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| HN29V1G91T-30 128M x 8-bit AG-AND Flash Memory REJ03C0056-0400Z Rev. 4.00 Jul.20.2004 Description The HN29V1G91 series achieves a write speed of 10 Mbytes/sec, which is 5 times faster than Renesas's previous multi level cell Flash memory, using 0.13m process technology and AG-AND (Assist GateAND) type Flash memory cell using multi level cell technology provides both the most cost effective solution and high speed programming. Features * On-board single power supply: VCC = 2.7 V to 3.6 V * Operation Temperature range: Ta = 0 to +70C * Memory organization Memory array: (2048+64) bytes x 16384 page x 4 Bank Page size: (2048+64) bytes Block size: (2048+64) bytes x 2 page Page Register: (2048+64) bytes x 4 Bank * Multi level memory cell 2bit/cell * Automatic program Page program Multi bank program Cache program 2 page cache program * Automatic Erase Block Erase Multi Bank Block Erase * Access time Memory array to register (1st access time): 120 s max Serial access: 35 ns min Rev.4.00, Jul.20.2004, page 1 of 89 HN29V1G91T-30 * Low power dissipation Read ICC1 (50 ns cycle): 10 mA (typ) Read ICC2 (35 ns cycle): 15 mA (typ) Program ICC3 (single bank): 10 mA (typ) Program ICC4 (Multi bank): 20 mA (typ) Erase ICC5 (single bank): 10 mA (typ) Erase ICC6 (Multi bank): 15 mA (typ) Standby ISB1 (TTL): 1 mA (max) Standby ISB2 (CMOS): 50 A (max) Deep Standby ISB3: 5 A (max) * Program time: 600 s (typ) (Single/Multi bank) transfer rate: 10 MB/s (Multi bank) * Erase time: 650 s (typ) (Single/Multi bank) * The following architecture is required for data reliability Error correction: 3 bit error correction per 512byte are recommended. Block replacement: When an error occurs in program page, block replacement including corresponding page should be done. When an error occurs in erase operation, future access to this bad block is prohibited. It is required to manage it creating a table or using another appropriate scheme by the system (Valid blocks: Initial valid blocks for more than 98% per Bank. Replacement blocks must be ensured more than 1.8% of valid blocks per Bank). Wear leveling: Wear leveling is to level Program and Erase cycles in one block in order to reduce the burden for one block and let the device last for long time. Actually, it does detect the block which is erased and rewritten many times and replace it with less accessed block. To secure 105 cycles as the program/erase endurance, need to control not to exceed Program and Erase cycles to one block. You should adopt wear leveling once in 5000 Program and Erase cycles. It is better to program it as a variable by software. * Program/Erase Endurance: 105 cycles * Package line up TSOP: TSOP Type-I 48pin package (TFP-48DA) Ordering Information Type No. HN29V1G91T-30 Operating voltage (VCC) 2.7 V to 3.6 V Organization x8 Package 12.0 x 20.00 mm 0.5 mm pitch 48-pin plastic TSOPI (TFP-48DA) 2 Rev.4.00, Jun.20.2004, page 2 of 89 HN29V1G91T-30 Pin Arrangement 48-pin TSOP RES NC NC NC NC NC R/B RE CE NC NC VCC VSS NC NC CLE ALE WE WP NC NC NC NC NC 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 NC NC NC NC I/O8 I/O7 I/O6 I/O5 NC NC PRE VCC VSS NC NC NC I/O4 I/O3 I/O2 I/O1 NC NC NC NC (Top view) Pin configuration Pin name I/O 1 to I/O 8 CLE ALE CE RE WE WP R/B PRE RES VCC VSS NC Function Command, address, data Input/output Command Latch Enable Address Latch Enable Chip Enable Read Enable Write Enable Write Protect Ready/Busy Power on Auto Read Enable Reset Power Ground No Connection Rev.4.00, Jun.20.2004, page 3 of 89 HN29V1G91T-30 Block Diagram 16 Page address buffer Bank0 Bank Bank 1 2 Bank3 Xdecoder Memory array (2048+64) x 16384 page Xdecoder Memory array (2048+64) x 16384 page 16 I/O1 to I/O8 Multiplexer 8 Data input buffer 8 Data register 2048+64 byte Data register 2048+64 byte Y-Gating Y-Decoder Y-Gating Y-Decoder VCC VSS 8 Input data control Column address counter 12 Data output buffer R/B CE RE WE WP CLE ALE PRE RES Control signal buffer Read/Program/Erase control Rev.4.00, Jun.20.2004, page 4 of 89 HN29V1G91T-30 Memory map and address Memory Map FFFFH FFFEH FFFDH 1Page = (2048+64)Bytes: Program Size 1Block = (2048+64)Bytes x 2Pages: Erase Size = (4096+128)Bytes: Erase Size 1Device = (2048+64)Bytes x 2Pages x 32768Blocks 0006H 0005H 0004H 0003H 0002H 0001H 0000H 2048bytes Data register 2048bytes 64bytes Block 2 Block 1 Block 0 64bytes Bank Organization Bank0 (8192Blocks) (16384pages) Block 0 page 0 page 4 Block 4 page 8 page 12 Bank1 (8192Blocks) (16384pages) Block 1 page 1 page 5 Block 5 page 9 page 13 Bank2 (8192Blocks) (16384pages) Block 2 page 2 page 6 Block 6 page 10 page 14 Bank3 (8192Blocks) (16384pages) Block 3 page 3 page 7 Block 7 page 11 page 15 Block 32764 page 65528 page 65532 Block 32765 page 65529 page 65533 Block 32766 page 65530 page 65534 Block 32767 page 65531 page 65535 Addressing Symbol 1st Cycle 2nd Cycle 3rd Cycle 4th Cycle CA1 CA2 RA1 RA2 I/O8 A7 L A19 A27 I/O7 A6 L A18 A26 I/O6 A5 L A17 A25 I/O5 A4 L A16 A24 I/O4 A3 A11 A15 A23 I/O3 A2 A10 A14 A22 I/O2 A1 A9 A13 A21 I/O1 A0 A8 Column address A12 Row A20 address A12, A13: Bank select A14: Page select A15 to A27: Block select Rev.4.00, Jun.20.2004, page 5 of 89 HN29V1G91T-30 Pin Functions Chip Enable: CE CE is used for the selection of the device. It goes to the standby mode when CE goes to `H' level when the device is in the Output disable state. When the device is in the Busy state during Program or Erase or Read operation, CE signal is ignored and the device does not return to the standby mode even if CE goes to High. Read Enable: RE The RE signal controls serial data output. Data is available tREA after the falling edge of RE. The internal address counter is also incremented by one (Address = Address + 1) on this falling edge. Write Enable: WE WE is the signal to latch each data in the device from the I/O port. Data are latched in the device on the rising edge of WE. Command Latch Enable: CLE The CLE input signal is used to control loading of the operation mode command into the internal register. The command is latched into the internal register from the I/O port on the rising edge of WE when CLE is high. Address Latch Enable: ALE The ALE input signal is used to control loading of the input address information or input data into the internal address/data register. Address is latched on the rising edge of WE with ALE high and Data is latched with ALE low. I/O port: I/O1 to I/O8 The I/O1 to I/O8 pins are used as a port for transferring address, command and input/output data to and from the device. Write Protect: WP The WP signal is used to protect the device from accidental programming or erasing. The WP low reset internal program/erase operation. It is usually used for protecting the data with the WP low during the power-on/off sequence when input signals are invalid. Ready Busy: R/B The R/B output signal indicates the status of the device operation. When it is low, it indicates that the Program, Erase or Read operation is in process and returns to Ready state (R/B = H) after completion of the operation. The output buffer for this signal is an open-drain and has to be pulled up to VCC with appropriate register. Rev.4.00, Jun.20.2004, page 6 of 89 HN29V1G91T-30 Reset: RES The RES signal controls reset operation for device. When power on and power off, keep pin VILD level (VSS 0.2V), and keep pin VIHD level (VCC 0.2V) during program, erase, read operation. The transition to deep standby mode is executed when RES set VILD level during standby mode. Power on auto Read Enable: PRE The PRE controls auto read operation executed during power-on. The power-on auto-read is enabled when PRE pin is tied to VCC. Please contact Renesas Technology's sales office before using the power-on autoread. Rev.4.00, Jun.20.2004, page 7 of 89 HN29V1G91T-30 Mode selection The address input, command input, and data input/output operation of the device are controlled by RES, WP, WE, CE, CLE, ALE, RE, PRE signals. The following shows the operation logic table. Logic Table Mode Read Mode Command Input Address Input (4clock) Write Mode Command Input Address Input (4clock) Data Input Data Output During Read (Busy) During Program (Busy) During Erase (Busy) Write Protect Stand-by Deep Stand-by RES* H H H H H H H H H H H VSS 0.2 V 3 WP* x x H H H x x H H L 3 CE L L L L L L L x x x H x WE CLE H L H L L ALE L H L H L L L x x x x x RE H H H H H PRE* x* x* x* x* x* x* 2 2 3 2 2 2 2 2 2 2 2 H H x x x x x L L x x x x x H x x x x x x* x* x* x* VSS 0.2 V /VCC 0.2 V VSS 0.2 V /VCC 0.2 V VSS 0.2 V /VCC 0.2 V VSS 0.2 V /VCC 0.2 V Notes: 1. H: ViH, L: ViL, x: ViH or ViL 2. PRE must be "H" fix when using Power On Auto Read and "L" fix when not using it. 3. RES, WP, PRE must be set L: ViLD, H: ViHD, x: ViHD or ViLD Program/Erase Characteristics Symbol Program Time