HANBit HMD4M36M9EG, HMD4M36M9EA 16Mbyte(4Mx36) 72-pin SIMM, EDO with Parity Mode, 2K/4K Ref. 5V Part No. HMD4M36M9EG , HMD4M36M9EAG GENERAL DESCRIPTION The HMD4M36M9EG is a 4M x 36 bit dynamic RAM high-density memory module. The module HMD4M36M8E consists of eight CMOS 4M x 4 bit DRAMs in 24-pin SOJ packages and one CMOS 4M x 4 bit Quad /CAS DRAM in 28-pin SOJ package mounted on a 72-pin, double-sided, FR-4-printed circuit board. A 0.1uF or 0.22uF decoupling capacitor is mounted on the printed circuit board for each DRAM. The module is a single Inline memory module with edge connections and is intended for mounting in to 72-pin edge connector sockets. All module components may be powered from a single 5V DC power supply and all inputs and outputs are TTL -compatible. FEATURES PIN ASSIGNMENT w Part Identification HMD4M36M9E----2048 Cycles/32ms Ref. Solder PIN SYMBOL PIN SYMBOL PIN SYMBOL 1 Vss 25 DQ24 49 DQ9 2 DQ0 26 DQ7 50 DQ27 3 DQ18 27 DQ25 51 DQ10 4 DQ1 28 A7 52 DQ28 5 DQ19 29 A11 53 DQ11 6 DQ2 30 Vcc 54 DQ29 w JEDEC standard pinout 7 DQ20 31 A8 55 DQ12 w EDO mode operation 8 DQ3 32 A9 56 DQ30 w /CAS-before-/RAS refresh capability 9 DQ21 33 NC 57 DQ13 w TTL compatible inputs and outputs 10 Vcc 34 /RAS2 58 DQ31 w FR4-PCB design 11 NC 35 DQ26 59 Vcc 12 A0 36 DQ8 60 DQ32 HMD4M36M9EG- 2048 Cycles/32ms Ref. Gold HMD4M36M9EA----4096 Cycles/64ms Ref. Solder HMD4M36M9EAG- 4096 Cycles/64ms Ref. Gold w Access times : 50, 60ns w High-density 16MByte design w Single + 5V ±0.5V power supply OPTIONS MARKING w Timing 13 A1 37 DQ17 61 DQ14 50ns access -5 14 A2 38 DQ35 62 DQ33 60ns access -6 15 A3 39 Vss 63 DQ15 16 A4 40 /CAS0 64 DQ34 17 A5 41 /CAS2 65 DQ16 18 A6 42 /CAS3 66 NC w Packages 72-pin SIMM M PRESENCE DETECT PINS Pin 50ns 60ns PD1 Vss Vss PD2 NC NC PD3 Vss NC PD4 Vss NC PERFORMANCE RANGE A10 43 /CAS1 67 Vss 20 DQ4 44 /RAS0 68 PD2 21 DQ22 45 NC 69 PD3 22 DQ5 46 NC 70 PD4 23 DQ23 47 /WE 71 NC 24 DQ6 48 NC 72 Vss A0-A11 : Address Input (4K Ref.) Speed tRAC tCAC tRC tHPC 5 50ns 13ns 90ns 26ns 6 60ns 15ns 110ns 30ns A0-A10 : Address Input (2K Ref) *Note:A11 is used for only HMD4M36M9EA URL:www.hbe.co.kr REV. 1.0. (August. 2002) 19 HANBit Electronics Co.,Ltd. -1- HANBit HMD4M36M9EG, HMD4M36M9EA FUNCTIONAL BLOCK DIAGRAM /CAS0 /RAS0 /CAS1 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 U1 U2 /RAS2 /CAS3 DQ9-DQ12 U5 DQ13-DQ16 DQ8 DQ17 DQ26 DQ35 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 DQ27-DQ30 CAS RAS OE WE DQ0 DQ1 DQ2 A0-A10(A11) DQ3 DQ31-DQ34 U6 DQ18-DQ21 U7 DQ22-DQ25 U8 U9 Vcc /WE A0-A10(A11) Vss URL:www.hbe.co.kr REV. 1.0. (August. 2002) DQ4-DQ7 U4 CAS0 U3 CAS0 DQ0 CAS0 DQ1 CAS0 DQ2 RAS DQ3 OE WE A0-A11(A11) /CAS2 DQ0-DQ3 -2- 0.1uF or 0.22uF Capacitor for each DRAM HANBit Electronics Co.,Ltd. HANBit HMD4M36M9EG, HMD4M36M9EA ABSOLUTE MAXIMUM RATINGS PARAMETER SYMBOL RATING VIN ,OUT -1V to 7.0V Voltage on Vcc Supply Relative to Vss Vcc -1V to 7.0V Power Dissipation PD 9W TSTG -55oC to 150oC Voltage on Any Pin Relative to Vss Storage Temperature Short Circuit Output Current IOS 50mA w 