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WME128K8-140DECA

WME128K8-140DECA

  • 厂商:

    WEDC

  • 封装:

  • 描述:

    WME128K8-140DECA - 128Kx8 CMOS MONOLITHIC EEPROM, SMD 5962-96796 - White Electronic Designs Corporat...

  • 数据手册
  • 价格&库存
WME128K8-140DECA 数据手册
White Electronic Designs WME128K8-XXX 128Kx8 CMOS MONOLITHIC EEPROM, SMD 5962-96796 FEATURES Read Access Times of 120, 140, 150, 200, 250, 300ns JEDEC Approved Packages • 32 pin, Hermetic Ceramic, 0.600" DIP (Package 300) • 32 lead, Hermetic Ceramic, 0.400" SOJ (Package 101) Commercial, Industrial and Military Temperature Ranges MIL-STD-883 Compliant Devices Available Write Endurance 10,000 Cycles Data Retention at 25°C, 10 Years Low Power CMOS Operation Automatic Page Write Operation • Internal Address and Data Latches for 128 Bytes • Internal Control Timer Page Write Cycle Time 10ms Max. Data Polling for End of Write Detection Hardware and Software Data Protection TTL Compatible Inputs and Outputs This product is subject to change without notice. FIGURE 1 – Pin Configuration 32 DIP 32 CSOJ Top View NC A16 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 I/O0 I/O1 I/O2 VSS Pin Description A0-16 I/O0-7 CS# OE# WE# VCC VSS Address Inputs Data Input/Output Chip Selects Output Enable Write Enable +5.0v Power Ground 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 VCC WE# NC A14 A13 A8 A9 A11 OE# A10 CS# I/O7 I/O6 I/O5 I/O4 I/O3 White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 January 2004 Rev. 5 1 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs ABSOLUTE MAXIMUM RATINGS Parameter Operating Temperature Storage Temperature Signal Voltage Relative to GND Voltage on OE# and A9 Symbol TA TSTG VG -55 to +125 -65 to +150 -0.6 to + 6.25 -0.6 to +13.5 Unit °C °C V V CS# H L L X X X OE# X L H H X L WE# X H L X H X WME128K8-XXX TRUTH TABLE Mode Standby Read Write Out Disable Write Inhibit Data I/O High Z Data Out Data In High Z/Data Out NOTE: Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. CAPACITANCE TA = +25°C Parameter Input Capacitance Output Capacitance Symbol CIN COUT Conditions VIN = 0 V, f = 1MHz VI/O = 0 V, f = 1MHz Max Unit 20 pF 20 pF RECOMMENDED OPERATING CONDITIONS Parameter Supply Voltage Input High Voltage Input Low Voltage Operating Temp. (Mil.) Operating Temp. (Ind.) Symbol VCC VIH VIL TA TA Min 4.5 2.0 -0.5 -55 -40 Max 5.5 VCC + 0.3 +0.8 +125 +85 Unit V V V °C °C This parameter is guaranteed by design but not tested. DC CHARACTERISTICS VCC = 5.0V, VSS = 0V, -55°C ≤ TA ≤ +125°C Parameter Input Leakage Current Output Leakage Current Operating Supply Current Standby Current Output Low Voltage Output High Voltage Symbol ILI ILO ICC ISB VOL VOH Conditions VCC = 5.5, VIN = GND to VCC CS# = VIH, OE# = VIH, VOUT = GND to VCC CS# = VIL, OE# = VIH, f = 5MHz, VCC = 5.5 CS# = VIH, OE# = VIH, f = 5MHz, VCC = 5.5 IOL = 2.1mA, VCC = 4.5V IOH = -400µA, VCC = 4.5V Min Max 10 10 80 0.625 0.45 Unit µA µA mA mA V V 2.4 NOTE: DC test conditions: VIH = VCC -0.3V, VIL = 0.3V FIGURE 2 – AC Test Circuit Current Source AC TEST CONDITIONS IOL D.U.T Ceff = 50 pf Vz ~ 1.5V ~ Bipolar Supply Parameter Input Pulse Levels Input Rise and Fall Input and Output Reference Level Output Timing Reference Level Typ VIL = 0, VIH = 3.0 5 1.5 1.5 Unit V ns V V Current Source IOH Notes: VZ is programmable from -2V to +7V. IOL & IOH programmable from 0 to 16mA. Tester Impedance Z0 = 75Ω. VZ is typically the midpoint of VOH and VOL. IOL & IOH are adjusted to simulate a typical resistive load circuit. ATE tester includes jig capacitance. White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 2 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs READ Figure 3 shows Read cycle waveforms. A read cycle begins with selection address, chip select and output enable. Chip select is accomplished by placing the CS# line low. Output enable is done by placing the OE# line low. The memory places the selected data byte on I/O0 through I/O7 after the access time. The output of the memory is placed in a high impedance state shortly after either the OE# line or CS# line is returned to a high level. WME128K8-XXX FIGURE 3 – READ WAVEFORMS t RC ADDRESS ADDRESS VALID CS# t ACS OE# t ACC OUTPUT HIGH Z t OE t DF t OH OUTPUT VALID NOTE: OE# may be delayed up to tACS- tOE after the falling edge of CS# without impact on tOE or by tACC- tOE after an address change without