Cache Program Time Dummy Busy for Cache Program Dummy Busy Time Number of Partial Program Cycles in a Same Page Block Erase Time Page mode Erase Verify Time Block mode Erase Verify Time tPROG tCPROG tCBSY tDBSY N tBERS tPEV tBEV Min 1 Typ 0.6 0.6 3 0.65 Max 2.4 4.8 2400 4 8 20 50 70 Unit ms ms s s cycles ms s s Notes Rev.4.00, Jun.20.2004, page 8 of 89 HN29V1G91T-30 Command Definition Command Sets Read Multi Bank Read Random Data output in a Page Read for copy back Copy Back Program Page Data output Multi Bank Copy Back Program Data Recovery Read Data Recovery Program Reset Page Program Random Data Input in a Page Multi Bank Page Program Cache Program Block Erase Multi Bank Block Erase Read Status Read Error Status Read Multi Block Status Read Multi Block Error Status* Status mode Reset Page mode Erase Verify Block mode Erase Verify Read ID Device Recovery 1 1st. cycle 00h 00h 05h 00h 85h 06h 85h 06h 85h FFh 80h 85h 80h 80h 60h 60h-60h 70h 72h 71h 73h, 74h, 75h, 76h 7Fh 60h 60h 90h 00h 2nd. cycle 30h 31h E0h 35h 10h E0h 11h E0h 10h 10h 11h 15h D0h D0h D2h D3h 38h acceptable while Busy Acceptable Acceptable*2 Acceptable*2 Acceptable*2 Acceptable Acceptable Acceptable Acceptable Notes: 1. Read Multi Block Error Status 73h: Bank0 Error Status, 74h: Bank1 Error Status, 75h: Bank2 Error Status, 76h: Bank3 Error Status 2. The input of the program data can be done only in Busy state of Erase operation. Rev.4.00, Jun.20.2004, page 9 of 89 HN29V1G91T-30 Device Operation Page Read It becomes Busy state with WE rising edge after writing 00h along with four address cycles and 30h and data transfer starts from memory array to the data register. The device output the data serially from specified column address when inputting address by the repetitive high to low transition of the RE clock after it is Ready state. It is possible to shorten Busy time after the 2nd page when the data of page overlapped to 4 bank consecutively like Page 0, Page1, Page 2, Page 3 is read out (Please see 4 page read below). The data of Page 1 to Page 3 are transferred to the data register when writing 00h and 30h specifying column address and Page 0. The device output the data of Page 0 serially by clocking RE after transferring it from memory array to the data register. The data of Page 1, Page 2, Page 3 which are transferred to the data register can be output using Page data out command (06h/E0h) after the data of Page 0 output. Rev.4.00, Jun.20.2004, page 10 of 89 HN29V1G91T-30 CLE CE WE ALE RE column address M Page address N I/O 00h CA1 CA2 RA1 RA2 30h tR Busy M Page M+1 address N M+2 R/B Page N Memory array Data register M 4page read R/B pageN column J N=0,4,8,12... tR (A) pageN columnK 06h CA1 pageN+1 E0h DOUT DOUT I/O 00h CA1 CA2 RA1 RA2 30h DOUT DOUT CA2 RA1 RA2 (B) (1) R/B (A) columnL pageN+2 E0h DOUT (2) (3) columnM DOUT 06h CA1 pageN+3 E0h DOUT DOUT I/O (B) 06h CA1 CA2 RA1 RA2 CA2 RA1 RA2 (4) Bank 0 Page N Bank 1 Page N+1 Bank 2 Page N+2 (5) Bank 3 Page N+3 Memory array Data register (1) Bank 0 Page N Bank 1 Page N+1 Bank 2 Page N+2 Bank 3 Page N+3 Memory array Data register column J column K column L column M (2) (3) (4) (5) Rev.4.00, Jun.20.2004, page 11 of 89 HN29V1G91T-30 Random Data output in a Page Read When the device output the data serially in Page read mode operation, the data from any column address in a Page which is reading can be output by writing 05h and E0h with two column address cycles. There is no restriction on an order of column address which can be specified and it is possible to specify many times including same column address in the same Page address. CLE CE WE ALE RE Column address L Page address N 30h pageN L L+1 L+2 05h Column address M CA1 CA2 E0h pageN M M+1 M+2 I/O R/B 00h CA1 CA2 RA1 RA2 Page N Memory array Data register L M Rev.4.00, Jun.20.2004, page 12 of 89 HN29V1G91T-30 Multi Bank Read Multi Bank Read operation enables to read the data of any Page address in 4 bank. Writing 00h command with four address cycles can be specified to maximum 4 Bank. There is no restriction on an order of a Bank to specify. Page address specified later becomes effective when it is specified twice in the same Bank. The device become Ready state at rising edge of WE after writing 31h command with specifying address and the data transfer from the memory array to the data register is started. After it becomes Ready state, it executes specifying a bank for read and column address for starting read by writing 06h and E0h command with four address cycles. After that the device output the data serially from column address which is specified by clocking RE. It is possible to specify any bank for read and to read the data which is transferred to the data register repeatedly. R/B column J page N column K page P 00h Address Bank1 column L page Q 00h Address Bank2 column M page R 00h Address Bank3 31h tR (A) column J' page N 06h Address E0h DOUT Bank0 DOUT column K' page P 06h Address E0h DOUT Bank1 DOUT I/O 00h Address Bank0 (B) (1) (2) (3) R/B(A) column L' page Q column M' page R DOUT 06h Address E0h DOUT Bank3 DOUT I/O (B) 06h Address E0h DOUT Bank2 (4) (5) Bank 0 Page N Bank 1 Bank 2 Bank 3 Memory array Page P Page Q Page R Data register (1) Bank 0 Page N Page P Bank 1 Bank 2 Bank 3 Memory array Page Q Page R Data register column J' column K' column L' column M' (2) (3) (4) (5) Note: 1. (2) (3) (4) (5): repeatable Rev.4.00, Jun.20.2004, page 13 of 89 HN29V1G91T-30 Multi Bank Read Random Data output The data can be read out setting column address freely on the way to the read operation of Page address data in each Bank in Multi Bank Read operation. It is possible to read out the data by writing 05h and E0h command with two column address cycles. There is no restriction to specify any column address and it is possible to specify it including same one in the same page address many times. tR column J page N column K page P 00h Address column L page Q 00h Address column M page R 00h Address 31h column J' page N 06h Address E0h DOUT DOUT R/B (A) column J'' 05h Address E0h DOUT DOUT I/O 00h Address (B) (1) (2) R/B (A) column K' page P 06h Address E0h DOUT DOUT column L' page Q DOUT 06h Address E0h DOUT DOUT (C) I/O (B) column K'' 05h Address E0h DOUT column L'' 05h Address E0h DOUT DOUT (D) (3) (4) R/B (C) column M' page R 06h Address E0h DOUT DOUT I/O (D) column M'' 05h Address E0h DOUT DOUT (5) Bank 0 Page N Bank 1 Bank 2 Bank 3 Memory array Page P Page Q Page R Data register (1) Bank 0 Page N Page P Bank 1 Bank 2 Bank 3 Memory array Page Q Page R Data register column J' column K' column L' (2) column J'' (3) column K'' (4) column L'' column M' column M'' (5) Note: 1. (2) (3) (4) (5): repeatable Rev.4.00, Jun.20.2004, page 14 of 89 HN29V1G91T-30 Page Program Page program operation enables to write the data into one Page address. The data is stored into the data register after writing 80h command with four address input (Column address, Page address) and data input. It is also stored serially from column address which is input and then automatic program operation starts after writing 10h command (Program command). Program operation must be executed to a Page address which the data is erased. A number of additional program in the same Page address is maximum 8 times. Rev.4.00, Jun.20.2004, page 15 of 89 HN29V1G91T-30 Page Program Random Data input in a Page This operation enables to input the program data in the Page address randomly writing 85h command with two column address input on the way to the program operation in the Page program mode. It can input the data by specifying a column address in the same page which you want to program the data using this mode. After completion of the data input, program it to the specified column address is executed automatically by writing 10h command (Program start command). Program operation must be executed to a Page address which the data is erased. A number of additional program in the same Page address is maximum 8 times. The data of 1 byte or more need to be input when it is in random data input. CLE CE WE ALE RE Column address L Page address N DIN DIN DIN 85h Column address M CA1 CA2 DIN DIN DIN 10h tPROG I/O R/B 80h CA1 CA2 RA1 RA2 70h status Page N Memory array Data register L M Program Rev.4.00, Jun.20.2004, page 16 of 89 HN29V1G91T-30 Multi Bank Page Program It is possible to program the data to any one page address in each bank simultaneously since this device adopts 4 bank structure. The bank to be programmed the data is chosen from 1 bank to maximum 4 bank. Address and data for next bank can be input consecutively by writing 11h command (dummy command) after writing 80h command with column and page address, data as well as usual page program. Program operation to several banks specified automatically are executed simultaneously by writing 10h command (program start