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W29C020 256K x 8 CMOS FLASH MEMORY GENERAL DESCRIPTION The W29C020 is a 2-megabit, 5-volt only CMOS flash memory organized as 256K x 8 bits. The device can be written (erased and programmed) in-system with a standard 5V power supply. A 12-volt VPP is not required. The unique cell architecture of the W29C020 results in fast write (erase/program) operations with extremely low current consumption compared to other comparable 5-volt flash memory products. The device can also be written (erased and programmed) by using standard EPROM programmers. FEATURES * Single 5-volt write (erase and program) * * Software and hardware data protection Low power consumption - Active current: 25 mA (typ.) - Standby current: 20 A (typ.) operations * Fast page-write operations - 128 bytes per page - Page write (erase/program) cycle: 10 mS (max.) - Effective byte-write (erase/program) cycle time: 39 S - Optional software-protected data write * Fast chip-erase operation: 50 mS * Two 8 KB boot blocks with lockout * Typical page write (erase/program) cycles: * Automatic write (erase/program) timing with internal VPP generation * End of write (erase/program) detection - Toggle bit - Data polling * Latched address and data * All inputs and outputs directly TTL compatible * JEDEC standard byte-wide pinouts * Available packages: 32-pin 600 mil DIP, 450 mil 100/1K/10K * Read access time: 70/90/120 nS * Ten-year data retention SOP, TSOP, and 32-pin PLCC -1- Publication Release Date: February 1998 Revision A3 W29C020 PIN CONFIGURATIONS BLOCK DIAGRAM NC A16 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 DQ0 DQ1 DQ2 GND 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 32 31 30 29 28 27 VDD WE A17 A14 A13 A8 A9 A11 OE A10 CE DQ7 DQ6 DQ5 DQ4 DQ3 VDD VSS CE OE WE CONTROL OUTPUT BUFFER DQ0 . . DQ7 32-pin DIP 26 25 24 23 22 21 20 19 18 17 A0 . . DECODER 8K Byte Boot Block (Optional) CORE ARRAY 8K Byte Boot Block (Optional) A 1 2 4 A7 A6 A5 A4 A3 A2 A1 A0 DQ0 5 6 7 8 9 10 11 12 13 A 1 5 3 A 1 6 2 N C V/ DW DE A 1 7 . A17 29 28 27 A14 A13 A8 A9 A11 OE A10 CE DQ7 1 32 31 30 32-pin PLCC 26 25 24 23 22 21 14 15 16 17 18 19 20 PIN DESCRIPTION SYMBOL A0-A17 32 31 30 29 28 27 D Q 1 DG QN 2D D Q 3 D Q 4 D Q 5 D Q 6 PIN NAME Address Inputs Data Inputs/Outputs Chip Enable Output Enable Write Enable Power Supply Ground No Connection A11 A9 A8 A13 A14 A17 WE V DD NC A16 A15 A12 A7 A6 A5 A4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 OE A10 CE DQ7 DQ6 DQ5 DQ4 DQ3 GND DQ2 DQ1 DQ0 A0 A1 A2 A3 DQ0-DQ7 CE OE WE VDD GND NC 32-pin TSOP 26 25 24 23 22 21 20 19 18 17 -2- W29C020 FUNCTIONAL DESCRIPTION Read Mode The read operation of the W29C020 is controlled by CE and OE , both of which have to be low for the host to obtain data from the outputs. CE is used for device selection. When CE is high, the chip is de-selected and only standby power will be consumed. OE is the output control and is used to gate data from the output pins. The data bus is in high impedance state when either CE or OE is high. Refer to the read cycle timing waveforms for further details. Page Write Mode The W29C020 is written (erased/programmed) on a page basis. Every page contains 128 bytes of data. If a byte of data within a page is to be changed, data for the entire page must be loaded into the device. Any byte that is not loaded will be erased to "FF hex" during the write operation