respectively. The small 4KB sectors allow for greater flexibility in applications that require data and parameter storage ...

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... PIN CONFIGURATION SOIC 150 / 208-MIL Figure 1a. W25Q40BV Pin Assignments, 8-pin SOIC 150 / 208-mil (Package Code SN & SS) 4. PAD CONFIGURATION WSON 6X5-MM Figure 1b. W25Q40BV Pad Assignments, 8-pad WSON 6x5-mm(Package Code ZP) 5. PIN DESCRIPTION SOIC 150/208-MIL, AND WSON 6X5-MM PIN NO. PIN NAME ...

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... Package Types W25Q40BV is offered in an 8-pin plastic 150-mil or 208-mil width SOIC (package code SN & SS) and 6x5-mm WSON (package code ZP) as shown in figure 1a, and 1b, respectively. Package diagrams and dimensions are illustrated at the end of this datasheet. 5.2 Chip Select (/CS) The SPI Chip Select (/CS) pin enables and disables device operation. When /CS is high the device is deselected and the Serial Data Output (DO, or IO0, IO1, IO2, IO3) pins are at high impedance ...

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... SPI /CS /CS Command & Command & Control Logic Control Logic DI ( ( Figure 2. W25Q40BV Serial Flash Memory Block Diagram xxFFFFh xxFFFFh • • xxF0FFh xxF0FFh xxEFFFh xxEFFFh • • xxE0FFh xxE0FFh xxDFFFh xxDFFFh • • xxD0FFh xxD0FFh ...

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... Dual SPI Instructions The W25Q40BV supports Dual SPI operation when using the “Fast Read Dual Output (3Bh)” and “Fast Read Dual I/O (BBh)” instructions. These instructions allow data to be transferred to or from the device at two to three times the rate of ordinary Serial Flash devices. The Dual SPI Read instructions are ideal for quickly downloading code to RAM upon power-up (code-shadowing) or for executing non-speed-critical code directly from the SPI bus (XIP) ...

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... One Time Program (OTP) write protection * Note: This feature is available upon special order. Please contact Winbond for details. Upon power- power-down, the W25Q40BV will maintain a reset condition while VCC is below the threshold value (See Power-up Timing and Voltage Levels and Figure 37). While reset, all WI operations are disabled and no instructions are recognized ...

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... The non-volatile Sector/Block Protect bit (SEC) controls if the Block Protect Bits (BP2, BP1, BP0) protect either 4KB Sectors (SEC=1) or 64KB Blocks (SEC=0) in the Top (TB=0) or the Bottom (TB=1) of the array as shown in the Status Register Memory Protection table. The default setting is SEC=0. Publication Release Date: March 26,2009 - 11 - W25Q40BV , and ...

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... When /WP pin is high the Status register is unlocked and can be written to after a Write Enable instruction, WEL=1. Status Register is protected and can not be written to again until the next power-down, power-up cycle. Status Register is permanently protected and can not be (2) written to W25Q40BV (1) ...

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... S13 S13 S12 S12 S11 S11 SUS SUS CMP CMP LB3 LB3 LB2 LB2 LB1 LB1 ) Figure 3b. Status Register-2 Publication Release Date: March 26,2009 - 13 - W25Q40BV BP0 BP0 WEL BUSY WEL BUSY S10 S10 LB0 LB0 QE QE ...

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... Note don’t care W25Q40BV (4M-BIT) MEMORY PROTECTION BLOCK(S) ADDRESSES NONE NONE 7 070000h – 07FFFFh 6 and 7 060000h – 07FFFFh 4 thru 7 040000h – 07FFFFh 0 000000h – 00FFFFh 0 and 1 000000h – 01FFFFh 0 thru 3 000000h – 03FFFFh 0 thru 7 000000h – ...

