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| X25041 4K X25041 SPI Serial E2PROM with Block LockTM Protection DESCRIPTION 512 x 8 Bit FEATURES * * * * * * * * * * * 1MHz Clock Rate SPI Modes (0,1 & 1,0) 512 X 8 Bits --4 Byte Page Mode Low Power CMOS --150A Standby Current --3mA Active Current 2.7V To 5.5V Power Supply Block Lock Protection --Protect 1/4, 1/2 or all of E2PROM Array Built-in Inadvertent Write Protection --Power-Up/Power-Down protection circuitry --Write Latch --Write Protect Pin Self-Timed Write Cycle --5ms Write Cycle Time (Typical) High Reliability --Endurance: 100,000 cycles per byte --Data Retention: 100 Years --ESD protection: 2000V on all pins 8-Lead PDlP Package 8-Lead SOIC Package The X25041 is a CMOS 4096-bit serial E2PROM, internally organized as 512 x 8. The X25041 features a Serial Peripheral Interface (SPI) and software protocol allowing operation on a simple three-wire bus. The bus signals are a clock input (SCK) plus separate data in (SI) and data out (SO) lines. Access to the device is controlled through a chip select (CS) input, allowing any number of devices to share the same bus. The X25041 also features two additional inputs that provide the end user with added flexibility. By asserting the HOLD input, the X25041 will ignore transitions on its inputs, thus allowing the host to service higher priority interrupts. The WP input can be used as a hardwire input to the X25041 disabling all write attempts, thus providing a mechanism for limiting end user capability of altering the memory. The X25041 utilizes Xicor's proprietary Direct WriteTM cell, providing a minimum endurance of 100,000 cycles per byte and a minimum data retention of 100 years. FUNCTIONAL DIAGRAM STATUS REGISTER WRITE PROTECT LOGIC X DECODE LOGIC 32 SO SI SCK CS HOLD COMMAND DECODE AND CONTROL LOGIC 32 512 BYTE ARRAY 32 X 32 32 X 32 64 64 X 32 WP WRITE CONTROL AND TIMING LOGIC 4 8 Y DECODE DATA REGISTER 6556 FHD F01 Characteristics subject to change without notice Direct WriteTM and Block LockTM Protection is a trademark of Xicor, Inc. (c)Xicor, Inc. 1995, 1996 Patents Pending 6556-1.2 6/10/96 T6/C1/D0 NS 1 X25041 PIN DESCRIPTIONS Serial Output (SO) SO is a push/pull serial data output pin. During a read cycle, data is shifted out on this pin. Data is clocked out by the rising edge of the serial clock. Serial Input (SI) SI is the serial data input pin. All opcodes, byte addresses, and data to be written to the memory are input on this pin. Data is latched by the falling edge of the serial clock. Serial Clock (SCK) The Serial Clock controls the serial bus timing for data input and output. Opcodes, addresses, or data present on the SI pin are latched on the falling edge of the clock input, while data on the SO pin change after the rising edge of the clock input. Chip Select (CS) When CS is HIGH, the X25041 is deselected and the SO output pin is at high impedance and unless an internal write operation is underway, the X25041 will be in the standby power mode. CS LOW enables the X25041, placing it in the active power mode. It should be noted that after power-up, a HIGH to LOW transition on CS is required prior to the start of any operation. Write Protect (WP) When WP is LOW, nonvolatile writes to the X25041 are disabled, but the part otherwise functions normally. When WP is held HIGH, all functions, including nonvolatile writes operate normally. WP going LOW while CS is still LOW will interrupt a write to the X25041. If the internal write cycle has already been initiated, WP going LOW will have no affect on a write. DIP/SOIC CS SO WP VSS 1 2 3 4 X25041 8 7 6 5 VCC HOLD SCK SI Hold (HOLD) HOLD is used in conjunction with the CS pin to select the device. Once the part is selected and a serial sequence is underway, HOLD may be used to pause the serial communication with the controller without resetting the serial sequence. To pause, HOLD must be