impact on tACC. AC READ CHARACTERISTICS (See Figure 3) VCC = 5.0V, VSS = 0V, -55°C ≤ TA ≤ +125°C Read Cycle Parameter Read Cycle Time Address Access Time Chip Select Access Time Output Hold from Address Change, OE# or CS# Output Enable to Output Valid Chip Select or OE# to High Z Output Symbol tRC tACC tACS tOH tOE tDF -120 Min 120 Max 120 120 0 0 50 60 0 0 -140 Min 140 Max 140 140 55 70 0 0 -150 Min 150 Max 150 150 55 70 0 0 -200 Min 200 Max 200 200 55 70 0 0 -250 Min 250 Max 250 250 85 70 0 0 -300 Min 300 Max 300 300 85 70 Unit ns ns ns ns ns ns White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 3 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs WRITE Write operations are initiated when both CS# and WE# are low and OE# is high. The EEPROM devices support both a CS# and WE# controlled write cycle. The address is latched by the falling edge of either CS# or WE#, whichever occurs last. The data is latched internally by the rising edge of either CS# or WE#, whichever occurs first. A byte write operation will automatically continue to completion. WME128K8-XXX WRITE CYCLE TIMING Figures 4 and 5 show the write cycle timing relationships. A write cycle begins with address application, write enable and chip select. Chip select is accomplished by placing the CS# line low. Write enable consists of setting the WE# line low. The write cycle begins when the last of either CS# or WE# goes low. The WE# line transition from high to low also initiates an internal 150µsec delay timer to permit page mode operation. Each subsequent WE# transition from high to low that occurs before the completion of the 150µsec time out will restart the timer from zero. The operation of the timer is the same as a retriggerable one-shot. AC WRITE CHARACTERISTICS VCC = 5.0V, VSS = 0V, -55°C ≤ TA ≤ +125°C 128Kx8 Parameter Write Cycle Time, TYP = 6ms Address Set-up Time Write Pulse Width (WE# or CS#) Chip Select Set-up Time Address Hold Time Data Hold Time Chip Select Hold Time Data Set-up Time Output Enable Set-up Time Output Enable Hold Time Write Pulse Width High Symbol Min tWC tAS tWP tCS tAH tDH tCH tDS tOES tOEH tWPH 10 100 0 100 10 0 50 0 0 50 Max 10 ms ns ns ns ns ns ns ns ns ns ns Unit White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 4 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs WME128K8-XXX FIGURE 4 – WRITE WAVEFORMS WE# CONTROLLED t WC OE# t OES ADDRESS t AS CS# t CS WE# t WP t DS DATA IN t WPH t DH t AH tCSH t OEH FIGURE 5 – WRITE WAVEFORMS CS# CONTROLLED t WC OE# t OES ADDRESS t AS WE# t CS CS# t WP t DS DATA IN t WPH t DH t AH tCSH t OEH White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 5 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs DATA POLLING The WME128K8-XXX offers a data polling feature which allows a faster method of writing to the device. Figure 6 shows the timing diagram for this function. During a byte or page write cycle, an attempted read of the last byte written will result in the complement of the written data on I/O7. Once the write cycle has been completed, true data is valid on all outputs and the next cycle may begin. Data polling may begin at any time during the write cycle. WME128K8-XXX DATA POLLING CHARACTERISTICS VCC = 5.0V, VSS = 0V, -55°C ≤ TA ≤ +125°C Parameter Data Hold Time OE# Hold Time OE# To Output Valid Write Recovery Time Symbol tdh toeh toe twr Min 10 10 0 Max Unit ns ns ns ns 55 FIGURE 6 – DATA POLLING WAVEFORMS WE# CS# t OEH OE# t DH t OE HIGH Z t WR ADDRESS I/O7 TOGGLE BIT: In addition to DATA# Polling another method for determining the end of a write cycle is provided . During the write operation, successive attempts to read data from the device will result in I/O6 toggling between one and zero. Once the write has completed, I/O6 will stop toggling and valid data will be read. Reading the toggle bit may begin at any time during the write cycle. TOGGLE BUT CHARACTERISTICS(1) Symbol tDH tOEH tOE tOEHP tWR Parameter Data Hold Time OE Hold Time OE to Output Delay OE High Pulse Write Recovery Time Min 10 10 150 0 Max Units ns ns ns ns ns WE# CS# tOEH OE# tDH I/O6 (2) tOE HIGH Z tWR NOTE: 1. Toggling either OE# or CS# or both OE# and CS# will operate toggle bit. 2. Beginning and ending state of I/O6 will vary 3. Any address location may be used but the address should not vary. White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 6 