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... Note don’t care W25Q40BV (4M-BIT) MEMORY PROTECTION BLOCK(S) ADDRESSES 0 thru 7 000000h – 07FFFFh 0 thru 6 000000h – 06FFFFh 0 thru 5 000000h – 05FFFFh 0 thru 3 000000h – 03FFFFh 1 thru 7 010000h – 07FFFFh 2 thru 7 020000h – 07FFFFh 4 thru 7 040000h – ...

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... INSTRUCTIONS The instruction set of the W25Q40BV consists of thirty four basic instructions that are fully controlled through the SPI bus (see Instruction Set table1-3). Instructions are initiated with the falling edge of Chip Select (/CS). The first byte of data clocked into the DI input provides the instruction code. Data on the DI input is sampled on the rising edge of clock with most significant bit (MSB) first ...

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... A23–A16 A15–A8 A23–A16 A15–A8 A23–A16 A15–A8 A23–A16 A15–A8 A23–A16 A15–A8 FFh Publication Release Date: March 26,2009 - 17 - W25Q40BV BYTE 5 BYTE 6 A7–A0 D7–D0 (3) A7–A0 D7–D0, … A7–A0 A7–A0 A7–A0 Preliminary - Revision A ...

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... A23-A0, M7-M0 (x,x, D7-D0, …) (4) (3) A23-A0, M7-M0 (D7-D0, …) (4) xxxxxx, W6-W4 Set Burst with Wrap Input IO0 = W4, x IO1 = W5, x IO2 = IO3 = W25Q40BV BYTE 4 BYTE 5 BYTE 6 A7-A0 (D7-D0) A7-A0 dummy (D7-D0) A7-A0 dummy (D7-D0, …) A7-A0 dummy (D7-D0, …) (1) (D7-D0, … ...

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... A23-A8 A7-A0, M[7:0] xxxx, (MF[7:0], ID[7:0]) (MF7-MF0) (ID15-ID8) Manufacturer Memory Type dummy dummy A23–A16 A15–A8 A23–A16 A15–A8 A23–A16 A15– W25Q40BV BYTE 4 BYTE 5 BYTE 6 (1) dummy (ID7-ID0) 00h (MF7-MF0) (ID7-ID0) (MF[7:0], ID[7:0]) (MF[7:0], ID[7:0], …) (ID7-ID0) Capacity dummy dummy (ID63-ID0) A7–A0 A7–A0 D7-D0 A7– ...

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... Volatile Status Register instruction (Figure 5) will not set the Write Enable Latch (WEL) bit only valid for the Write Status Register instruction to change the volatile Status Register bit values. Figure 5. Write Enable for Volatile Status Register Instruction Sequence Diagram Figure 4. Write Enable Instruction Sequence Diagram Instruction (50h W25Q40BV ...

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... Write Status Register, Erase/Program Security Registers, Page Program, Quad Page Program, Sector Erase, Block Erase and Chip Erase instructions. Write Disable instruction can also be used to invalidate the Write Enable for Volatile Status Register instruction. Figure 6. Write Disable Instruction Sequence Diagram - 21 - W25Q40BV Publication Release Date: March 26,2009 Preliminary - Revision A ...

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... However, SRP1 and LB3, LB2, LB1, LB0 can not be changed from “1” to “0” because of the OTP protection for these bits. Upon power off, the volatile Status Register bit values will be lost, and the non- volatile Status Register bit values will be restored when power on again W25Q40BV ...

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... Please refer to 10.1 for detailed Status Register Bit descriptions. Factory default for all status Register bits are 0. Figure 8. Write Status Register Instruction Sequence Diagram W Status Register 2 Status Register 2 Status Register 2 Status Register 1 Status Register Publication Release Date: March 26,2009 - 23 - W25Q40BV (See AC Characteristics). (See AC SHSL2 Preliminary - Revision A ...

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... The Read Data instruction sequence is shown in figure Read Data instruction is issued while an Erase, Program or Write cycle is in process (BUSY=1) the instruction is ignored and will not have any effects on the current cycle. The Read Data instruction allows clock rates from D. maximum of f (see AC Electrical Characteristics). Figure 9. Read Data Instruction Sequence Diagram - 24 - W25Q40BV R ...