brought LOW while SCK is HIGH. To resume communication, HOLD is brought HIGH, again while SCK is HIGH. If the pause feature is not used, HOLD should be held HIGH at all times. PIN CONFIGURATION 6556 FHD F02 PIN NAMES Symbol CS SO SI SCK WP VSS VCC HOLD Description Chip Select Input Serial Output Serial Input Serial Clock Input Write Protect Input Ground Supply Voltage Hold Input 6556 PGM T01 2 X25041 PRINCIPLES OF OPERATION The X25041 is a 512 x 8 E2PROM designed to interface directly with the synchronous serial peripheral interface (SPI) of many popular microcontroller families. The X25041 contains an 8-bit instruction register. It is accessed via the SI input, with data being clocked in on the falling SCK. CS must be LOW during the entire operation. Table 1 contains a list of the instructions and their codes. All instructions, addresses and data are transferred MSB first. Data input is sampled on the first falling edge of SCK after CS goes LOW. SCK is static, allowing the user to stop the clock and then resume operations. If the clock line is shared with other peripheral devices on the SPI bus, the user can assert the HOLD input to place the X25041 into a "PAUSE" condition. After releasing HOLD, the X25041 will resume operation from the point when HOLD was first asserted. Write Enable Latch The X25041 contains a "write enable" latch. This latch must be SET before a write operation will be completed internally. The WREN instruction will set the latch and the WRDI instruction will reset the latch. This latch is automatically reset upon a power-up condition and after the completion of a byte, page, or status register write cycle. Status Register The RDSR instruction provides access to the status register. The status register may be read at any time, even during a write cycle. The status register is formatted as follows: 7 X 6 X 5 X 4 X 3 BP1 2 BP0 1 WEL 0 WIP 6556 PGM T02 BP0 and BP1 are set by the WRSR instruction. WEL and WIP are read-only and automatically set by other operations. The Write-In-Process (WIP) bit indicates whether the X25041 is busy with a write operation. When set to a "1", a write is in progress, when set to a "0", no write is in progress. During a write, all other bits are set to "1". The Write Enable Latch (WEL) bit indicates the status of the "write enable" latch. When set to a "1", the latch is set, when set to a "0", the latch is reset. The Block Protect (BP0 and BP1) bits are nonvolatile and allow the user to select one of four levels of protection. The X25041 is divided into four 1024-bit segments. One, two, or all four of the segments may be protected. That is, the user may read the segments but will be unable to alter (write) data within the selected segments. The partitioning is controlled as illustrated below. Status Register Bits BP1 BP0 0 0 1 1 0 1 0 1 Array Addresses Protected None $180-$1FF $100-$1FF $000-$1FF 6556 PGM T03 Table 1. Instruction Set Instruction Name WREN WRDI RDSR WRSR READ WRITE Instruction Format* 0000 0110 0000 0100 0000 0101 0000 0001 0000 A8011 0000 A8010 Operation Set the Write Enable Latch (Enable Write Operations) Reset the Write Enable Latch (Disable Write Operations) Read Status Register Write Status Register Read Data from Memory Array beginning at selected address Write Data to Memory Array beginning at Selected Address (1 to 32 Bytes) 6556 PGM T04 *Instructions are shown MSB in leftmost position. Instructions are transferred MSB first. 