of the page. The write operation is initiated by forcing CE and WE low and OE high. The write procedure consists of two steps. Step 1 is the byte-load cycle, in which the host writes to the page buffer of the device. Step 2 is an internal write (erase/program) cycle, during which the data in the page buffers are simultaneously written into the memory array for non-volatile storage. During the byte-load cycle, the addresses are latched by the falling edge of either CE or WE , whichever occurs last. The data are latched by the rising edge of either CE or WE , whichever occurs first. If the host loads a second byte into the page buffer within a byte-load cycle time (TBLC) of 200 S after the initial byte-load cycle, the W29C020 will stay in the page load cycle. Additional bytes can then be loaded consecutively. The page load cycle will be terminated and the internal write (erase/program) cycle will start if no additional byte is loaded into the page buffer A7 to A17 specify the page address. All bytes that are loaded into the page buffer must have the same page address. A0 to A6 specify the byte address within the page. The bytes may be loaded in any order; sequential loading is not required. In the internal write cycle, all data in the page buffers, i.e., 128 bytes of data, are written simultaneously into the memory array. Before the completion of the internal write cycle, the host is free to perform other tasks such as fetching data from other locations in the system to prepare to write the next page. Software-protected Data Write The device provides a JEDEC-approved optional software-protected data write. Once this scheme is enabled, any write operation requires a three-byte command sequence (with specific data to a specific address) to be performed before the data load operation. The three-byte load command sequence begins the page load cycle, without which the write operation will not be activated. This write scheme provides optimal protection against inadvertent write cycles, such as cycles triggered by noise during system power-up and power-down. The W29C020 is shipped with the software data protection enabled. To enable the software data protection scheme, perform the three-byte command cycle at the beginning of a page load cycle. The device will then enter the software data protection mode, and any subsequent write operation must be preceded by the three-byte command sequence cycle. Once enabled, the software data protection Publication Release Date: February 1998 Revision A3 -3- W29C020 will remain enabled unless the disable commands are issued. A power transition will not reset the software data protection feature. To reset the device to unprotected mode, a six-byte command sequence is required. For information about specific codes, see the Command Codes for Software Data Protection in the Table of Operating Modes. For information about timing waveforms, see the timing diagrams below. Hardware Data Protection The integrity of the data stored in the W29C020 is also hardware protected in the following ways: (1) Noise/Glitch Protection: A WE pulse of less than 15 nS in duration will not initiate a write cycle. (2) VDD Power Up/Down Detection: The write operation is inhibited when VDD is less than 2.5V. (3) Write Inhibit Mode: Forcing OE low, CE high, or WE high will inhibit the write operation. This prevents inadvertent writes during power-up or power-down