command) after data input to the maximum 4 bank completes. tDBSY tDBSY R/B column J page N DIN DIN 11h (A) column K 80h CA1 page P DIN DIN 11h I/O 80h CA1 CA2 RA1 RA2 CA2 RA1 RA2 (B) (1) Bank0 (2) Bank1 tDBSY tPROG R/B (A) column L page Q DIN DIN 11h column M 80h CA1 page R DIN DIN 10h 71h status out I/O (B) 80h CA1 CA2 RA1 RA2 CA2 RA1 RA2 (3) Bank2 (4) Bank3 Bank 0 Page N Program Bank 1 Page P Bank 2 Page Q Program (5) Bank 3 Page R Program (5) Memory array (5) Program (5) Data register column J column K column L column M (1) (2) (3) (4) Rev.4.00, Jun.20.2004, page 17 of 89 HN29V1G91T-30 Multi Bank Page Program Random Data Input in a Page This mode enables to input program data specifying an address in a page which the data is programmed when it is in Multi Bank Page Program operation. The data can be input serially by writing 85h command with column address to on the way to the data input to the page address to be programmed as well as random data input in page mode. After the data input, program and address/data input to next bank is executed by writing 11h command (dummy command) and then 80h command as well as Multi Bank Page Program. Program operation to several banks specified automatically is executed simultaneously by writing 10h command (program start command) after the completion of data input to the final bank. Address of the random data can be set in every page for program freely. tDBSY R/B column J page N Din DIN DIN 85h column J' CA1 CA2 DIN DIN 11h (A) I/O 80h CA1 CA2 RA1 RA2 (B) (1) Bank0 tDBSY R/B (A) column K page P Din DIN DIN 85h column K' CA1 CA2 DIN DIN 11h (C) I/O (B) 80h CA1 CA2 RA1 RA2 (D) (2) Bank1 tDBSY R/B (C) column L page Q Din DIN DIN 85h column L' CA1 CA2 DIN DIN 11h (E) I/O (D) 80h CA1 CA2 RA1 RA2 (F) (3) Bank2 R/B (E) column M page R Din DIN DIN 85h column M' CA1 CA2 DIN DIN 10h tPROG I/O (F) 80h CA1 CA2 RA1 RA2 71h status out (5) (4) Bank3 Bank 0 Page N Program (5) Bank 1 Page P Bank 2 Page Q Program (5) Bank 3 Page R Program (5) Memory array Program (5) Data register column J column J' column K column K' column L column L' column M column M' (1) (2) (3) (4) Rev.4.00, Jun.20.2004, page 18 of 89 HN29V1G91T-30 Cache Program Cache program operation enables to use the data register of the bank which do not program as the cache register. The program data for next page address is transferred to Flash memory from external data buffer by using the cache register while programming the primary data. Setup for program starts after writing 15h command following 80h command and program address/data transfer. After that the device is in the Busy state. The data register of the bank which do not program is cleared when program operation inside the device starts and then it is ready to receive the data of next page address. In this case next page address must be different page address of the bank with one which programs just before. It is prohibited to program the data to page address in same bank consecutively using cache program. Next page address for program should specify one in different bank. The data of next page address can be transferred to Flash memory by writing 80h command as well as the data transfer of the1st page address and then 15h command (program dummy command) input is required after program address/data input. It becomes Busy state until the program operation to the 1st page address completes and the data of data register is cleared. If the program operation to the 1st page address does not complete, it becomes Busy state until the data of data register except for one of the bank which programs next. 70h command is issued to find out the status in cache program operation after Ready/Busy becomes Ready. The True Ready/Busy status (I/O5) in cache program becomes busy when CPU is active and shows that the internal program operation is in the process. The True Ready/Busy status (I/O6) should be verified to find out the program completion if 15h command is used for the last programming. Reset operation is required by writing FFh when program operation completes using 15h command and moves to the other operation except for cache program. Reset operation is not required if 10h command (program start command) is used for the last programming. tCBSY tCBSY tCBSY R/B I/O 80h (1) Address, Data 1st page 15h (A) (B) 70h (2) Status 80h (3) Address, 15h Data 2nd page 70h (4) Status 80h (5) Address, Data 3rd page 15h R/B (A) I/O (B) 80h tCBSY tCBSY tCPROG Address, 15h Data (M-1) th page (7) (8) 70h Status 80h Address, 15h Data M th page 70h Status 80h Address, 10h 15h Data (M+1) th page 70h Status Bank 0 Page N Program Bank 1 Page P Bank 2 Page Q Program Bank 3 Page R Program Memory Array (2) (3) Program (4) (5) (6) (8) Data Register (1) (7) Rev.4.00, Jun.20.2004, page 19 of 89 HN29V1G91T-30 2page Cache Program 2 page cache program operation is available using both Multi Bank Program and Cache Program operation. It enables to input the program data for the address of next bank consecutively by writing 11h command (dummy command) following 80h command and program address/data input. Setup for program starts by writing 15h command after data input and then the device is in the Busy state (tCBSY). The data registers of two banks which do not program are cleared when program operation inside the device starts and then it is ready to receive the data of next two page address. In this case next two page address must be different page address of the bank with ones which programs just before. Rev.4.00, Jun.20.2004, page 20 of 89 HN29V1G91T-30 Copy Back Program Copy Back Program operation enables to copy the data to different page address of same bank without taking it to external data register. The data transfer to the data register is started to copy memory array data of 1 page address writing 35h command following 00h command and address input with 4 cycles. Then copy of the data is started by writing 10h command following 85h command and address with 4 cycles for post-copy. Address for post-copy must be chosen page address which has erased (FFh). CLE CE WE ALE RE I/O Column Page address J address M 00h CA1 CA2 RA1 RA2 35h 85h Column Page address K address N CA1 CA2 RA1 RA2 10h tPROG 70h status R/B (1) (2) Bank 0 Bank 1 Bank 2 Bank 3 Memory array Data register Page M (1) Bank 0 Bank 1 Bank 2 Bank 3 Memory array Data register Page N Program (2) Note: 1. Post copy address must be specified one in same bank. Rev.4.00, Jun.20.2004, page 21 of 89 HN29V1G91T-30 Copy Back Program with Random Data Input In a Page Source copy data which has transferred to the data register can be updated when copy back program operation is executed. Memory array data which has taken out to the data register is updated to the input data after storing source copy data to the data register and inputting the data following 85h command and 4 address input with 4 cycles. 1 byte data or more must be input when random data input is executed. Program to post-copy page address is executed by writing 10h command after data input. Address for post-copy must be chosen page address which has erased (FFh). CLE CE WE ALE RE Column Page address J address M I/O 00h CA1 CA2 RA1 RA2 35h Column Page address K address N 85h CA1 CA2 RA1 RA2 DIN Column address L DIN 85h CA1 CA2 DIN DIN 10h 70h status R/B (2) (1) Bank 0 Bank 1 Bank 2 (3) Bank 3 Memory array Data register Page M (1) Bank 0 Bank 1 Bank 2 Bank 3 Memory array Data register DIN column K (2) DIN column L Bank 0 Bank 1 Bank 2 Bank 3 Memory array Data register Page N Program (3) Note: 1. Post copy address must be specified one in same bank. Rev.4.00, Jun.20.2004, page 22 of 89 HN29V1G91T-30 Copy Back Program with Data Output When copy back program operation is executed, it is possible to confirm the source copy data outputting one which has transferred to the data register to external. It is possible to output the source copy data after storing it to the data register and inputting E0h command following 06h command and address input with 4 cycles. Program to post-copy page address is executed by writing 10h command following 85h command and post copy address input with 4 cycles after data output. Address for post-copy must be chosen page address which has erased (FFh). Copy data can be updated after post copy address input with 4 cycles and the data input. R/B column J I/O page M column J' page M column K 00h CA1 CA2 RA1 RA2 35h (1) Bank 0 Bank 1 06h CA1 CA2 RA1 RA2 E0h DOUT (2) Bank 2 page N 70h status out DOUT 85h CA1 CA2 RA1 RA2 10h (3) Bank 3 Memory array Data register Page M (1) Bank 0 Bank 1 Bank 2 Bank 3 Memory array Data register column J' (2) DOUT Bank 0 Page N Bank 1 Bank 2 Bank 3 Memory array Program (3) Data register Note: 1. Post copy address must be specified one in same bank. Rev.4.00, Jun.20.2004, page 23 of 89 HN29V1G91T-30 Copy Back Program with