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CAT28C64BWA-15T

CAT28C64BWA-15T

  • 厂商:

    ONSEMI(安森美)

  • 封装:

  • 描述:

    CAT28C64BWA-15T - 64K-Bit CMOS PARALLEL EEPROM - ON Semiconductor

  • 数据手册
  • 价格&库存
CAT28C64BWA-15T 数据手册
CAT28C64B 64K-Bit CMOS PARALLEL EEPROM FEATURES s Fast read access times: s Commercial, industrial and automotive – 90/120/150ns s Low power CMOS dissipation: temperature ranges s Automatic page write operation: – Active: 25 mA max. – Standby: 100 µA max. s Simple write operation: – 1 to 32 bytes in 5ms – Page load timer s End of write detection: – On-chip address and data latches – Self-timed write cycle with auto-clear s Fast write cycle time: – Toggle bit – DATA polling DATA s 100,000 program/erase cycles s 100 year data retention – 5ms max. s CMOS and TTL compatible I/O s Hardware and software write protection DESCRIPTION The CAT28C64B is a fast, low power, 5V-only CMOS Parallel EEPROM organized as 8K x 8-bits. It requires a simple interface for in-system programming. On-chip address and data latches, self-timed write cycle with auto-clear and VCC power up/down write protection eliminate additional timing and protection hardware. DATA Polling and Toggle status bits signal the start and end of the self-timed write cycle. Additionally, the CAT28C64B features hardware and software write protection. The CAT28C64B is manufactured using Catalyst’s advanced CMOS floating gate technology. It is designed to endure 100,000 program/erase cycles and has a data retention of 100 years. The device is available in JEDECapproved 28-pin DIP, TSOP, SOIC, or, 32-pin PLCC package . BLOCK DIAGRAM A5–A12 ADDR. BUFFER & LATCHES INADVERTENT WRITE PROTECTION ROW DECODER 8,192 x 8 EEPROM ARRAY 32 BYTE PAGE REGISTER VCC HIGH VOLTAGE GENERATOR CE OE WE CONTROL LOGIC I/O BUFFERS TIMER DATA POLLING AND TOGGLE BIT COLUMN DECODER I/O0–I/O7 A0–A4 ADDR. BUFFER & LATCHES © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 1 Doc. No. MD-1011, Rev. I CAT28C64B PIN CONFIGURATION DIP Package (P, L) NC A12 A7 A6 A5 A4 A3 A2 A1 A0 I/O0 I/O1 I/O2 VSS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 VCC WE NC A8 A9 A11 OE A10 CE I/O7 I/O6 I/O5 I/O4 I/O3 SOIC Package (J, W) (K, X) NC A12 A7 A6 A5 A4 A3 A2 A1 A0 I/O0 I/O1 I/O2 VSS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 VCC WE NC A8 A9 A11 OE A10 CE I/O7 I/O6 I/O5 I/O4 I/O3 PLCC Package (N, G) A7 A12 NC NC VCC WE NC TSOP Package (8mm x 13.4mm) (H13) 4 3 2 1 32 31 30 A6 A5 A4 A3 A2 A1 A0 NC I/O0 5 29 6 28 7 27 8 26 9 25 TOP VIEW 10 24 11 23 12 22 13 21 14 15 16 17 18 19 20 I/O1 I/O2 VSS NC I/O3 I/O4 I/O5 A8 A9 A11 NC OE A10 CE I/O7 I/O6 OE A11 A9 A8 NC WE VCC NC A12 A7 A6 A5 A4 A3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 A10 CE I/O7 I/O6 I/O5 I/O4 I/O3 GND I/O2 I/O1 I/O0 A0 A1 A2 PIN FUNCTIONS Pin Name A0–A12 I/O0–I/O7 CE OE Function Address Inputs Data Inputs/Outputs Chip Enable Output Enable Pin Name WE VCC VSS NC Function Write Enable 5 V Supply Ground No Connect Doc. No. MD-1011, Rev. I 2 © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice CAT28C64B ABSOLUTE MAXIMUM RATINGS* Temperature Under Bias ................. –55°C to +125°C Storage Temperature ....................... –65°C to +150°C Voltage on Any Pin with Respect to Ground(2) ........... –2.0V to +VCC + 2.0V VCC with Respect to Ground ............... –2.0V to +7.0V Package Power Dissipation Capability (Ta = 25°C) ................................... 1.0W Lead Soldering Temperature (10 secs) ............ 300°C Output Short Circuit Current(3) ........................ 