EN29F002A / EN29F002AN EN29F002A / EN29F002AN 2 Megabit (256K x 8-bit) Flash Memory FEATURES • JEDEC standard DATA polling and toggle bits feature • 5.0V ± 10% for both read/write operation • Read Access Time - 45ns, 55ns, 70ns, and 90ns • Hardware RESET Pin • Single Sector and Chip Erase • Fast Read Access Time - 70ns with Cload = 100pF - 45ns, 55ns with Cload = 30pF • Sector Protection / Temporary Sector Unprotect ( RESET = VID) • Sector Architecture: One 16K byte Boot Sector, Two 8K byte Parameter Sectors, one 32K byte and three 64K byte main Sectors • Sector Unprotect Mode • Embedded Erase and Program Algorithms • Erase Suspend / Resume modes: Read and program another sector during Erase Suspend Mode • Boot Block Top/Bottom Programming Architecture • - (n/a on EN29F002AN) • 0.23 µm triple-metal double-poly triple-well CMOS Flash Technology High performance program/erase speed Byte program time: 10µs typical Sector erase time: 500ms typical Chip erase time: 3.5s typical • Low Vcc write inhibit < 3.2V • 100K endurance cycle • Low Standby Current - 1µA CMOS standby current-typical - 1mA TTL standby current • Package Options • Low Power Active Current - 30mA active read current - 30mA program / erase current - 32-pin PLCC - 32-pin PDIP - 32-pin TSOP (Type 1) • Commercial and Industrial Temperature Ranges • JEDEC Standard program and erase commands GENERAL DESCRIPTION The EN29F002A / EN29F002AN is a 2-Megabit, electrically erasable, read/write non-volatile flash memory. Organized into 256K words with 8 bits per word, the 2M of memory is arranged in seven sectors (with top/bottom configuration), including one 16K Byte Boot Sector, two 8K Byte Parameter sectors, and four main sectors (one 32K Byte and three 64K Byte). Any byte can be programmed typically at 10µs. The EN29F002A / EN29F002AN features 5.0V voltage read and write operation. The access times are as fast as 45ns to eliminate the need for WAIT states in high-performance microprocessor systems. The EN29F002A / EN29F002AN has separate Output Enable ( OE ), Chip Enable ( CE ), and Write Enable ( W E ) controls which eliminate bus contention issues. This device is designed to allow either single sector or full chip erase operation, where each sector can be individually protected against program/erase operations or temporarily unprotected to erase or program. The device can sustain a minimum of 100K program/erase cycles on each sector. This Data Sheet may be revised by subsequent versions 1 or modifications due to changes in technical specifications. ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN TABLE 1. PIN DESCRIPTION Pin Name A0-A17 Function Addresses DQ0-DQ7 Data Input/Outputs CE OE Chip Enable WE Write Enable RESET Hardware Reset Sector Unprotect (n/a for EN29F002AN) Vcc Vss FIGURE 1. LOGIC DIAGRAM Vcc 8 18 A0 - A17 Output Enable DQ0 - DQ7 EN29F002AT/B CE OE WE Supply Voltage (5V ± 10% ) Ground RESET N/A on EN29F002AN Vss TABLE 2. BLOCK ARCHITECTURE TOP BOOT BLOCK BOTTOM BOOT BLOCK SECTOR ADDRESSES SIZE (Kbytes) ADDRESSES SIZE (Kbytes) 6 3C000h - 3FFFFh 16 30000h - 3FFFFh 64 5 3A000h - 3BFFFh 8 20000h - 2FFFFh 64 4 38000h - 39FFFh 8 10000h - 1FFFFh 64 3 30000h - 37FFFh 32 08000h - 0FFFFh 32 2 20000h - 2FFFFh 64 06000h - 07FFFh 8 1 10000h - 1FFFFh 64 04000h - 05FFFh 8 0 00000h - 0FFFFh 64 00000h - 03FFFh 16 This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 2 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN BLOCK DIAGRAM Vcc Vss DQ0-DQ7 Block Protect RESET Erase Voltage Generator N/A on EN29F002AN Input/Output Buffers State Control Command Register Program Voltage Generator Chip Enable Output Enable Logic CE OE STB Vcc Detector Timer Address Latch WE STB Data Latch Y-Decoder Y-Gating X-Decoder Cell Matrix A0-A17 This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 3 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN FIGURE 2. PDIP PDIP Top View NC on EN29F002AN VPP RESET A16 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 DQ0 DQ1 DQ2 VSS 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 VCC PGM WE NC A17 A14 A13 A8 A9 A11 OE A10 CE DQ7 DQ6 DQ5 DQ4 DQ3 FIGURE 3. TSOP A17 WE NC on EN29F002AN RESET EN29F002A FIGURE 4. PLCC PLCC Top View A12 A16 VCC A17 A12 A16 VCC NC A17 A15 RESET A15 VPP WE PGM 4 2 32 NC on EN29F002AN at RESET pin 30 A7 5 29 A14 A6 6 28 A13 A5 7 27 A8 A4 8 26 A9 A3 9 25 A11 A2 10 24 OE A1 11 23 A10 A0 12 22 CE DQ0 13 21 DQ7 3 1 15 14 31 17 16 19 18 20 DQ2 DQ3 DQ5 DQ1 VSS DQ4 DQ6 This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 4 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN TABLE 3. OPERATING MODES 2M FLASH USER MODE TABLE USER MODE A9 A8 A6 A1 A0 Ax/y DQ(0-7) L X X X X X X HI-Z X L H L H H H H X A9 X VID X A8 X L/H X A6 X L X A1 X L X A0 X L X Ax/y X X H H L L H H VID VID L/H X L L L H H L X X L L VID H VID X L X X X HI-Z DQ(0-7) HI-Z MANUFACTURER ID DEVICE ID(T/B) 01h(protected) 00h(unprotected) X L L X L L X VID H X H H VID VID A9 X X A8 X H A6 X H A1 X L A0 X X Ax/y X X DIN(0-7) X CE WE OE RESET X X X STANDBY READ OUTPUT DISABLE READ MANUFACTURER ID READ DEVICE ID VERIFY SECTOR PROTECT ENABLE SECTOR PROTECT SECTOR UNPROTECT WRITE TEMPORARY SECTOR UNPROTECT H L L L X H H H L L RESET (n/a on EN29F002AN) NOTES: 1) L = VIL, H = VIH, VID = 11.0V ± 0.5V 2) X = Don’t care, either VIH or VIL TABLE 4. DEVICE IDENTIFICTION 2M FLASH MANUFACTURER/DEVICE ID TABLE A8 A6 A1 A0 L L L L H L L L L L L H READ DEVICE ID (Top Architecture) READ DEVICE ID (Bottom Architecture) H L L H L L L H READ DEVICE ID (Bottom Architecture) H L L H READ MANUFACTURER ID READ * MANUFACTURER ID READ DEVICE ID (Top Architecture) * * DQ(7-0) HEX CONTINUATION MANUFACTURER ID 7F MANUFACTURER ID 1C CONTINUATION DEVICE ID 7F DEVICE ID 92 CONTINUATION DEVICE ID 7F DEVICE ID 97 NOTES: These modes (A8=H) are recommended for Manufacture/Device ID check. