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| Preliminary CAT33C804A 4K-Bit Secure Access Serial E2PROM FEATURES s Single 3V Supply s Password READ/WRITE Protection: 1 to 8 Bytes s Memory Pointer WRITE Protection s Sequential READ Operation s 256 x 16 or 512 x 8 Selectable Serial Memory s UART Compatible Asynchronous Protocol s Commercial, Industrial and Automotive s 100,000 Program/Erase Cycles s I/O Speed: 9600 Baud -Clock Frequency: 4.9152 MHz Xtal s Low Power Consumption: -Active: 3 mA -Standby: 250 A s 100 Year Data Retention Temperature Ranges DESCRIPTION The CAT33C804A is a 4K-bit Serial E2PROM that safeguards stored data from unauthorized access by use of a user selectable (1 to 8 byte) access code and a movable memory pointer. Two operating modes provide unprotected and password-protected operation allowing the user to configure the device as anything from a ROM to a fully protected no-access memory. The CAT33C804A uses a UART compatible asynchronous protocol and has a Sequential Read feature where data can be sequentially clocked out of the memory array. The device is available in 8-pin DIP or 16-pin SOIC packages. PIN CONFIGURATION DIP Package (P) CS CLK DI DO 1 2 3 4 8 7 6 5 VCC PE ERR GND BLOCK DIAGRAM SOIC Package (J) 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 NC NC VCC PE ERR GND NC NC 5074 FHD F01 NC NC CS CLK DI DO NC NC VCC GND 64-BIT ACCESS CODE & CONTROL BLOCK SERIAL COMMUNICATION BLOCK PIN FUNCTIONS Pin Name CS DO(1) CLK DI(1) PE ERR VCC GND Function Chip Select Serial Data Output Clock Input Serial Data Input Parity Enable Error Indication Pin +3V Power Supply Ground DO CLK PE CS DI 4K-BIT EEPROM ARRAY R/W BUFFER ADDRESS DECODER INSTRUCTION REGISTER ERR INSTRUCTION DECODER ADDRESS REGISTER STATUS REGISTER MEMORY POINTER Note: (1) DI, DO may be tied together to form a common I/O. (c) 1998 by Catalyst Semiconductor, Inc. Characteristics subject to change without notice 33C804 F02 1 Doc. No. 25044-00 2/98 CAT33C804A Preliminary ABSOLUTE MAXIMUM RATINGS* Temperature Under Bias ................. -55C to +125C Storage Temperature ....................... -65C to +150C Voltage on Any Pin with Respect to Ground(1) ........... -2.0V to +VCC + 2.0V VCC with Respect to Ground ............... -2.0V to +7.0V Package Power Dissipation Capability (Ta = 25C) ................................... 1.0W Lead Soldering Temperature (10 secs) ............ 300C Output Short Circuit Current(2) ........................ 100mA RELIABILITY CHARACTERISTICS Symbol NEND(3) TDR (3) *COMMENT Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions outside of those listed in the operational sections of this specification is not implied. Exposure to any absolute maximum rating for extended periods may affect device performance and reliability. Parameter Endurance Data Retention ESD Susceptibility Latch-up Min. 100,000 100 2000 100 Max. Units Cycles/Byte Years Volts mA Reference Test Method MIL-STD-883, Test Method 1033 MIL-STD-883, Test Method 1008 MIL-STD-883, Test Method 3015 JEDEC Standard 17 VZAP(3) ILTH (3)(4) D.C. CHARACTERISTICS VCC = +3V 10%,unless otherwise specified. Limits Symbol ICC ISB VIL VIH VOL VOH ILI(5) ILO Parameter Power Supply Current (Operating) Power Supply Current (Standby) Input Low Voltage Input High Voltage Output Low Voltage Output High Voltage Input Leakage Current Output Leakage Current 2.4 2 10 -0.1 2 0.4 Min. Typ. Max. 3 250 0.8 Units mA A V V V V A A IOL = 2.1mA IOH = -400A VIN = 3.3V VOUT = 3.3V, CS = 0V Test Conditions VCC = 3.3V, CS = VCC DO is Unloaded. VCC = 3.3V, CS = 0V DI = 0V, CLK = 0V Note: (1) The minimum DC input voltage is -0.5V. During transitions, inputs may undershoot to -2.0V for periods of less than 20 ns. Maximum DC voltage on output pins is VCC +0.5V, which may overshoot to VCC + 2.0V for periods of less than 20ns. (2) Output shorted for no more than one second. No more than one output shorted at a time. (3) This parameter is tested initially and after a design or process change that affects the parameter. (4) Latch-up protection is