periods. (4) VDD power-on delay: When VDD reaches its sense level, the device will automatically timeout for 5 mS before any write (erase/program) operation. Chip Erase Modes The entire device can be erased by using a six-byte software command code. See the Software Chip Erase Timing Diagram. Boot Block Operation There are two boot blocks (8K bytes each) in this device, which can be used to store boot code. One of them is located in the first 8K bytes and the other is located in the last 8K bytes of the memory. The first 8K or last 8K of the memory can be set as a boot block by using a seven-byte command sequence. See Command Codes for Boot Block Lockout Enable for the specific code. Once this feature is set the data for the designated block cannot be erased or programmed (programming lockout); other memory locations can be changed by the regular programming method. Once the boot block programming lockout feature is activated, the chip erase function will be disabled. In order to detect whether the boot block feature is set on the two 8K blocks, users can perform a six-byte command sequence: enter the product identification mode (see Command Codes for Identification/Boot Block Lockout Detection for specific code), and then read from address "00002 hex" (for the first 8K bytes) or "3FFF2 hex" (for the last 8K bytes). If the output data is "FF hex," the boot block programming lockout feature is activated; if the output data is "FE hex," the lockout feature is deactivated and the block can be programmed. To return to normal operation, perform a three-byte command sequence to exit the identification mode. For the specific code, see Command Codes for Identification/Boot Block Lockout Detection. Data Polling (DQ7)- Write Status Detection The W29C020 includes a data polling feature to indicate the end of a write cycle. When the W29C020 is in the internal write cycle, any attempt to read DQ7 from the last byte loaded during the page/byte-load cycle will receive the complement of the true data. Once the write cycle is completed. DQ7 will show the true data. See the DATA Polling Timing Diagram. -4- W29C020 Toggle Bit (DQ6)- Write Status Detection In addition to data polling, the W29C020 provides another method for determining the end of a write cycle. During the internal write cycle, any consecutive attempts to read DQ6 will produce alternating 0's and 1's. When the write cycle is completed, this toggling between 0's and 1's will stop. The device is then ready for the next operation. See Toggle Bit Timing Diagram. Product Identification The product ID operation outputs the manufacturer code and device code. The programming equipment automatically matches the device with its proper erase and programming algorithms. The manufacturer and device codes can be accessed through software or by hardware operation. In the software access mode, a six-byte command sequence can be used to access the product ID. A read from address "00000 hex" outputs the manufacturer code "DA hex." A read from address "00001 hex" outputs the device code "45 hex." The product ID operation can be terminated by a three-byte command sequence. In the hardware access mode, access to the product ID is activated by forcing CE and OE low, WE high, and raising A9 to 12 volts. TABLE OF OPERATING MODES Operating Mode Selection Operating Range: 0 to 70 C (Ambient Temperature), VDD = 5V 10%, VSS = 0V, VHH = 12V MODE CE Read Write