3 X25041 Clock and Data Timing Data input on the SI line is latched on the falling edge of SCK. Data is output on the SO line by the rising edge of SCK. Read Sequence When reading from the E2PROM memory array, CS is first pulled LOW to select the device. The 8-bit READ instruction is transmitted to the X25041, followed by the 8-bit address. Bit 3 of the Read Data instruction contains address A8. This bit is used to select the upper or lower half of the address. After the READ opcode and address are sent, the data stored in the memory at the selected address is shifted out on the SO line. The data stored in memory at the next address can be read sequentially by continuing to provide clock pulses. The address is automatically incremented to the next higher address after each byte of data is shifted out. When the highest address is reached ($1FF) the address counter rolls over to address $000 allowing the read cycle to be continued indefinitely. The read operation is terminated by taking CS HIGH. Refer to the read E2PROM array operation sequence illustrated in Figure 1. To read the status register, the CS line is first pulled LOW to select the device followed by the 8-bit RDSR instruction. After the read status register opcode is sent, the contents of the status register are shifted out on the SO line. Figure 2 illustrates the read status register sequence. Write Sequence Prior to any attempt to write data into the X25041, the "write enable" latch must first be set by issuing the WREN instruction (See Figure 3). CS is first taken LOW, then the WREN instruction is clocked into the X25041. After all eight bits of the instruction are transmitted, CS must then be taken HIGH. If the user continues the write operation without taking CS HIGH after issuing the WREN instruction, the write operation will be ignored. To write data to the E2PROM memory array, the user issues the WRITE instruction, followed by the address and then the data to be written. This is minimally a twenty-four clock operation. CS must go LOW and remain LOW for the duration of the operation. The host may continue to write up to 4 bytes of data to the X25041. The only restriction is the 4 bytes must reside on the same page. If the address counter reaches the end of the page and the clock continues, the counter will "roll over" to the first address of the page and overwrite any data that may have been written. For the write operation (byte or page write) to be completed, CS can only be brought HIGH after bit 0 of data byte N is clocked in. If it is brought HIGH at any other time the write operation will not be completed. Refer to Figures 4 and 5 below for a detailed illustration of the write sequences and time frames in which CS going HIGH are valid. To write to the status register, the WRSR instruction is followed by the data to be written. Data bits 0, 1, 4, 5, 6 and 7 must be "0". Figure 6 illustrates this sequence. While the write is in progress following a status register or E2PROM write sequence, the status register may be read to check the WIP bit. During this time the WIP bit will be HIGH. Hold Operation The HOLD input should be HIGH (at VIH) under normal operation. If a data transfer is to be interrupted HOLD can be pulled LOW to suspend the transfer until it can be resumed. The only restriction is the SCK input must be HIGH when HOLD is first pulled LOW and SCK must also be HIGH when HOLD is released. The HOLD input may be tied HIGH either directly to VCC or tied to VCC through a resistor. 4 X25041 Operational Notes The X25041 powers-up in the following state: * The device is in the low power standby state. * A HIGH to LOW transition on CS is required to enter an active state and receive an instruction. * SO pin is high impedance. * The "write enable" latch is reset. Data Protection The following circuitry has been included to prevent inadvertent writes: * The "write enable" latch is reset upon power-up. * A WREN instruction must be issued to set the "write enable" latch. * CS must come HIGH at the proper clock count in order to start a write cycle. Figure 1. Read E2PROM Array Operation Sequence CS 0 SCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 INSTRUCTION SI 8 7 6 BYTE ADDRESS 5 4 3 2 1 0 9TH BIT OF ADDRESS DATA OUT HIGH IMPEDANCE SO 7 MSB 6556 FHD F14.1 6 5 4 3 2 1 0 Figure 2. Read Status Register Operation Sequence CS 0 SCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 INSTRUCTION SI DATA OUT HIGH IMPEDANCE SO 7 MSB 6 5 4 3 2 1 0 6556 ILL F13 5 X25041 Figure 3. Write Enable Latch Sequence CS 0 SCK 1 2 3 4 5 6 7 SI SO HIGH IMPEDANCE 6556 ILL F05.1 Figure 4. Byte Write Operation Sequence CS 0 SCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 INSTRUCTION SI 8 9TH BIT OF ADDRESS HIGH IMPEDANCE SO 7 6 BYTE ADDRESS 5 4 3 2 1 0 7 6 5 DATA BYTE 4 3 2 1 0 6556 FHD F06.1 6 X25041 Figure 5. Page Write Operation Sequence CS 0 SCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 INSTRUCTION SI 8 7 6 BYTE ADDRESS 5 4 3 2 1 0 7 6 DATA BYTE 1 5 4 3 2 1 0 9TH BIT OF ADDRESS CS 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 SCK DATA BYTE 2 SI 7 6 5 4 3 2 1 0 7 6 DATA BYTE 3 5 4 3 2 1 0 7 6 DATA BYTE 4 5 4 3 2 1 0 6556 FHD F07 Figure 6. Write Status Register Operation Sequence CS 0 SCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 INSTRUCTION SI 7 6 5 DATA BYTE 4 3 2 1 0 HIGH IMPEDANCE SO 6556 ILL F08 7 X25041 ABSOLUTE MAXIMUM RATINGS* Temperature under Bias .................. -65C to +135C Storage Temperature ....................... -65C to +150C Voltage on any Pin with Respect to VSS ......... -1V to +7V D.C. Output Current ............................................. 5mA Lead Temperature (Soldering, 10 seconds) .............................. 300C *COMMENT Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and the functional operation of the device at these or any other conditions above those listed in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. RECOMMENDED OPERATING CONDITIONS Temp Commercial Industrial Military Min. 0C -40C -55C Max. +70C +85C +125C 6556 PGM T05 Supply Voltage X25041 X25041-3 X25041-2.7 Limits 5V 10% 3V to 5.5V 2.7 to 5.5V 6556 PGM T06 D.C. OPERATING CHARACTERISTICS (Over the recommended operating conditions unless otherwise specified.) Limits Symbol Parameter ICC VCC Supply Current (Active) ISB ILI ILO VIL(1) VIH(1) VOL VOH VCC Supply Current (Standby) Min. Max. 3 Units mA A A A V V V V Input Leakage Current Output Leakage Current Input LOW Voltage Input HIGH Voltage Output LOW Voltage Output HIGH Voltage 150 10 10 -1 VCC x 0.3 VCC x 0.7 VCC + 0.5 0.4 VCC-0.8 Test Conditions SCK = VCC x 0.1/VCC x 0.9 @ 1MHz, SO = Open CS = VCC, VIN = VSS or VCC - 0.3V VIN = VSS to VCC VOUT = VSS to VCC IOL = 2mA IOH = -1mA 6556 PGM T07.1 POWER-UP TIMING Symbol tPUR(2) tPUW(2) Parameter Power-up to Read Operation Power-up to Write Operation Min. Max. 1 5 Units ms ms 6556 PGM T08 CAPACITANCE TA = +25C, f = 1MHz, VCC = 5V. Symbol COUT(2) CIN(2) Notes: Test Output Capacitance (SO) Input Capacitance (SCK, SI, CS, WP, HOLD) Max. 8 6 Units pF pF Conditions VOUT = 0V VIN = 0V 6556 PGM T09 (1) VIL min. and VIH max. are for reference only and are not tested. (2) This parameter is periodically sampled and not 100% tested. 8 X25041 EQUIVALENT A.C. LOAD CIRCUIT AT 5V VCC 5V 2.16K OUTPUT 3.07K 100pF A.C. TEST CONDITIONS Input Pulse Levels VCC x 0.1 to VCC x 0.9 Input Rise and Fall Times 10ns Input and Output Timing Level VCC x 0.5 6556 PGM T10 6556 FHD F12 A.C. CHARACTERISTICS (Over recommended operating conditions, unless otherwise specified) Data Input Timing Symbol fSCK tCYC tLEAD tLAG tWH tWL tSU tH tRI tFI tHD tCD tCS tWC(4) Data Output Timing Symbol fSCK tDIS tV tHO tRO(3) tFO(3) tLZ tHZ Parameter Clock Frequency Output Disable Time Output Valid from Clock LOW Output Hold Time Output Rise Time Output Fall Time HOLD HIGH to Output in Low Z HOLD LOW to Output in High Z Min. 0 Max. 1 500 400 300 300 100 100 Units MHz ns ns ns ns ns ns ns 6556 PGM T12.1 Parameter Clock Frequency Cycle Time CS Lead Time CS Lag Time Clock HIGH Time Clock LOW Time Data Setup Time Data Hold Time Data In Rise Time Data In Fall Time HOLD Setup Time HOLD Hold Time CS Deselect Time Write Cycle Time Min. 0 1000 500 500 400 400 100 100 Max. 1 2 2 200 200 500 10 Units MHz ns ns ns ns ns ns ns s s ns ns ns ms 6556 PGM T11.1 0 Notes: (3) This parameter is periodically sampled and not 100% tested. (4) tWC is the time from the rising edge of CS after a valid write sequence has been sent to the end of the self-timed internal nonvolatile write cycle. 