MX29LV320ABTC-90 Macronix International Co., MX29LV320ABTC-90 Datasheet
MX29LV320ABTC-90
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MX29LV320ABTC-90 Summary of contents
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FEATURES GENERAL FEATURES • 4,194,304 2,097,152 x 16 switchable • Sector Structure - 8K-Byte x 8 and 64K-Byte x 63 • Extra 64K-Byte sector for security - Features factory locked and identifiable, and cus- tomer lockable • ...
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The MX29LV320AT/B uses a 2.7V to 3.6V VCC supply to perform the High Reliability Erase and auto Program/Erase algorithms. The highest degree of latch-up protection is achieved with MXIC's proprietary non-epi process. Latch-up protection is proved for stresses up to ...
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PIN CONFIGURATION 48 TSOP 1 A15 A14 2 A13 3 A12 4 A11 5 A10 A19 9 A20 RESET WP/ACC 14 RY/BY 15 A18 16 17 A17 A7 18 ...
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BLOCK DIAGRAM CE CONTROL OE INPUT WE LOGIC RESET BYTE ADDRESS LATCH A0-A20 AND BUFFER Q0-Q15/A-1 P/N:PM1008 MX29LV320AT/B PROGRAM/ERASE HIGH VOLTAGE MX29LV320AT/B FLASH ARRAY ARRAY SOURCE HV Y-PASS GATE PGM SENSE DATA AMPLIFIER HV PROGRAM DATA LATCH I/O BUFFER 4 ...
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Table 1.a: MX29LV320AT SECTOR GROUP ARCHITECTURE Sector Sector Sector Address Group A20-A12 1 SA0 000000xxx 1 SA1 000001xxx 1 SA2 000010xxx 1 SA3 000011xxx 2 SA4 000100xxx 2 SA5 000101xxx 2 SA6 000110xxx 2 SA7 000111xxx 3 SA8 001000xxx 3 ...
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Sector Sector Sector Address Group A20-A12 11 SA40 101000xxx 11 SA41 101001xxx 11 SA42 101010xxx 11 SA43 101011xxx 12 SA44 101100xxx 12 SA45 101101xxx 12 SA46 101110xxx 12 SA47 101111xxx 13 SA48 110000xxx 13 SA49 110001xxx 13 SA50 110010xxx 13 ...
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Table 1.b: MX29LV320AB SECTOR GROUP ARCHITECTURE Sector Sector Sector Address Group A20-A12 1 SA0 000000000 2 SA1 000000001 3 SA2 000000010 4 SA3 000000011 5 SA4 000000100 6 SA5 000000101 7 SA6 000000110 8 SA7 000000111 9 SA8 000001xxx 9 ...
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Sector Sector Sector Address Group A20-A12 17 SA39 100000xxx 17 SA40 100001xxx 17 SA41 100010xxx 17 SA42 100011xxx 18 SA43 100100xxx 18 SA44 100101xxx 18 SA45 100110xxx 18 SA46 100111xxx 19 SA47 101000xxx 19 SA48 101001xxx 19 SA49 101010xxx 19 ...
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Table 2. BUS OPERATION--1 Operation RESET WP/ACC Read Write (Note Accelerate Program Standby VCC X X 0.3V Output Disable Reset Sector ...
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BUS OPERATION--2 Operation CE OE Read Silicon Manufacturer Code Read Silicon MX29LV320AT Read Silicon MX29LV320AB Sector Protect L L Verification Security Sector L L Indicater Bit (Q7) Notes: 1.Code=00h means unprotected, ...
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REQUIREMENTS FOR READING ARRAY DATA To read array data from the outputs, the system must drive the CE and OE pins to VIL the power control and selects the device the output control and gates array ...
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OUTPUT DISABLE With the OE input at a logic high level (VIH), output from the devices are disabled. This will cause the output pins high impedance state. RESET OPERATION The RESET pin provides a hardware method ...
