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| MITSUBISHI MEMORY CARD STATIC RAM CARDS 8/16-bit Data Bus Static RAM Card Connector Type Two- piece 68-pin MF365A-LCDATXX MF365A-LSDATXX MF3129-LCDATXX MF3129-LSDATXX MF3257-LCDATXX MF3257-LSDATXX MF3513-LCDATXX MF3513-LSDATXX MF31M1-LCDATXX MF31M1-LSDATXX MF32M1-LCDATXX MF32M1-LSDATXX MF34M1-LCDATXX MF34M1-LSDATXX Electrostatic discharge protectiton to 15kV Buffered interface 68-pin connector 8-bit and 16-bit data width Write protect switch Battery voltage pin LS Type Wide Range operating temperature Ta= -20 to 70C DESCRIPTION Mitsubishi's Static RAM cards provide large memory capacities on a device approximately the size of a credit card(85.6mmx54mmx3.3mm). T h e c a r d s u s e a 8 / 1 6 bit data bus.The devices use a replaceable lithium battery to maintain data. Available in 64K byte-4M byte capacities, Mitsubishi's Static RAM cards are available with a 68-pin, two-piece connector. FEATURES Uses TSOP (Thin Small Outline Package) to achieve very high memory density coupled with high reliability, without enlarging card size PRODUCT LIST Item Type name MF365A-LCDATXX MF3129-LCDATXX MF3257-LCDATXX MF3513-LCDATXX MF31M1-LCDATXX MF32M1-LCDATXX MF34M1-LCDATXX MF365A-LSDATXX MF3129-LSDATXX MF3257-LSDATXX MF3513-LSDATXX MF31M1-LSDATXX MF32M1-LSDATXX MF34M1-LSDATXX Memory capacity 64KB 128KB 256KB 512KB 1MB 2MB 4MB 64KB 128KB 256KB 512KB 1MB 2MB 4MB 8/16 NO Data Bus width(bits) Attribute memory APPLICATIONS Office automation Computers Telecommunications Data Communications Industrial Consumer Auxialiary battery Memory organization 256K bit SRAMx2 256K bit SRAMx4 1M bit SRAMx2 1M bit SRAMx4 1M bit SRAMx8 1 M b i t S R A M x 16 Outline drawing Main battery holder NO 4M bit SRAMx8 256K bit SRAMx2 256K bit SRAMx4 1M bit SRAMx2 1M bit SRAMx4 1M bit SRAMx8 1 M b i t S R A M x 16 4M bit SRAMx8 68P-003 Screw type MITSUBISHI ELECTRIC 1/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS PIN ASSIGNMENT T w o - P i e c e T y p e (68-pin) Pin Symbol No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 GND D3 D4 D5 D6 D7 CE1# A10 OE# A11 A9 A8 A13 A14 WE# NC VCC NC A16 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 D0 D1 D2 WP GND Ground Pin No. 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 GND CD1# Function Symbol Ground Card detect 1 Function Data I/O Card enable 1 Address input Output enable Address input Write enable No connection Power supply voltage No connection A16(NC for 64KB type) Address input D11 D12 D13 D14 D15 CE2# NC NC NC A17 A18 A19 A20 A21 VCC NC NC NC NC NC NC NC NC NC REG# Data I/O Card enable 2 No connection A17(NC for128KB types) A18(NC for256KB types) A19(NC for512KB types) A20(NC for1MB types) A21(NC for2MB types) Power supply voltage No connection No connection Address input No connection Data I/O Write protect Ground BVD2 BVD1 D8 D9 D10 CD2# REG function Battery voltage detect 2 Battery voltage detect 1 Data I/O Card detect 2 Ground GND WRITE PROTECT MODE (WP) When the write protect switch is switched on, this card goes into a write protect mode that can read but not write data. In this mode, the WP pin becomes "H" level. At the shipment the write protect switch is switched off (Normal mode : The card can be written ; WP pin indicates "L" level). MITSUBISHI ELECTRIC 2/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS BLOCK DIAGRAM (4MB) A21 A20 A0 