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 DC OPERATING CONDITIONS ( Voltage reference to VSS, TA=0 to 70 o C ) PARAMETER SYMBOL MIN TYP. MAX UNIT Supply Voltage Vcc 4.5 5.0 5.5 V Ground Vss 0 0 0 V Input High Voltage VIH 2.4 - Vcc+1 V Input Low Voltage VIL -1.0 - 0.8 V DC AND OPERATING CHARACTERISTICS SYMBOL SPEED -5 MIN - MAX 990 UNITS mA -6 - 900 mA ICC1 ICC2 - 18 mA -5 - 990 mA -6 - 900 mA -5 - 990 mA -6 - 900 mA - 9 mA -5 - 990 mA -6 - 900 mA Il(L) -40 45 µA IO(L) -5 5 µA VOH 2.4 - V VOL - 0.4 V ICC3 ICC4 ICC5 ICC6 ICC1 : Operating Current * (/RAS , /CAS , Address cycling @t RC=min.) ICC2 : Standby Current ( /RAS=/CAS=VIH ) ICC3 : /RAS Only Refresh Current * ( /CAS=V IH, /RAS, Address cycling @tRC=min ) ICC4 : Fast Page Mode Current * (/RAS=VIL, /CAS, Address cycling @tPC=min ) ICC5 : Standby Current (/RAS=/CAS=Vcc-0.2V ) URL:www.hbe.co.kr REV. 1.0. (August. 2002) HANBit Electronics Co.,Ltd. -3- HANBit HMD4M36M9EG, HMD4M36M9EA ICC6 : /CAS-Before-/RAS Refresh Current * (/RAS and /CAS cycling @t RC=min ) IIL : Input Leakage Current (Any input 0V ≤ VIN ≤ 6.5V, all other pins not under test = 0V) IOL : Output Leakage Current (Data out is disabled, 0V ≤ VOUT ≤ 5.5V VOH : Output High Voltage Level (IOH= -5mA ) VOL : Output Low Voltage Level (IOL = 4.2mA ) * NOTE: ICC1, ICC3, ICC4 and ICC6 are dependent on output loading and cycle rates. Specified values are obtained with the output open. ICC is specified as an average current. In ICC1 and ICC3, address cad be changed maximum once while /RAS=VIL. In ICC4, address can be changed maximum once within one page mode cycle. CAPACITANCE o ( TA=25 C, Vcc = 5V, f = 1Mz ) DESCRIPTION SYMBOL MIN MAX UNITS Input Capacitance (A0-A10) CIN1 - 65 pF Input Capacitance (/W) C IN2 - 80 pF Input Capacitance (/RAS0) CIN3 - 50 pF Input Capacitance (/CAS0-/CAS3) CIN4 - 40 pF Input/Output Capacitance (DQ0-31) CDQ1 - 20 pF AC CHARACTERISTICS o ( 0 C ≤ TA ≤ 70oC , Vcc = 5V±10%, See notes 1,2.) -5 STANDARD OPERATION -6 SYMBOL UNIT MIN MAX MAX Random read or write cycle time tRC Access time from RAS tRAC 50 60 ns Access time from CAS tCAC 13 15 ns Access time from column address tAA 25 30 ns CAS to output in Low-Z tCLZ 3 Output buffer turn-off delay tOFF 3 13 3 15 ns Transition time (rise and fall) tT 2 50 2 50 ns /RAS precharge time tRP 30 /RAS pulse width tRAS 50 /RAS hold time tRSH 13 15 ns /CAS hold time tCSH 38 45 ns /CAS pulse width tCAS 8 10K 10 10K ns /RAS to /CAS delay time tRCD 20 37 20 45 ns /RAS to column address delay time tRAD 15 25 15 30 ns /CAS to /RAS precharge time tCRP 5 5 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 URL:www.hbe.co.kr REV. 1.0. (August. 