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It is also possible to determine if the chip is unprotected in the system by writing the Read Silicon ID command. Performing a read operation with A1=VIH, it will produce 00H at data outputs(Q0-Q7) for an unprotected sector ...
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The customer-lockable version has the Security on Silicon Sector (Security Sector) Indicator Bit permanently set to a "0". Thus, the Security Sector Indi- cator Bit prevents customer-lockable devices from be- ing used to replace devices that are ...
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WRITE PULSE "GLITCH" PROTECTION Noise pulses of less than 5ns (typical will not initiate a write cycle. LOGICAL INHIBIT Writing is inhibited by holding any one VIL VIH or WE ...
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TABLE 3. MX29LV320AT/B COMMAND DEFINITIONS Command Bus Cycles Addr Data Addr Data Addr Data Addr Read(Note 5) 1 Reset(Note 4) 1 Automatic Select(Note 5) Manufacturer ID Word 4 Byte 4 Device ID Word 4 Byte 4 Security Sector Factory Word ...
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READING ARRAY DATA The device is automatically set to reading array data after device power-up. No commands are required to retrieve data. The device is also ready to read array data after completing an Automatic Program or Automatic Erase algorithm. ...
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Table 3 shows the address and data requirements for the byte/word program command sequence. When the Embedded Program algorithm is complete, the device then returns to reading array data and addresses are no longer latched. ...
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SECTOR ERASE COMMANDS The device does not require the system to entirely pre-program prior to executing the Automatic Set-up Sector Erase command and Automatic Sector Erase command. Upon executing the Automatic Sector Erase command, the device will automatically program and ...
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WRITE OPERATION STATUS The device provides several bits to determine the sta- tus of a write operation: Q2, Q3, Q5, Q6, Q7, and RY/BY. Table 5 and the following subsections describe the func- tions of these bits. Q7, RY/BY, and ...
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Q7: Data Polling The Data Polling bit, Q7, indicates to the host system whether an Automatic Algorithm is in progress or com- pleted, or whether the device is in Erase Suspend. Data Polling is valid after the rising edge of ...
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But Q2 cannot distinguish whether the sector is actively erasing or is erase-suspended. Q6, by com- parison, indicates whether the device is actively eras- ing Erase Suspend, but cannot distinguish which sectors are selected for erasure. ...
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high ("1") the internally controlled erase cycle has begun; attempts to write subsequent commands to the device will be ignored until the erase operation is completed as indicated by Data Polling or Toggle Bit. If ...
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Table 6-1. CFI mode: Identification Data Values (All values in these tables are in hexadecimal) Description Query-unique ASCII string "QRY" Primary vendor command set and control interface ID code Address for primary algorithm extended query table Alternate vendor command set ...
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Table 6-3. CFI Mode: Device Geometry Data Values Description Device size (2 N bytes) Flash device interface code (02=asynchronous x8/x16) Maximum number of bytes in multi-byte write (not supported) Number of erase sector regions Erase Sector Region 1 Information [2E,2D] ...
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Table 6-4. CFI Mode: Primary Vendor-Specific Extended Query Data Values Description Query-unique ASCII string "PRI" Major version number, ASCII Minor version number, ASCII Address sensitive unlock (0=required, 1= not required) Erase suspend (2= to read and write) Sector protect (N= ...
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ABSOLUTE MAXIMUM RATINGS Storage Temperature Plastic Packages . . . . . . . . . . . . . ..... -65 Ambient Temperature with Power Applied .... ...
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DC CHARACTERISTICS VCC=2.7V~3.6V Para- Description meter ILI Input Load Current (Note 1) ILIT A9 Input Load Current ILO Output Leakage Current ICC1 VCC Active Read Current (Notes 2, 3) ICC2 VCC Active Write Current (Notes ICC3 VCC ...