Standby Write Inhibit Output Disable 5-Volt Software Chip Erase Product ID VIL VIL VIH X X X VIL VIL VIL OE VIL VIH X VIL X VIH VIH VIL VIL WE VIH VIL X X VIH X VIL VIH VIH AIN AIN X X X X AIN PINS ADDRESS Dout Din High Z High Z/DOUT High Z/DOUT High Z DIN Manufacturer Code DA (Hex) Device Code 45 (Hex) DQ. A0 = VIL; A1-A17 = VIL; A9 = VHH A0 = VIH; A1-A17 = VIL; A9 = VHH -5- Publication Release Date: February 1998 Revision A3 W29C020 Command Codes for Software Data Protection BYTE SEQUENCE 0 Write 1 Write 2 Write 3 Write 4 Write 5 Write TO ENABLE PROTECTION ADDRESS DATA 5555H AAH 2AAAH 55H 5555H A0H TO DISABLE PROTECTION ADDRESS DATA 5555H AAH 2AAAH 55H 5555H 80H 5555H AAH 2AAAH 55H 5555H 20H Software Data Protection Acquisition Flow Software Data Protection Enable Flow Load data AA to address 5555 Software Data Protection Disable Flow Load data AA to address 5555 Load data 55 to address 2AAA Load data 55 to address 2AAA Load data A0 to address 5555 Load data 80 to address 5555 (Optional page-load operation) Sequentially load up to 128 bytes of page data Load data AA to address 5555 Pause 10 mS Load data 55 to address 2AAA Exit Load data 20 to address 5555 Pause 10 mS Exit Notes for software program code: Data Format: DQ7-DQ0 (Hex) Address Format: A14-A0 (Hex) -6- W29C020 Command Codes for Software Chip Erase BYTE SEQUENCE 0 Write 1 Write 2 Write 3 Write 4 Write 5 Write ADDRESS 5555H 2AAAH 5555H 5555H 2AAAH 5555H DATA AAH 55H 80H AAH 55H 10H Software Chip Erase Acquisition Flow Load data AA to address 5555 Load data 55 to address 2AAA Load data 80 to address 5555 Load data AA to address 5555 Load data 55 to address 2AAA Load data 10 to address 5555 Pause 50 mS Exit Notes for software chip erase: Data Format: DQ7-DQ0 (Hex) Address Format: A14-A0 (Hex) -7- Publication Release Date: February 1998 Revision A3 W29C020 Command Codes for Product Identification and Boot Block Lockout Detection BYTE SEQUENCE ALTERNATE PRODUCT (7) IDENTIFICATION/BOOT BLOCK LOCKOUT DETECTION ENTRY ADDRESS 0 Write 1 Write 2 Write 3 Write 4 Write 5 Write 5555 2AAA 5555 Pause 10 S DATA AA 55 90 SOFTWARE PRODUCT IDENTIFICATION/BOOT BLOCK LOCKOUT DETECTION ENTRY ADDRESS 5555H 2AAAH 5555H 5555H 2AAAH 5555H Pause 10 S DATA AAH 55H 80H AAH 55H 60H SOFTWARE PRODUCT IDENTIFICATION/BOOT BLOCK LOCKOUT DETECTION EXIT ADDRESS 5555H 2AAAH 5555H Pause 10 S DATA AAH 55H F0H - Software Product Identification and Boot Block Lockout Detection Acquisition Flow Product Identification Entry (1) Load data AA to address 5555 Product Identification and Boot Block Lockout Detection Mode (3) Product Identification Exit (1) Load data 55 to address 2AAA (2) Read address = 00000 data = DA Load data AA to address 5555 Load data 80 to address 5555 (2) Read address = 00001 data = 45 Load data 55 to address 2AAA Load data AA to address 5555 (4) Read address = 00002 data = FF/FE Load data F0 to address 5555 Load data 55 to address 2AAA (5) Read address = 3FFF2 data = FF/FE Pause 10 S Load data 60 to address 5555 (6) Normal Mode Pause 10 S Notes for software product identification/boot block lockout detection: (1) Data Format: DQ7-DQ0 (Hex); Address Format: A14-A0 (Hex) (2) A1-A16 = VIL; manufacture code is read for A0 = VIL; device code is read for A0 = VIH. (3) The device does not remain in identification and boot block (address 0002 Hex/3FFF2 Hex respond to first 8K/last 8K) lockout detection mode if power down. (4), (5) If