2002) 90 MIN 110 ns 3 ns 40 10K 60 ns 10K ns HANBit Electronics Co.,Ltd. -4- HANBit HMD4M36M9EG, HMD4M36M9EA Column address hold time tCAH 8 10 ns Column Address to /RAS lead time tRAL 25 30 ns Read command set-up time tRCS 0 0 ns Read command hold referenced to /CAS tRCH 0 0 ns Read command hold referenced to /RAS tRRH 0 0 ns Write command hold time tWCH 10 10 ns Write command hold referenced to /RAS tWCR 50 50 ns Write command pulse width tWP 10 10 ns Write command to /RAS lead time tRWL 13 15 ns Write command to /CAS lead time tCWL 8 10 ns Data-in set-up time tDS 0 0 ns Data-in hold time tDH 8 10 ns Data-in hold referenced to /RAS tDHR 50 50 ns Refresh period tREF Write command set-up time tWCS 0 0 ns /CAS setup time (C-B-R refresh) tCSR 5 5 ns /CAS hold time (C-B-R refresh) tCHR 10 10 ns /RAS precharge to /CAS hold time tRPC 5 5 ns Access time from /CAS precharge tCPA Fast page mode cycle time tPC 40 40 ns /CAS precharge time (Fast page) tCP 8 10 ns /RAS pulse width (Fast page ) tRASP 50 /W to /RAS precharge time (C-B-R refresh) tWRP 10 10 ns /W to /RAS hold time (C-B-R refresh) tWRH 10 10 ns 32 32 30 200K 35 60 200K ns ns ns /CAS precharge(C-B-R counter test) tCPT 20 20 ns NOTES 1.An initial pause of 200µs is required after power-up followed by any 8 /RAS-only or /CAS-before-/RAS refresh cycles before proper device operation is achieved. 2.VIH (min) and VIL (max) are reference levels for measuring timing of input signals. Transition times are measured between VIH(min) and VIL(max) and are assumed to be 5ns for all inputs. 3.Measured with a load equivalent to 2TTL loads and 100pF 4.Operation within the tRCD(max) limit insures 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, then access time is controlled exclusively by tCAC. 5.Assumes that tRCD ≥ tRCD(max) 6. tAR, tWCR, tDHR are referenced to tRAD(max) 7.This parameter defines the time at which the output achieves the open circuit condition and is not referenced to V OH or VOL. 8. tWCS, tRWD, tCWD and tAWD are non restrictive operating parameter. They are included in the data sheet as electrical characteristic only. If t WCS ≥ tWCS(min) the cycle is an early write cycle and the data out pin will remain high impedance for the duration of the cycle. 9. Either tRCH or tRRH must be satisfied for a read cycle. 10. These parameters are referenced to the /CAS leading edge in early write cycles and to the /W leading edge in readwrite cycles. 11. Operation within the tRAD(max) limit insures 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. then access time is controlled by tAA. URL:www.hbe.co.kr REV. 1.0. (August. 2002) HANBit Electronics Co.,Ltd. -5- HANBit HMD4M36M9EG, HMD4M36M9EA PACKAGING INFORMATION SIMM Design 107.95 mm 3.38 mm R 1.57 mm 101.19 mm 3.18 mm DIA 0.51 mm 16.00 10.16 mm 6.35 mm 1 2.03 mm 6.35 mm 1.02 mm 1.27 mm 3.34 mm 6.35 mm 72 95.25 mm 2.54 mm 0.25 mm MAX MIN 1.29±0.08 mm Gold : 1.04±0.10 mm 1.27mm Solder:0.914±0.10mm ORDERING INFORMATION Part Number Density Org. Package HMD4M36M9EG-5 16MByte 4MX 32bit 72 Pin-SIMM HMD4M36M9EG-6 16MByte 4MX 32bit 72 Pin-SIMM HMD4M36M9EAG-5 16MByte 4MX 32bit 72 Pin-SIMM URL:www.hbe.co.kr REV. 1.0. (August. 2002) Refresh Cycle 2,048 Cycles 32ms Ref. 2,048 Cycles 32ms Ref. 4,096 Cycle 64ms Ref. Vcc SPEED 5.0V 50ns 5.0V 60ns 5.0V 50ns HANBit Electronics Co.,Ltd. -6- HANBit HMD4M36M9EAG-6 HMD4M36M9EG, HMD4M36M9EA 16MByte 4MX 32bit 72 Pin-SIMM URL:www.hbe.co.kr REV. 1.0. (August. 2002) 4,096 Cycle 64ms Ref. 5.0V 60ns HANBit Electronics Co.,Ltd. -7-