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs PAGE WRITE OPERATION The WME128K8-XXX has a page write operation that allows one to 128 bytes of data to be written into the device and consecutively loads during the internal programming period. Successive bytes may be loaded in the same manner after the first data byte has been loaded. An internal timer begins a time out operation at each write cycle. If another write cycle is completed within 150µs or less, a new time out period begins. Each write cycle restarts the delay period. The write cycles can be continued as long as the interval is less than the time out period. The usual procedure is to increment the least significant address lines from A0 through A6 at each write cycle. In this manner a page of up to 128 bytes can be loaded in to the EEPROM in a burst mode before beginning the relatively long interval programming cycle. After the 150µs time out is completed, the EEPROM begins an internal write cycle. During this cycle the entire page of bytes will be written at the same time. The internal programming cycle is the same regardless of the number of bytes accessed. WME128K8-XXX PAGE WRITE CHARACTERISTICS VCC = 5.0V, VSS = 0V, -55°C ≤ TA ≤ +125°C Page Mode Write Characteristics Parameter Write Cycle Time, TYP = 6ms Address Set-up Time Address Hold Time (1) Data Set-up Time Data Hold Time Write Pulse Width Byte Load Cycle Time Write Pulse Width High Symbol Min twc tas tah tds tdh twp tblc twph 10 100 50 10 100 150 50 Max 10 Unit ms ns ns ns ns ns µs ns 1. Page address must remain valid for duration of write cycle. FIGURE 7 – PAGE MODE WRITE WAVEFORMS OE# CS# t WP WE# t WPH t BLC t AS ADDRESS VALID ADDRESS t AH t DS DATA t DH BYTE 0 BYTE 1 BYTE 2 BYTE 3 t WC BYTE 127 VALID DATA White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 7 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs WME128K8-XXX FIGURE 8 – SOFTWARE DATA PROTECTION ENABLE ALGORITHM(1) LOAD DATA AA TO ADDRESS 5555 LOAD DATA 55 TO ADDRESS 2AAA LOAD DATA A0 TO ADDRESS 5555 LOAD DATA XX TO ANY ADDRESS(4) LOAD LAST BYTE TO LAST ADDRESS ENTER DATA PROTECT STATE WRITES ENABLED(2) NOTES: 1. Data Format: I/O7 - I/O0 (Hex); Address Format: A16 - A0 (Hex). 2. Write Protect state will be activated at end of write even if no other data is loaded. 3. Write Protect state will be deactivated at end of write period even if no other data is loaded. 4. 1 to 128 bytes of data to be loaded. White Electronic Designs Corp. reserves the right to change products or specifications without notice. January 2004 Rev. 5 8 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs FIGURE 9 – SOFTWARE BLOCK DATA PROTECTION DISABLE ALGORITHM(1) WME128K8-XXX SOFTWARE DATA PROTECTION A software write protection feature may be enabled or disabled by the user. When shipped by White Microelectronics, the WME128K8-XXX has the feature disabled. Write access to the device is unrestricted. To enable software write protection, the user writes three access code bytes to three special internal locations. Once write protection has been enabled, each write to the EEPROM must use the same three byte write sequence to permit writing. After setting software Data protection, any attempt to write to the device without the three-byte command sequence will start the internal write timers. No Data will be written to the device; however, for the duration of tWC. The write protection feature can be disabled by a six byte write sequence of specific data to specific locations. Power transitions will not reset the software write protection. The software write protection guards against inadvertent writes during power transitions or unauthorized modification using a PROM programmer. 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 20 TO ADDRESS 5555 LOAD DATA XX TO ANY ADDRESS(4) LOAD LAST BYTE TO LAST ADDRESS HARDWARE DATA PROTECTION EXIT DATA PROTECT STATE(3) These features protect against inadvertent writes to the WME128K8-XXX. These are included to improve reliability during normal operation: a) VCC power on delay As VCC climbs past 3.8V typical the device will wait 5msec typical before allowing write cycles. b) c) VCC sense While below 3.8V typical write cycles are inhibited. Write inhibiting Holding OE# low and either CS# or WE# high inhibits write cycles. d) Noise filter Pulses of
WME128K8-140DECA 价格&库存

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