the output data is "FF Hex," the boot block programming lockout feature is activated; if the output data "FE Hex," the lockout feature is inactivated and the block can be programmed. (6) The device returns to standard operation mode. (7) This product supports both the JEDEC standard 3 byte command code sequence and original 6 byte command code sequence. For new designs, Winbond recommends that the 3 byte command code sequence be used. -8- W29C020 Command Codes for Boot Block Lockout Enable BYTE SEQUENCE BOOT BLOCK LOCKOUT FEATURE SET ON FIRST 8K ADDRESS BOOT BLOCK ADDRESS 0 Write 1 Write 2 Write 3 Write 4 Write 5 Write 6 Write 5555H 2AAAH 5555H 5555H 2AAAH 5555H 00000H Pause 10 mS DATA AAH 55H 80H AAH 55H 40H 00H BOOT BLOCK LOCKOUT FEATURE SET ON LAST 8K ADDRESS BOOT BLOCK ADDRESS 5555H 2AAAH 5555H 5555H 2AAAH 5555H 3FFFFH Pause 10 mS DATA AAH 55H 80H AAH 55H 40H FFH Boot Block Lockout Enable Acquisition Flow Boot Block Lockout Feature Set on First 8K Address Boot Block Load data AA to address 5555 Boot Block Lockout Feature Set on Last 8K Address Boot Block Load data AA to address 5555 Load data 55 to address 2AAA Load data 55 to address 2AAA Load data 80 to address 5555 Load data 80 to address 5555 Load data AA to address 5555 Load data AA to address 5555 Load data 55 to address 2AAA Load data 55 to address 2AAA Load data 40 to address 5555 Load data 40 to address 5555 Load data 00 to address 00000 Load data FF to address 3FFFF Pause 10 mS Pause 10 mS Notes for boot block lockout enable: 1. Data Format: DQ7-DQ0 (Hex) 2. Address Format: A14-A0 (Hex) 3. If you have any questions about this commend sequence, please contact the local distributor or Winbond Electronics Corp. -9- Publication Release Date: February 1998 Revision A3 W29C020 DC CHARACTERISTICS Absolute Maximum Ratings PARAMETER Power Supply Voltage to VSS Potential Operating Temperature Storage Temperature D.C. Voltage on Any Pin to Ground Potential Except A9 Transient Voltage (<20 nS ) on Any Pin to Ground Potential Voltage on A9 and OE Pin to Ground Potential RATING -0.5 to +7.0 0 to +70 -65 to +150 -0.5 to VDD +1.0 -1.0 to VDD +1.0 -0.5 to 12.5 UNIT V C C V V V Note: Exposure to conditions beyond those listed under Absolute Maximum Ratings may adversely affect the life and reliability of the device. Operating Characteristics (VDD = 5.0V 10%, VSS = 0V, TA = 0 to 70 C) PARAMETER SYM. TEST CONDITIONS MIN. LIMITS TYP. MAX. 50 UNIT Power Supply Current ICC CE = OE = VIL, WE = VIH, all DQs open Address inputs = VIL/VIH, at f = 5 MHz - mA Standby VDD Current (TTL input) Standby VDD Current (CMOS input) Input Leakage Current Output Leakage Current Input Low Voltage Input High Voltage Output Low Voltage Output High Voltage Output High Voltage CMOS ISB1 CE = VIH, all DQs open Other inputs = VIL/VIH - 2 3 mA A A A V V V V V ISB2 ILI ILO VIL VIH VOL VOH1 VOH2 CE = VDD -0.3V, all DQs open VIN = GND to VDD VIN = GND to VDD IOL = 2.0 mA IOH = -400 A IOH = -100 A; VCC = 4.5V 2.0 2.4 4.2 20 - 100 10 10 0.8 0.45 - - 10 - W29C020 Power-up Timing PARAMETER Power-up to Read Operation Power-up to Write Operation SYMBOL TPU. READ TPU. WRITE TYPICAL 100 5 UNIT S mS CAPACITANCE (VDD = 5.0V, TA = 25 C, f = 1 MHz) PARAMETER DQ Pin Capacitance Input Pin Capacitance SYMBOL CDQ CIN CONDITIONS VDQ = 0V VIN = 0V MAX. 12 6 UNIT pF pF AC CHARACTERISTICS AC Test Conditions (VDD = 5.0V 10% for 90 nS and 120 nS; VDD = 5.0V 5% for 70 nS) PARAMETER