provided for stresses up to 100 mA on address and data pins from -1V to VCC +1V. (5) PE pin test conditions: VIH < VIN < VIL Doc. No. 25044-00 2/98 2 Preliminary CAT33C804A A.C. CHARACTERISTICS VCC = +3V 10%,unless otherwise specified. Limits Symbol tCSH tD tPD tHZ(1) (2) tEW tCSL tSV tVCCS(1) fCLK Parameter CS Hold Time CLK to DO Delay CLK to DO Delay CLK to DO High-Z Delay Program/Erase Pulse Width CS Low Pulse Width ERR Output Delay VCC to CS Setup Time Clock Frequency 5 DC 4.9152 100 150 Min. 0 104 150 50 12 Typ. Max. Units ns s ns ns ms ns ns s MHz CL = 100pF CL = 100pF Test Conditions CL = 100pF VIN = VIH or VIL VOUT = VOH or VOL Note: (1) This parameter is tested initially and after a design or process change that affects the parameter. (2) tHZ is measured from the falling edge of the clock to the time when the output is no longer driven. 3 Doc. No. 25044-00 2/98 CAT33C804A Preliminary PASSWORD PROTECTION The CAT33C804A is a 4K-bit E2PROM that features a password protection scheme to prevent unauthorized access to the information stored in the device. It contains an access code register which stores one to eight bytes of access code along with the length of that access code. Additionally, a memory pointer register stores the address that partitions the memory into protected and unprotected areas. As shipped from the factory, the device is unprogrammed and unprotected. The length of the access code is equal to zero and the memory pointer register points to location zero. Every byte of the device is fully accessible without an access code. Setting a password and moving the memory pointer register to cover all or part of the memory secures the device. Once secured, the memory is divided into a read/write area and a read-only area with the entry of a valid access code. If no access code is entered, the memory is Figure 1. A.C. Timing VCC tVCCS CS divided into a read-only area and a non-access area. Figure 2 illlustrates this partitioning of the memory array. WRITE PROTECTION Another feature of the CAT33C804A is WRITE-protection without the use of an access code. If the memory pointer register is set to cover all or part of the memory, without setting the access code register, the device may be divided into an area which allows full access, and an area which allows READ-only access. To write into the READ-only area, the user can override the memory pointer register for every WRITE instruction or he can simply move the address in the memory pointer register to uncover this area, and then write into the memory. This mechanism prevents inadvertent overwriting of important data in the memory without the use of an access code. Figure 3 illustrates this partitioning of the memory array. CLK tD DI START BIT tD STOP BIT tHZ DO HIGH-Z HIGH-Z MARK DATA TIMING (1) START BIT PARITY BIT BIT TIME 104 s CHARACTER TIME @ 9600 BAUD Note: (1) If PE pin = 1. 33C804 F03 Doc. No. 25044-00 2/98 4 STOP BIT SPACE D0 D1 D2 D3 D4 D5 D6 D7 Preliminary CAT33C804A READ SEQUENTIAL To allow for convenient reading of blocks of contiguous data, the device has a READ SEQUENTIAL instruction which accepts a starting address of the block and continuously outputs data of subsequent addresses until the end of memory, or until Chip Select goes LOW. The CAT33C804A communicates with external devices via an asynchronous serial communication protocol. The data transmission may be a continuous stream of data or it can be packed by pulsing Chip Select LOW in between each packet of information. (Except for the SEQUENTIAL READ instruction where Chip Select must be held high). PIN DESCRIPTIONS CS Chip Select is a TTL compatible input which, when set HIGH, allows normal operation of the device. Any time Chip Select is set LOW, it resets the device, terminating all I/O communication, and puts the output in a high impedance state. CS is used to reset the device if an error condition exists or to put the device in a powerdown mode to minimize power consumption. It may also be used to frame data transmission in applications where the clock and