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 ADDRESSDECODER 8 CS# COMMON MEMORY ADDRESSBUS BUFFERS 19 16 DATA-BUS BUFFERS 4Mbit SRAMx8 OE# WE# D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 CE1# CE2# WE# OE# REG# WP# WRITE PROTECT OFF ON MODE CONTROL LOGIC TO INTERNAL POWER VOLTAGE DETECTOR & POWER CONTROLLER GND BR2325 VCC BVD2 BVD1 CD1# CD2# FUNCTION TABLE Mode Standby Read A (16bit) common Write A (16bit) common Read B (8bit) common Write B (8bit) common Read C (8bit) common Write C (8bit) common Output disable Read A (16bit) attribute Read B (8bit) attribute Read C (8bit) attribute REG# CE1# CE2# OE# WE# A0 X H H H H H H H H X L L L L H L L L L L L H H X L L L H H L L H H H H L L X L H H L X L H L L H H L H H L L L L X H L H H L L H L H H H H H X X X L H L H X X X X L H X I/O (D15~D8) High-impedance Odd Byte Data out Odd Byte Data in High-impedance High-impedance High-impedance High-impedance Odd Byte Data out Odd Byte Data in High-impedance Data out (unknown) High-impedance High-impedance Data out (unknown) I/O (D7~D0) High-impedance Even Byte Data out Even Byte Data in Even Byte Data out Odd Byte Data out Even Byte Data in Odd Byte Data in High-impedance High-impedance High-impedance Data out (FFh) Data out (FFh) Data out (unknown) High-impedance ICC Standby Active Active Active Active Active Active Active Active Active Active Active Active Active Note 1 : H=VI H , L=VIL, X=VI H or VI L MITSUBISHI ELECTRIC 3/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS ABSOLUTE MAXIMUM RATINGS Symbol VC C Vi Vo T opr1 T opr2 T stg Parameter Supply voltage Input voltage Output voltage Operating temperature 1 Operating temperature 2 Storage temperature Conditions With respect to GND Read, Write, Operation Data retention Ratings -0.3~6.0 -0.3~VC C +0.3 0~VC C LC series 0~70 LS series -20~70 LC series 0~70 LS series -20~70 -30~80 Unit V V V C C C C C R E C O M M E N D E D O P E R A T I N G C O N D I T I O N S (LC series Ta= 0~55C, unless otherwise noted) (LS series Ta=-20~70C, unless otherwise noted) Limits Parameter Symbol Unit Min. Typ. Max. VC C VC C Supply voltage 4.50 5.0 5.25 V GND System ground 0 V VI H High input voltage 3.5 VC C V VI L Low input voltage 0 0.8 V MITSUBISHI ELECTRIC 4/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS E L E C T R I C A L C H A R A C T E R I S T I C S ( L C s e r i e s T a = 0 ~ 5 5 C , V CC= 4 . 5 0 ~ 5 . 2 5 V , u n l e s s o t h e r w i s e n o t e d ) Symbol VOH VOL IIH IIL IOZH IOZL Parameter High output voltage Low output voltage High input current Low input current High output current in off state Low output current in off state ICC 1 * 1 Active supply current 1 ICC 1 * 2 Active supply current 2 ICC 2 * 1 Standby supply current 1 ICC 2 * 2 VBDET1 VBDET2 Standby supply current 2 Battery detect reference voltage 1 Battery detect reference voltage 2 ( L S s e r i e s T a = - 2 0 ~ 7 0 C , V CC= 4 . 5 0 ~ 5 . 2 5 V , u n l e s s o t h e r w i s e n o t e d ) Limits Test conditions Unit M i n . Typ. Max. IOH= - 1 . 0 m A 2.4 V IOL= 1 m A 0.4 V VI=VCC V 10 A VI =0V CE1#, CE2#, WE#, OE#, REG# -10 -70 A Other inputs -10 C E 1 # = C E 2 # = V IH o r O E # = V IH W E # = V IH, 10 A VO=VCC C E 1 # = C E 2 # = V IH o r O E # = V IH W E # = V IH, -10 A VO= 0 V 64KB~1MB 16bit 150 C E 1 # = C E 2 # = V IL 8bit 110 O t h e r i n p u t s V IH o r V IL 2MB 16bit 160 mA Outputs=open 8bit 120 Cycle time=250ns 4MB 16bit 200 8bit 160 64KB~1MB 16bit 140 CE1#=CE2# 0.2V 8bit 100 Other inputs 0.2V or 2MB 16bit 150 mA VCC-0.2V 8bit 110 Outputs=open 4MB 16bit 190 Cycle time=250ns 8bit 150 C E 1 # = C E 2 # = V IH 10 mA O t h e r i n p u t s = V IH o r V IL C E 1 # = C E 2 # VCC- 0 . 