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 5 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN USER MODE DEFINITIONS Reset Mode EN29F002A features a Reset mode that resets the program and erase operation immediately to read mode. If reset ( RESET = L) is executed when program or erase operation were in progress, the program or erase which was terminated should be repeated since data will be corrupted. This pin is not available for EN29F002AN. Standby Mode The EN29F002A / EN29F002AN has a CMOS-compatible standby mode which reduces the current to < 1µA (typical). It is placed in CMOS-compatible standby when CE and the RESET pins are at VCC ± 0.5 V ( CE pin only, for EN29F002AN). The device also has a TTL-compatible standby mode which reduces the maximum VCC current to < 1mA. It is placed in TTL-compatible standby when CE and RESET pins are at VIH. Another method of entering standby mode uses only the RESET pin (n/a for EN29F002AN). When RESET pin is at VSS ± 0.3V, the device enters CMOS-compatible standby with current typically reduced to < 1 µA. When RESET pin is at VIL, the device enters TTLcompatible standby with current reduced to < 1mA. When in standby modes, the outputs are in a high-impedance state independent of the OE input. Read Mode The EN29F002A / EN29F002AN has two control functions which must be satisfied in order to obtain data at the outputs. Chip Enable ( CE ) is the power control and should be used for device selection. Output Enable ( OE ) is the output control and should be used to gate data to the output pins, provided the device is selected. Read is selected when both CE and OE pins are held at VIL with the W E pin held at VIH. Address access time (tACC) is equal to the delay from stable addresses to valid output data. Assuming that addresses are stable, chip enable access time (tCE) is equal to the delay from stable CE to valid data at output pins. Data is available at the outputs after output enable access time (tOE) from the falling edge of OE , assuming the CE has been LOW and addresses have been stable for at least tACC - tOE. Output Disable Mode When the CE or OE pin is at a logic high level (VIH), the output from the EN29F002A / EN29F002AN is disabled. The output pins are placed in a high impedance state. Auto Select Identification Mode The manufacturer and device type can be identified by hardware or software operations. This mode allows applications or programming equipment automatically matching the device with its corresponding interface characteristics. To activate the Auto Select Identification mode, the programming equipment must force 11.0 V ± 0.5V on address line A9 of the EN29F002AT/B. Two identifier bytes can then be sequenced from the device outputs by toggling address lines A0 and A8 from VIL to VIH. The manufacturer and device identification may also be read via the command register. By following the command sequence referenced in the Command Definition Table (Table 5). This method is desirable for in-system identification (using only + 5.0V). When A0 = A1 = A6 = VIL and by toggling A8 from VIL to VIH, the Manufacturer ID can be read as Eon = 7F, 1C (hex) to identify EON . When A0 = VIH, A1 = A6 = VIL, and by toggling A8 from VIL to VIH, This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 6 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN the Device Code can be read as 7F, 92 (hex) for EN29F002AT or as 7F, 97 (hex) for EN29F002AB (See Table 4). All identifiers for manufacturer and device codes possess odd parity with the DQ7 defined as the parity bit. Write Mode Write is used for device programming and erase through the command register. This mode is selected with CE = W E = L and OE = H. The contents of the command register are the inputs to the internal state machine. The command register is a set of latches used to store the commands along with the addresses and data information needed to execute that command. Address latching occurs on the falling edge of W E or CE (whichever occurs later) and data latching occurs on the rising edge of W E or CE (whichever occurs first). Temporary Sector Unprotect Mode EN29F002A allows protected sectors to be temporarily unprotected for making changes to data stored in a protected sector in system (n/a for EN29F002AN). To activate the temporary sector unprotect, the