Data Output and Random Data Input in a Page R/B column J I/O page M column J' page M column K 00h CA1 CA2 RA1 RA2 35h (1) R/B (A) column L I/O (B) 85h CA1 CA2 (4) Bank 0 DIN DIN 10h (5) Bank 1 to 3 Bank 0 70h status out 06h CA1 CA2 RA1 RA2 E0h DOUT (2) page N DIN (B) DOUT 85h CA1 CA2 RA1 RA2 DIN (3) (A) Bank 1 to 3 Memory array Data register Page M (1) Memory array Data register Bank 0 Bank 1 to 3 column K DIN column L DIN (3) (4) Bank 0 Page N Bank 1 to 3 Memory array Data register column J' (2) DOUT Memory array Program (5) Data register Note: 1. Post copy address must be specified one in same bank. Rev.4.00, Jun.20.2004, page 24 of 89 HN29V1G91T-30 Multi Bank Copy Back Program Multi Bank Copy Back Program enables to execute copy back program to a multiple bank simultaneously. The data is transferred to the data register from memory array simultaneously by writing 35h command after specifying post copy address consecutively. Data read and update can be executed as well as copy back program. (A) page N I/O 00h CA1 CA2 RA1 RA2 R/B page P 00h CA1 CA2 RA1 RA2 page Q 00h CA1 CA2 RA1 RA2 page R 00h CA1 CA2 RA1 RA2 35h (1) Bank0 Bank1 Bank2 Bank3 (B) R/B (A) page N' I/O (B) 85h CA2 CA1 RA1 RA2 11h page P' 85h CA1 CA2 RA1 RA2 11h page Q' 85h CA1 CA2 RA1 RA2 11h page R' 85h CA1 CA2 RA1 RA2 10h 71h status out (2) Bank 0 Page N (1) Bank 1 Page P Bank 2 Page Q (1) Bank 3 Page R (1) Memory array (1) Data register Bank 0 Page N' Memory array Program Data register (2) Bank 1 Page P' Program (2) Bank 2 Page Q' Bank 3 (2) Page R' Program (2) Program Rev.4.00, Jun.20.2004, page 25 of 89 HN29V1G91T-30 Data Recovery Read Data recovery read enables to output the data itself which is transferred from external after program completion. It is possible to read out the data which is programmed by writing E0h command following 06h command and read address input with 4 cycles. It is also possible to read out the data of any column address in same page address by writing E0h command following 05h command and column address input with 2 cycles on the way to outputting the data by clocking RE. R/B column L I/O 10h (1) Page M DOUT column N 05h CA1 CA1 E0h DOUT (3) DOUT 06h CA1 CA2 RA1 RA2 E0h DOUT (2) Page M Memory array Program (1) Page M Memory array Data register Data register column L (2) column N (3) Dout Dout Rev.4.00, Jun.20.2004, page 26 of 89 HN29V1G91T-30 Data Recovery Program Data recovery program enables to re-program the program data itself which is transferred from external to different page address in same bank. Program to newly specified page address is executed by writing 10h command following 85h command and address for re-programming with 4 cycles as well as copy back program. Same page address cannot be chosen during this operation. It is possible to update the re-program data by inputting the data after specifying address for reprogramming. Address for re-programming must be chosen page address which has erased (FFh). tPROG R/B column K I/O 10h Page M (1) Page N 10h 70h status out tPROG 85h CA1 CA2 RA1 RA2 (2) Memory array Page N Program (1) Page M Memory array Program Data register (2) Data register Note: 1. Page M and Page N are different page address. tPROG R/B column K I/O 10h (1) page N DIN DIN column L 85h CA1 CA2 (3) DIN DIN tPROG 85h CA1 CA2 RA1 RA2 (2) 10h (4) 70h status out Memory array Program (1) Data register Page N Page M Memory array Memory array Program Data register Data register Din column K (2) Din column L (3) (4) Note: 1. Page M and Page N are different page address. It is possible to combine erasing the data of the block with re-programming, as shown below, in the data recovery program operation. Rev.4.00, Jun.20.2004, page 27 of 89 HN29V1G91T-30 To program, update the data next, then erase, and then re-programming. R/B I/O CA x 2 RA x 2 Program1 1 tPROG 80h Data 10h Status Check 85h 2 CA x 2 RA x 2 Data 85h CA x 2 Data *1 Program 1 data update specify a page program R/B I/O tBERS RA x 2 Status Check CA x 2 RA x 2 tPROG Program Status 60h D0h 85h 10h Program2 Start 70h Erase 3 Specify a page in the same bank same as RA in setting 1. Specify the address for re-programming (same as *1) 4 Program2 1 2 3 4 Page M Page N, N+4 Program1 80h-CA1-RA1-Data-10h RA1 = PageM col.K col.L data update 85h-CA2-RA2-Data-85h-CA3-Data RA2 = PageN CA2 = col.K CA3 = col.L Erase 60h-RA2-D0h Program2 85h-CA2-RA2-10h To program, erase next, then update the data, and then re-programming. R/B I/O CA x 2 RA x 2 Program1 *1 1 tPROG 80h Data 10h 70h Status out 2 60h RA x 2 Erase D0h tBERS 70h Status out R/B I/O CA x 2 RA x 2 Within the same bank as the page specified in *1 tPROG 85h Data 85h CA x 2 Data 4 10h Program2 Start 70h Status out 3 Program Specify the address for re-programming (in the same bank as *1) 1 2 3 4 Page M Page N Program1 80h-CA1-RA1-Data-10h RA1 = PageM Erase 60h-RA2-D0h Program2 col.K col.L data update 85h-CA2-RA2-Data-85h-CA3-Data RA2 = PageN CA2 = col.K CA3 = col.L 10h Rev.4.00, Jun.20.2004, page 28 of 89 HN29V1G91T-30 Program Data Input in Erase Busy Program Data input in Erase Busy enables to program the data of any page address during busy status in erase operation. It is possible to program the data in both block erase mode and multi bank block erase mode if they are in busy state. There is no restriction between page address for programming and block for erase. It needs 1s wait time after the erase status becomes busy to write 80h command for program address and data input. It can confirm the status by writing 70h or 71h command after program data input. The input data is possible to input in both single bank and multi bank mode and corresponds to the data input mode specifying column address in same page address. It needs to keep 4s or more from writing 11h command to writing 80h command when the data to a multiple bank is programmed. 10h command (program start command) must be issued after completion of erase operation. Program data input in single bank Note: 1. Status command available Program data input with random data mode in single bank mode Note: 1. Status command available Rev.4.00, Jun.20.2004, page 29 of 89 HN29V1G91T-30 Program data input in multi bank program mode (In case of completing data input during busy status) Note: 1. Status command available Program data input in multi bank program mode (In case of not completing data input during busy status) Note: 1. Status command available The correspondence when the erase error occurred in Program Data Input in Erase Busy mode. In the Program Data Input in Erase Busy mode, after an erase error occurred in one block at a two-blocks simultaneous erase operation, a certain operation is needed in a particular case. In case of an erase operation of one block in the same bank as the error-occurred block, the reset command FFh is needed just before, as shown in Figure 1. Otherwise, an illegal two-blocks erase operation will be executed, because the address data of two pages to program remains. After the one-block erase operation succeed, it is possible to program by specifying the address to program again with the command 85h, because the data to be programmed stored in the buffer is maintained. Rev.4.00, Jun.20.2004, page 30 of 89 HN29V1G91T-30 Program Data Input in Erase Busy (recommend pattern when error occurred) Multi Bank Mode R/B I/O 60h 1 RA x 2 60h RA x 2 D0h 80h tBERS Erase Status Error only Block0 (Bank0) CA x 2 RA x 2 Data 11h 80h CA x 2 RA x 2 Data 70h 2 Block0 (Bank0), Erase Block1 (Bank1) 1 *1 Specify a page program Page0 (Bank0) *2 Specify a page program Page1 (Bank1) 1 tDBSY R/B I/O tBERS Erase Status Pass 4 Block2 in Bank0 erase execute tPROG FFh Reset 3 address infornation 60h RA x 2 D0h 70h 85h CA x 2 RA x 2 11h 85h CA x 2 RA x 2 5 10h Specify the address (same as *1, *2) again for programming 5 1 2 3 4 5 Bank0 Block0 Bank1 Block1 Erase Block0 erase error FFh command Address reset Bank0 Block2 Bank1 Block1 Bank0 Bank1 Block1 Block2 Erase Program Program Erase Data0 80h-CA0-RA0 -(Data0)-11h Data1 80h-CA0-RA1 -(Data1) Data0 60h-RA2-D0h (erase only block2) Data1 Data0 85h-CA0-RA2 -11h Data1 85h-CA0-RA1 -10h It is not necessary to reset by command FFh, when transmit the writing data in erase block and 1 page in same bank, and execute writing during erasing 1 block data, or erasing error occurs and erasing another block in same bank. But in this case, as shown in following figure, it is necessary to specify the address for re-programming, after erasing another block address. Write address specifying it by command 85h at the address for re-programming in the same bank, when writing it as shown in following figure. Program Data Input in Erase Busy (recommend pattern when error occurred) Single Bank Mode R/B I/O RA x 2 tBERS Erase Status error tBERS 60h D0h 80h CA x 2 RA x 2 Data 70h 60h RA x 2 D0h *1 Specify a