Input Pulse Levels Input Rise/Fall Time Input/Output Timing Level Output Load 0V to 3V <5 nS 1.5V/1.5V CONDITIONS 1 TTL Gate and CL = 100 pF for 90/120 nS CL = 30 pF for 70 nS AC Test Load and Waveform +5V 1.8K D OUT 100 pF for 90/120 nS 30 pF for 70 nS (Including Jig and Scope) 1.3K Input 3V 1.5V 0V Test Point Output 1.5V Test Point - 11 - Publication Release Date: February 1998 Revision A3 W29C020 AC Characteristics, continued Read Cycle Timing Parameters (VDD = 5.0V 10% for 90 nS and 120 nS; VDD = 5.0V 5% for 70 nS, VSS = 0V, TA = 0 to 70 C) PARAMETER Read Cycle Time Chip Enable Access Time Address Access Time Output Enable Access Time CE High to High-Z Output OE High to High-Z Output Output Hold from Address change SYM. TRC TCE TAA TOE TCHZ TOHZ TOH W29C020-70 W29C020-90 W29C020-12 MIN. 70 0 MAX. 70 70 35 25 25 MIN. 90 0 MAX. 90 90 40 25 25 MIN. 120 0 MAX. 120 120 50 30 30 - UNIT nS nS nS nS nS nS nS Byte/Page-write Cycle Timing Parameters PARAMETER Write Cycle (erase and program) Address Setup Time Address Hold Time WE and CE Setup Time WE and CE Hold Time OE High Setup Time OE High Hold Time CE Pulse Width WE Pulse Width WE High Width Data Setup Time Data Hold Time Byte Load Cycle Time SYMBOL TWC TAS TAH TCS TCH TOES TOEH TCP TWP TWPH TDS TDH TBLC MIN. 0 50 0 0 0 0 70 70 100 50 0 TYP. MAX. 10 150 UNIT mS nS nS nS nS nS nS nS nS nS nS nS S Note: All AC timing signals observe the following guideline for determining setup and hold times: Reference level is VIH for high-level signal and VIL for low-level signal. - 12 - W29C020 AC Characteristics, continued DA TA Polling Characteristics (1) PARAMETER Data Hold Time OE Hold Time OE to Output Delay (2) Write Recovery Time SYMBOL TDH TOEH TOE TWR MIN. 10 10 0 TYP. MAX. UNIT nS nS nS nS Notes: (1) These parameters are characterized and not 100% tested. (2) See TOE spec in A.C. Read Cycle Timing Parameters. Toggle Bit Characteristics (1) PARAMETER Data Hold Time OE Hold Time OE to Output Delay (2) OE High Pulse Write Recovery Time SYMBOL TDH TOEH TOE TOEHP TWR MIN. 10 10 150 0 TYP. MAX. UNIT nS nS nS nS nS Notes: (1) These parameters are characterized and not 100% tested. (2) See TOE spec in A.C. Read Cycle Timing Parameters. TIMING WAVEFORMS Read Cycle Timing Diagram TRC Address A17-0 CE TCE OE TOE TOHZ VIH WE TOH DQ7-0 High-Z Data Valid TAA Data Valid T CHZ High-Z - 13 - Publication Release Date: February 1998 Revision A3 W29C020 Timing Waveforms, continued WE Controlled Write Cycle Timing Diagram T WC TAS Address A17-0 TAH CE TCS TOES TCH TOEH OE TWP TWPH WE TDS DQ7-0 Data Valid TDH Internal write starts CE Controlled Write Cycle Timing Diagram TAS TAH TWC Address A17-0 T WPH CE T OES OE WE TDS DQ7-0 High Z Data Valid TCS TCP TOEH TCH TDH Internal Write Starts - 14 - W29C020 Timing Waveforms, continued Page Write Cycle Timing Diagram TWC Address A17-0 DQ7-0 CE OE TWP WE Byte 0 TWPH TBLC Byte 1 Byte 2 Byte N-1 Internal Write Start Byte N DA TA Polling Timing Diagram Address A15-0 WE CE TOEH OE TDH DQ7 T OE HIGH-Z TWR - 15 - Publication Release Date: February 1998 Revision A3 W29C020 Timing Waveforms, continued Toggle Bit Timing Diagram WE CE OE T OEH TDH TOE HIGH-Z TWR DQ6 Page Write Timing Diagram Software Data Protection Mode Three-byte sequence for software data protection mode Address A15-0 5555 2AAA 5555 Byte/page load cycle starts TWC DQ7-0 AA 55 A0 CE OE TWP WE TWPH SW0 TBLC SW1 SW2 Word 0 Word N-1 Word N (last