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| FUJITSU SEMICONDUCTOR DATA SHEET DS05-11424-4E MEMORY Mobile FCRAMTM CMOS 16 Mbit (1 M word x 16 bit) MB82D01181E-60L DESCRIPTION Mobile Phone Application Specific Memory MB82D01181E is a Fast Cycle Random Access Memory (FCRAM) with asynchronous Static Random Access Memory (SRAM) interface containing 16,777,216 storages accessible in a 16-bit format. MB82D01181E is suited for mobile applications such as Cellular Handset and PDA. Note: FCRAM is a trademark of Fujitsu Limited, Japan. FEATURES * * * * * * * * * * * Asynchronous SRAM Interface 1 M word x 16 bit Organization Low-voltage Operating Conditions Wide Operating Temperature Read/Write Cycle Time Fast Random Access Time Active current Standby current Power down current Byte Control Shipping Form : VDD = 2.3 V to 3.5 V : TA = 0 C to + 70 C : tRC = tWC = 70 ns Min : tAA = tCE = 60 ns Max : IDDA1 = 20 mA Max : IDDs1 = 100 A Max (VDD 3.1 V) : IDDP = 10 A Max : Wafer/Chip, 48-pin plastic FBGA Copyright(c)2004-2006 FUJITSU LIMITED All rights reserved MB82D01181E-60L PIN ASSIGNMENT (TOP VIEW) 1 2 3 4 5 6 A B C D E F G H LB DQ9 OE UB A0 A3 A5 A17 NC A14 A12 A9 A1 A4 A6 A7 A16 A15 A13 A10 A2 CE1 DQ2 DQ4 DQ5 DQ6 WE A11 CE2 DQ1 DQ3 VDD VSS DQ7 DQ8 NC DQ10 DQ11 VSS VDD DQ12 DQ13 DQ15 DQ14 DQ16 A18 A19 A8 (BGA-48P-M18) SRAM compatible FBGA (suffix PBN) PIN DESCRIPTION Pin Name A19 to A0 CE1 CE2 WE OE LB UB DQ8 to DQ1 DQ16 to DQ9 VDD VSS NC Address Input Chip Enable (Low Active) Chip Enable (High Active) Write Enable (Low Active) Output Enable (Low Active) Lower Byte Control (Low Active) Upper Byte Control (Low Active) Lower Byte Data Input/Output Upper Byte Data Input/Output Power Supply Ground No Connection Description 2 MB82D01181E-60L BLOCK DIAGRAM VDD VSS A19 to A0 Address Latch & Buffer Row Decoder Memory Cell Array 16,777,216 bits DQ8 to DQ1 I/O Buffer DQ16 to DQ9 Input Data Latch & Control Sense / Switch Output Data Control Column Decoder Address Latch & Buffer CE2 Power Control Timing Control CE1 WE LB UB OE 3 MB82D01181E-60L FUNCTION TRUTH TABLE Mode Standby (Deselect) Output Disable*1 No Read Read (Upper Byte) Read (Lower Byte) Read (Word) No Write Write (Upper Byte) Write (Lower Byte) Write (Word) Power Down *2 L X X X L H H H L CE2 CE1 H WE X H OE X H LB X X H H L L H H L L X UB X X H L H L H L H L X A19 to A0 DQ8 to DQ1 DQ16 to DQ9 X *3 Valid Valid Valid Valid Valid Valid Valid Valid X High-Z High-Z High-Z High-Z Output Valid Output Valid Invalid Invalid Input Valid Input Valid High-Z High-Z High-Z High-Z Output Valid High-Z Output Valid Invalid Input Valid Invalid Input Valid High-Z IDDP No Yes IDD IDDS Data Retention L IDDA Note : L = VIL, H = VIH, X = either VIL or VIH, High-Z = High impedance *1 : Output disable mode should not be kept longer than 1 s. *2 : Power down mode can be entered from standby state and all DQ pins are in High-Z state. *3 : Can be either VIL or VIH but must be valid before read or write. 4 MB82D01181E-60L ABSOLUTE MAXIMUM RATINGS Parameter Supply Voltage * Input Voltage * Output voltage * Short Circuit Output Current Storage Temperature * : All voltages are referenced to VSS. WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings. Symbol VDD VIN VOUT IOUT TSTG Rating Min -0.5 -0.5 -0.5 -50 -55 Max +3.6 +3.6 +3.6 +50 +125 Unit V V V mA C RECOMMENDED OPERATING CONDITIONS Parameter Symbol VDD (31) Supply Voltage *1, *2 VDD (27) VDD (23) VSS VIH (31) VIH (23, 27) Low Level Input Voltage *1, *4 Ambient Temperature *1 : All voltages are referenced to VSS. *2 : This device supports three voltage ranges, VDD (31) , VDD (27) , and VDD (23) on identical device. VDD range is divided into three ranges on the table due to VIH varied according to VDD supply voltage. *3 : Overshoot spec. (VIH (Max) = VDD + 1.0 V, pulse width 5.0 ns) *4 : Undershoot spec. (VIL (Min) = - 1.0 V, pulse width 5.0 ns) WARNING: The recommended operating conditions are required in order to ensure the normal operation of the semiconductor device. All of the device's electrical characteristics are warranted when the device is operated within these ranges. Always use semiconductor devices within their recommended operating condition ranges. Operation outside these ranges may adversely affect reliability and could result in device failure. No warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. Users considering application outside the listed conditions are advised to contact their FUJITSU representatives beforehand. VIL TA Value Min 3.1 2.7 2.3 0 VDD x 0.8 VDD x 0.8 -0.3 0 Max 3.5 3.1 2.7 0 VDD + 0.2 and 3.5 VDD + 0.2 VDD x 0.2 +70 Unit V V V V V V V C High Level Input Voltage *1, *2, *3 5 MB82D01181E-60L PIN CAPACITANCE (f = 1.0 MHz, TA = +25 C) Value Unit Typ Max 5 5 8 pF pF pF Parameter Address Input Capacitance Control Input Capacitance Data Input/Output Capacitance Symbol CIN1 CIN2 CIO Conditions VIN = 0 V VIN = 0 V VIO = 0 V Min DC CHARACTERISTICS Parameter Input Leakage Current Output Leakage Current Output High Voltage Level Output Low Voltage Level VDD Power Down Current Symbol ILI ILO VOH(31) VOH(27) VOH(23) VOL IDDP VSS VIN VDD VSS VOUT VDD, Output Disable VDD = VDD(31) Min, IOH = -0.5 mA VDD = VDD(27) Min, IOH = -0.5 mA VDD = VDD(23) Min, IOH = -0.5 mA IOL = 1 mA VDD = VDD Max, VIN = VIH or VIL, CE2 0.2 V VDD = VDD(31) Max, VIN = VIH or VIL, CE1 = CE2 = VIH VDD = VDD(27, 23) Max, VIN = VIH or VIL, CE1 = CE2 = VIH VDD = VDD(31) Max, VIN 0.2 V or VIN VDD - 0.2 V, CE1 = CE2 VDD - 0.2 V VDD = VDD(27, 23) Max, VIN 0.2 V or VIN VDD - 0.2 V, CE1 = CE2 VDD - 0.2 V VDD = VDD Max, VIN = VIH or VIL, CE1 = VIL and CE2 = VIH, IOUT = 0 mA tRC / tWC = Min tRC / tWC = 1 s Conditions Value Min -1.0 -1.0 2.5 2.2 1.8 Max +1.0 +1.0 0.4 10 2.0 mA 1.0 Unit A A V V V V A IDDS VDD Standby Current IDDS1 150 A 100 20 mA 3.0 VDD Active Current IDDA1 Notes: * All voltages are referenced to Vss. * DC Characteristics are measured after following POWER-UP timing. * IOUT depends on the output load conditions. 6 MB82D01181E-60L AC CHARACTERISTICS (1) Read Operation Parameter Read Cycle Time CE1 Access Time OE Access Time Address Access Time LB, UB Access Time Output Data Hold Time CE1 Low to Output Low-Z OE Low to Output Low-Z LB, UB Low to Output Low-Z CE1 High to Output High-Z OE High to Output High-Z LB, UB High to Output Low-Z Address Setup Time to CE1 Low Address Setup Time to OE Low Address Invalid Time Address Hold Time from CE1 High Address Hold Time from OE High WE High to OE Low Time for Read CE1 High Pulse Width Symbol tRC tCE tOE tAA tBA tOH tCLZ tOLZ tBLZ tCHZ tOHZ tBHZ tASC tASO tAX tCHAH tOHAH tWHOL tCP Value Min 70 5 5 0 0 -5 10 -5 -5 10 10 Max 1000 60 40 60 30 20 20 20 10 1000 Unit ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns *7 *5 *6 Notes *1, *2 *3 *3 *3, *5 *3 *3 *4 *4 *4 *3 *3 *3 *1 : Maximum value is applicable if CE1 is kept at Low without any address change. *2 : Address should not be changed within minimum tRC. *3 : The output load 50 pF with 50 termination to VDD x 0.5 V. *4 : The output load 5 pF without any other load. *5 : Applicable when CE1 is kept at Low. *6 : tRC (Min) must be satisfied. *7 : If the actual value of tWHOL is shorter than specified minimum value, the actual tAA of following Read may become longer by the amount of subtracting actual value from specified minimum value. 