page program Another address in Same Bank (same as *1) erase execute input R/B I/O Status Check Pass CA x 2 RA x 2 tPROG Program Status 70h 85h 10h 70h Specify the address (same as *1) for re-programming Rev.4.00, Jun.20.2004, page 31 of 89 HN29V1G91T-30 Block Erase Erase operation for one block which is consisted of 2 page can be executed. One block is consisted of pageN and page(N+4) (Ex: page0 and page4, page1 and page5). Input page address (A14 = VIL) in lower side, when erase block address input. Multi Block Erase Erase operation for one block in maximum 4 bank is executed simultaneously. Any block in a bank can be chosen. Input page address (A14 = VIL) in lower side, when erase block address input. Page mode Erase Verify Whether any one page address is erased or not is verified in this mode. Verification starts internally inside the device after writing D2h command after 60h command and row address input. It can be verified whether the page address is erased or not after by writing 70h command (status read command) after it becomes ready. Block mode Erase Verify Whether any one block is erased or not is verified in this mode. Verification starts internally inside the device after writing D3h command after 60h command and row address input. It can be verified whether the block is erased or not after by writing 70h command (status read command) after it becomes ready. Multi Bank Page mode Erase Verify Page mode erase verify for each page in maximum 4bank is executed. It can be verified whether page address in each bank is erased or not by writing 71h command (status read command) after it becomes ready. Multi Bank Block mode Erase Verify Block mode erase verify for each block in maximum 4bank is executed. It can be verified whether the block in each bank is erased or not by writing 71h command (status read command) after it becomes ready. Read ID ID code can be read out by inputting the address (00h) after writing 90h command. Manufacturer code (07h) and Device code (01h) can be read out serially by clocking RE. Rev.4.00, Jun.20.2004, page 32 of 89 HN29V1G91T-30 Power on Auto Read The data of the lowest page address can be read out serially without command and address input after power is on. Power on auto read mode is activated when VCC reaches about 2.7V. It is enabled only when PRE pin is tied to VCC. PRE pin must be connected to VCC when using power on auto read and VSS when not using it. After power on auto read is executed, reset operation is required by reading out 1 page (2112 byte) data or writing FFh command. Note: Please contact Renesas Technology's sales office before using this mode. Rev.4.00, Jun.20.2004, page 33 of 89 HN29V1G91T-30 Status Read at Read mode The content of status register can be read out writing 70h command (status read command) and by clocking RE in read operation. The data of memory array cannot be read out even by clocking RE since status read mode is set after the device becomes ready. 7Fh command needs to be written in case of releasing status read mode in read operation. The data of memory array can be read out without address input in this operation. Operation status of status register Operation status can be output by status read. Command 70h 71h 72h 73h 74h 75h 76h Output Single bank operation status Multi bank operation status Single bank operation error status Multi bank operation bank0 error status Multi bank operation bank1 error status Multi bank operation bank2 error status Multi bank operation bank3 error status Rev.4.00, Jun.20.2004, page 34 of 89 HN29V1G91T-30 Status Register check flow (single bank operation) Start 70h Write read status register I/O7=1 or R/B=1 YES NO I/O1=0 NO 72h Write read errorstatus register NO YES Fail I/O6=1 YES Read ECC check Not 1 bit error Fail ECC possible 1 bit error Program/erase completed 70h command status in single bank operation status Program/Erase I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Note: Write protect Ready/Busy Ready/Busy Not Used Not Used Not Used Not Used Pass/Fail Cache Program Write protect Ready/Busy True Ready/Busy* Not Used Not Used Not Used Pass/Fail (N-1) Pass/Fail (N) 1 Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ready: 1 Busy: 0 0 0 0 0 / Pass: 0 Fail: 1 (cache program) Pass: 0 Fail: 1 1. True Ready/Busy shows Ready/Busy status of CPU (R/B output status is same as I/O7). Rev.4.00, Jun.20.2004, page 35 of 89 HN29V1G91T-30 72h command status in single bank operation status I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Write protect Ready/Busy Program/Erase ECC check Erase check Program check Not Used Not Used Pass/Fail Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ecc available: 1 Ecc Not available: 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 0 0 Pass: 0 Fail: 1 Status Register check flow (Multi bank program/erase) Start 71h Write read status register I/O7=1 or R/B=1 YES I/O1=0 Error bank check YES NO NO 73-76h Write read errorstatus register *1 Fail NO I/O6=1 YES Read ECC check Not 1 bit error Fail NO Error bank check end YES Program/erase completed ECC possible 1 bit error Note:1. 73h:Bank0 error status 74h:Bank1 error status 75h:Bank2 error status 76h:Bank3 error status Rev.4.00, Jun.20.2004, page 36 of 89 HN29V1G91T-30 71h Command Status in Multi Bank Operation status I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Write protect Ready/Busy Ready/Busy Bank3 Pass/Fail Bank2 Pass/Fail Bank1 Pass/Fail Bank0 Pass/Fail All Pass/Fail Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ready: 1 Busy: 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Pass: 0 Fail: 1 73h, 74h, 75h, 76h Command Status in Multi Bank Operation / Cache program / 2page cache program status I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Write protect Ready/Busy Program/Erase ECC check Erase check Program check Not Used Not Used Pass/Fail Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ecc available: 1 Ecc Not available: 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 0 (Don't care) 0 (Don't care) Pass: 0 Fail: 1 Rev.4.00, Jun.20.2004, page 37 of 89 HN29V1G91T-30 Status Register check flow (Cache program operation) Start 70h Write read status register I/O7=1 or R/B=1 YES Cache program pass YES I/O1=0 & I/O2=0 NO 10h (Last program) Program command 10h or 15h 15h NO NO 70h Write read status register NO I/O2=0 YES Next cache program I/O6=1 YES 71h Write read status register I/O2-5 check 73-76h Write read errorstatus register NO I/O6=1 YES ECC impossible ECC may be possible Error bank check end YES FFh Write cache mode clear NO NO ECC may be possible YES Read ECC check Cache program error so substitute operation Next bank NO ECC possible YES Error bank operate end YES Cache program end NO Rev.4.00, Jun.20.2004, page 38 of 89 HN29V1G91T-30 Status Register (Cache program operation) The status is output by writing 70h command in cache program / 2 page cache program operation. I/O1, 2 which shows pass/fail and I/O6, 7 which shows Ready/Busy is output OR data of 2 page address which programs simultaneously. In other words, if either 2 page address is Busy status, I/O6 or I/O7 outputs "0". If either 2 page address fails, I/O1 or I/O2 outputs "1". It verifies the status writing 70h command in cache program operation and verification of detail error code which page address fails in program is executed by writing 73h-76h command which output error content corresponding to bank address. It can also verify the status writing 70h in 2 page cache program operation and if either 2 page address which programs simultaneously fails with program error, it outputs fail status. We recommend verifying page address writing 71h command. If error occurs in (N-1) page address, error management of (N-1) page (taking the data to replacement page address) address needs to be executed after program completion of N page address. 