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... The dummy clocks allow the devices internal circuits additional time for setting up the initial address. During the dummy clocks the data value on the DO pin is a “don’t care”. Figure 10. Fast Read Instruction Sequence Diagram - 25 - W25Q40BV Publication Release Date: March 26,2009 Preliminary - Revision A ...

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... The input data during the dummy clocks is “don’t care”. However, the IO out clock. Figure 11. Fast Read Dual Output Instruction Sequence Diagram and IO . This allows data to be transferred from the W25Q40BV pin should be high-impedance prior to the falling edge of the first data 0 ...

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... IO be executed before the device will accept the Fast Read Quad Output Instruction (Status Register bit QE must equal 1). The Fast Read Quad Output Instruction allows data to be transferred from the W25Q40BV at four times the rate of standard SPI devices. ...

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... A “Continuous Read Mode” Reset instruction can also be used to reset (M7-0) before issuing normal instructions (See 8.2.20 for detail descriptions). Figure 13a. Fast Read Dual I/O Instruction Sequence (Initial instruction or previous M5-4  10 W25Q40BV ...

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... Figure 13b. Fast Read Dual I/O Instruction Sequence (Previous instruction set M5-4 = 10) Publication Release Date: March 26,2009 - 29 - W25Q40BV Preliminary - Revision A ...

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... A “Continuous Read Mode” Reset instruction can also be used to reset (M7-0) before issuing normal instructions (See 8.2.20 for detail descriptions). Figure 14a. Fast Read Quad I/O Instruction Sequence (Initial instruction or previous M5 The Quad I/O dramatically reduces instruction overhead . - 30 - W25Q40BV and IO and four Dummy 2 3 Byte 1 Byte 1 Byte 2 Byte 2  ...

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... The “Set Burst with Wrap” instruction allows three “Wrap Bits”, W6 set. The W4 bit is used to enable or disable the “Wrap Around” operation while W6-5 are used to specify the length of the wrap around section within a page. See 8.2.18 for detail descriptions. Publication Release Date: March 26,2009 - 31 - W25Q40BV Preliminary - Revision A ...

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... Figure 15a. Word Read Quad I/O Instruction Sequence (Initial instruction or previous M5 Byte 2 Byte 2 Byte 1 Byte 1  W25Q40BV ...

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... Byte 1 Byte 1 Byte 2 Byte 2 Byte 3 Byte 3 Publication Release Date: March 26,2009 - 33 - W25Q40BV Preliminary - Revision A ...

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... Byte 2 Byte 2 Byte 3 Byte 3 Byte 1 Byte W25Q40BV Byte 4 Byte 4  ...

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... Byte 1 Byte 1 Byte 2 Byte 2 Byte 3 Byte 3 Byte 4 Byte 4 Publication Release Date: March 26,2009 - 35 - W25Q40BV Preliminary - Revision A ...

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... Wrap instruction should be issued to set The default value of W4 upon power the case of a system Reset while recommended that the controller issues a Set Burst with Wrap instruction to reset prior to any normal Read instructions since W25Q40BV does not have a hardware Reset Pin. ...

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... Figure 18. Continuous Read Mode Reset for Fast Read Dual/Quad I/O Since W25Q40BV does not have a hardware Reset pin the controller resets while W25Q40BV is set to Continuous Mode Read, the W25Q40BV will not recognize any initial standard SPI instructions from the controller. To address this possibility recommended to issue a Continuous Read Mode Reset instruction as the first instruction after a system Reset ...

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... After the Page Program cycle has finished the Write Enable Latch (WEL) bit in the Status Register is cleared to 0. The Page Program instruction will not be executed if the addressed page is protected by the Block Protect (CMP, SEC, TB, BP2, BP1, and BP0) bits. Figure 19. Page Program Instruction Sequence Diagram - 38 - W25Q40BV ...