word) Internal write starts - 16 - W29C020 Timing Waveforms, continued Reset Software Data Protection Timing Diagram Six-byte sequence for resetting software data protection mode Address A15-0 5555 2AAA 5555 5555 2AAA 5555 TWC DQ7-0 AA 55 80 AA 55 20 CE OE WE TWP TWPH SW0 TBLC SW1 SW2 SW3 SW4 SW5 Internal programming starts Software Chip Erase Timing Diagram Six-byte code for 5V-only software chip erase Address A15-0 5555 2AAA 5555 5555 2AAA 5555 TWC DQ7-0 CE AA 55 80 AA 55 10 OE WE TWP TWPH SW0 TBLC SW1 SW2 SW3 SW4 SW5 Internal erasing starts - 17 - Publication Release Date: February 1998 Revision A3 W29C020 ORDERING INFORMATION PART NO. ACCESS TIME (nS) 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 70 90 120 POWER SUPPLY CURRENT MAX. (mA) 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 STANDBY VDD CURRENT MAX. (A) 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 PACKAGE CYCLING W29C020-70A W29C020-90A W29C020-12A W29C020S-70A W29C020S-90A W29C020S-12A W29C020T-70A W29C020T-90A W29C020T-12A W29C020P-70A W29C020P-90A W29C020P-12A W29C020-70 W29C020-90 W29C020-12 W29C020S-70 W29C020S-90 W29C020S-12 W29C020T-70 W29C020T-90 W29C020T-12 W29C020P-70 W29C020P-90 W29C020P-12 W29C020-70B W29C020-90B W29C020-12B W29C020S-70B W29C020S-90B W29C020S-12B W29C020T-70B W29C020T-90B W29C020T-12B W29C020P-70B W29C020P-90B W29C020P-12B 600 mil DIP 600 mil DIP 600 mil DIP 450 mil SOP 450 mil SOP 450 mil SOP Type one TSOP Type one TSOP Type one TSOP 32-pin PLCC 32-pin PLCC 32-pin PLCC 600 mil DIP 600 mil DIP 600 mil DIP 450 mil SOP 450 mil SOP 450 mil SOP Type one TSOP Type one TSOP Type one TSOP 32-pin PLCC 32-pin PLCC 32-pin PLCC 600 mil DIP 600 mil DIP 600 mil DIP 450 mil SOP 450 mil SOP 450 mil SOP Type one TSOP Type one TSOP Type one TSOP 32-pin PLCC 32-pin PLCC 32-pin PLCC 100 100 100 100 100 100 100 100 100 100 100 100 1K 1K 1K 1K 1K 1K 1K 1K 1K 1K 1K 1K 10K 10K 10K 10K 10K 10K 10K 10K 10K 10K 10K 10K Notes: 1. Winbond reserves the right to make changes to its products without prior notice. 2. Purchasers are responsible for performing appropriate quality assurance testing on products intended for use in applications where personal injury might occur as a consequence of product failure. - 18 - W29C020 PACKAGE DIMENSIONS 32-pin P-DIP Dimension in inches Dimension in mm Symbol Min. Nom. Max. Min. Nom. Max. 0.210 0.010 0.150 0.016 0.048 0.008 0.155 0.018 0.050 0.010 1.650 0.590 0.545 0.090 0.120 0 0.630 0.650 0.600 0.550 0.100 0.130 0.160 0.022 0.054 0.014 1.660 0.610 0.555 0.110 0.140 15 0.670 0.085 14.99 13.84 2.29 3.05 0 16.00 16.51 0.25 3.81 0.41 1.22 0.20 3.94 0.46 1.27 0.25 41.91 15.24 13.97 2.54 3.30 4.06 0.56 1.37 0.36 42.16 15.49 14.10 2.79 3.56 15 17.02 2.16 5.33 D 32 17 E1 A A1 A2 B B1 c D E E1 e1 L a 1 16 eA S Notes: E c S A A2 L B B1 A1 Base Plane Seating Plane e1 a eA 1.Dimensions D Max. & S include mold flash or tie bar burrs. 2.Dimension E1 does not include interlead flash. 3.Dimensions D & E1 include mold mismatch and . are determined at the mold parting line. 4.Dimension B1 does not include dambar protrusion/intrusion. 5.Controlling dimension: Inches. 