7 MB82D01181E-60L (2) Write Operation Value Parameter Write Cycle Time Address Setup Time CE1 Write Pulse Width WE Write Pulse Width LB, UB Write Pulse Width LB, UB Byte Mask Setup Time LB, UB Byte Mask Hold Time Write Recovery Time CE1 High Pulse Width WE High Pulse Width LB, UB High Pulse Width Data Setup Time Data Hold Time OE High to Address Setup Time for Write OE High to CE1 Low Setup Time for Write LB and UB Write Pulse Overlap Symbol Min tWC tAS tCW tWP tBW tBS tBH tWR tCP tWHP tBHP tDS tDH tOES tOHCL tBWO 70 0 45 45 45 -5 -5 0 10 10 10 15 0 0 -5 30 Max 1000 1000 1000 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns *8 *7 *1, *2 *2 *3 *3 *3 *4 *5 *6 Unit Notes *1 : Maximum value is applicable if CE1 is kept at Low without any address change. *2 : Minimum value must be equal or greater than the sum of write pulse width (tCW, tWP or tBW) and write recovery time (tWR) . *3 : Write pulse width is defined from High to Low transition of CE1, WE, LB or UB, whichever occurs last. *4 : Applicable for byte mask only. Byte mask setup time is defined to the High to Low transition of CE1 or WE whichever occurs last. *5 : Applicable for byte mask only. Byte mask hold time is defined from the Low to High transition of CE1 or WE whichever occurs first. *6 : Write recovery time is defined from Low to High transition of CE1, WE, LB or UB, whichever occurs first. *7 : If OE is Low after minimum tOHCL, read cycle is initiated. In other words, OE must be brought to High within 5 ns after CE1 is brought to Low. *8 : If OE is Low after new address input, read cycle is initiated. In other words, OE must be brought to High at the same time or before new address valid. Note : AC Characteristics are measured after following POWER-UP timing. 8 MB82D01181E-60L (3) Power Down Parameters Parameter CE2 Low Setup Time for Power Down Entry CE2 Low Hold Time after Power Down Entry CE1 High Hold Time following CE2 High after Power Down Exit CE1 High Setup Time following CE2 High after Power Down Exit * : Applicable also to power-up. (4) Other Timing Parameters Parameter CE1 High to OE Invalid Time for Standby Entry CE1 High to WE Invalid Time for Standby Entry CE2 Low Hold Time after Power-up CE1 High Hold Time following CE2 High after Power-up Input Transition Time Symbol tCHOX tCHWX tC2LH tCHH tT Value Min 10 10 50 300 1 Max 25 Unit ns ns s s ns *2 *1 Note Symbol tCSP tC2LP tCHH tCHS Value Min 10 80 300 0 Max Unit ns ns s ns * Note *1: Some data might be written into any address location if tCHWX (Min) is not satisfied. *2: The Input Transition Time (tT) at AC testing is 5 ns as shown in below. If actual tT is longer than 5 ns, it may violate AC specifications of some timing parameters. (5) AC Test Conditions Parameter Input High Level Input Low level Input Timing Measurement Level Input Transition Time Symbol VIH VIL VREF tT Conditions Between VIL and VIH Measured Value VDD x 0.8 VDD x 0.2 VDD x 0.5 5 Unit V V V ns Note (6) AC Measurement Output Load Circuit VDD 0.5 V 50 VDD 0.1 F VSS Device Under Test 50 pF OUT 9 MB82D01181E-60L TIMING DIAGRAM 1. READ Timing 1 (Basic Timing) tRC Address tASC tCE Address Valid tCHAH tCP tOE tCHZ tASC CE1 OE tOHZ tBA LB, UB tBLZ tBHZ DQ tOLZ tCLZ (Output) Valid Data Output Note : This timing diagram assumes CE2 = "H" and WE = "H". tOH 2. READ Timing 2 (OE & Address Access) tRC tAX tRC Address CE1 Address Valid tAA Low tASO tOE Address Valid tAA tOHAH OE LB, UB tOLZ tOH tOHZ tOH DQ (Output) Valid Data Output Note : This timing diagram assumes CE2 = "H" and WE = "H". Valid Data Output 10 MB82D01181E-60L 3. READ Timing 3 (LB, UB Byte Access) tAX tRC tAX Address tAA Address Valid Low tBA tBA CE1, OE LB tBA UB tBLZ tBHZ tOH tBLZ tBHZ tOH DQ8 to DQ1 (Output) Valid Data Output tBLZ DQ16 to DQ9 Valid Data Output tOH tBHZ (Output) Valid Data Output Note : This timing diagram assumes CE2 = "H" and WE = "H". 4. WRITE Timing 1 (Basic Timing) tWC Address tAS Address Valid tCW tWR tCP tAS tWP tWR tWHP tAS tBW tWR tBHP tOHCL tAS tAS tAS CE1 WE LB, UB OE DQ tDS tDH (Input) Valid Data Input Note : This timing diagram assumes CE2 = "H". 