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... Quad Page Program are identical to standard Page Program. The Quad Page Program instruction sequence is shown in figure 20. Figure 20. Quad Input Page Program Instruction Sequence Diagram , and IO . The Quad Page Program can Publication Release Date: March 26,2009 - 39 - W25Q40BV Preliminary - Revision A ...

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... Write Enable Latch (WEL) bit in the Status Register is cleared to 0. The Sector Erase instruction will not be executed if the addressed page is protected by the Block Protect (CMP, SEC, TB, BP2, BP1, and BP0) bits (see Status Register Memory Protection table). (See AC Characteristics). While the Sector Erase SE Figure 21. Sector Erase Instruction Sequence Diagram - 40 - W25Q40BV ...

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... Block Protect (CMP, SEC, TB, BP2, BP1, and BP0) bits (see Status Register Memory Protection table). Figure 22. 32KB Block Erase Instruction Sequence Diagram 1 (See AC Characteristics). While the Block Erase BE Publication Release Date: March 26,2009 - 41 - W25Q40BV Preliminary - Revision A ...

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... Write Enable Latch (WEL) bit in the Status Register is cleared to 0. The Block Erase instruction will not be executed if the addressed page is protected by the Block Protect (CMP, SEC, TB, BP2, BP1, and BP0) bits (see Status Register Memory Protection table). Figure 23. 64KB Block Erase Instruction Sequence Diagram (See AC Characteristics). While the Block Erase cycle W25Q40BV ...

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... Status Register is cleared to 0. The Chip Erase instruction will not be executed if any page is protected by the Block Protect (CMP, SEC, TB, BP2, BP1, and BP0) bits (see Status Register Memory Protection table). (See AC Characteristics). While the Chip Erase cycle is in progress, CE Figure 24. Chip Erase Instruction Sequence Diagram - 43 - W25Q40BV Publication Release Date: March 26,2009 Preliminary - Revision A ...

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... SUS bit in the Status Register will also reset to 0. The data within the page, sector or block that was being suspended may become corrupted recommended for the user to implement system design techniques against the accidental power interruption and preserve data integrity during erase/program suspend state. Figure 25. Erase/Program Suspend Instruction Sequence - 44 - W25Q40BV ...

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... Resume instructions will be ignored unless an Erase/Program Suspend operation is active. The Erase/Program Resume instruction sequence is shown in figure 26. Resume instruction is ignored if the previous Erase/Program Suspend operation was interrupted by unexpected power off. Figure 26. Erase/Program Resume Instruction Sequence Publication Release Date: March 26,2009 - 45 - W25Q40BV Preliminary - Revision A ...

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... This includes the Read Status Register instruction, which is always available during normal operation. Ignoring all but one instruction makes the Power Down state a useful condition for securing maximum write protection. The device always powers-up in the normal operation with the standby current of ICC1. Figure 27. Deep Power-down Instruction Sequence Diagram - 46 - W25Q40BV ...

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... The Device ID bits are then shifted out on the falling edge of CLK with most significant bit (MSB) first as shown in figure 28a. The Device ID values for the W25Q40BV is listed in Manufacturer and Device Identification table. The Device ID can be read continuously. The instruction is completed by driving /CS high. ...

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... Figure 28b. Release Power-down / Device ID Instruction Sequence Diagram - 48 - W25Q40BV ...

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... Device ID are shifted out on the falling edge of CLK with most significant bit (MSB) first as shown in figure 29. The Device ID values for the W25Q40BV is listed in Manufacturer and Device Identification table. If the 24-bit address is initially set to 000001h the Device ID will be read first and then followed by the Manufacturer ID ...

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... CLK with most significant bits (MSB) first as shown in figure 30. The Device ID values for the W25Q40BV is listed in Manufacturer and Device Identification table. If the 24-bit address is initially set to 000001h the Device ID will be read first and then followed by the Manufacturer ID. The Manufacturer and Device IDs can be read continuously, alternating from one to the other ...