9 X25041 Serial Output Timing CS tCYC SCK tV SO MSB OUT MSB-1 OUT tHO tWL LSB OUT tDIS tWH tLAG SI ADDR LSB IN 6556 FHD F09 Serial Input Timing tCS CS tLEAD SCK tSU SI MSB IN tH tRI tFI LSB IN tLAG HIGH IMPEDANCE SO 6556 FHD F10.1 10 X25041 Hold Timing CS tHD SCK tHZ SO tLZ tCD tHD tCD SI HOLD 6556 FHD F11 SYMBOL TABLE WAVEFORM INPUTS Must be steady May change from LOW to HIGH May change from HIGH to LOW Don't Care: Changes Allowed N/A OUTPUTS Will be steady Will change from LOW to HIGH Will change from HIGH to LOW Changing: State Not Known Center Line is High Impedance 11 X25041 PACKAGING INFORMATION 8-LEAD PLASTIC DUAL IN-LINE PACKAGE TYPE P 0.430 (10.92) 0.360 (9.14) 0.260 (6.60) 0.240 (6.10) PIN 1 INDEX PIN 1 0.300 (7.62) REF. 0.060 (1.52) 0.020 (0.51) HALF SHOULDER WIDTH ON ALL END PINS OPTIONAL SEATING PLANE 0.150 (3.81) 0.125 (3.18) 0.145 (3.68) 0.128 (3.25) 0.025 (0.64) 0.015 (0.38) 0.065 (1.65) 0.045 (1.14) 0.020 (0.51) 0.016 (0.41) 0.110 (2.79) 0.090 (2.29) 0.015 (0.38) MAX. 0.325 (8.25) 0.300 (7.62) TYP. 0.010 (0.25) 0 15 NOTE: 1. ALL DIMENSIONS IN INCHES (IN PARENTHESES IN MILLIMETERS) 2. PACKAGE DIMENSIONS EXCLUDE MOLDING FLASH 3926 FHD F01 12 X25041 PACKAGING INFORMATION 8-LEAD PLASTIC SMALL OUTLINE GULL WING PACKAGE TYPE S 0.150 (3.80) 0.158 (4.00) PIN 1 INDEX 0.228 (5.80) 0.244 (6.20) PIN 1 0.014 (0.35) 0.019 (0.49) 0.188 (4.78) 0.197 (5.00) (4X) 7 0.053 (1.35) 0.069 (1.75) 0.050 (1.27) 0.004 (0.19) 0.010 (0.25) 0.010 (0.25) X 45 0.020 (0.50) 0.050" TYPICAL 0 - 8 0.0075 (0.19) 0.010 (0.25) 0.016 (0.410) 0.037 (0.937) 0.250" 0.050" TYPICAL FOOTPRINT 0.030" TYPICAL 8 PLACES NOTE: ALL DIMENSIONS IN INCHES (IN PARENTHESES IN MILLIMETERS) 3926 FHD F22.1 13 X25041 ORDERING INFORMATION X25041 Device P T -V VCC Limits Blank = 5V 10% 3 = 3V to 5.5V 2.7V = 2.7V to 5.5V Temperature Range Blank = Commercial = 0C to +70C I = Industrial = -40C to +85C M = Military = -55C to +125C Package P = 8-Lead Plastic DIP S = 8-Lead SOIC Part Mark Convention X25041 X X Blank = 5V 10%, 0C to +70C I = 5V 10%, -40C to +85C D = 3V to 5.5V, 0C to +70C E = 3V to 5.5V, -40C to +85C F = 2.7V to 5.5V, 0C to +70C G = 2.7V to 5.5V, -40C to + 85C Blank = 8-Lead SOIC P = 8-Lead Plastic DIP LIMITED WARRANTY Devices sold by Xicor, Inc. are covered by the warranty and patent indemnification provisions appearing in its Terms of Sale only. Xicor, Inc. makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from patent infringement. Xicor, Inc. makes no warranty of merchantability or fitness for any purpose. Xicor, Inc. reserves the right to discontinue production and change specifications and prices at any time and without notice. Xicor, Inc. assumes no responsibility for the use of any circuitry other than circuitry embodied in a Xicor, Inc. product. No other circuits, patents, licenses are implied. U.S. PATENTS Xicor products are covered by one or more of the following U.S. Patents: 4,263,664; 4,274,012; 4,300,212; 4,314,265; 4,326,134; 4,393,481; 4,404,475; 4,450,402; 4,486,769; 4,488,060; 4,520,461; 4,533,846; 4,599,706; 4,617,652; 4,668,932; 4,752,912; 4,829, 482; 4,874, 967; 4,883, 976. Foreign patents and additional patents pending. LIFE RELATED POLICY In situations where semiconductor component failure may endanger life, system designers using this product should design the system with appropriate error detection and correction, redundancy and back-up features to prevent such an occurence. Xicor's products are not authorized for use in critical components in life support devices or systems. 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. 14 |
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