70h command status in Cache program / 2page cache program operation status I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Note: Write protect Ready/Busy True ready/Busy* Not Used Not Used Not Used Pass/Fail (N-1) Pass/Fail (N) 1. True Ready/Busy shows Ready/Busy status of CPU. 1 Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ready: 1 Busy: 0 0 0 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 71h command status in 2page cache program operation status I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Write protect Ready/Busy Ready/Busy Bank3 Pass/Fail (N or N-1) Bank2 Pass/Fail (N or N-1) Bank1 Pass/Fail (N or N-1) Bank0 Pass/Fail (N or N-1) Pass/Fail (N or N-1) Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ready: 1 Busy: 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Rev.4.00, Jun.20.2004, page 39 of 89 HN29V1G91T-30 73h, 74h, 75h, 76h command status in Cache program / 2page cache program operation status I/O 8 I/O 7 I/O 6 I/O 5 I/O 4 I/O 3 I/O 2 I/O 1 Write protect Ready/Busy Program/Erase ECC check (N or N-1) Erase check (N or N-1) Program check (N or N-1) Not Used Pass/Fail (N-1) Pass/Fail (N) Output Protect: 0 Not Protect: 1 Ready: 1 Busy: 0 Ecc available: 1 Ecc Not available: 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 0 Pass: 0 Fail: 1 Pass: 0 Fail: 1 Rev.4.00, Jun.20.2004, page 40 of 89 HN29V1G91T-30 Reset operation This device can enter standby mode interrupting each operation mode by writing FFh command (reset command) during each operation. Page address data during program operation, block data during erase operation are not guaranteed after completing reset operation. Reset operation in the Cache program (R/B = Ready, True R/B = Busy) I/O 80h 15h FFh R/B tRSTP Reset operation in the Cache program (R/B = Ready, True R/B = Busy) I/O 80h 15h R/B RES tRSTP tRSTP min Reset operation in the Erase Verify I/O 60h D2h/D3h FFh R/B tRSTEV Reset operation in the Erase Verify I/O 60h D2h/D3h R/B RES tRSTEV tRSTEV min Rev.4.00, Jun.20.2004, page 41 of 89 HN29V1G91T-30 Reset operation in the Program I/O 80h/85h R/B 10h/15h FFh 00h Program busy Program start tRSTP Reset operation in the Erase I/O 60h R/B D0h Erase busy Erase start FFh 00h tRSTE Reset operation in the Read I/O 00h R/B 30h/31h/35h Read busy Read start FFh 00h tRSTR This device can enter deep standby mode interrupting each operation mode by making RES pin low during each operation. Page address data during program operation, block data during erase operation are not guaranteed after completing reset operation. Reset operation in the Program I/O 80h/85h R/B 10h/15h Program busy Program start tRSTP RES *1 tRSTP min Note: 1. Power on sequence. Rev.4.00, Jun.20.2004, page 42 of 89 HN29V1G91T-30 Reset operation in the Erase I/O R/B 60h D0h Erase busy Erase start tRSTE tRSTE min *1 RES Note: 1. Power on sequence. Reset operation in the Read I/O R/B 00h 30h/31h/35h Read busy Read start tRSTR tRSTR min *1 RES Note: 1. Power on sequence. Rev.4.00, Jun.20.2004, page 43 of 89 HN29V1G91T-30 Usage for WP WP at the low level prohibits the erase operation and the program operation. When use WP, use it as follows. Program operation WE I/O 80h/85h 10h/15h WP R/B tWWS tWWH Prohibition of the Program operation WE I/O 80h/85h 10h/15h WP R/B tWWS tWWH Rev.4.00, Jun.20.2004, page 44 of 89 HN29V1G91T-30 Erase operation WE I/O 60h D0h/D2h/D3h WP R/B tWWS tWWH Prohibition of the Erase operation WE I/O 60h D0h/D2h/D3h WP R/B tWWS tWWH Rev.4.00, Jun.20.2004, page 45 of 89 HN29V1G91T-30 Status Transition PRE=L Power On Power On & Power On Read Power On Read 2nd Access State FFH or 2Kbyte Read Deep Standby (RES=L) VCC PRE=H Power Off Reset Operation RE Dout Any Operation State RES =HL Reset Operation Operation Deep Standby End Status Register Read Any State 70H to 76H Status Read State RE Status Output 7Fh ID Read 90H ID Read Setup RE Manufacture Code RE Device Code Any Command Input ID Read Operation End Read Address Setup 00H Address CA1 CA1 CA2 CA2 RA1 RA1 RA2 Input Setup Setup Setup Setup FFH Memory Read Access Operation 30H, 31H 1st Access 1st Access End FFH WE Input (Not Status Command) 2nd Access State End 2nd Access SRAM Read Access State RE Dout Copy Back Program Operation1 (Read) Standby (RES=H, CE=H) CE Output disable (CE=L) 35H 1st Access 1st Access 2nd Access SRAM Read Access End State RE Dout FFH WE Input (Not Status Command) 2nd Access State End Random Output Setup 06H Address CA1 CA1 CA2 CA2 RA1 RA1 RA2 Input Setup Setup Setup Setup FFH Random Output Setup2 05H Address CA1 CA1 CA2 Input Setup Setup FFH Random Output Operation E0H 2nd Access WE Input State2 2nd Access State End SRAM Read Access RE Dout Deplete Recovery Operation 38H FFH Operation End Deplete Recovery : BUSY Status Rev.4.00, Jun.20.2004, page 46 of 89 HN29V1G91T-30 Erase Address Setup Erase Verify Address Setup 60H Address RA1 RA1 RA2 Input Setup Setup FFH D0H Erase Operation Erase (Program Data input available) FFH Operation End Erase Verify Operation D2H D3H FFH Operation End Erase Verify Program Address Setup CE 80H Standby (RES=H, CE=H) Output disable (CE=L) 80H Address CA1 CA1 CA2 CA2 RA1 RA1 RA2 Input Setup Setup Setup Setup FFH Random Data Input Setup 85H 85H Address CA1 CA1 CA2 Input Setup Setup Din is need at lowest 1Cycle FFH RA2/CA2 Setup Data Input State 11H Dummy Busy Copy Back Program Operation2 (Program) Data Recovery Program Setup 85H 85H Address CA1 CA1 CA2 CA2 RA1 RA1 RA2 Input Setup Setup Setup Setup FFH Program Operation FFH FFH Operation End Program 10H Cache Program Operation Cache Program Standby True Busy State FFH Operation End Program 15H WE Din : BUSY Status Rev.4.00, Jun.20.2004, page 47 of 89 HN29V1G91T-30 Absolute Maximum Ratings Parameter VCC voltage VSS voltage All input and output voltage Operating temperature range Storage temperature range Symbol VCC VSS Vin, Vout Topr Tstg Value -0.6 to +4.6 0 -0.6 to +4.6 0 to +70 -25 to +85 Unit V V V C C 3 1, 2 Notes 1 Notes: 1. Relative to VSS. 2. Vin/Vout = -2.0 V for pulse width with 20ns or less. 3. Device Storage temperature before programming. Capacitance Parameter Input capacitance Output capacitance Symbol Cin Cout Min Typ Max 6 10 Unit pF pF Test conditions Vin = 0 V, Ta = +25C, f = 1 MHz Vout = 0 V, Ta = +25C, f = 1 MHz Valid Block Parameter Valid Block Number Bank0 Bank1 Bank2 Bank3 Symbol NVB0 NVB1 NVB2 NVB3 Min 8029 8029 8029 8029 Typ Max 8192 8192 8192 8192 Unit blocks blocks blocks blocks Spare Block Parameter Spare Block Number Bank0 Bank1 Bank2 Bank3 Symbol NSB0 NSB1 NSB2 NSB3 Min 145 145 145 145 Typ Max Unit blocks blocks blocks blocks Rev.4.00, Jun.20.2004, page 48 of 89 HN29V1G91T-30 DC Characteristics (VCC = 2.7 V to 3.6 V, Ta = 0 to +70C) Parameter Operating VCC voltage Operating VCC current (Read) Operating VCC current (Program) Operating VCC current (Erase) Standby current (TTL) Symbol Min VCC ICC1 ICC2 ICC3 ICC4 ICC5 ICC6 ISB1 2.7 Typ Max 3.3 3.6 10 15 10 20 10 15 20 30 20 30 20 30 1 Unit Test conditions V mA tRC = 50 ns, CE = ViL, Iout = 0 mA mA tRC = 35 ns, CE = ViL, Iout = 0 mA mA Single Bank Operation mA Multi Bank Operation mA Single Bank Operation mA Multi Bank Operation mA CE = ViH WP = VSS 0.2 V / VCC 0.2 V PRE = VSS 0.2 V / VCC 0.2 V RES = VCC 0.2 V A CE = VCC - 0.2 V, WP = VSS 0.2 V / VCC 0.2 V PRE = VSS 0.2 V / VCC 0.2 V RES = VCC 0.2 V RES = VSS 0.2 V, WP = VSS 0.2 V / VCC 0.2 V PRE = VSS 0.2 V/ VCC 0.2 V Vin = 0 to 3.6 V Vin = 0 to 3.6 V Standby current (CMOS) ISB2 10 50 Deep Standby current (CMOS) ISB3 5 A Input Leakage Current Output Leakage Current Input voltage ILi ILo ViH ViL ViHD ViLD 2.0 -0.3 VCC - 0.2 -0.2 2.4 8 10 10 0.8 A A V VCC + 0.3 V VCC + 0.2 V +0.2 0.4 V V V IOH = -400 A IOL = 2.1 mA Input voltage (RES, WP, PRE) Output High voltage Level Output Low voltage Level Output Low Current (R/B) VoH VOL IOL(R/B) 5 mA VOL = 0.4 V Rev.4.00, Jun.20.2004, page 49 of 89 HN29V1G91T-30 AC Characteristics (VCC = 2.7 V to 3.6 V, Ta = 0 to +70C) Test Conditions * * * * Input pulse levels: 0.4 to 2.4 V Input rise and fall time: 3 ns Input and output timing levels: 1.5 V / 1.5 V Output load: 1TTL GATE and 50 pF (3.0 V 10%) 1TTL GATE and 100 pF (3.3 V 10%) AC Timing Characteristics for Command / Address / Data Input Parameter CLE Setup Time CLE Hold Time CE Setup Time CE Hold Time WE Pulse Width ALE Setup Time ALE Hold Time Data Setup Time Data Hold Time Write cycle Time WE High Hole Time CE High to WE low setup time WE High to CE low hold time CE High to RE low setup time RE High to CE low hold time Note: Symbol Min tCLS tCLH tCS tCH tWP tALS tALH tDS tDH tWC tWH tCHWS tWHCH tCHRS tRHCH 0 9 0 6 15 0 6 9 9 33 12 5 5 5 5 Typ Max Unit ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns 1 Note 1. If tCS is set less than 5 ns, tWP must be minimum 20 ns. Otherwise, tWP is minimum 15 ns. Rev.4.00, Jun.20.2004, page 50 of 89 HN29V1G91T-30 AC Timing Characteristics for Operation Parameter Data Transfer from Cell to Register ALE to RE Delay (ID Read) ALE to RE Delay (Read cycle) CLE to RE Delay (Read cycle) Ready to RE Low RE Pulse Width WE High to Busy Read cycle time RE Access Time CE Access Time RE High to Output Hi-Z CE High to Output Hi-Z RE High Hold Time Output Hi-Z to RE Low WE High to RE Low Device Resetting Time Read Program Erase Erase Verify Device recovery Power on busy Time VCC Setup time to Reset VCC to Ready Reset to Busy WP setup time to WE High WP hold time to WE High CE setup time to Deep standby Note: Symbol tR tAR1 tAR2 tCLR tRR tRP tWB tRC tREA tCEA tRHZ tCHZ tREH tIR tWHR tRSTR tRSTP tRSTE tRSTEV tRSTDR tPON tVRS tVRDY tBSY tWWS tWWH tCSD Min 20 30 6 20 20 35 10 0 10 0 50 100 15 15 100 Typ Max 120 100 20 25 20 20 20 70 400 30 350 200 100 100 Unit Note s ns ns ns ns ns ns ns ns ns ns ns ns ns ns s s s s s s s s ns ns ns ns 1 1 1. The time until it becomes Hi-Z depends on the earliest signal which CE and RE go to high. Rev.4.00, Jun.20.2004, page 51 of 89 HN29V1G91T-30 Timing Waveform Command Latch Cycle Address Latch Cycle Rev.4.00, Jun.20.2004, page 52 of 89 HN29V1G91T-30 Input Data Latch Cycle Serial Access Cycle after Read (CLE = L, WE = H, ALE = L) Note: 1. The time until it becomes Hi-Z depends on the earliest signal which CE and RE go to high. Rev.4.00, Jun.20.2004, page 53 of 89 HN29V1G91T-30 Invalid input cycle CE tCHWS tWHCH ALE CLE WE I/O1 to I/O8 DIN (Invalid) VIH or VIL Invalid output cycle CE tCHRS tRHCH ALE CLE RE I/O1 to I/O8 VIH or VIL Rev.4.00, Jun.20.2004, page 54 of 89 HN29V1G91T-30 Status Read Cycle Note: 1. 