K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Document Title 128Kx36 & 128Kx32 & 256Kx18-Bit Synchronous Pipelined Burst SRAM Revision History History Draft Date Remark 0.0 1. Initial draft May. 15. 2001 Preliminary 0.1 1. Changed DC parameters Icc ; from 350mA to 290mA at -16, from 330mA to 270mA at -15, from 300mA to 250mA at -14, ISB1 ; from 100mA to 80mA June. 12. 2001 Preliminary 0.2 1. Delete Pass-Through June.25. 2001 Preliminary 0.3 1. Add x32 org. and industrial temperature Aug. 11. 2001 Preliminary 1.0 1. Final spec release 2. Changed Pin Capacitance - Cin ; from 5pF to 4pF - Cout ; from 7pF to 6pF Nov. 15. 2001 Final Rev. No The attached data sheets are prepared and approved by SAMSUNG Electronics. SAMSUNG Electronics CO., LTD. reserve the right to change the specifications. SAMSUNG Electronics will evaluate and reply to your requests and questions on the parameters of this device. If you have any questions, please contact the SAMSUNG branch office near your office, call or contact Headquarters. -1- Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM 4Mb SB/SPB Synchronous SRAM Ordering Information Org. Part Number K7B401825B-QC(I)65/75/80 256Kx18 K7A401800B-QC(I)16/14 Speed FT ; Access Time(ns) Pipelined ; Cycle Time(MHz) SB 3.3 6.5/7.5/8.0 ns SPB(2E1D) 3.3 167/138 MHz 3.3 300/275/250/225/200 MHz SB 3.3 6.5/7.5/8.0 ns K7A403200B-QC(I)16/14 SPB(2E1D) 3.3 167/138 MHz K7A403209B-QC(I)30/27/25/22/20 SPB(2E1D) 3.3 300/275/250/225/200 MHz K7A403201B-QC(I)16/14 SPB(2E2D) 3.3 167/138/ MHz K7B403225B-QC(I)65/75/80 K7B403625B-QC(I)65/75/80 128Kx36 VDD SPB(2E1D) K7A401809B-QC(I)30/27/25/22/20 128Kx32 Mode SB 3.3 6.5/7.5/8.0 ns SPB(2E1D) 3.3 167/138 MHz K7A403609B-QC(I)30/27/25/22/20 SPB(2E1D) 3.3 300/275/250/225/200 MHz K7A403601B-QC(I)16/14 SPB(2E2D) 3.3 167/138 MHz K7A403600B-QC(I)16/14 -2- PKG Q (100TQFP) Temp C (Commercial Temperature Range) I: (Industrial Temperature Range) Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM 128Kx36 & 128Kx32 & 256Kx18-Bit Synchronous Pipelined Burst SRAM FEATURES GENERAL DESCRIPTION * Synchronous Operation. * 2 Stage Pipelined operation with 4 Burst. * On-Chip Address Counter. * Self-Timed Write Cycle. * On-Chip Address and Control Registers. * VDD= 3.3V+0.3V/-0.165V Power Supply. * VDDQ Supply Voltage 3.3V+0.3V/-0.165V for 3.3V I/O or 2.5V+0.4V/-0.125V for 2.5V I/O. * 5V Tolerant Inputs Except I/O Pins. * Byte Writable Function. * Global Write Enable Controls a full bus-width write. * Power Down State via ZZ Signal. * LBO Pin allows a choice of either a interleaved burst or a linear burst. * Three Chip Enables for simple depth expansion with No Data Contnention ; 2cycle Enable, 1cycle Disable. * Asynchronous Output Enable Control. * ADSP, ADSC, ADV Burst Control Pins. * TTL-Level Three-State Output. * 100-TQFP-1420A . * Operating in commeical and industrial temperature range. The K7A403600B, K7A403200B and K7A401800B are 4,718,592-bit Synchronous Static Random Access Memory designed for high performance second level cache of Pentium and Power PC based System. It is organized as 128K(256K) words of 36(18) bits and integrates address and control registers, a 2-bit burst