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SWITCHING TEST CIRCUITS DEVICE UNDER TEST CL 6.2K ohm KEY TO SWITCHING WAVEFORMS WAVEFORM INPUTS Don't Care, Any Change Permitted Does Not Apply SWITCHING TEST WAVEFORMS 3.0V 0.0V P/N:PM1008 MX29LV320AT/B TEST SPECIFICATIONS Test Condition Output Load 1.6K ohm +3.3V Output ...
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AC CHARACTERISTICS TA=- VCC=2.7V~3.6V Symbol DESCRIPTION tACC Address to output delay tCE Chip enable to output delay tOE Output enable to output delay tDF OE High to output float(Note1) tOH Output hold time of from the ...
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Fig 1. COMMAND WRITE OPERATION VCC 3V VIH Addresses VIL tAS VIH WE VIL tOES CE VIH VIL tCS OE VIH VIL VIH Data VIL P/N:PM1008 MX29LV320AT/B ADD Valid tAH tWP tCWC tCH tDS tDH DIN 31 tWPH REV. 1.1, ...
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READ/RESET OPERATION Fig 2. READ TIMING WAVEFORMS VIH Addresses VIL VIH CE VIL VIH WE VIL VIH OE VIL HIGH Z VOH Outputs VOL P/N:PM1008 MX29LV320AT/B tRC ADD Valid tCE tOEH tOE tACC DATA Valid 32 tDF tOH HIGH Z ...
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AC CHARACTERISTICS Parameter Description tREADY1 RESET PIN Low (During Automatic Algorithms) to Read or Write (See Note) tREADY2 RESET PIN Low (NOT During Automatic Algorithms) to Read or Write (See Note) tRP1 RESET Pulse Width (During Automatic Algorithms) tRP2 RESET ...
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ERASE/PROGRAM OPERATION Fig 4. AUTOMATIC CHIP ERASE TIMING WAVEFORM Erase Command Sequence(last two cycle) tWC 2AAh Address CE tGHWL OE tWP WE tCS Data RY/BY tVCS VCC NOTES: SA=sector address(for Sector Erase), VA=Valid Address for reading status data(see "Write Operation ...
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Fig 5. AUTOMATIC CHIP ERASE ALGORITHM FLOWCHART P/N:PM1008 MX29LV320AT/B START Write Data AAH Address 555H Write Data 55H Address 2AAH Write Data 80H Address 555H Write Data AAH Address 555H Write Data 55H Address 2AAH Write Data 10H Address 555H ...
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Fig 6. AUTOMATIC SECTOR ERASE TIMING WAVEFORM Erase Command Sequence(last two cycle) tWC 2AAh Address CE tCH tGHWL OE tWP WE tCS tDS tDH 55h Data RY/BY tVCS VCC NOTES: SA=sector address(for Sector Erase), VA=Valid Address for reading status data(see ...
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Fig 7. AUTOMATIC SECTOR ERASE ALGORITHM FLOWCHART Write Data AAH Address 555H Write Data 55H Address 2AAH Write Data 80H Address 555H Write Data AAH Address 555H Write Data 55H Address 2AAH Write Data 30H Sector Address Auto Sector Erase ...
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Fig 8. ERASE SUSPEND/RESUME FLOWCHART P/N:PM1008 MX29LV320AT/B START Write Data B0H ERASE SUSPEND NO Toggle Bit checking Q6 not toggled YES Read Array or Program Reading or NO Programming End YES Write Data 30H ERASE RESUME Continue Erase Another NO ...
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Fig 9. AUTOMATIC PROGRAM TIMING WAVEFORMS Program Command Sequence(last two cycle) tWC 555h Address CE tGHWL OE WE tCS Data RY/BY tVCS VCC NOTES: 1.PA=Program Address, PD=Program Data, DOUT is the true data the program address Fig 10. Accelerated Program ...
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Fig 11. CE CONTROLLED WRITE TIMING WAVEFORM 555 for program 2AA for erase Address tWC tWH WE tGHEL OE tCP CE tWS tDS Data tRH RESET RY/BY NOTES: 1. PA=Program Address, PD=Program Data, DOUT=Data Out, Q7=complement of data written to ...