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... ID are shifted out four bits per clock on the falling edge of CLK with most significant bit (MSB) first as shown in figure 31. The Device ID values for the W25Q40BV is listed in Manufacturer and Device Identification table. If the 24-bit address is initially set to 000001h the Device ID will be read first and then followed by the Manufacturer ID ...

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... Read Unique ID Number (4Bh) The Read Unique ID Number instruction accesses a factory-set read-only 64-bit number that is unique to each W25Q40BV device. The ID number can be used in conjunction with user software methods to help prevent copying or cloning of a system. The Read Unique ID instruction is initiated by driving the /CS pin low and shifting the instruction code “ ...

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... Read JEDEC ID (9Fh) For compatibility reasons, the W25Q40BV provides several instructions to electronically determine the identity of the device. The Read JEDEC ID instruction is compatible with the JEDEC standard for SPI compatible serial memories that was adopted in 2003. The instruction is initiated by driving the /CS pin low and shifting the instruction code “ ...

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... Erase Security Registers (44h) The W25Q40BV offers four 256-byte Security Registers which can be erased and programmed individually. These registers may be used by the system manufacturers to store security and other important information separately from the main memory array. The Erase Security Register instruction is similar to the Sector Erase instruction. A Write Enable instruction must be executed before the device will accept the Erase Security Register Instruction (Status Register bit WEL must equal 1) ...

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... Figure 35. Program Security Registers Instruction Sequence A23-16 A15-12 00h 00h 00h 00h Publication Release Date: March 26,2009 - 55 - W25Q40BV A11-8 A7 Byte Address Byte Address Byte Address Byte Address Preliminary - Revision A ...

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... Instruction (48h) Instruction (48h) Figure 36. Read Security Registers Instruction Sequence A23-16 A15-12 00h 00h 00h 00h W25Q40BV A11-8 A7 Byte Address Byte Address Byte Address Byte Address ...

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... Electrostatic Discharge Voltage Notes: 1. Specification for W25Q40BV is preliminary. See preliminary designation at the end of this document. 2. This device has been designed and tested for the specified operation ranges. Proper operation outside of these levels is not guaranteed. Exposure to absolute maximum ratings may affect device reliability. ...

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... Power-up Timing and Write Inhibit Threshold Parameter VCC (min) to /CS Low Time Delay Before Write Instruction Write Inhibit Threshold Voltage Note: 1. These parameters are characterized only. Symbol t (1) VSL t (1) PUW V (1) WI Figure 37. Power-up Timing and Voltage Levels - 58 - W25Q40BV spec MIN MAX 1.0 2.0 Unit µ ...

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... VIN = GND or VCC /CS = VCC, VIN = GND or VCC C = 0.1 VCC / 0.9 VCC DO = Open C = 0.1 VCC / 0.9 VCC DO = Open C = 0.1 VCC / 0.9 VCC DO = Open /CS = VCC /CS = VCC /CS = VCC /CS = VCC –0.5 VCC x 0 100 µA OL VCC – 0 –100 µ W25Q40BV SPEC TYP MAX 6 8 ±2 ± 4/5/6 6/10/12 6/8/9 9/12/15 10/10/12 15/20/ ...

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... Input Timing Reference Voltages Output Timing Reference Voltages Note: 1. Output Hi-Z is defined as the point where data out is no longer driven. SYMBOL Figure 38. AC Measurement I/O Waveform - 60 - W25Q40BV SPEC UNIT MIN MAX 0.2 VCC to 0.8 VCC V 0.3 VCC to 0.7 VCC V 0.5 VCC to 0.5 VCC V ...

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... SHSL CSH ( SHQZ DIS CLQV CLQV CLQX HLCH Publication Release Date: March 26,2009 - 61 - W25Q40BV UNIT MAX 80 MHz 104 MHz 50 MHz ns ns V/ Continued – next page Preliminary - Revision A ...