100 mA RELIABILITY CHARACTERISTICS Symbol NEND(1) TDR (1) *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. 105 100 2000 100 Max. Units Cycles/Byte Years Volts mA Test Method MIL-STD-883, Test Method 1033 MIL-STD-883, Test Method 1008 MIL-STD-883, Test Method 3015 JEDEC Standard 17 VZAP(1) ILTH (1)(4) MODE SELECTION Mode Read Byte Write (WE Controlled) Byte Write (CE Controlled) Standby, and Write Inhibit Read and Write Inhibit H X CE L L L X H WE H OE L H H X H I/O DOUT DIN DIN High-Z High-Z Power ACTIVE ACTIVE ACTIVE STANDBY ACTIVE CAPACITANCE TA = 25°C, f = 1.0 MHz, VCC = 5V Symbol CI/O(1) CIN(1) Test Input/Output Capacitance Input Capacitance Max. 10 6 Units pF pF Conditions VI/O = 0V VIN = 0V Note: (1) This parameter is tested initially and after a design or process change that affects the parameter. (2) 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 20 ns. (3) Output shorted for no more than one second. No more than one output shorted at a time. (4) Latch-up protection is provided for stresses up to 100mA on address and data pins from –1V to VCC +1V. © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 3 Doc. No. MD-1011, Rev. I CAT28C64B D.C. OPERATING CHARACTERISTICS VCC = 5V ±10%, unless otherwise specified. Limits Symbol ICC ICCC(1) ISB ISBC(2) ILI ILO VIH(2) VIL(1) VOH VOL VWI Parameter VCC Current (Operating, TTL) VCC Current (Operating, CMOS) VCC Current (Standby, TTL) VCC Current (Standby, CMOS) Input Leakage Current Output Leakage Current High Level Input Voltage Low Level Input Voltage High Level Output Voltage Low Level Output Voltage Write Inhibit Voltage 3.5 –10 –10 2 –0.3 2.4 0.4 Min. Typ. Max. 30 25 1 100 10 10 VCC +0.3 0.8 Units mA mA mA µA µA µA V V V V V IOH = –400µA IOL = 2.1mA Test Conditions CE = OE = VIL, f = 1/tRC min, All I/O’s Open CE = OE = VILC, f = 1/tRC min, All I/O’s Open CE = VIH, All I/O’s Open CE = VIHC, All I/O’s Open VIN = GND to VCC VOUT = GND to VCC, CE = VIH Note: (1) VILC = –0.3V to +0.3V. (2) VIHC = VCC –0.3V to VCC +0.3V. Doc. No. MD-1011, Rev. I 4 © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice CAT28C64B A.C. CHARACTERISTICS, Read Cycle VCC = 5V ±10%, unless otherwise specified. 28C64B-90 Symbol Parameter tRC tCE tAA tOE tLZ (1) 28C64B-12 Min. 120 Max. 28C64B-15 Min. 150 Max. Units ns 150 150 70 0 0 ns ns ns ns ns 50 50 0 ns ns ns Min. 90 Max. Read Cycle Time CE Access Time Address Access Time OE Access Time CE Low to Active Output OE Low to Active Output CE High to High-Z Output OE High to High-Z Output Output Hold from Address Change 90 90 50 0 0 50 50 0 0 0 0 120 120 60 tOLZ(1) tHZ(1)(2) tOHZ(1)(2) tOH(1) 50 50 Figure 1. A.C. Testing Input/Output Waveform(3) VCC - 0.3V INPUT PULSE LEVELS 0.0 V 0.8 V 2.0 V REFERENCE POINTS Figure 2. A.C. Testing Load Circuit (example) 1.3V 1N914 3.3K DEVICE UNDER TEST OUT CL = 100 pF CL INCLUDES JIG CAPACITANCE Note: (1) This parameter is tested initially and after a design or process change that affects the parameter. (2) Output floating (High-Z) is defined as the state when the external data line is no longer driven by the output buffer. (3) Input rise and fall times (10% and 90%) < 10 ns. © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 5 Doc. No. MD-1011, Rev. I CAT28C64B A.C. CHARACTERISTICS, Write Cycle VCC = 5V ±10%, unless otherwise specified. 