data input have to be ignored from time to time. Although CS resets the device, it does not change the program/erase or the access-enable status, nor does it terminate a programming cycle once it has started. The program/erase and access-enable operations, once enabled, will remain enabled until specific disabling instructions are sent or until power is removed. Figure 2. Secure Mode ACCESS REGISTER: ACCESS CODE LENGTH: MEMORY POINTER: ACCESS CODE (1-8 BYTES) 1 TO 8 a...a 255 (x16) 511 (x8) READ-ONLY ACCESS POINTER REGISTER ADDRESS IN MEMORY a...a PASSWORD-ONLY ACCESS 0 5074 FHD F04 Figure 3. Unprotected Mode(1) ACCESS REGISTER: ACCESS CODE LENGTH: MEMORY POINTER: x...x 0 a...a 255 (x16) 511 (x8) READ/WRITE/ERASE ACCESS POINTER REGISTER ADDRESS IN MEMORY a...a READ-ONLY ACCESS 0 5074 FHD F05 Note: (1) x = DON'T CARE; a = ADDRESS BIT. 5 Doc. No. 25044-00 2/98 CAT33C804A Preliminary CLK The System Clock is a TTL compatible input pin that allows operation of the device at a specified frequency. The CAT33C804A is designed with an internal divider to produce a 9600 baud output for an input clock frequency of 4.9152 MHz. DI The Data Input pin is TTL compatible and accepts data and instructions in a serial format. Each byte must begin with "0" as a start bit. The device will accept as many bytes as an instruction requires, including both data and address bytes. Extra bits will be disregarded if they are "1"s and extra "0"s will be misinterpreted as the start bit of the next instruction. An instruction error will cause the device to abort operation and all I/O communication will be terminated until a reset is received. DO The Data Output pin is a tri-state TTL compatible output. It is normally in a high impedance state unless a READ or an ENABLE BUSY instruction is executed. Following the completion of a 16-bit or 8-bit data stream, the output will return to the high impedance state. During a program/erase cycle, if the ENABLE BUSY instruction has been previously executed, the output will stay LOW while the device is BUSY, and it will be set HIGH when the program/erase cycle is completed. DO will stay HIGH until the completion of the next instruction's opcode and, if the next instruction is a READ, DO will output the appropriate data at the end of the instruction. If the ENABLE BUSY instruction has not been previously executed, DO will stay in a high impedance state. DO will Figure 4. Program/Erase Timing (x8 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F07 ADDRESS A8-A15 ADDRESS A0-A7 DATA D0-D7 Figure 5. Program/Erase Timing (x16 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F08 ADDRESS A0-A7 DATA D8-D15 DATA D0-D7 Note: (1) DO becomes low to indicate busy status if ENBSY was previously executed. If ENBSY was not previously executed, DO will be in the High-Z condition. Doc. No. 25044-00 2/98 6 Preliminary CAT33C804A also go to the high impedance state if an error condition is detected. In the event an ENABLE BUSY instruction has not been sent, a READ STATUS register instruction can be executed. This also tells the user whether the part is in a program/erase cycle or an error condtion. When the device is in a program/erase cycle it will output an 8 bit status word. If it does not, it is in an error condition. PE The Parity Enable pin is a TTL compatible input. If the PE pin is set HIGH, the device will be configured to communicate using even parity, and if the pin is set LOW, it will use no parity. In this case, instructions or data that Figure 6. Read Timing (x8 Format) VCC include parity bits will not be interpreted correctly. Note: The PE input is internally pulled down to GND (i.e. default = no parity). As with all CMOS devices, CS, CLK and DI inputs must be connected to either HIGH or LOW, and not left floating. ERR The Error indication pin is an open drain output. If either an instruction or parity error exists, the ERR pin will output a "0" until the device is reset. This can be done by pulsing CS LOW. CLK CS OP CODE OP0-OP7 DI DATA D0-D7 DO HIGH-Z 33C804 F09 ADDRESS A8-A15 