2 V 64KB,128KB 0.15 0.30 Other inputs 0.2V or 256KB~1MB 0.15 0.45 mA VCC- 0 . 2 V 2MB,4MB 0.30 0.65 Vcc=5V,Ta=25C V 2.37 2.47 2.27 Vcc=5V,Ta=25C 2.55 2.65 2.75 V Note 2 : Currents flowing into the IC are taken as positive (unsigned). 3 : Typical values are measured at VC C = 5 V , T a = 2 5 C . Pin asserted when battery voltage drops below specified level. MITSUBISHI ELECTRIC 5/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS CAPACITANCE Symbol CI Parameter Input capacitance Test conditions 64KB~2MB 4MB 64KB~2MB 4MB Min. Limits Typ. VI =GND, VI =25mVrms f=1 MHZ, T a = 2 5 C CO Output capacitance VO =GND, VO =25mVrms, f=1 MHZ, T a = 2 5 C Note 4 : These parameters are not 100% tested. Max. 45 30 45 20 Unit pF pF SWITCHING CHARACTERISTICS R e a d C y c l e (LC series Ta= 0~55C, VC C =4.50~5.25V, unless otherwise noted) (LS series Ta=-20~70C, VC C =4.50~5.25V, unless otherwise noted) Limits Min. Typ. Symbol Parameter tC R ta (A) ta (CE) ta (OE) tdis(CE) tdis(OE) te n (CE) te n (OE) tV (A) Read cycle time Address access time Card enable access time Output enable accese time Output disable time (from CE#) Output disable time (from OE#) Output enable time (from CE#) Output enable time (from OE#) Data valid time (after address change) 5 5 0 200 Max. 200 200 100 90 90 Unit ns ns ns ns ns ns ns ns ns TIMING REQUIREMENTS W r i t e C y c l e (LC series Ta= 0~55C, VC C =4.50~5.25V, unless otherwise noted) (LS series Ta=-20~70C, VC C =4.50~5.25V, unless otherwise noted) Symbol tC W tw ( W E ) ts u ( A ) ts u ( A - W E H ) ts u ( C E - W E H ) ts u ( D - W E H ) th ( D ) tr e c ( W E ) tdis(WE) tdis(OE) te n ( W E ) te n ( O E ) ts u ( O E - W E ) th(OE-WE) Write cycle time Write pulse width Address set up time Parameter Min. 200 120 20 140 140 60 30 30 Limits Typ. Max. Unit ns ns ns ns ns ns ns ns Address set up time with respect to WE# high Card enable set up time with respect to WE# high Data set up time with respect to WE# high Data hold time Write recovery time Output disable time (from WE#) Output disable time (from OE#) Output enable time (from WE#) Output enable time (from OE#) OE# set up time with respect to WE# low OE# hold time with respect to WE# high 90 90 5 5 10 10 ns ns ns ns ns ns MITSUBISHI ELECTRIC 6/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS TIMING DIAGRAM Read Cycle tCR An VIH VIL VIH CE# VIL ten(CE) tdis(CE) ta(OE) ta(A) ta(CE) tV(A) VIH OE# VIL ten(OE) tdis(OE) VOH Dm (DOUT) VOL WE#="H" level REG#="H" level Hi-Z OUTPUT VALID Note 5 : Indicates the don't care input W r i t e C y c l e (WE# control) tCW VIH An VIL VIH CE# VIL VIH OE# VIL VIH WE# VIL tSU(OE-WE) Dm (DIN) VIH Hi-Z tSU(D-WEH) th(D) th(OE-WE) tSU(A) tW(WE) trec(WE) tSU(A-WEH) tSU(CE-WEH) VIL tdis(OE) DATA INPUT STABLE tdis(WE) Hi-Z ten(OE) ten(WE) VOH Dm (DOUT) VOL REG#="H" level MITSUBISHI ELECTRIC 7/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS W r i t e C y c l e (CE# control) tCW VIH An VIL tSU(A) tSU(CE-WEH) trec(WE) VIH CE# VIL VIH WE# VIL tSU(D-WEH) th(D) Dm (DIN) VIH VIL Hi-Z DATA INPUT STABLE OE#="H" level REG#="H" level SWITCHING CHARACTERISTICS (Attribute) R e a d C y c l e (LC series Ta= 0~55C, VC