28C64B-90 Symbol tWC tAS tAH tCS tCH tCW (2) 28C64B-12 Min. Max. 5 0 100 0 0 110 0 0 110 60 0 28C64B-15 Min. Max. 5 0 100 0 0 110 0 0 110 60 0 Units ms ns ns ns ns ns ns ns ns ns ns 10 100 ms µs Parameter Write Cycle Time Address Setup Time Address Hold Time CE Setup Time CE Hold Time CE Pulse Time OE Setup Time OE Hold Time WE Pulse Width Data Setup Time Data Hold Time Write Inhibit Period After Power-up Byte Load Cycle Time Min. Max. 5 0 100 0 0 110 0 0 110 60 0 5 .05 10 100 tOES tOEH tWP(2) tDS tDH tINIT(1) tBLC(1)(3) 5 .05 10 100 5 .05 Note: (1) This parameter is tested initially and after a design or process change that affects the parameter. (2) A write pulse of less than 20ns duration will not initiate a write cycle. (3) A timer of duration tBLC max. begins with every LOW to HIGH transition of WE. If allowed to time out, a page or byte write will begin; however a transition from HIGH to LOW within tBLC max. stops the timer. Doc. No. MD-1011, Rev. I 6 © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice CAT28C64B DEVICE OPERATION Read Data stored in the CAT28C64B is transferred to the data bus when WE is held high, and both OE and CE are held low. The data bus is set to a high impedance state when either CE or OE goes high. This 2-line control architecture can be used to eliminate bus contention in a system environment. Byte Write A write cycle is executed when both CE and WE are low, and OE is high. Write cycles can be initiated using either WE or CE, with the address input being latched on the falling edge of WE or CE, whichever occurs last. Data, conversely, is latched on the rising edge of WE or CE, whichever occurs first. Once initiated, a byte write cycle automatically erases the addressed byte and the new data is written within 5 ms. Figure 3. Read Cycle tRC ADDRESS tCE CE tOE OE VIH WE tLZ tOLZ DATA OUT HIGH-Z tOH DATA VALID tAA tOHZ tHZ DATA VALID Figure 4. Byte Write Cycle [WE Controlled] tWC ADDRESS tAS tCS CE tAH tCH OE tOES WE tBLC DATA OUT HIGH-Z tWP tOEH DATA IN DATA VALID © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 7 Doc. No. MD-1011, Rev. I CAT28C64B Page Write The page write mode of the CAT28C64B (essentially an extended BYTE WRITE mode) allows from 1 to 32 bytes of data to be programmed within a single EEPROM write cycle. This effectively reduces the byte-write time by a factor of 32. Following an initial WRITE operation (WE pulsed low, for tWP, and then high) the page write mode can begin by issuing sequential WE pulses, which load the address and data bytes into a 32 byte temporary buffer. The page address where data is to be written, specified by bits A5 to A12, is latched on the last falling edge of WE. Each byte within the page is defined by address bits A0 to A4 Figure 5. Byte Write Cycle [CE Controlled] (which can be loaded in any order) during the first and subsequent write cycles. Each successive byte load cycle must begin within tBLC MAX of the rising edge of the preceding WE pulse. There is no page write window limitation as long as WE is pulsed low within tBLC MAX. Upon completion of the page write sequence, WE must stay high a minimum of tBLC MAX for the internal automatic program cycle to commence. This programming cycle consists of an erase cycle, which erases any data that existed in each addressed cell, and a write cycle, which writes new data back into the cell. A page write will only write data to the locations that were addressed and will not rewrite the entire page. tWC ADDRESS tAS tAH tCW CE tOEH OE tCS WE HIGH-Z DATA OUT tOES tCH tBLC DATA IN DATA VALID tDS tDH Figure 6. Page Mode Write Cycle OE CE t WP WE t BLC ADDRESS t WC I/O BYTE 0 BYTE 1 BYTE 2 BYTE n BYTE n+1 LAST BYTE BYTE n+2 Doc. No. MD-1011, Rev. I 