ADDRESS A0-A7 Figure 7. Read Timing (x16 Format) VCC CLK CS OP CODE OP0-OP7 DI DATA D8-D15 DO HIGH-Z DATA D0-D7 HIGH-Z 33C804 F10 ADDRESS A0-A7 7 Doc. No. 25044-00 2/98 CAT33C804A Preliminary DEVICE OPERATION INSTRUCTIONS The CAT33C804A instruction set includes 19 instructions. Six instructions are related to security or write protection: DISAC ENAC MACC OVMPR RMPR WMPR Disable Access Enable Access Modify Access Code Override Memory Pointer Register Read Memory Pointer Register Write Memory Pointer Register Seven instructions are used as control and status functions: DISBSY ENBSY EWEN EWDS NOP ORG RSR Disable Busy Enable Busy Program/Erase Enable Program/Erase Disable No Operation Select Memory Organization Read Status Register UNPROTECTED MODE As shipped from the factory, the CAT33C804A is in the unprotected mode. The access code length is set to 0, and the memory pointer is at address 00 hex. While in this mode, any portion of the E2PROM array can be read or written to without an access code. A portion of the memory may be protected from any write or clear operation by setting the memory pointer to the appropriate address via the WMPR (Write Memory Pointer Register) instruction: WMPR [address] Six instructions are READ/WRITE/ERASE instructions: ERAL ERASE READ RSEQ WRAL WRITE Clear All Locations Clear Memory Locations Read Memory Read Sequentially Write All Write memory Note: All write instructions will automatically perform a clear before writing data. Figure 8. EWEN/EWDS Timing (x8 Format) CS OP CODE OP0-OP7 DI DO HIGH-Z 5076 FHD F11 Figure 9. EWEN/EWDS Timing (x16 Format) CS OP CODE OP0-OP7 DI DO HIGH-Z 5076 FHD F11 Doc. No. 25044-00 2/98 8 Preliminary CAT33C804A As shown previously in Figure 3, memory locations below the address set in the memory pointer will be program/erase protected. Thus, unintentional clearing or writing of data in this area will be prevented, while memory locations at or above the protected area still allow full access. This protection does not apply to the ERAL and WRAL commands which are not blocked by the memory pointer. SECURE MODE As shown previously in Figure 2, in the secure mode, memory locations at or above the address set in the memory pointer allow READ-only access. Memory locations below that address will require an access code before they can be accessed. The secure mode is activated with an MACC (Modify Access Code) instruction followed by a user access code which can be one to eight bytes in length. EWEN MACC [old code][new code][new code] The ENAC instruction, along with the access code, enables access to the protected area of the device. The EWEN instruction enables execution of the program/ erase operations. This portion of the memory is otherwise inaccessible for any operation. Read-only access is allowed without the access code for memory locations at or above the address in the memory pointer. The access code can be changed by the following instruction: ENAC EWEN MACC [old access code] [old code][new code][new code] The EWEN instruction enables the device to perform program/erase operations. The new access code must be entered twice for verification. If the device already has an access code, the old access code must be entered before the new access code can be accepted. The length of the password is incorporated into the MACC portion of the instruction. Once the secure mode is activated, access to memory locations is under software control. Access (read, write, and clear instructions) to the memory locations below the address in the memory pointer is allowed only if the ENAC (Enable Access) instruction followed by the correct access code has been previously executed. ENAC EWEN WRITE [access code] [address][data] A two-tier protection scheme is implemented to protect data against inadvertent clearing or writing. To write to the memory, an EWEN (Program/Erase Enable) must first be issued. The CAT33C804A will now allow program/erase operations to be performed only on memory locations at or above the address set in the memory pointer. The remaining