11 MB82D01181E-60L 5. WRITE Timing 2 (WE Control) tWC tWC Address tOHAH Address Valid Address Valid CE1 Low tAS tWP tWR tWHP tAS tWP tWR WE LB, UB tOES OE tOHZ tDS tDH tDS tDH DQ (Input) Valid Data Input Note : This timing diagram assumes CE2 = "H". Valid Data Input 6. WRITE Timing 3-1 (WE, LB, UB Byte Write Control) tWC tWC Address CE1 Low tAS Address Valid Address Valid tWP tWHP tWR tAS tWP WE tBS tBH LB tBS tBH tDS tDH tWR UB DQ8 to DQ1 (Input) DQ16 to DQ9 Valid Data Input tDS tDH (Input) Valid Data Input Note : This timing diagram assumes CE2 = "H" and OE = "H". 12 MB82D01181E-60L 7. WRITE Timing 3-2 (WE, LB, UB Byte Write Control) tWC tWC Address CE1 Low Address Valid Address Valid tWR tWR tWHP WE tAS tBW tBS tBH LB tBS tBH tDS tDH tAS tBW UB DQ8 to DQ1 (Input) DQ16 to DQ9 Valid Data Input tDS tDH (Input) Valid Data Input Note : This timing diagram assumes CE2 = "H" and OE = "H". 8. WRITE Timing 3-3 (WE, LB, UB Byte Write Control) tWC tWC Address CE1 Low Address Valid Address Valid WE tAS tBW tWR tWHP tBS tBH LB tBS tBH tDS tDH tAS tBW tWR UB DQ8 to DQ1 (Input) DQ16 to DQ9 Valid Data Input tDS tDH (Input) Valid Data Input Note : This timing diagram assumes CE2 = "H" and OE = "H". 13 MB82D01181E-60L 9. WRITE Timing 3-4 (WE, LB, UB Byte Write Control) tWC tWC Address CE1 Low Address Valid Address Valid WE tAS tBW tWR tBHP tBWO tDS tDH tDS tDH tAS tBW tWR LB DQ8 to DQ1 (Input) tAS Valid Data Input tBW tWR tBHP tDS tDH tAS Valid Data Input tBWO tBW tDS tWR UB DQ16 to DQ9 tDH (Input) Valid Data Input Valid Data Input Note : This timing diagram assumes CE2 = "H" and OE = "H". 10. READ/WRITE Timing 1-1 (CE1 Control) tWC tRC Address tCHAH tAS Write Address tCW tWR tASC Read Address tCE tCHAH CE1 tCP tCP WE UB, LB tOHCL OE tCHZ tOH tDS tDH tCLZ tOH DQ Read Data Output Write Data Input Read Data Output Note : This timing diagram assumes CE2 = "H". Write address is valid from either CE1 or WE of last falling edge. 14 MB82D01181E-60L 11. READ/WRITE Timing 1-2 (CE1, WE, OE Control) tWC tRC Address tCHAH tAS Write Address tWR tASC Read Address tCE tCHAH CE1 tCP tWP tCP WE UB, LB tOHCL tOE OE tCHZ tOH tDS tDH tOLZ tOH DQ Read Data Output Write Data Input Read Data Output Note : This timing diagram assumes CE2 = "H". OE can be fixed Low during write operation if it is CE1 controlled write at Read-Write-Read sequence. 12. READ/WRITE Timing 2 (OE, WE Control) tWC tRC Address tOHAH Write Address Read Address tAA tOHAH CE1 Low tAS tWP tWR WE tOES UB, LB tASO tOE tOHZ tOH OE tOHZ tOH tDS tDH tWHOL tOLZ DQ Read Data Output Write Data Input Read Data Output Note : This timing diagram assumes CE2 = "H". CE1 can be tied to Low for WE and OE controlled operation. 15 MB82D01181E-60L 13. READ/WRITE Timing 3 (OE, WE, LB, UB Control) tWC tRC Address CE1 Write Address Read Address tAA tOHAH Low tOHAH WE tOES tAS tBW tWR tBA UB, LB tBHZ tASO tWHOL tOH tDS tDH tBLZ OE tBHZ tOH DQ Read Data Output Write Data Input Read Data Output Note : This timing diagram assumes CE2 = "H". CE1 can be tied to Low for WE and OE controlled operation. 16 MB82D01181E-60L 14. POWER-UP Timing 1 CE1 tCHS tC2LH tCHH CE2 VDD 0V VDD (Min) Note : tC2LH specifies after VDD reaches specified minimum level. 15. POWER-UP Timing 2 CE1 tCHH CE2 VDD 0V VDD (Min) Note : tCHH specifies after VDD reaches specified minimum level and applicable to both CE1 and CE2. If transition time of VDD (from 0 V to VDD Min) is longer than 100 ms, POWER-UP Timing#1 must be applied. 17 MB82D01181E-60L 16. POWER DOWN Entry and Exit Timing CE1 tCHS CE2 tCSP tC2LP High-Z tCHH DQ Power Down Entry Power Down Mode Power Down Exit Note : This Power Down mode can be also used as a reset timing if POWER-UP timing could not be satisfied. 17. Standby Entry Timing after Read or Write CE1 tCHOX tCHWX OE WE Active (Read) Standby Active (Write) Standby Note : Both tCHOX and tCHWX define the earliest entry timing for Standby mode. If either of timing is not satisfied, it takes tRC (Min) period for Standby mode from CE1 Low to High transition. 