¡ Semiconductor MSC2343257A-xxBS8/DS8 ¡ Semiconductor MSC2343257A-xxBS8/DS8 4,194,304-Word ¥ 32-Bit DRAM MODULE : FAST PAGE MODE TYPE WITH EDO 1 DESCRIPTION The Oki MSC2343257A-xxBS8/DS8 is a fully decoded 4,194,304-word ¥ 32-bit CMOS dynamic random access memory composed of eight 16-Mb DRAMs (4M ¥ 4) in SOJ. The mounting of eight DRAMs together with decoupling capacitors on a 72-pin glass epoxy SIMM Package supports any application where high density and large capacity of storage memory are required. FEATURES • 4,194,304-word ¥ 32-bit organization • 72-pin SIMM MSC2343257A-xxBS8 : Gold tab MSC2343257A-xxDS8 : Solder tab • Single 5 V supply ±10% tolerance • Input : TTL compatible • Output : TTL compatible, 3-state, nonlatch • Refresh : 2048 cycles/32 ms • CAS before RAS refresh, CAS before RAS hidden refresh, RAS-only refresh capability • Multi-bit test mode capability • Fast Page Mode with EDO capability PRODUCT FAMILY Family Access Time (Max.) tRAC tAA tCAC Power Dissipation Cycle Time Operating (Max.) Standby (Max.) (Min.) MSC2343257A-60BS8/DS8 60 ns 30 ns 15 ns 110 ns 5280 mW MSC2343257A-70BS8/DS8 70 ns 35 ns 20 ns 130 ns 4840 mW 44 mW 101 MSC2343257A-xxBS8/DS8 ¡ Semiconductor PIN CONFIGURATION MSC2343257A-xxBS8/DS8 (Unit : mm) *1 107.95 ±0.2 101.19 Typ. 3.38 ±0.2 25.4 ±0.2 Typ. 10.16 5.28 Max. φ 3.18 Typ. 6.35 1 72 2.03 Typ. 3.7 Min. R1.57 1.27 ±0.1 6.35 Typ. +0.1 1.27 –0.08 1.04 Typ. 6.35 95.25 *1 The common size difference of the board width 12.5 mm of its height is specified as ±0.2. The value above 12.5 mm is specified as ±0.5. Pin No. Pin Name Pin No. Pin Name Pin No. Pin Name Pin No. Pin Name Pin No. Pin Name 1 VSS 16 A4 31 A8 46 NC 61 DQ13 2 DQ0 17 A5 32 A9 47 WE 62 DQ30 3 DQ16 18 A6 33 NC 48 NC 63 DQ14 4 DQ1 19 A10 34 RAS2 49 DQ8 64 DQ31 5 DQ17 20 DQ4 35 NC 50 DQ24 65 DQ15 6 DQ2 21 DQ20 36 NC 51 DQ9 66 NC 7 DQ18 22 DQ5 37 NC 52 DQ25 67 PD1 8 DQ3 23 DQ21 38 NC 53 DQ10 68 PD2 9 DQ19 24 DQ6 39 VSS 54 DQ26 69 PD3 10 VCC 25 DQ22 40 CAS0 55 DQ11 70 PD4 11 NC 26 DQ7 41 CAS2 56 DQ27 71 NC 12 A0 27 DQ23 42 CAS3 57 DQ12 72 VSS 13 A1 28 A7 43 CAS1 58 DQ28 14 A2 29 NC 44 RAS0 59 VCC 15 A3 30 Vcc 45 NC 60 DQ29 Presence Detect Pins Pin No. 102 Pin Name MSC2343257A MSC2343257A -60BS8/DS8 -70BS8/DS8 67 PD1 VSS VSS 68 PD2 NC NC 69 PD3 NC VSS 70 PD4 NC NC ¡ Semiconductor MSC2343257A-xxBS8/DS8 BLOCK DIAGRAM A0 - A10 RAS0 CAS0 1 RAS2 CAS2 WE A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ0 DQ1 DQ2 DQ3 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ16 DQ17 DQ18 DQ19 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ4 DQ5 DQ6 DQ7 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ20 DQ21 DQ22 DQ23 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ8 DQ9 DQ10 DQ11 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ24 DQ25 DQ26 DQ27 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ12 DQ13 DQ14 DQ15 A0 - A10 DQ DQ RAS DQ CAS DQ WE OE VCC VSS DQ28 DQ29 DQ30 DQ31 CAS1 VCC VSS CAS3 C1 C8 103 MSC2343257A-xxBS8/DS8 ¡ Semiconductor ELECTRICAL CHARACTERISTICS Absolute Maximum Ratings Parameter Symbol Rating Unit Voltage on Any Pin Relative to VSS VIN, VOUT –1.0 to 7.0 V Voltage VCC Supply Relative to VSS VCC –1.0 to 7.0 V Short Circuit Output Current IOS 50 mA Power Dissipation PD 8 W Operating Temperature Topr 0 to 70 °C Storage Temperature Tstg –40 to 125 °C Note: Permanent device damage may occur if ABSOLUTE MAXIMUM RATINGS are exceeded. Functional operation should be restricted to the conditions as detailed in the operational sections of this data sheet. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Recommended Operating Conditions Parameter Power Supply Voltage (Ta = 0°C to 70°C) Symbol Min. Typ. Max. Unit VCC 4.5 5.0 5.5 V VSS 0 0 0 V Input High Voltage VIH 2.4 — 6.5 V Input Low Voltage VIL –1.0 — 0.8 V Capacitance (Ta = 25°C, f = 1 MHz) Symbol Typ. Max. Unit CIN1 — 57 pF Input Capacitance (WE) CIN2 — 65 pF Input Capacitance (RAS0, RAS2) CIN3 — 35 pF Input Capacitance (CAS0 - CAS3) CIN4 — 20 pF I/O Capacitance (DQ0 - DQ31) CDQ — 16 pF Parameter Input Capacitance (A0 - A10) Note : 104 Capacitance measured with Boonton Meter. ¡ Semiconductor MSC2343257A-xxBS8/DS8 DC Characteristics (VCC = 5 V ±10%, Ta = 0°C to 70°C) MSC2343257A Parameter Symbol Condition MSC2343257A -70BS8/DS8 -60BS8/DS8 ILI All other pins not 1 Max. Min. Max. –80 80 –80 80 µA –10 10 –10 10 µA 0 V £ VI £ 6.5 V; Input Leakage Current Unit Note Min. under test = 0 V DOUT disable Output Leakage Current ILO Output High Voltage VOH IOH = –5.0 mA 2.4 VCC 2.4 VCC V Output Low Voltage VOL IOL = 4.2 mA 0 0.4 0 0.4 V — 960 — 880 mA 1, 2 — 16 — 16 mA 1 — 8 — 8 mA 1 — 960 — 880 mA 1, 2 — 960 — 880 mA 1, 2 — 1120 — 1040 mA 1, 3 Average Power Supply Current ICC1 (Operating) Power Supply Current (Standby) ICC2 tRC = Min. RAS, CAS ≥ VCC –0.2 V RAS cycling, ICC3 CAS = VIH, tRC = Min. (RAS-only Refresh) RAS cycling, Average Power Supply Current RAS, CAS cycling, RAS, CAS = VIH Average Power Supply Current 0 V £ VO £ 5.5 V ICC6 CAS before RAS, (CAS before RAS Refresh) tRC = Min. Average Power RAS = VIL, Supply Current (Fast Page Mode) Notes: ICC7 CAS cycling, tHPC = Min. 1. ICC Max. is specified as ICC for output open condition. 2. Address can be changed once or less while RAS=VIL. 3. Address can be changed once or less while CAS=VIH. 105 MSC2343257A-xxBS8/DS8 ¡ Semiconductor AC Characteristics (1/2) Parameter (VCC = 5 V ±10%, Ta = 0°C to 70°C) Symbol MSC2343257A MSC2343257A -60BS8/DS8 Min. Max. -70BS8/DS8 Min. Max. Note 1,2,3,10,11 Unit Note Random Read or Write Cycle Time tRC 110 — 130 — ns Fast Page Mode Cycle Time tHPC 25 — 30 — ns Access Time from RAS tRAC — 60 — 70 ns 4, 5, 6 Access Time from CAS tCAC — 15 — 20 ns 4, 5 Access Time from Column Address tAA — 30 — 35 ns 4, 6 Access Time from CAS Precharge tCPA — 35 — 40 ns 4 4 Output Low Impedance Time from CAS tCLZ 0 — 0 — ns Output Hold Time from CAS Low tDOH 5 — 5 — ns CAS to Data Output Buffer Turn-off Delay Time tCEZ 0 15 0 20 ns 7, 8 RAS to Data Output Buffer Turn-off Delay Time tREZ 0 15 0 20 ns 7, 8 WE to Data Output Buffer Turn-off Delay Time tWEZ 0 15 0 20 ns 7 Transition Time tT 2 50 2 50 ns 3 Refresh Period tREF — 32 — 32 ms RAS Precharge Time tRP 40 — 50 — ns RAS Pulse Width tRAS 60 10k 70 10k ns RAS Pulse Width (Fast Page Mode) tRASP 60 100k 70 100k ns RAS Hold Time tRSH 15 — 20 — ns CAS Precharge Time tCP 10 — 10 — ns CAS Pulse Width tCAS 10 10k 10 10k ns RAS Low to CAS High Delay Time tCSH 40 — 45 — ns CAS High to RAS Low Delay Time tCRP 10 — 10 — ns RAS Hold Time from CAS Precharge tRHCP 35 — 40 — ns RAS to CAS Delay Time tRCD 20 45 20 50 ns 5 RAS to Column Address Delay Time tRAD 15 30 15 35 ns 6 RAS to Second CAS Delay Time tRSCD 60 — 70 — ns Row Address Set-up Time tASR 0 — 0 — ns Row Address Hold Time tRAH 10 — 10 — ns Column Address Set-up Time tASC 0 — 0 — ns Column Address Hold Time tCAH 10 — 15 — ns Column Address Hold Time from RAS tAR 40 — 45 — ns Column Address to RAS Lead Time tRAL 30 — 35 — ns 106 ¡ Semiconductor MSC2343257A-xxBS8/DS8 AC Characteristics (2/2) Parameter (VCC = 5 V ±10%, Ta = 0°C to 70°C) Symbol MSC2343257A MSC2343257A -60BS8/DS8 Min. Max. -70BS8/DS8 Min. Max. Note 1,2,3,10,11 Unit Note 1 Read Command Set-up Time tRCS 0 — 0 — ns Read Command Hold Time tRCH 0 — 0 — ns 9 Read Command Hold Time referenced to RAS tRRH 0 — 0 — ns 9 Write Command Set-up Time tWCS 0 — 0 — ns Write Command Hold Time tWCH 10 — 15 — ns Write Command Hold Time from RAS tWCR 45 — 50 — ns Write Command Pulse Width tWP 10 — 10 — ns Write Command Pulse Width (Output Disable) tWPE 5 — 10 — ns Write Command to RAS Lead Time tRWL 15 — 20 — ns Write Command to CAS Lead Time tCWL 15 — 20 — ns Data-in Set-up Time tDS 0 — 0 — ns Data-in Hold Time tDH 15 — 15 — ns Data-in Hold Time from RAS tDHR 40 — 45 — ns CAS Active Delay Time from RAS Precharge tRPC 10 — 10 — ns RAS to CAS Set-up Time (CAS before RAS) tCSR 10 — 10 — ns RAS to CAS Hold Time (CAS before RAS) tCHR 20 — 20 — ns WE to RAS Precharge Time (CAS before RAS) tWRP 10 — 10 — ns WE Hold Time from RAS (CAS before RAS) tWRH 10 — 10 — ns RAS to WE Set-up Time (Test Mode) tWTS 10 — 10 — ns RAS to WE Hold Time (Test Mode) tWTH 20 — 20 — ns 107 MSC2343257A-xxBS8/DS8 Notes: ¡ Semiconductor 1. A start-up delay of 200 µs is required after power-up, followed by a minimum of eight initialization cycles (RAS-only refresh or CAS before RAS refresh) before proper device operation is achieved. 2. The AC characteristics assume tT = 5 ns. 3. VIH (Min.) and VIL (Max.) are reference levels for measuring input timing signals. Transition times (tT) are measured between VIH and VIL. 4. This parameter is measured with a load circuit equivalent to 2 TTL loads and 100 pF. 5. Operation within the tRCD (Max.) limit ensures that tRAC (Max.) can be met. tRCD (Max.) is specified as a reference point only. If tRCD is greater than the specified tRCD (Max.) limit, access time is controlled by tCAC. 6. Operation within the tRAD (Max.) limit ensures that tRAC (Max.) can be met. tRAD (Max.) is specified as a reference point only. If tRAD is greater than the specified tRAD (Max.) limit, access time is controlled by tAA. 7. tCEZ (Max.), tREZ (Max.) and tWEZ (Max.) define the time at which the output achieves the open circuit condition and are not referenced to output voltage levels. 8. tCEZ and tREZ must be satisfied for open circuit condition. 9. tRCH or tRRH must be satisfied for a read cycle. 10. The test mode is initiated by performing a WE and CAS before RAS refresh cycle. This mode is latched and remains in effect until the exit cycle is generated. The test mode specified in this data sheet is an 8-bit parallel test function. CA0, CA1 and CA10 are not used. In a read cycle, if all internal bits are equal, the DQ pin will indicate a high level. If any internal bits are not equal, the DQ pin will indicate a low level. The test mode is cleared and the memory device returned to its normal operating state by performing a RAS-only refresh cycle or a CAS before RAS refresh cycle. The 4M ¥ 32 module can be tested as an 1M ¥ 32 module in this test mode. 11. In a test mode read cycle, the access time parameters are delayed by 5 ns. The test mode parameters are obtained by adding 5 ns to the normal read cycle values. See ADDENDUM I for AC Timing Waveforms 108