portion of the memory is still protected. To override this protection, an OVMPR (Override Memory Pointer Register--see Memory Pointer Register) must be issued for every program/erase instruction which accesses the protected area: ENAC EWEN OVMPR WRITE [access code] [address][ data] As an alternative to the OVMPR instruction, the WMPR (Write Memory Pointer Register) instruction may be used to move the memory pointer address to uncover the area where writing is to be performed: ENAC EWEN WMPR WRITE [access code] [address] [address ][data ] Figure 10. ERR Pin Timing CS CLK HIGH-Z ERR 5076 FHD F06 tSV 9 Doc. No. 25044-00 2/98 CAT33C804A Preliminary As shipped from the factory, the device is in the unprotected mode. The length of the access code is user selectable from a minimum of one byte to a maximum of eight bytes (> 1.84x1019 combinations). Loading a zerolength access code will disable protection. MEMORY POINTER REGISTER The memory pointer enables the user to segment the E2PROM array into two sections. In the unprotected mode, the array can be segmented between read-only and full access, while in the secure mode, the memory may be segmented between read-only access and password-only access. Three instructions are dedicated to the memory pointer operations. The first one is WMPR (Write Memory Pointer Register). This instruction, followed by an address, will load the memory pointer register with a new address. This address will be stored in the E2PROM and can be modified only by another WMPR instruction. The second instruction is OVMPR (Override Memory Pointer Register) which allows a single program/erase to be performed to memory locations below the address set in the memory pointer. This instruction allows the user to modify data in a segmented array without having to move the memory pointer. Once the operation is complete, the device returns to the protected mode. If the device is in the secure mode both of these instructions require the ENAC instruction and a valid access code prior to their execution. The third instruction is the RMPR (Read Memory Pointer Register) which will place the current contents of the register in the serial output buffer. STATUS REGISTER An eight bit status register is provided to allow the user to determine the status of the CAT33C804A. The contents of the first three bits of the register are 101 which allows the user to quickly determine the condition of the device. The next three bits indicate the status of the device; they are parity error, instruction error and RDY/ BUSY status. The last two bits are reserved for future use. CLEAR ALL AND WRITE ALL As a precaution, the ERAL instruction has to be entered twice before it is executed. This measure is required as a redundancy check on the incoming instruction for possible transmission errors. The WRAL instruction requires sending an ERAL first (this sets a flag only) and Figure 11. Erase Timing (x8 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F12 ADDRESS A8-A15 ADDRESS A0-A7 NEXT INSTRUCTION Figure 12. Erase Timing (x16 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F13 ADDRESS A0-A7 NEXT INSTRUCTION Note: (1) DO becomes low to indicate busy status if ENBSY was previously executed. If ENBSY was not previously executed, DO will be in High-Z condition. Doc. No. 25044-00 2/98 10 Preliminary CAT33C804A then the WRAL instruction. The CAT33C804A will accept the following commands: ERAL ERAL ERAL WRAL An ERAL will be executed A WRAL will be executed SYSTEM ERRORS Whenever an error occurs, be it an instruction error (unknown instruction), or parity error (perhaps caused by transmission error), the device will stop its operation. To return to normal operation, the device must be reset by pulsing CS LOW and then set back to HIGH. Resetting the device will not affect the ENAC, EWEN and ENBSY status. The error may be determined by entering the READ STATUS REGISTER (RSR) instruction immediatly following the reset. The status output is an 8-bit word with the first three bits being 101. This three bit pattern