18 MB82D01181E-60L BONDING PAD INFORMATION Please contact local FUJITSU representative for pad layout and pad coordinate information. ORDERING INFORMATION Part No. MB82D01181E-60LWT MB82D01181E-60LPBN Shipping Form/Package Wafer 48-pin plastic FBGA (BGA-48P-M18) SRAM compatible FBGA package tCE = 60 ns Max Remarks 19 MB82D01181E-60L PACKAGE DIMENSION 48-pin plastic FBGA Ball pitch Package width x package length Lead shape Sealing method Mounting height Weight 0.75 mm 6.00 x 9.00 mm Fine pitch ball Plastic mold 1.20 mm MAX 0.10 g (BGA-48P-M18) 48-pin plastic FBGA (BGA-48P-M18) 1.05 -0.10 9.000.10(.354.004) .041 -.004 +0.15 +.006 (Mounting height) (5.25(.207)) 0.75(.030) TYP 0.250.10 (.010.004) (Stand off) 6 5 6.000.10 (.236.004) (3.75(.148)) 4 3 2 1 0.75(.030) TYP INDEX AREA H GFE DC BA INDEX MARK 0.08(.003) M 48-o0.350.10 (48-o.014.004) 0.20(.008) S S 0.10(.004) S C 2001 FUJITSU LIMITED B48018S-c-1-1 Dimensions in mm (inches). Note: The values in parentheses are reference values. 20 MB82D01181E-60L FUJITSU LIMITED All Rights Reserved. The contents of this document are subject to change without notice. Customers are advised to consult with FUJITSU sales representatives before ordering. The information, such as descriptions of function and application circuit examples, in this document are presented solely for the purpose of reference to show examples of operations and uses of Fujitsu semiconductor device; Fujitsu does not warrant proper operation of the device with respect to use based on such information. When you develop equipment incorporating the device based on such information, you must assume any responsibility arising out of such use of the information. Fujitsu assumes no liability for any damages whatsoever arising out of the use of the information. Any information in this document, including descriptions of function and schematic diagrams, shall not be construed as license of the use or exercise of any intellectual property right, such as patent right or copyright, or any other right of Fujitsu or any third party or does Fujitsu warrant non-infringement of any third-party's intellectual property right or other right by using such information. Fujitsu assumes no liability for any infringement of the intellectual property rights or other rights of third parties which would result from the use of information contained herein. The products described in this document are designed, developed and manufactured as contemplated for general use, including without limitation, ordinary industrial use, general office use, personal use, and household use, but are not designed, developed and manufactured as contemplated (1) for use accompanying fatal risks or dangers that, unless extremely high safety is secured, could have a serious effect to the public, and could lead directly to death, personal injury, severe physical damage or other loss (i.e., nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system), or (2) for use requiring extremely high reliability (i.e., submersible repeater and artificial satellite). Please note that Fujitsu will not be liable against you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. Any semiconductor devices have an inherent chance of failure. You must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating conditions. If any products described in this document represent goods or technologies subject to certain restrictions on export under the Foreign Exchange and Foreign Trade Law of Japan, the prior authorization by Japanese government will be required for export of those products from Japan. Edited Business Promotion Dept. F0607 |
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