8 © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice CAT28C64B DATA Polling DATA polling is provided to indicate the completion of write cycle. Once a byte write or page write cycle is initiated, attempting to read the last byte written will output the complement of that data on I/O7 (I/O0–I/O6 are indeterminate) until the programming cycle is complete. Upon completion of the self-timed write cycle, all I/O’s will output true data during a read cycle. Toggle Bit In addition to the DATA Polling feature, the device offers an additional method for determining the completion of a write cycle. While a write cycle is in progress, reading data from the device will result in I/O6 toggling between one and zero. However, once the write is complete, I/O6 stops toggling and valid data can be read from the device. Figure 7. DATA Polling ADDRESS CE WE tOEH OE tWC I/O7 DIN = X DOUT = X DOUT = X tOE tOES Figure 8. Toggle Bit WE CE tOEH OE tOE tOES I/O6 (1) tWC (1) Note: (1) Beginning and ending state of I/O6 is indeterminate. © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 9 Doc. No. MD-1011, Rev. I CAT28C64B HARDWARE DATA PROTECTION The following is a list of hardware data protection features that are incorporated into the CAT28C64B. (1) VCC sense provides for write protection when VCC falls below 3.5V min. (2) A power on delay mechanism, tINIT (see AC characteristics), provides a 5 to 10 ms delay before a write sequence, after VCC has reached 3.5V min. (3) Write inhibit is activated by holding any one of OE low, CE high or WE high. (4) Noise pulses of less than 20 ns on the WE or CE inputs will not result in a write cycle. SOFTWARE DATA PROTECTION The CAT28C64B features a software controlled data protection scheme which, once enabled, requires a data algorithm to be issued to the device before a write can be performed. The device is shipped from Catalyst with the software protection NOT ENABLED (the CAT28C64B is in the standard operating mode). Figure 9. Write Sequence for Activating Software Data Protection WRITE DATA: ADDRESS: AA 1555 Figure 10. Write Sequence for Deactivating Software Data Protection WRITE DATA: ADDRESS: AA 1555 WRITE DATA: ADDRESS: 55 0AAA WRITE DATA: ADDRESS: 55 0AAA WRITE DATA: ADDRESS: A0 1555 WRITE DATA: ADDRESS: 80 1555 SOFTWARE DATA (1) PROTECTION ACTIVATED WRITE DATA: ADDRESS: AA 1555 WRITE DATA: XX WRITE DATA: ADDRESS: 55 0AAA TO ANY ADDRESS WRITE LAST BYTE TO LAST ADDRESS WRITE DATA: ADDRESS: 20 1555 Note: (1) Write protection is activated at this point whether or not any more writes are completed. Writing to addresses must occur within tBLC Max., after SDP activation. Doc. No. MD-1011, Rev. I 10 © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice CAT28C64B To activate the software data protection, the device must be sent three write commands to specific addresses with specific data (Figure 9). This sequence of commands (along with subsequent writes) must adhere to the page write timing specifications (Figure 11). Once this is done, all subsequent byte or page writes to the device must be preceded by this same set of write commands. The data protection mechanism is activated until a deactivate sequence is issued regardless of power on/off transitions. This gives the user added inadvertent write protection on power-up in addition to the hardware protection provided. To allow the user the ability to program the device with an EEPROM programmer (or for testing purposes) there is a software command sequence for deactivating the data