RESET pin must be set to a high voltage of VID (11V). In this mode, protected sectors can be programmed or erased by selecting the sector addresses. Once the high voltage, VID, is removed from RESET pin, all previously protected sectors will revert to their protected state. RESET Hardware Reset Mode (not available on EN29F002AN) Resetting the EN29F002A device is performed when the RESET pin is set to VIL and kept low for at least 500ns. The internal state machine will be reset to the read mode. Any program/erase operation in progress during hardware reset will be terminated and data may be corrupted. If the RESET pin is tied to the system reset command, the device will be automatically reset to the read mode and enable the system’s microprocessor to read the boot-up firmware from the FLASH memory. COMMAND DEFINITIONS The operations of the EN29F002A are selected by one or more commands written into the command register to perform Read/Reset Memory, Read ID, Read Sector Protection, Program, Sector Erase, Chip Erase, Erase Suspend and Erase Resume. Commands are made up of data sequences written at specific addresses via the command register. The sequences for the specified operation are defined in the Command Table (Table 5). Incorrect addresses, incorrect data values or improper sequences will reset the device to the read mode. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 7 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 5. EN29F002A Command Definitions Command Sequence Read/Reset Write Cycles Req’d st nd 1 Write Cycle Addr rd 2 Data Write Cycle Addr th 3 Data Write Cycle Addr Data 1 4 4 XXXh F0h RA 555h AAh AAAh 555h AAh AAAh RD 55h 55h 555h 555h F0h 90h 4 555h AAh AAAh 55h 555h 90h 4 555h AAh AAAh 55h 555h 90h AutoSelect Sector Protect Verify 4 555h AAh AAAh 55h 555h 90h Byte Program Chip Erase 4 6 6 1 1 555h 555h 555h xxxh xxxh AAh AAAh AAh AAAh AAh AAAh B0h 30h 55h 55h 55h 555h 555h 555h A0h 80h 80h Read/Reset Read/Reset AutoSelect Manufacturer ID AutoSelect Device ID (Top Boot) AutoSelect Device ID (Bottom Boot) Sector Erase Sector Erase Suspend Sector Erase Resume th 4 Write Cycle Addr RA 000h/ 100h 001h/ 101h 001h/ 101h SA & 02h PA 555h 555h th 5 Data 6 Write Cycle Addr RD 7Fh/ 1Ch 7Fh/ 92h 7Fh/ 97h 00h/ 01h PD AAh AAAh AAh AAAh Data Write Cycle Addr 55h 55h 555h SA Notes: RA = Read Address: address of the memory location to be read. This one is a read cycle. RD = Read Data: data read from location RA during Read operation. This one is a read cycle. PA = Program Address: address of the memory location to be programmed PD = Program Data: data to be programmed at location PA SA = Sector Address: address of the sector to be erased. Address bits A17-A13 uniquely select any sector. The data is 00h for an unprotected sector and 01h for a protected sector. Byte Programming Command Programming the EN29F002A is performed on a byte-by-byte basis using a four bus-cycle operation (two unlock write cycles followed by the Program Setup command and Program Data Write cycle). When the program command is executed, no additional CPU controls or timings are necessary. The program operation is terminated automatically by an internal timer. Address is latched on the falling edge of CE or W E , whichever is last; data is latched on the rising edge of CE or W E , whichever is first. The program operation is completed when EN29F002A returns the equivalent data to the programmed location. Programming status may be checked by sampling data on DQ7 ( DATA polling) or on DQ6 (toggle bit). Changing data from 0 to 1 requires an erase operation. When programming time limit is exceeded, DQ5 will produce a logical “1” and a Reset command can return the device to Read mode. EN29F002A ignores commands written during Byte Programming. If a hardware RESET occurs during Byte Programming, data at the programmed location may get corrupted. Programming is allowed in any sequence and across any sector boundary. Chip Erase Command An auto Chip Erase algorithm is employed when the Chip Erase command sequence is performed. Although the Chip Erase command requires six bus cycles: two unlock write cycles, a setup command, two additional unlock write cycles and the chip erase command, the user does not need This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 8 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 Data 10h 30h EN29F002A / EN29F002AN to do anything else after that, except check to see if the operation has completed. The Auto Chip Erase algorithm automatically programs and verifies the entire memory array for an all “0” pattern prior to the erase. Then the EN29F002A will automatically time the erase pulse width, verify the erase, return the sequence count, provide a erase status through DATA POLLING (data on DQ7 is “0” during the operation and “1” when completed, provided the status is not read from a protected sector), and returns to the READ mode after completion of Chip Erase. Sector Erase Command Sector Erase requires six bus cycles: two unlock write cycles, a setup command, two additional unlock write