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Fig 12. AUTOMATIC PROGRAMMING ALGORITHM FLOWCHART Increment Address P/N:PM1008 MX29LV320AT/B START Write Data AAH Address 555H Write Data 55H Address 2AAH Write Data A0H Address 555H Write Program Data/Address Data Poll from system No Verify Data OK ? YES No ...
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SECTOR GROUP PROTECT/CHIP UNPROTECT Fig 13. Sector Group Protect/Chip Unprotect Waveform (RESET Control) VID VIH RESET SA, A6 A1, A0 Sector Group Protect or Chip Unprotect Data 60h 1us Note: 1. For sector group protect A6=0, A1=1, ...
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Fig 14. IN-SYSTEM SECTOR GROUP PROTECT/CHIP UNPROTECT ALGORITHMS WITH RESET=VID START PLSCNT=1 RESET=VID Wait 1us No First Write Temporary Sector Unprotect Mode Cycle=60h? Yes Set up sector address Sector Protect: Write 60h to sector address with A6=0, A1=1, A0=0 Wait ...
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Table 7. TEMPORARY SECTOR GROUP UNPROTECT Parameter Std. Description tVIDR VID Rise and Fall Time (See Note) tRSP RESET Setup Time for Temporary Sector Unprotect Note: Not 100% tested Fig 15. TEMPORARY SECTOR GROUP UNPROTECT WAVEFORMS 12V RESET 0 or ...
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Fig 16. TEMPORARY SECTOR GROUP UNPROTECT FLOWCHART Temporary Sector Unprotect Completed(Note 2) Note : 1. All protected sectors are temporary unprotected. VID=11.5V~12.5V. (if WP/ACC=VIL, outermost boot sectors will remain protected) 2. All previously protected sectors are protected again. P/N:PM1008 MX29LV320AT/B ...
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Fig 17. SILICON ID READ TIMING WAVEFORM VCC 3V VID ADD VIH A9 VIL VIH ADD A0 VIL tACC A1 VIH VIL VIH ADD VIL CE VIH VIL VIH WE VIL VIH OE VIL VIH DATA VIL Q0-Q7 P/N:PM1008 MX29LV320AT/B ...
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WRITE OPERATION STATUS Fig 18. DATA POLLING TIMING WAVEFORMS (DURING AUTOMATIC ALGORITHMS) tRC Address tACC tCE CE tCH tOE OE tOEH WE Q7 Q0-Q6 tBUSY RY/BY NOTES: VA=Valid address. Figure shows are first status cycle after command sequence, last status ...
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Fig 19. Data Polling Algorithm No Notes: 1. VA=valid address for programming or erasure should be rechecked even Q5="1" because Q7 may change simultaneously with Q5. P/N:PM1008 MX29LV320AT/B START Read Q7~Q0 Add (1) Yes Q7 = ...
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Fig 20. TOGGLE BIT TIMING WAVEFORMS (DURING AUTOMATIC ALGORITHMS) tRC Address VA tACC tCE CE tCH tOE OE tOEH WE Q6/Q2 tBUSY RY/BY NOTES: VA=Valid address; not required for Q6. Figure shows first two status cycle after command sequence, last ...
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Fig 21. Toggle Bit Algorithm NO Complete, Write Reset Command Note: 1. Read toggle bit twice to determine whether or not it is toggling. 2. Recheck toggle bit because it may stop toggling as Q5 changes to "1". P/N:PM1008 MX29LV320AT/B ...
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Fig 22. Q6 versus Q2 Enter Embedded Erase Erasing Suspend Erase NOTES: The system can use toggle Q2/Q6, Q2 toggles only when read at an address within an erase-suspended P/N:PM1008 MX29LV320AT/B Enter Erase ...