C =4.50~5.25V, unless otherwise noted) (LS series Ta=-20~70C, VC C =4.50~5.25V, unless otherwise noted) Symbol tC R R ta ( A ) R ta ( C E ) R ta ( O E ) R tdis(CE)R tdis(OE)R te n ( C E ) R te n ( O E ) R tV ( A ) R Parameter Read cycle time Address access time Card enable access time Output enable access time Output disable time (from CE#) Output disable time (from OE#) Output enable time (from CE#) Output enable time (from OE#) Data valid time after address change Min. 300 Limits Typ. Max. 300 300 150 100 100 5 5 0 Unit ns ns ns ns ns ns ns ns ns MITSUBISHI ELECTRIC 8/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS TIMING DIAGRAM (Attribute) Read Cycle tCRR An VIH VIL VIH CE# VIL ta(A)R ta(CE)R tV(A)R ten(CE)R tdis(CE)R ta(OE)R VIH OE# VIL ten(OE)R tdis(OE)R VOH Dm (DOUT) VOL WE#="H" level REG#="L" level Hi-Z OUTPUT VALID Note 6 : Test Conditions Input pulse levels : VI L =0.4V, VIH=4.0V Input p u l s e r i s e , f a l l t i m e : t r = t f = 1 0 n s Reference voltage Input : VI L = 0 . 8 V , V I H = 3 . 5 V Output : VOL=0.8V, VOH=3.0V (ten and tdis are measured when output voltage is 500mV from steady state. ) Load : 100pF+1 TTL gate 5pF+1 TTL gate (at ten and tdis measuring) 7 : Writing is executed in overlap of CE# and WE# are "L" level. (only for Common Memory) 8 : Don't apply inverted phase signal externally when Dm pin is in output mode. 9 : CE# is indicated as follows: Read A/Write A : CE#=CE1#=CE2# Read B/Write B : CE#=CE1#, CE2#="H" level Read C/Write C : CE#=CE2#, CE1#="H" level MITSUBISHI ELECTRIC 9/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS ELECTRICAL CHARACTERISTICS B A T T E R Y B A C K U P (LC series Ta= 0~55C, unless otherwise noted) (LS series Ta=-20~70C, unless otherwise noted) Symbol VBATT VI(CE) Parameter Back-up enable battery voltage Card enable voltage Test Conditions All pins open 2 . 4 V VCC5 . 2 5 V 0VVCC<2 . 4 V 64KB 128KB All pins open, 256KB VBATT= 3 V , 512KB Ta=25C 1MB 2MB 4MB 64KB 128KB 256KB All pins open, 512KB VBATT= 3 V 1MB 2MB 4MB Min. 2.6 2.4 VCC- 0 . 1 Limits Typ. Max. Unit V V VCC ICC(BUP) Battery back-up supply current ICC(BUP) Battery back-up supply current VCC+0.1 3 5 3 5 9 17 9 40 70 100 200 400 800 400 A A T I M I N G R E Q U I R E M E N T S (LC series Ta= 0~55C, unless otherwise noted) (LS series Ta=-20~70C, unless otherwise noted) Symbol Parameter tpr tpf ts u ( V C C ) tr e c ( V C C ) Power supply rise time Power supply fall time Set up time at power on Recovery time at power off Min. 0.1 3 20 1000 Limits Typ. Max. 300 300 Unit ms ms ms ns MITSUBISHI ELECTRIC 10/11 MITSUBISHI MEMORY CARD STATIC RAM CARDS CARD INSERTION/REMOVAL TIMING DIAGRAM VCC M I N m e a n s M i n i m u m O p e r a t i n g V o l t a g e = 4 . 7 5 V . VCC VCC MIN trec(VCC) tpf 90% VIH VIH tpr 90% 10% 10% VCC MIN tsu(VCC) VCC CE1#, CE2# CE1, CE2 Note 10: When the card is holding valuable data, the battery must not be removed unless VC C is present. BATTERY SPECIFICATIONS A replaceable battery (type BR2325) with a capacity of 165mAH is used: Estimated battery life when the card is left continuously. MF365A-LC/LSDATXX MF3129-LC/LSDATXX MF3257-LC/LSDATXX MF3513-LC/LSDATXX MF31M1-LC/LSDATXX MF32M1-LC/LSDATXX MF34M1-LC/LSDATXX Conditions Temperature : 25 C Humidity : 60%RH 5.9years 3.6years 5.9years 3.6years 2.0years 1.1years 2.0years MITSUBISHI ELECTRIC 11/11 |
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