cycles, and the Sector Erase command. Any sector may be erased by latching any address within the desired sector on the falling edge of W E while the Erase Command (30H) is latched on the rising edge of W E . This device does not support multiple sector erase commands. Sector Erase operation will commence immediately after the first 30h command is written. The first sector erase operation must finish before another sector erase command can be given. The EN29F002A device automatically programs and verifies all memory locations in the selected sector for an all “0” pattern prior to the erase. Unselected sectors are unaffected by the Sector Erase command. The EN29F002A requires no timing signals during sector erase. Erase is completed when data on DQ7 becomes “1”, and the device returns to the READ mode after completion of Sector Erase. Erase Suspend / Resume Command Erase suspend allows interruption of sector erase operations to perform data reads from sector not being erased. Erase suspend applies only to Sector Erase operations. EN29F002A ignores any commands during erase suspend other than the assertion of the RESET pin (n/a for EN29F002AN) or Erase Resume commands. Writing erase resume continues erase operations. Addresses are DON’T CARE when writing Erase Suspend or Erase Resume commands. EN29F002A takes 0.1 - 15 µs to suspend erase operations after receiving Erase Suspend command. Check completion of erase suspend by polling DQ7 and/or DQ6. EN29F002A ignores redundant writes of erase suspend command. EN29F0002 defaults to erase-suspend-read mode while an erase operation has been suspended. While in erase-suspend-read mode, EN29F002A allows reading data in any sector not undergoing sector erase, which is treated as standard read mode. Write the Resume command 30h to continue operation of Sector erase. EN29F002A ignores redundant writes of the Resume command. EN29F002A permits multiple suspend/resume operations during sector erase. Sector Protect and Unprotect The hardware sector protection feature disables both program and erase operations in any sector. The hardware sector unprotection feature re-enables both program and erase operation in previously protected sectors. Sector protection/unprotection must be implemented using programming equipment. The procedure requires a high voltage (VID) on address pin A9 and the control pins. Contact Eon Silicon Solution, Inc. for an additional supplement on this feature. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 9 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN WRITE OPERATION STATUS DQ7 DATA Polling The EN29F002A provides DATA Polling on DQ7 to indicate to the host system the status of the embedded operations. The DATA Polling feature is active during the Byte Programming, Sector Erase, Chip Erase, Erase Suspend. (See Table 6) When the Byte Programming is in progress, an attempt to read the device will produce the complement of the data last written to DQ7. Upon the completion of the Byte Programming, an attempt to read the device will produce the true data last written to DQ7. For the Byte Programming, DATA polling is valid after the rising edge of the fourth WE or C E pulse in the four-cycle sequence. When the embedded Erase is in progress, an attempt to read the device will produce a “0” at the DQ7 output. Upon the completion of the embedded Erase, the device will produce the “1” at the DQ7 output during the read. For Chip Erase, the DATA polling is valid after the rising edge of the sixth W E or CE pulse in the six-cycle sequence. For Sector Erase, DATA polling is valid after the last rising edge of the sector erase W E or C E pulse. DATA Polling must be performed at any address within a sector that is being programmed or erased and not a protected sector. Otherwise, DATA polling may give an inaccurate result if the address used is in a protected sector. Just prior to the completion of the embedded operations, DQ7 may change asynchronously when the output enable ( OE ) is low. This means that the device is driving status information on DQ7 at one instant of time and valid data at the next instant of time. Depending on when the system samples the DQ7 output, it may read the status of valid data. Even if the device has completed the embedded operations and DQ7 has a valid data, the data output on DQ0-DQ6 may be still invalid. The valid data on DQ0-DQ7 will be read on the subsequent read attempts. The flowchart for DATA Polling (DQ7) is shown on Flowchart 5. The DATA Polling (DQ7) timing diagram is shown in Figure 8. DQ6 Toggle Bit I The EN29F002A provides a “Toggle Bit” on DQ6 to indicate to the host system the status of the embedded programming and erase operations. (See Table 6) During an embedded Program or Erase operation, successive attempts to read data from the device at any address (by toggling OE or CE ) will result in DQ6 toggling between “zero” and “one”. Once the embedded Program or Erase operation is complete, DQ6 will stop toggling and valid data will be read on the next successive attempts. During Byte Programming, the Toggle Bit is valid after the rising edge of the fourth WE pulse in the four-cycle sequence. For Chip Erase, the Toggle Bit is valid after the rising edge of the sixth-cycle sequence. For Sector Erase, the Toggle Bit is valid after the last rising edge of the Sector Erase Command (30h) W E pulse. In Byte Programming, if the sector being written to is protected, DQ6 will toggle for about 2µs, then stop toggling without the data in the sector having changed. In Sector Erase or Chip Erase, if all selected sectors are protected, DQ6 will toggle for about 100 µs. The chip will then return to the read mode without changing data in all protected sectors. Toggling either CE or OE will cause DQ6 to toggle. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 10 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN The flowchart for the Toggle Bit (DQ6) is shown in Flowchart 6. The Toggle Bit timing diagram is shown in Figure 9. DQ5 Exceeded Timing Limits DQ5 will indicate if the program or erase time has exceeded the specified limits (internal pulse count). Under these conditions DQ5 will produce a “1”. (The Toggle Bit (DQ6) should also be checked at this time to make sure that the DQ5 is not a “1” due to the device having returned to read mode.) This is a failure condition which indicates that the program or erase cycle was not successfully completed. DATA Polling (DQ7), Toggle Bit (DQ6) and Erase Toggle Bit (DQ2) still function under this condition. Setting the CE to VIH will partially power down the device under those conditions. The O E and W E pins will control the output disable functions as described in Table 3. The DQ5 failure condition will also appear if the user tries to program a “1” to a location that was previously programmed to a “0”. In this case, the device goes into Hang or Error mode out and never completes the Embedded Program Algorithm. Hence, the system never reads valid data on DQ7 and DQ6 never stops toggling. Once the device exceeds the timing limits, DQ5 will indicate a “1”. Please note that this is not a device failure condition since the device was used incorrectly. If timing limits are exceeded, reset the device. (See Table 6) DQ3 Sector Erase Command Timeout This device does not support multiple sector erase commands. DQ3 will go high immediately after the first 30h command (the sixth write cycle). Any extra 30h commands will be ignored (or taken as a resume command if erase suspended). DQ2 Erase Toggle Bit II In the sector erase operation, DQ2 will toggle with OE or CE when a read is attempted within the sector that is being erased. DQ2 will not toggle if the read address is not within the sector that is selected to be erased. In the chip erase operation, however, DQ2 will toggle with OE or CE regardless of the address given by the user. This is because all sectors are to be erased. (See Table 6) This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 11 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 6. Status Register Bits DQ Name Logic Level ‘1’ Definition Erase Complete or erase sector in Erase suspend Erase On-Going Program Complete or data of non-erase sector during Erase Suspend ‘0’ 7 DATA POLLING 6 TOGGLE BIT 5 ERROR BIT 3 ERASE TIME BIT DQ7 DQ7 ‘-1-0-1-0-1-0-1-’ DQ6 Program On-Going Erase or Program On-going Read during Erase Suspend ‘-1-1-1-1-1-1-1-‘ Erase Complete ‘1’ ‘0’ ‘1’ Program or Erase Error Program or Erase On-going Erase operation start ‘0’ Erase timeout period on-going Chip Erase, Erase or Erase suspend on currently addressed sector. (When DQ5=1, Erase Error due to currently addressed sector. Program during Erase Suspend ongoing at current address ‘-1-0-1-0-1-0-1-’ 2 TOGGLE BIT Erase Suspend read on non Erase Suspend Sector DQ2 Notes: DQ7 DATA Polling: indicates the P/E status check during Program or Erase, and on completion before checking bits DQ5 for Program or Erase Success. DQ6 Toggle Bit: remains at constant level when P/E operations are complete or erase suspend is acknowledged. Successive reads output complementary data on DQ6 while programming or Erase operation are on-going. DQ5 Error Bit: set to “1’ if failure in programming or erase DQ3 Sector Erase Command Timeout Bit: Operation has started. Only possible command is Erase suspend (ES). DQ2 Toggle Bit: indicates the Erase status and allows identification of the erased sector. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 12 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN DATA PROTECTION Power-up Write Inhibit During power-up, the device automatically resets to READ mode and locks out write cycles. Even with CE = VIL, W E = VIL and OE = VIH, the device will not accept commands on the rising edge of WE. Low VCC Write Inhibit During VCC power-up or power-down, the EN29F002A locks out write cycles to protect against any unintentional writes. If VCC < VLKO, the command register is disabled and all internal program or erase circuits are disabled. Under this condition, the device will reset to the READ mode. Subsequent writes will be ignored until VCC > VLKO. Write “Noise” Pulse Protection Noise pulses less than 5ns on OE , CE or WE will neither initiate a write cycle nor change the command register. Logical Inhibit If CE =VIH or WE=VIH, writing is inhibited. To initiate a write cycle, CE and W E must be a logical “zero”. If CE , W E , and OE are all logical zero (not recommended usage), it will be considered a write. Sector Protection/Unprotection When the device is shipped, all sectors are unprotected. Each sector can be separately protected against data changes. Using hardware protection circuitry enabled at user’s site with external programming equipment, both program and erase operations may be disabled for any specified sector or combination of sectors. Verification of write protection for a specific sector can be achieved with an Auto Select ID read command at location 02h where the address bits A17 - A13 select the defined sector (see Table 5). A logical “1” at DQ0 means a protected sector and a logical “0” means an unprotected sector. The Sector Unprotect disables sector protection in all sectors in one operation to implement code changes. All sectors must be placed in protection mode using the protection algorithm mentioned above before unprotection can be executed. Additional details on this feature are provided in a supplement, which can be obtained by contacting a representative of Eon Silicon Solution, Inc. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 13 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN EMBEDDED ALGORITHMS Flowchart 1. Embedded Program START Write Program Command Sequence (shown below) Data Poll Device Increment Address Last No Address? Yes Programming Done Flowchart 2. Embedded Program Command Sequence See the Command Definitions section for more information. 5555H / AAH 2AAAH / 55H 5555H / A0H PROGRAM ADDRESS / PROGRAM DATA This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 14 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Flowchart 3. Embedded Erase START Write Erase Command Sequence (shown below) Data Polling Device or Toggle Bit Successfully Completed ERASE Done This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 15 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Flowchart 4. Embedded Erase Command Sequence See the Command Definitions section for more information. Chip Erase Sector Erase 5555H/AAH 5555H/AAH 2AAAH/55H 2AAAH/55H 5555H/80H 5555H/80H 5555H/AAH 5555H/AAH 2AAAH/55H 2AAAH/55H 5555H/10H Sector Address/30H This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 16 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Flowchart 5. DATA Polling Algorithm Start Read Data DQ7 = Data? Yes No No DQ5 = 1? Yes Read Data DQ7 = Data? Yes No Fail Pass This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 17 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Flowchart 6. Toggle Bit Algorithm Start Read Data DQ6 = Toggle? No Yes No DQ5 = 1? Yes Read Data DQ6 = Toggle? No Yes Fail Pass This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 18 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Flowchart 7. Temporary Sector Unprotect Algorithm (Not available for EN29F002AN) Start RESET = VID (Note 1) Perform Erase or Program Operations RESET = VIH Temporary Block Unprotect Done (Note 2) Notes: 1. All protected sectors unprotected. 2. All previous protected sectors are protected once again. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 19 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN ABSOLUTE MAXIMUM RATINGS Storage Temperature Plastic Packages . . . . . . . . . . . . . . . –65°C to +125°C Ambient Temperature with Power Applied. . . . . . . . . . . . . . –55°C to +125°C Voltage with Respect to Ground VCC (Note 1) . . . . . . . . . . . . . . . . . . . . –0.5 V to 7.0 V A9, OE# (Note 2) . . . . . . . . . . . . . . . –0.5 V to 11.5 V All other pins (Note 1) . . . . . . . . . . . . –0.5 V to Vcc+0.5V Output Short Circuit Current (Note 3) . . . . . . . . . 200 mA Notes: 1. 2. 3. Minimum DC voltage on input or I/O pins is –0.5 V. During voltage transitions, inputs may undershoot VSS to –1.0V for periods of up to 50 ns and to –2.0 V for periods of up to 20 ns. See Left Figure below. Maximum DC voltage on input and I/O pins is V CC + 0.5 V. During voltage transitions, input and I/O pins may overshoot to VCC + 2.0 V for periods up to 20 ns. See Right Figure below. Minimum DC input voltage on A9 pin is –0.5 V. During voltage transitions, A9 and OE# may undershoot VSS to –1.0V for periods of up to 50 ns and to –2.0 V for periods of up to 20 ns. See Left Figure. Maximum DC input voltage on A9 and OE# is 11.5 V which may overshoot to 12.5 V for periods up to 20 ns. No more than one output shorted to ground at a time. Duration of the short circuit should not be greater than one second. Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure of the device to absolute maximum rating conditions for extended periods may affect device reliability. OPERATING RANGES Commercial (C) Devices Ambient Temperature (T A ) . . . . . . . . . . . 