70h: 72h: 71h: 73h: 74h: 75h: 76h: Single Bank operation Status Single Bank operation Error Status Multi Bank operation Status Multi Bank operation / Bank0 Error Status Multi Bank operation / Bank1 Error Status Multi Bank operation / Bank2 Error Status Multi Bank operation / Bank3 Error Status Rev.4.00, Jun.20.2004, page 55 of 89 HN29V1G91T-30 Read Operation Rev.4.00, Jun.20.2004, page 56 of 89 HN29V1G91T-30 Read Operation (Intercepted by CE) tCLR CLE CE tWC WE tWB ALE tR tAR2 tCHZ RE tRC tRR I/Ox R/B 00h CA1 CA2 RA1 RA2 30h DOUTN Busy DOUTN+1 DOUTN+2 Column address N Row address Rev.4.00, Jun.20.2004, page 57 of 89 Note: tCLR HN29V1G91T-30 CLE Random Data Output in a Page Rev.4.00, Jun.20.2004, page 58 of 89 tWB tAR2 tWHR tR tRC tRR CA1 Column address N Row address CE WE ALE 1. The head column address can be specified over and over. CA2 RA1 RA2 30h DOUT N DOUT N+1 RE I/Ox 00h 05h CA1 CA2 Column address M E0h DOUT M DOUT M+1 R/B Busy *1 HN29V1G91T-30 Multi Bank Read tWHR 05h CA1 CA2 E0h DOUT L DOUT M DOUT K Column address *3 Column address Row address Column address Row address tWHR tR 00h CA1 CA2 RA1 RA2 31h 06h CA1 CA2 RA1 RA2 E0h DOUT J tWC I/Ox CE WE RE Notes: 1. A maximum 4 bank from Bank0 to Bank3 can be repeated. 2. Read out specified bank. 3. It is repeated over and over within the same page setup. Rev.4.00, Jun.20.2004, page 59 of 89 CLE ALE R/B *1 *2 HN29V1G91T-30 Page program Operation Rev.4.00, Jun.20.2004, page 60 of 89 Note: HN29V1G91T-30 Rev.4.00, Jun.20.2004, page 61 of 89 tWC tWC tWB tPROG CA1 Serial input Serial Data input command CA2 DIN M DIN N CLE CE tWC Page Program Operation with Random Data Input WE ALE 1. It is repeated over and over within the same page setup. 85h CA1 CA2 Column address *1 DIN J DIN K RE I/Ox RA1 RA2 Row address 80h 10h Serial input Busy 70h I/O1 Serial Data Column input command address R/B HN29V1G91T-30 Multi Bank Program (1/2) Note: 1. A maximum 4 bank from Bank0 to Bank3 can be repeated. Rev.4.00, Jun.20.2004, page 62 of 89 HN29V1G91T-30 Multi Bank Program (2/2) CLE Rev.4.00, Jun.20.2004, page 63 of 89 tWB tDBSY tWB tPROG DIN N CE WE ALE RE I/Ox 80h CA1 CA2 RA1 RA2 Column address Row address DIN M 11h DIN M DIN N 10h 71h I/O1 Program data Bank2 Bank3 R/B (1) Note: HN29V1G91T-30 CLE CE Rev.4.00, Jun.20.2004, page 64 of 89 tWB tDBSY DIN M DIN N tWC Multi Bank Program Operation with Random Data Input (1/2) 1. Maximum three times repeatable. 85h CA1 CA2 Column address DIN J DIN K WE ALE RE I/Ox Column address Program data Row address 80h CA1 CA2 RA1 RA2 11h 80h CA1 CA2 RA1 RA2 Column address Row address R/B last bank *1 (1) HN29V1G91T-30 Multi Bank Program Operation with Random Data Input (2/2) Note: 1. Maximum three times repeatable. Rev.4.00, Jun.20.2004, page 65 of 89 Cache Program HN29V1G91T-30 CLE Rev.4.00, Jun.20.2004, page 66 of 89 tWC tWB tCBSY tWB tCPROG DIN M DIN N CE tWC WE ALE RE I/Ox 15h Program command (Dummy) Column address Column address Program data Row address 80h CA1 CA2 RA1 RA2 80h CA1 CA2 RA1 RA2 Row address DIN M DIN N 10h Program data Program command (True) 70h I/O R/B *1 *2 Notes: 1. There is no limitation in the number of Page address which can specify consecutively. 2. Don't specify a Page address inside the same bank consecutively. last page Note: tWC tWC HN29V1G91T-30 2 Page Cache Program (1/2) CLE CE Rev.4.00, Jun.20.2004, page 67 of 89 tWB tDBSY tWB tCBSY DIN M DIN N tWC WE ALE RE I/Ox 80h CA1 CA2 RA1 RA2 Column address Row address Column address Row address Program data Program command (Dummy) 80h CA1 CA2 RA1 RA2 11h DIN M' DIN N' 15h Program command (Dummy) 80h CA1 CA2 RA1 RA2 Column address Row address Program data 1. Don't specify a Page address inside the same bank consecutively. 1st page 2nd page 3rd page *1 (1) R/B HN29V1G91T-30 2 Page Cache Program (2/2) CLE CE tWC tWC Rev.4.00, Jun.20.2004, page 68 of 89 tWB tDBSY tWB tCPROG 80h CA1 CA2 RA1 RA2 Column address Row address Program data Program command (Dummy) Column address DIN M'' DIN N'' WE tCBSY ALE RE I/Ox 11h 80h CA1 CA2 RA1 RA2 Row address DIN M''' DIN N''' 10h Program data Program command (True) 70h I/O R/B 3rd page 4th page 2nd page (1) HN29V1G91T-30 Copy Back Program Operation Rev.4.00, Jun.20.2004, page 69 of 89 HN29V1G91T-30 Copy Back Program with Data Output (1/2) Rev.4.00, Jun.20.2004, page 70 of 89 HN29V1G91T-30 Copy Back Program with Data Output (2/2) Note: 1. Updating copy data Rev.4.00, Jun.20.2004, page 71 of 89 HN29V1G91T-30 Multi Bank Copy Back Program (1/3) (1) tWHR DOUT K 05h CA1 CA2 E0h DOUT M DOUT N tWHR tWB tR 00h CA1 CA2 RA1 RA2 35h 06h CA1 CA2 RA1 RA2 E0h DOUT J Column address Row address *2 R/B *1 *3 00h CA1 CA2 RA1 RA2 tWC Notes: 1. 2. 3. 4. Specifying the address of a source of copy. Specifying the address of a source of copy. A maximum 4 bank can be specified. Read out the data of a source of copy. Rev.4.00, Jun.20.2004, page 72 of 89 CLE ALE I/Ox CE WE RE Column address Row address *4 HN29V1G91T-30 Multi Bank Copy Back Program (2/3) Note: 1. Updating a source data which did Copy Back Read. Specifying Page address for post-copy. Rev.4.00, Jun.20.2004, page 73 of 89 HN29V1G91T-30 Multi Bank Copy Back Program (3/3) tWB tPROG 85h CA1 CA2 DIN V DIN W DIN X 10h Program data Column address 71h I/O1 85h CA1 CA2 RA1 RA2 DIN U Column address Row address *1 R/B (2) tDBSY Note: 1. Updating a source data which did Copy Back Read. Specifying Page address for post-copy. Rev.4.00, Jun.20.2004, page 74 of 89 CLE ALE I/Ox CE WE RE 11h HN29V1G91T-30 Program Data Input in Erase busy Rev.4.00, Jun.20.2004, page 75 of 89 HN29V1G91T-30 Block Erase Operation Rev.4.00, Jun.20.2004, page 76 of 89 HN29V1G91T-30 Multi Bank Block Erase Note: 1. Possible to specify maximum 4 Bank from Bank 0 to Bank3. Rev.4.00, Jun.20.2004, page 77 of 89 HN29V1G91T-30 Page mode Erase Verify Block mode Erase Verify Rev.4.00, Jun.20.2004, page 78 of 89 HN29V1G91T-30 Multi Bank Page mode Erase verify Note: 1. Possible to specify maximum 4 Bank from Bank 0 to Bank3. Rev.4.00, Jun.20.2004, page 79 of 89 HN29V1G91T-30 Multi Bank Block mode Erase verify Note: 1. Possible to specify maximum 4 Bank from Bank 0 to Bank3. Rev.4.00, Jun.20.2004, page 80 of 89 HN29V1G91T-30 Read ID Operation Rev.4.00, Jun.20.2004, page 81 of 89 HN29V1G91T-30 Power on Auto Read VCC = 2.7 V VCC tCEA CE CLE ALE WE tVRS WP PRE RES tVRDY R/B tBSY tPON+tR tRR tVRS tREA RE I/O Rev.4.00, Jun.20.2004, page 82 of 89 HN29V1G91T-30 Power on and off sequence VCC 2.7 V 2.7 V CE, WE, RE don t care don t care WP CLE, ALE PRE tVRS tVRS RES tVRDY R/B invalid tPON tBSY operation don t care Rev.4.00, Jun.20.2004, page 83 of 89 HN29V1G91T-30 Deep Standby Mode Standby state Deep standby state Power on state Standby state CE tCSD 100 ns min RES tBSY R/B tPON Operation state Deep standby state Power on state Standby state CE tVRS tRST min RES tBSY tRST R/B tPON Rev.4.00, Jun.20.2004, page 84 of 89 HN29V1G91T-30 Notes on usage 1. Prohibition of undefined command input The commands listed in the command definition can only be used in this device. It is prohibited to issue a command that is not defined in the list. If an undefined command is issued, the data held in the device may be lost. Only the commands defined can be issued, in only defined timings. Otherwise, illegal operations may occur. 2. Limitation of command input in the busy state In the busy state, following two commands are acceptable. Do not issue any other command except below two commands. * Status read 70h, 71h, 72h, 73h, 74h, 75h, 76h * Read command FFh 3. Commands limitation after commands (80h, 85h) are input at the first cycle of a program After commands (80h, 85h) are input at the first cycle of a program, only the second cycle of the program commands (10h, 11h, 15h) and reset command (FFh) can be used. After a command 80h or 85h is input, the commands are prohibit. 4. R/B (Ready/busy) pin handing R/B is an open-drain output pin, and it should be pulled up to VCC with a resistance (more than 2k). 5. Notes on RE signal If the RE clock is sent before the address is input, the internal read operation may start unintentionally. Be sure to send the RE clock after the address is input. If the RE clock is input after the data of the last address is read during the read operation, invalid data is output. 