indicates that the device is functioning normally. The fourth bit is "1" if a parity error occurred. The fifth bit is a "1" if an instruction error occurred. The sixth bit is a "1" if the device is in a program/erase cycle. The last two bits are reserved for future use. The reason for the "101" pattern is to distinguish between an error conditon (DO tri-stated) and a device busy status. If an error condition exists, it will not respond to any input instruction from DI. However, if the device is in a program/erase cycle, it responds to the RSR instruction by outputting "101 00100". If RSR is executed at the end of a program/erase cycle, the output will be "101000 00". 10 1 X X X X X Both the ERAL and WRAL commands will program/ erase the entire array and will not be blocked by the memory pointer. THE PARITY BIT The UART compatible protocol supports an even parity bit if the PE pin of the device is set HIGH, otherwise, there is no parity. If PE is set LOW and the incoming instruction contains a parity bit, it may be interpreted as the stop bit. When PE is HIGH, the CAT33C804A expects a parity bit at the end of every byte. For example, the RSEQ instruction will look like this: 0 1100 1011 11 0 A15...A8 P1 0 A7...A0 P1 The device then outputs data continuously until it reaches the end of the memory. Each byte of data contains 9 bits with the ninth bit being the parity bit. The RSEQ instruction may be terminated at any time by bringing CS low; the output will then go to high impedance. PARITY ERROR INSTRUCTION RDY/BUSY ERROR STATUS FUTURE USE 5074 FHD F09 Figure 13. Asynchronous Communication Protocol CHARACTER n (1) BITS 0-7 START BIT Note: (1) Parity bit if enabled; skipped if parity disabled. CHARACTER n+1 STOP BIT 33C804 F14 11 Doc. No. 25044-00 2/98 CAT33C804A Preliminary INSTRUCTION SET DISAC Disable Access 1000 1000 MACC Modify Access Code 1101 [Length] [Old code] [New code] [New code] This instruction will lock the memory from all program/ erase operations regardless of the contents of the memory pointer. A write can be accomplished only by first entering the ENAC instruction followed by a valid access code. ENAC Enable Access 1100 0101 [Access Code] This instruction requires the user to enter the old access code, if one was set previously, followed by the new access code and a re-entry of the new access code for verification. Within the instruction format, the variable [Length] designates the length of the access code as the following: [Length] = [0] No access code. Set device to unprotected mode. [Length] = [1-8] Length of access code is 1 to 8 bytes. [Length] = [>8] Illegal number of bytes. The CAT33C804A will ignore the rest of the transmission. RMPR Read Memory Pointer Register 1100 1010 In the protected mode, this instruction, followed by a valid access code, unlocks the device for read/write/ clear access. WMPR Write Memory Pointer Register 1100 0100 1100 0100 [A15-A8] [A7-A0] (x8 organization) [A7-A0] (x16 organization) The WMPR instruction followed by 8 or 16 bits of address (depending on the organization) will move the pointer to the newly specified address. Figure 14. ERAL Timing (x8 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) OP CODE OP0-OP7 Output the content of the memory pointer register to the serial output port. OVMPR Override Memory Pointer Register NEXT INSTRUCTION 33C804 F15 Figure 15. ERAL Timing (x16 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F16 OP CODE OP0-OP7 NEXT INSTRUCTION Note: (1) DO becomes low to indicate busy status if ENBSY was previously executed. If ENBSY was not previously executed, DO will be in the High-Z condition. Doc. No. 25044-00 2/98 12 Preliminary CAT33C804A 1000 0011 ERASE Clear Memory 1100 0000 1100 0000 [A15-A8] [A7-A0] (x8 organization) [A7-A0] (x16 organization) Override the memory protection for the next instruction. READ Read Memory 1100 1001 1100 1001 [A15-A8] [A7-A0] (x8 organization) [A7-A0] (x16 organization) Output the contents of the addressed memory location to the serial port. WRITE Write Memory 1100 0001 1100 