protection. The six step algorithm (Figure 10) will reset the internal protection circuitry, and the device will return to standard operating mode (Figure 12 provides reset timing). After the sixth byte of this reset sequence has been issued, standard byte or page writing can commence. Figure 11. Software Data Protection Timing DATA ADDRESS CE tWP WE tBLC AA 1555 55 0AAA A0 1555 BYTE OR PAGE WRITES ENABLED tWC Figure 12. Resetting Software Data Protection Timing DATA ADDRESS CE DEVICE UNPROTECTED WE AA 1555 55 0AAA 80 1555 AA 1555 55 0AAA 20 1555 tWC SDP RESET Speed 90: 90ns 12: 120ns 15: 150ns © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 11 Doc. No. MD-1011, Rev. I CAT28C64B (1) EXAMPLE OF ORDERING INFORMATION Prefix CAT Device # 28C64B Suffix N I -15 T Optional Company ID Product Number Temperature Range Blank = Commercial (0˚C to +70˚C) I = Industrial (-40˚C to +85˚C) A = Automotive (-40˚ to +105˚C)(3) Package P: PDIP(2) J: SOIC (JEDEC)(2) K: SOIC (EIAJ)(2) N: PLCC(2) L: PDIP (Lead free, Halogen free) W: SOIC (JEDEC) (Lead free, Halogen free) X: SOIC (EIAJ) (Lead free, Halogen free) G: PLCC (Lead free, Halogen free) H13: TSOP (8mmx13.4mm) (Lead free, Halogen free) Tape & Reel Speed 90: 90ns 12: 120ns 15: 150ns ORDERING INFORMATION Orderable Part Numbers (for Pb-Free Devices) CAT28C64BGI-12T CAT28C64BGI-15T CAT28C64BGI-90T CAT28C64BGA-12T CAT28C64BGA-15T CAT28C64BGA-90T CAT28C64BH13I12T CAT28C64BH13I15T CAT28C64BH13I90T CAT28C64BH13A12T CAT28C64BH13A15T CAT28C64BH13A90T CAT28C64BLI12 CAT28C64BLI15 CAT28C64BLI90 CAT28C64BLA12 CAT28C64BLA15 CAT28C64BLA90 CAT28C64BWI-12T CAT28C64BWI-15T CAT28C64BWI-90T CAT28C64BWA-12T CAT28C64BWA-15T CAT28C64BWA-90T CAT28C64BXI-12T CAT28C64BXI-15T CAT28C64BXI-90T CAT28C64BXA-12T CAT28C64BXA-15T CAT28C64BXA-90T Notes: (1) The device used in the above example is a CAT28C64BNI-15T (PLCC, Industrial temperature, 150 ns Access Time, Tape & Reel). (2) Solder-plate (tin-lead) packages, contact Factory for availability. (3) -40°C to +125°C is available upon request. Doc. No. MD-1011, Rev. I 12 © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice CAT28C64B REVISION HISTORY Date 29-Mar-04 Revision Description B Added Green packages in all areas. Delete data sheet designation Update Block Diagram Update Ordering Information Update Revision History Update Rev Number Add 90: 90ns speed to Ordering Information Edit Ordering Information Edit Description Eliminate TSOP (8mm x 13.4mm) SnPb package. Change logo and fine print to ON Semiconductor Update Example of Ordering Information Update Ordering Information table 19-Apr-04 C 16-Nov-04 28-Feb-05 18-Mar-05 15-Oct-08 19-Nov-08 28-Jul-09 D E F G H I ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner. PUBLICATION ORDERING INFORMATION LITERATURE FULFILLMENT: Literature Distribution Center for ON Semiconductor P.O. Box 5163, Denver, Colorado 80217 USA Phone: 303-675-2175 or 800-344-3860 Toll Free USA/Canada Fax: 303-675-2176 or 800-344-3867 Toll Free USA/Canada Email: orderlit@onsemi.com N. American Technical Support: 800-282-9855 Toll Free USA/Canada Europe, Middle East and Africa Technical Support: Phone: 421 33 790 2910 Japan Customer Focus Center: Phone: 81-3-5773-3850 ON Semiconductor Website: www.onsemi.com Order Literature: http://www.onsemi.com/orderlit For additional information, please contact your local Sales Representative © 2009 SCILLC. All rights reserved. Characteristics subject to change without notice 13 Doc. No. MD-1011, Rev. I
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