6. Notes on Address taking This product takes the address data by four cycles, and when five cycles or more are input, the address data since the fifth cycle becomes invalid. 7. Deep standby mode During command waiting or standby state, when RES pin goes to low, the device transfers to deep standby state. When RES goes to high, the device returns form the deep standby state. During command execution, going RES low stops command operation. If RES goes to low during Rev.4.00, Jun.20.2004, page 85 of 89 HN29V1G91T-30 erase/program/read operation, the command operation is forced to terminate and the applied page data is not guaranteed. 8. Notes on the power supply down Please do not turn off a power supply in erase busy operation. It is required to take the following measures on system side for expected power down. When the power down is recognized to have occurred during erase busy operation, device recovery mode after the power on. The data in other blocks are protected, though the data in the applied block is invalid, by doing this. Busy tDRC 00h CA1 CA2 RA3 RA4 38h R/B I/O 00h CA1 CA2 RA1 RA2 38h Busy tDRC Address input Notes: 1. Please input any address for CA1 and CA2. Input an arbitrary address to CA1 and CA2. 2. The address input is necessary for RA1 and RA2 and RA4. Input 00h respectively. For RA3, input 04h. 3. Busy time (tDRC) is as follows. When the data protect operation is unnecessary, end at the typ time in normal operation. When the data protect operation is executed, the time of 100ms or less is needed. 4. This protect operation is pause to input FF command or RES = L. In case of this pause, the protect operation is not guaranteed. typ tDRC 890s max 100ms R/B I/O 00h CA1 CA2 RA1 RA2 38h FFh tRSTDR =350s max R/B I/O RES 350s min 00h CA1 CA2 RA1 RA2 38h tRSTDR =350s max Rev.4.00, Jun.20.2004, page 86 of 89 HN29V1G91T-30 9. Unusable Block Initially, the HN29V1G91T includes unusable blocks. The usable blocks must be distinguished from the usable blocks bye the system as follows. 1. Confirm the blocks which cannot be used after mounting on the system. The following data is written on each page of the blocks which can be used. One block is composed of two pages, and following data is written in both pages commonly (Refer to "The Unusable Blocks Indication Flow"). Initial Data of Usable Pages Column address Data 0h to 81Fh FFh 820h 1Ch 821h 71h 822h C7h 823h 1Ch 824h 71h 825h C7h 826h to 83Fh FFh 2. Do not Program and Erase to the partial invalid blocks by the system. Start k=0 m=0 n=0 Page number = (8k + m + n) NO Check data *1 YES n=n+4 Bad block *2 NO Check data *1 YES m=m+1 NO m=4 YES k=k+1 NO k = 8192 YES END Notes: 1. Refer to table "Initial data of usable pages". 2. Bad pages are installed in system. The Unusable Blocks Indication Flow Rev.4.00, Jun.20.2004, page 87 of 89 HN29V1G91T-30 10. Measures for don't care in timing waveforms for Program Data Input in Erase Busy The timing waveforms in any mode is specified "Don't care", during CE = H other control signals become "Don't care". When CE = H, specify ALE and CLE = H, WE and RE = H. 11. Status read during read mode (data output) Input the status mode reset command (7Fh), when the device returns to the read mode, after the status read is executed the status read command (70h), during the busy status in the read mode. 12. Status read during read mode (data output) The memory data cannot be output only by the RE clock, after the transition from the status read mode to the read mode by the 7Fh, when the device is set to the status read mode during the data output, in the read mode. In this case, 06h command, column address, page address and E0h command must be input to the read operation. 13. Status read in Multibank program mode When execute status read during a dummy busy period after input command 11h in multibank program, judge only Ready/Busy. Rev.4.00, Jun.20.2004, page 88 of 89 HN29V1G91T-30 Package Dimensions HN29V1G91T-30 (TFP-48DA) 12.00 12.40 Max 48 As of January, 2003 Unit: mm 25 1 0.50 *0.22 0.08 0.08 M 0.20 0.06 0.45 Max 1.20 Max 24 *0.17 0.05 0.125 0.04 18.40 0.80 20.00 0.20 0 - 8 0.05 0.05 0.50 0.10 Package Code JEDEC JEITA Mass (reference value) TFP-48DA Conforms Conforms 0.52 g 0.10 *Dimension including the plating thickness Base material dimension Rev.4.00, Jun.20.2004, page 89 of 89 Revision History Rev. Date HN29V1G91T-30 Data Sheet Contents of Modification Page Description Initial issue Add the explanation to the block replacement Add the note for Power on auto Read Enable using Add the Device Recovery Add the two figures Add the correspondence when the erase error occurred in Program Data input in Erase Busy mode Change degree of Storage Temperature range Change IOL (R/B) Min 8 to 5 Add to the AC character, tCHWS, tWHCH, tCHRS, tRHCH Add to the AC character, tWWS, tWWH, tCSD Add the four items to the Notes on usage, No10 to 13 Change of the description of transfer rate Change of Operating voltage Change of the figure of Pin Arrangement Change of the description of Chip Enable Change of the description of Page Read Change of the figure of Multi Bank Read Change of the figure of Multi Bank Page Program Change of the figure of Multi Bank Page Program Random Data Input in a Page Change of the figure of Copy Back Program Change of the figure of Copy Back Program with Random Data Input in a Page Change of the figure of Data Recovery Read Change of the figure of To program, erase next, then update the data, and then re-programming. Change of the figure of Program Data input in Erase Busy (recommend pattern when error occurred) Multi Bank Mode Change of 70h command status in single bank operation Change of 71h command status in 2page cache program operation Change of 73h, 74h, 75h, 76h command status in Cache program/2page cache program operation Change of the figure of Reset operation in the Cache program (R/B = Ready, True R/B = Busy) Change of the figure of Reset operation in the Erase Verify Change of the figure of Reset operation in the Program Change of the figure of Reset operation in the Erase Change of the figure of Reset operation in the Read ISB1, ISB2, ISB3: Change of Test conditions IOL(R/B) Typ: 10 mA to 8 mA tWP: Addition of Note1 tVRS, tBSY: Change of Unit Change of the figure of Read Operation (Intercepted by CE) Change of the figure of Multi Bank Program (2/2) Change of the figure of Deep Standby Mode Notes on usage: Change of 1., 2. 2 7 9 28 31 48 49 50 51 88 0.01 0.02 Jun. 19, 2003 Oct. 06, 2003 0.03 Nov. 28, 2003 2 2 3 6 10 13 17 18 21 22 26 28 31 35 39 40 41 41 42 43 43 49 49 50 51 57 63 84 85 Rev. Date Contents of Modification Page Description Deletion of Preliminary Change of the description of Wear leveling Tstg: 0C/+70C to -25C/+125C Notes on usage: Change of 8. VCC: 2.7 V/3.6 V to 3.0 V/3.6 V Tstg: -25C/+125C to -25C/+85C VCC: 3.0 V/3.6 V to 2.7 V/3.6 V tR Max (1st access time): 100s to120s Program/Erase Characteristics tPROG Max: 1ms to 2.4ms tCPROG Max: 2ms to 4.8 ms tCBSY Max: 1000s to 2400s tBERS Max: 2.4ms to 20ms Notes on usage: Change of 8. Notes: 2., 4. Change of description "The address input is necessary for RA1 and RA2. Input 00h respectively." to "The address input is necessary for RA1 and RA2 and RA4. Input 00h respectively." "For RA3 and RA4, input 04h respectively." to "For RA3, input 04h." "Before confirmation of this command, the protect operation is not guaranteed." to "In case of this pause, the protect operation is not guaranteed." AC Characteristics tVRS Min: 20s to 100s tVRDY Max: 20s to 100s 2 48 86 48 1, 51 8 1.00 Dec. 08, 2003 2.00 3.00 Dec. 19, 2003 Jun. 03, 2004 86 4.00 Jul. 20, 2004 51 Sales Strategic Planning Div. Keep safety first in your circuit designs! Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan 1. Renesas Technology Corp. puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap. Notes regarding these materials 1. These materials are intended as a reference to assist our customers in the selection of the Renesas Technology Corp. product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Renesas Technology Corp. or a third party. 2. Renesas Technology Corp. assumes no responsibility for any damage, or infringement of any third-party's rights, originating in the use of any product data, diagrams, charts, programs, algorithms, or circuit application examples contained in these materials. 3. All information contained in these materials, including product data, diagrams, charts, programs and algorithms represents information on products at the time of publication of these materials, and are subject to change by Renesas Technology Corp. without notice due to product improvements or other reasons. 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