0001 [A15-A8] [A7-A0] [D7-D0] (x8 organization) [A7-A0] [D15-D8] [D7-D0] (x16 organization) Erase data in the specified memory location (set memory to "1"). After the instruction and the address have been entered, the self-timed clear cycle will start. The DO pin may be used to output the RDY/BUSY status by having previously entered the ENSBY instruction. During the clear cycle, DO will output a LOW for BUSY during this cycle and a HIGH for ready after the cycle has been completed. ERAL Clear All 1000 1001 1000 1001 Write the 8-bit or 16-bit data to the addressed memory location. After the instruction, address, and data have been entered, the self-timed program/erase cycle will start. The addressed memory location will be erased before data is written. The DO pin may be used to output the RDY/BUSY status by having previously entered the ENBSY instruction. During the program/erase cycle, DO will output a LOW for BUSY during this cycle and a HIGH for READY after the cycle has been completed. Erase the data of all memory locations (all cells set to "1"). For protection against inadvertent chip clear, the ERAL instruction is required to be entered twice. Figure 16. WRAL Timing (x8 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F17 OP CODE OP0-OP7 DATA D0-D7 NEXT INSTRUCTION Figure 17. WRAL Timing (x16 Format) CS OP CODE OP0-OP7 DI tEW DO HIGH-Z BUSY(1) 33C804 F18 OP CODE OP0-OP7 DATA D8-D15 DATA D0-D7 NEXT INSTRUCTION Note: (1) DO becomes low to indicate busy status if ENBSY was previously executed. If ENBSY was not previously executed, DO will be in the High-Z condition. 13 Doc. No. 25044-00 2/98 CAT33C804A Preliminary WRAL Write All 1000 1001 1100 0011 1000 1001 1100 0011 [D7-D0] (x8 organization) [D15-D8] [D7-D0] (x16 organization) EWEN Program/Erase Enable 1000 0001 Write one or two bytes of data to all memory locations. An ERAL will be automatically performed before the WRAL is executed. For protection against inadvertent clearing or writing of data, the ERAL instruction is required to be entered preceding the WRAL instruction. RSEQ Read Sequentially 1100 1011 1100 1011 [A15-A8] [A7-A0] (x8 organization) [A7-A0] (x16 organization) Enable program/erase to be performed on non-protected portion of memory. This instruction must be entered before any program/erase instruction will be carried out. Once entered, it will remain valid until powerdown or an EWDS (Program/Erase Disable) is executed. EWDS Program/Erase Disable 1000 0010 Disable all write and clear functions. ORG Select Memory Organization 1000 011R (where R = 0 or 1) Read memory starting from specified address, sequentially to the highest address or until CS goes LOW. The instruction is terminated when CS goes LOW. ENBSY Enable Busy 1000 0100 Set memory organization to 512 x 8 if R = 0. Set memory organization to 256 x 16 if R = 1. RSR Read Status Register 1100 1000 Enable the status indicator on DO during program/erase cycle. DO goes LOW then HIGH once the write cycle is complete. DO will go to HIGH-Z at the end of the next op code transmission. DISBSY Disable Busy 1000 0101 Output the contents of the 8-bit status register. The contents of the first three bits of the register are 101, which allows the user to quickly determine whether the device is listening or is in an error condition. The next three bits indicate parity error, instruction error and RDY/ BUSY status. The last two bits are reserved for future use. NOP No Operation 1000 0000 Disable the status indicator on DO during program/ erase cycle. No Operation. ORDERING INFORMATION Prefix CAT Device # 33C804A J Suffix I -TE13 Optional Company ID Product Number Temperature Range Blank = Commercial (0C to +70C) I = Industrial (-40C to +85C) A = Automotive (-40 to +105C)* Tape & Reel TE13: 2000/Reel Package P: PDIP J: SOIC (JEDEC) * -40C to +125C is available upon request Notes: (1) The device used in the above example is a 33C804AJI-TE13 (SOIC, Industrial Temperature, Tape & Reel) 33C804 F19 Doc. No. 25044-00 2/98 14 |
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