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... RES (2) t SUS BP1 (4) t BP2 (typical) and BPN BP1 + BP2 * W25Q40BV SPEC UNIT TYP MAX µs 3 µs 1.8 µs 20 µ µs 2.5 10 µs 0 200 ...

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... Serial Output Timing 9.9 Input Timing 9.10 Hold Timing Publication Release Date: March 26,2009 - 63 - W25Q40BV Preliminary - Revision A ...

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... Formed leads shall be planar with respect to one another within .0004 inches at the seating plane. MILLIMETERS TYP. MAX MIN 1.60 1.72 0.058 --- 0.24 0.004 1.45 --- 0.41 0.50 0.013 0.20 0.25 0.0075 4.85 4.95 0.189 6.00 6.19 0.228 3.90 4.00 0.150 1.27 BSC 0.71 1.27 0.015 o o --- 8 --- 0. W25Q40BV INCHES TYP. MAX 0.063 0.068 --- 0.009 --- 0.057 --- 0.016 0.020 0.008 0.0098 0.191 0.195 0.236 0.244 0.154 0.157 0.050 BSC 0.028 0.050 --- 8 --- --- 0.004 ...

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... Formed leads shall be planar with respect to one another within .0004 inches at the seating plane. MILLIMETERS INCHES MIN MAX MIN 1.75 2.16 0.069 0.05 0.25 0.002 1.70 1.91 0.067 0.35 0.48 0.014 0.19 0.25 0.007 5.18 5.38 0.204 7.70 8.10 0.303 5.18 5.38 0.204 1.27 BSC 0.050 BSC 0.50 0.80 0.020 --- 0.10 --- Publication Release Date: March 26,2009 - 65 - W25Q40BV MAX 0.085 0.010 0.075 0.019 0.010 0.212 0.319 0.212 0.031 8 o 0.004 Preliminary - Revision A ...

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... MILLIMETERS MIN TYP. MAX 0.70 0.75 0.80 0.0276 0.00 0.02 0.05 0.0000 0.55 0.19 .0.20 0.25 0.0075 0.36 0.40 0.48 0.0138 5.90 6.00 6.10 0.2320 3.30 3.40 3.50 0.1299 4.90 5.00 5.10 0.1930 4.20 4.30 4.40 0.1653 1.27 BSC 0.20 0.0080 0.50 0.60 0.75 0.0197 - 66 - W25Q40BV INCHES MIN TYP. MAX 0.0295 0.0315 0.0008 0.0019 0.0126 0.0080 0.0098 0.0157 0.0190 0.2360 0.2400 0.1338 0.1377 0.1970 0.2010 0.1692 0.1732 0.0500 BSC 0.0236 0.0295 ...

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... The metal pad area on the bottom center of the package is connected to the device ground (GND pin). Avoid placement of exposed PCB vias under the pad. INCHES T YP. MAX MIN 3.40 0.13 8 4.30 0.16 2 6.00 0.23 0 0.50 0.01 6 0.75 0. W25Q40BV TYP. MAX Publication Release Date: March 26,2009 Preliminary - Revision A ...

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... Standard bulk shipments are in Tube (shape E). Please specify alternate packing method, such as Tape and Reel (shape T) or Tray (shape S), when placing orders. 2b. For shipments with OTP feature enabled, please specify when placing orders. (1) W 25Q xxx 8-pin SOIC 208-mil - 68 - W25Q40BV ( ...

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... Valid Part Numbers and Top Side Marking The following table provides the valid part numbers for the W25Q40BV SpiFlash Memory. Please contact Winbond for specific availability by density and package type. Winbond SpiFlash memories use an 11- digit Product Number for ordering. However, due to limited space, the Top Side Marking on all packages use an abbreviated 9-digit number ...

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... Winbond customers using or selling these products for use in such applications their own risk and agree to fully indemnify Winbond for any damages resulting from such improper use or sales. PAGE New Create Preliminary Important Notice - 70 - W25Q40BV DESCRIPTION ranteed. Winbond ...