0°C to +70°C Industrial (I) Devices Ambient Temperature (T A ). . . . . . . . . . -40°C to +85°C VCC Supply Voltages VCC for ± 5% devices . . . . . . . . . . . . +4.75 V to +5.25 V VCC for ± 10% devices . . . . . . . . . . . +4.50 V to +5.50 V Operating ranges define those limits between which the functionality of the device is guaranteed. Maximum Negative Overshoot Waveform Maximum Positive Overshoot Waveform This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 20 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 7. DC Characteristics (Ta = 0°C to 70°C or - 40°C to 85°C; VCC = 5.0V ± 10%) Symbol Parameter Test Conditions ILI Input Leakage Current ILO Output Leakage Current ICC1 Supply Current (read) TTL Byte ICC2 Supply Current (Standby) TTL ICC3 Supply Current (Standby) CMOS ICC4 Supply Current (Program or Erase) (1) Min Max Unit 0V≤ VIN ≤ Vcc ±5 µA 0V≤ VOUT ≤ Vcc ±5 µA CE# = VIL; OE# = VIH; f = 6MHz 30 mA CE# = VIH RESET# = CE# = Vcc ± 0.2V 1.0 mA 5.0 µA CE# = VIL; OE# = VIH; Byte program, Sector or Chip Erase in progress 30 mA VIL Input Low Voltage -0.5 0.8 V VIH Input High Voltage 2 Vcc ± 0.5 V VOL Output Low Voltage 0.45 V VOH Output High Voltage TTL IOH = -2.5 mA 2.4 V Output High Voltage CMOS IOH = -100 µA Vcc - 0.4V V VID ILIT VLKO IOL = 2 mA A9 Voltage (Electronic Signature) and RESET# Voltage (Temporary Sector Unprotect) A9 and RESET# Current (Electronic Signature) Supply voltage (Erase and Program lock-out) 10.5 A9, RESET# = VID 3.2 11.5 V 100 µA 4.2 V Notes: (1) RESET# pin input buffer is always enabled so that it draws power if not at full CMOS supply voltages This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 21 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 8. AC CHARACTERISTICS Read-only Operations Characteristics Parameter Symbols JEDEC Standard Speed Options Description Test Setup Min -45 45 -55 55 -70 70 -90 90 Unit ns Max 45 55 70 90 ns Max 45 55 70 90 ns tAVAV tRC Read Cycle Time tAVQV tACC Address to Output Delay CE = VIL OE = VIL tELQV tCE Chip Enable To Output Delay OE = VIL tGLQV tOE Output Enable to Output Delay Max 25 30 30 35 ns tEHQZ tDF Chip Enable to Output High Z Max 10 15 20 20 ns tGHQZ tDF Output Enable to Output High Z Max 10 15 20 20 ns tAXQX tOH Output Hold Time from Min 0 0 0 0 ns tReady RESET Pin Low to Read Max 20 20 20 20 µs Addresses, CE or OE , whichever occurs first Mode (n/a for EN29F002AN) Notes: For -45,-55 For all others: Vcc = 5.0V ± 5% Output Load : 1 TTL gate and 30pF Input Rise and Fall Times: 5ns Input Rise Levels: 0.0 V to 3.0 V Timing Measurement Reference Level, Input and Output: 1.5 V Vcc = 5.0V ± 10% Output Load: 1 TTL gate and 100 pF Input Rise and Fall Times: 20 ns Input Pulse Levels: 0.45 V to 2.4 V Timing Measurement Reference Level, Input and Output: 0.8 V and 2.0 V This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 22 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 9. AC CHARACTERISTICS Write (Erase/Program) Operations Parameter Symbols JEDEC Standard Description tAVAV tWC Write Cycle Time tAVWL tAS tWLAX Speed Options -45 -55 Min 45 55 Address Setup Time Min 0 tAH Address Hold Time Min tDVWH tDS Data Setup Time tWHDX tDH tGHWL -90 Unit 70 90 ns 0 0 0 ns 35 45 45 45 ns Min 20 25 30 45 ns Data Hold Time Min 0 0 0 0 ns tOES Output Enable Setup Time Min 0 0 0 0 ns tOEH Output Enable Read MIn 0 0 0 0 ns Hold Time Toggle and DATA Polling Min 10 10 10 10 ns Min 0 0 0 0 ns tGHWL Read Recovery Time before -70 Write ( OE High to W E Low) tELWL tCS CE SetupTime Min 0 0 0 0 ns tWHEH tCH CE Hold Time Min 0 0 0 0 ns tWLWH tWP Write Pulse Width Min 25 30 35 45 ns tWHDL tWPH Write Pulse Width High Min 20 20 20 20 ns Typ 7 7 7 7 µs Max 200 200 200 200 µs Typ 0.3 0.3 0.3 0.3 s Max 5 5 5 5 s Typ 3 3 3 3 s Max 35 35 35 35 s Min 50 50 50 50 µs Min 500 500 500 500 ns Min 500 500 500 500 ns Min 4 4 4 4 µs tWHWH1 tWHWH1 tWHWH2 tWHWH2 tWHWH3 tWHWH3 tVCS tVIDR tRP tRSP Programming Operation Sector Erase Operation Chip Erase Operation Vcc Setup Time Rise Time to VID RESET Pulse Width (n/a for EN29F002AN) RESET Setup Time (n/a for EN29F002AN) This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 23 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 10. AC CHARACTERISTICS Write (Erase/Program) Operations Alternate CE Controlled Writes Parameter Symbols Speed Options JEDEC Standard Description tAVAV tWC Write Cycle Time tAVEL tAS tELAX -45 -55 Min 45 55 Address Setup Time Min 0 tAH Address Hold Time Min tDVEH tDS Data Setup Time tEHDX tDH -90 Unit 70 90 ns 0 0 0 ns 35 45 45 45 ns Min 20 25 30 45 ns Data Hold Time Min 0 0 0 0 ns tOES Output Enable Setup Time Min 0 0 0 0 ns tOEH Output Enable 0 0 0 0 0 ns 10 10 10 10 10 ns Min 0 0 0 0 ns Min 0 0 0 0 ns Min 0 0 0 0 ns Min 25 30 35 45 ns Min 20 20 20 20 ns Typ 7 7 7 7 µs Max 200 200 200 200 µs Typ 0.3 0.3 0.3 0.3 s Max 5 5 5 5 s Typ 3 3 3 3 s Max 35 35 35 35 s Min 50 50 50 50 µs Min 500 500 500 500 ns Min 500 500 500 500 ns Min 4 4 4 4 µs Read Hold Time Toggle and Data Polling Read Recovery Time before Write ( OE High to CE Low) tGHEL tGHEL tWLEL tWS W E SetupTime tEHWH tWH W E Hold Time tELEH tCP Write Pulse Width tEHEL tCPH Write Pulse Width High tWHWH1 tWHWH1 tWHWH2 