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AC CHARACTERISTICS WORD/BYTE CONFIGURATION (BYTE) Parameter Description JEDEC Std tELFL/tELFH CE to BYTE Switching Low or High tFLQZ BYTE Switching Low to Output HIGH Z tFHQV BYTE Switching High to Output Active Figure 23. BYTE TIMING WAVEFORM FOR READ OPERATIONS ...
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ERASE AND PROGRAMMING PERFORMANCE(1) PARAMETER Sector Erase Time Chip Erase Time Byte Programming Time Word Program Time Chip Programming Time Byte Mode Word Mode Accelerated Byte/Word Program Time Erase/Program Cycles Note: 1.Not 100% Tested, Excludes external system level over head. ...
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... ORDERING INFORMATION PLASTIC PACKAGE PART NO. ACCESS TIME (ns) MX29LV320ATTC-70 70 MX29LV320ABTC-70 70 MX29LV320ATTI-70 70 MX29LV320ABTI-70 70 MX29LV320ATTC-90 90 MX29LV320ABTC-90 90 MX29LV320ATTI-90 90 MX29LV320ABTI-90 90 MX29LV320ATXBC-70 70 MX29LV320ABXBC-70 70 MX29LV320ATXEC-70 70 MX29LV320ABXEC-70 70 MX29LV320ATXBI-70 70 MX29LV320ABXBI-70 70 MX29LV320ATXEI-70 70 MX29LV320ABXEI-70 70 MX29LV320ATXBC-90 90 MX29LV320ABXBC-90 90 MX29LV320ATXEC-90 90 MX29LV320ABXEC-90 90 MX29LV320ATXBI-90 90 MX29LV320ABXBI-90 90 MX29LV320ATXEI-90 90 MX29LV320ABXEI-90 90 P/N:PM1008 MX29LV320AT/B Ball Pitch/ PACKAGE Ball Size - 48 Pin TSOP - 48 Pin TSOP ...
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... PART NO. ACCESS TIME (ns) MX29LV320ATTC-70G 70 MX29LV320ABTC-70G 70 MX29LV320ATTI-70G 70 MX29LV320ABTI-70G 70 MX29LV320ATTC-90G 90 MX29LV320ABTC-90G 90 MX29LV320ATTI-90G 90 MX29LV320ABTI-90G 90 MX29LV320ATXBC-70G 70 MX29LV320ABXBC-70G 70 MX29LV320ATXEC-70G 70 MX29LV320ABXEC-70G 70 MX29LV320ATXBI-70G 70 MX29LV320ABXBI-70G 70 MX29LV320ATXEI-70G 70 MX29LV320ABXEI-70G 70 MX29LV320ATXBC-90G 90 MX29LV320ABXBC-90G 90 MX29LV320ATXEC-90G 90 MX29LV320ABXEC-90G 90 MX29LV320ATXBI-90G 90 MX29LV320ABXBI-90G 90 MX29LV320ATXEI-90G 90 MX29LV320ABXEI-90G 90 P/N:PM1008 MX29LV320AT/B Ball Pitch/ PACKAGE Ball Size - 48 Pin TSOP - 48 Pin TSOP - 48 Pin TSOP - 48 Pin TSOP ...
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PACKAGE INFORMATION P/N:PM1008 MX29LV320AT/B 56 REV. 1.1, MAY 28, 2004 ...
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P/N:PM1008 MX29LV320AT/B 57 REV. 1.1, MAY 28, 2004 ...
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P/N:PM1008 MX29LV320AT/B 58 REV. 1.1, MAY 28, 2004 ...
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REVISION HISTORY Revision No. Description 1.0 1. Removed "Advanced Information" on page 1 1 removed data retention information P/N:PM1008 MX29LV320AT/B Page P1 P53 59 Date JAN/30/2004 MAY/28/2004 REV. 1.1, MAY 28, 2004 ...
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... MX29LV320AT/B MACRONIX INTERNATIONAL CO., LTD. reserves the right to change product and specifications without notice. ...