6.General appearance spec. should be based on final visual inspection spec. 32-pin SO Wide Body Dimension in Inches Dimension in mm Symbol 32 17 Min. 0.004 0.101 0.014 0.006 Nom. Max. 0.118 Min. 0.10 Nom. Max. 3.00 e1 E HE L Detail F 1 b 16 A A1 A2 b c D E e HE L LE S y Notes: c 0.106 0.016 0.008 0.805 0.111 0.020 0.012 0.817 0.450 0.056 0.556 0.039 0.063 0.036 0.004 2.57 0.36 0.15 2.69 0.41 0.20 20.45 2.82 0.51 0.31 20.75 11.43 1.42 14.38 0.99 1.60 0.91 0.10 0.440 0.044 0.546 0.023 0.047 0.445 0.050 0.556 0.031 0.055 11.18 1.12 13.87 0.58 1.19 11.30 1.27 14.12 0.79 1.40 0 10 0 10 D e1 A2 S y e A A1 LE See Detail F Seating Plane 1. Dimensions D Max. & S include mold flash or tie bar burrs. 2. Dimension b does not include dambar protrusion/intrusion. 3. Dimensions D & E include mold mismatch . and determined at the mold parting line. 4. Controlling dimension: Inches. 5. General appearance spec should be based on final visual inspection spec. - 19 - Publication Release Date: February 1998 Revision A3 W29C020 Package Dimensions, continued 32-pin PLCC HE E 4 1 32 30 Symbol 5 29 Dimension in Inches Dimension in mm Min. 0.020 0.105 0.026 0.016 0.008 0.547 0.447 0.044 0.490 0.390 0.585 0.485 0.075 Nom. Max. 0.140 Min. 0.50 Nom. Max. 3.56 GD D HD 13 21 14 20 c A A1 A2 b1 b c D E e GD GE HD HE L y Notes: 0.110 0.028 0.018 0.010 0.550 0.450 0.050 0.510 0.410 0.590 0.490 0.090 0.115 0.032 0.022 0.014 0.553 0.453 0.056 0.530 0.430 0.595 0.495 0.095 0.004 2.67 0.66 0.41 0.20 13.89 11.35 1.12 12.45 9.91 14.86 12.32 1.91 2.80 0.71 0.46 0.25 13.97 11.43 1.27 12.95 10.41 14.99 12.45 2.29 2.93 0.81 0.56 0.35 14.05 11.51 1.42 13.46 10.92 15.11 12.57 2.41 0.10 0 10 0 10 L A2 A Seating Plane e b b1 G E A1 y 1. Dimensions D & E do not include interlead flash. 2. Dimension b1 does not include dambar protrusion/intrusion. 3. Controlling dimension: Inches. 4. General appearance spec. should be based on final visual inspection sepc. 32-pin TSOP HD Symbol Dimension in Inches Min. Nom. Max. 0.047 Dimension in mm Min. Nom. Max. 1.20 0.15 1.05 0.23 0.17 18.50 8.10 20.20 D c A A1 A2 __ 0.002 0.037 0.007 0.005 0.720 0.311 0.780 __ __ 0.039 0.008 0.006 0.724 0.315 0.787 0.020 0.020 0.031 0.006 0.041 0.009 0.007 0.728 0.319 0.795 __ 0.05 0.95 0.17 0.12 18.30 7.90 19.80 __ __ 1.00 0.20 0.15 18.40 8.00 20.00 0.50 0.50 0.80 M e E b c D 0.10(0.004) b E HD e L L1 A A2 L L1 A1 __ 0.016 __ 0.024 __ 0.40 __ 0.60 __ 0.000 1 __ 0.004 5 __ 0.00 1 __ 0.10 5 Y __ 3 __ 3 Y Note: Controlling dimension: Millimeters - 20 - W29C020 VERSION HISTORY VERSION A1 A2 DATE Apr. 1997 Nov. 1997 4, 8 9 15 1, 18 A3 Feb. 1998 6 7 8 1, 18 PAGE Initial Issued Correct the address from 3FFF2 to 7FFF2 Correct the boot block from 8K to 16K Modify page write cycle timing diagram waveform Delete cycling 100K item Add. pause 10 mS Add. pause 50 mS Correct the time from 10 mS to 10 S Add. cycling 100 item DESCRIPTION Headquarters Winbond Electronics (H.K.) Ltd. Winbond Electronics North America Corp. Rm. 803, World Trade Square, Tower II, Winbond Memory Lab. No. 4, Creation Rd. III, 123 Hoi Bun Rd., Kwun Tong, Science-Based Industrial Park, Winbond Microelectronics Corp. Kowloon, Hong Kong Hsinchu, Taiwan Winbond Systems Lab. TEL: 852-27513100 TEL: 886-3-5770066 2727 N. First Street, San Jose, FAX: 852-27552064 FAX: 886-3-5796096 CA 95134, U.S.A. http://www.winbond.com.tw/ TEL: 408-9436666 Voice & Fax-on-demand: 886-2-27197006 FAX: 408-5441798 Taipei Office 11F, No. 115, Sec. 3, Min-Sheng East Rd., Taipei, Taiwan TEL: 886-2-27190505 FAX: 886-2-27197502 Note: All data and specifications are subject to change without notice. - 21 - Publication Release Date: February 1998 Revision A3 |
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