tWHWH2 tWHWH3 tWHWH3 tVCS tVIDR tRP tRSP Programming Operation Sector Erase Operation Chip Erase Operation Vcc Setup Time Rise Time to VID RESET Pulse Width (n/a for EN29F002AN) RESET Setup Time -70 (n/a for EN29F002AN) This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 24 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 11. ERASE AND PROGRAMMING PERFORMANCE Parameter Typ Limits Max Unit Comments Sector Erase Time 0.3 5 sec Excludes 00H programming prior to Chip Erase Time 3 35 sec Byte Programming Time 7 200 µs Chip Programming Time 2 5 sec Erase/Program Endurance 100K erasure Excludes system level overhead Minimum 100K cycles guaranteed cycles Table 12. LATCH UP CHARACTERISTICS Parameter Description Input voltage with respect to Vss on A9 and OE , and RESET Min Max -1.0 V 12.0 V Input voltage with respect to Vss on all other pins -1.0 V Vcc + 1.0 V -100 mA 100 mA Vcc Current Note : These are latch up characteristics and the device should never be put under these conditions. Refer to Absolute Maximum ratings for the actual operating limits. Table 13. 32-PIN PLCC PIN CAPACITANCE @ 25°C, 1.0MHz Parameter Symbol Parameter Description Test Setup Typ Max Unit CIN Input Capacitance VIN = 0 4 6 pF COUT Output Capacitance VOUT = 0 8 12 pF CIN2 Control Pin Capacitance VIN = 0 8 12 pF Table 14. 32-PIN TSOP PIN CAPACITANCE @ 25°C, 1.0MHz Parameter Symbol Parameter Description Test Setup Typ Max Unit CIN Input Capacitance VIN = 0 6 7.5 pF COUT Output Capacitance VOUT = 0 8.5 12 pF CIN2 Control Pin Capacitance VIN = 0 7.5 9 pF This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 25 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Table 15. DATA RETENTION Parameter Description Test Conditions Min Unit Minimum Pattern Data Retention Time 150°C 10 Years 125°C 20 Years This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 26 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN SWITCHING WAVEFORMS Figure 5. AC Waveforms for READ Operations Figure 6. AC Waveforms for Chip/Sector Erase Operations Notes: 1. SA is the sector address for sector erase. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 27 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN SWITCHING WAVEFORMS (continued) Figure 7. Program Operation Timings Notes: 1. 2. 3. 4. 5. PA is address of the memory location to be programmed. PD is data to be programmed at byte address. /DQ7 is the output of the complement of the data written to the device. DOUT is the output of data written to the device. Figure indicates last two bus cycles of four bus cycle sequence. Figure 8. AC Waveforms for /DATA Polling During Embedded Algorithm Operations Notes: *DQ7 = Valid Data (The device has completed the embedded operation). This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 28 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Figure 9. AC Waveforms for Toggle Bit During Embedded Algorithm Operations Notes: *DQ6 stops toggling (The device has completed the embedded operation). Figure 10. Temporary Sector Unprotect Timing Diagram 11V This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 29 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN SWITCHING WAVEFORMS (continued) Figure 11. /RESET Timing Diagram Figure 12. Alternate /CE Controlled Write Operation Timings Notes: 1. 2. 3. 4. 5. PA is address of the memory location to be programmed. PD is data to be programmed at byte address. /DQ7 is the output of the complement of the data written to the device. DOUT is the output of data written to the device. Figure indicates last two bus cycles of four bus cycle sequence. This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 30 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN ORDERING INFORMATION EN29F002A T - 45 P C P PACKAGING CONTENT Blank= Conventional P=Pb free TEMPERATURE RANGE C = Commercial (0°C to +70°C) I = Industrial (-40°C to +85°C) PACKAGE P = 32 Plastic DIP J = 32 Plastic PLCC T = 32 Plastic TSOP SPEED 45 = 45ns 55 = 55ns 70 = 70ns 90 = 90ns BOOT BLOCK ARCHITECTURE T = Top Block B = Bottom Block BASE PART NUMBER EN = EON Silicon Solution 29F = FLASH, 5V 002 = 256K x 8 A = Version A (Blank) = with RESET function N = without RESET function This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 31 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN PHYSICAL DIMENSIONS PL 032 — 32-Pin Plastic Leaded Chip Carrier This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 32 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN PHYSICAL DIMENSIONS (continued) PD 032 — 32-Pin Plastic DIP This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 33 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN PHYSICAL DIMENSIONS (continued) TS 032 — 32-Pin Standard Thin Small This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 34 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26 EN29F002A / EN29F002AN Revisions List Revision No Description Date A 3/26/2003 Initial draft This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. 35 ©2003 Eon Silicon Solution, Inc., www.essi.com.tw Rev. A, Issue Date: 2003/03/26