address counter and added some new functions for high performance cache RAM applications; GW, BW, LBO, ZZ. Write cycles are internally self-timed and synchronous. Full bus-width write is done by GW, and each byte write is performed by the combination of WEx and BW when GW is high. And with CS1 high, ADSP is blocked to control signals. Burst cycle can be initiated with either the address status processor(ADSP) or address status cache controller(ADSC) inputs. Subsequent burst addresses are generated internally in the systems burst sequence and are controlled by the burst address advance(ADV) input. LBO pin is DC operated and determines burst sequence(linear or interleaved). ZZ pin controls Power Down State and reduces Stand-by current regardless of CLK. The K7A403600B, K7A403200B and K7A401800B are fabricated using SAMSUNGs high performance CMOS technology and is available in a 100pin TQFP package. Multiple power and ground pins are utilized to minimize ground bounce. FAST ACCESS TIMES PARAMETER Symbol -16 -14 Unit tCYC 6.0 7.2 ns Clock Access Time tCD 3.5 4.0 ns Output Enable Access Time tOE 3.5 4.0 ns Cycle Time LOGIC BLOCK DIAGRAM CLK LBO BURST CONTROL LOGIC CONTROL REGISTER ADV ADSC BURST ADDRESS A0~A1 COUNTER 128Kx36/32 , 256Kx18 MEMORY ARRAY A0~A1 A0~A16 or A0~A17 ADSP ADDRESS REGISTER A2~A16 or A2~A17 DATA-IN REGISTER CONTROL REGISTER CS1 CS2 CS2 GW BW OUTPUT REGISTER CONTROL LOGIC BUFFER WEx (x=a,b,c,d or a,b) OE ZZ DQa0 ~ DQd7 DQPa ~ DQPd 36/32 or 18 or DQa0 ~ DQb7 DQPa ~ DQPb -3- Nov 2001 Rev 1.0 K7A403600B 128Kx36/x32 & 256Kx18 Synchronous SRAM K7A401800B A6 A7 CS1 CS2 WEd WEc WEb WEa CS2 VDD VSS CLK GW BW OE ADSC ADSP ADV A8 A9 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 100 Pin TQFP (20mm x 14mm) 48 49 50 A15 A16 46 A12 A14 45 A11 47 44 A10 A13 43 41 VDD N.C. 40 VSS 42 39 N.C. N.C. 38 N.C. 35 A2 37 34 A3 A0 33 A4 36 32 A1 31 K7A403600B(128Kx36) K7A403200B(128Kx32) A5 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 LBO DQPc/NC DQc0 DQc1 VDDQ VSSQ DQc2 DQc3 DQc4 DQc5 VSSQ VDDQ DQc6 DQc7 N.C. VDD N.C. VSS DQd0 DQd1 VDDQ VSSQ DQd2 DQd3 DQd4 DQd5 VSSQ VDDQ DQd6 DQd7 DQPd/NC 100 PIN CONFIGURATION(TOP VIEW) 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 DQPb/NC DQb7 DQb6 VDDQ VSSQ DQb5 DQb4 DQb3 DQb2 VSSQ VDDQ DQb1 DQb0 VSS N.C. VDD ZZ DQa7 DQa6 VDDQ VSSQ DQa5 DQa4 DQa3 DQa2 VSSQ VDDQ DQa1 DQa0 DQPa/NC PIN NAME SYMBOL A0 - A16 ADV ADSP ADSC CLK CS1 CS2 CS2 WEx (x=a,b,c,d) OE GW BW ZZ LBO PIN NAME TQFP PIN NO. SYMBOL Address Inputs PIN NAME TQFP PIN NO. 32,33,34,35,36,37 44,45,46,47,48,49 50,81,82,99,100 Burst Address Advance 83 Address Status Processor 84 Address Status Controller 85 Clock 89 Chip Select 98 Chip Select 97 Chip Select 92 Byte Write Inputs 93,94,95,96 VDD VSS Power Supply(+3.3V) Ground 15,41,65,91 17,40,67,90 N.C. No Connect 14,16,38,39,42,43,66 DQa 0~a7 DQb 0~b7 DQc0~c7 DQd 0~d7 DQPa~P d /NC Data Inputs/Outputs 52,53,56,57,58,59,62,63 68,69,72,73,74,75,78,79 2,3,6,7,8,9,12,13 18,19,22,23,24,25,28,29 51,80,1,30 VDDQ Output Power Supply (2.5V or 3.3V) Output Ground 4,11,20,27,54,61,70,77 Output Enable Global Write Enable Byte Write Enable Power Down Input Burst Mode Control 86 88 87 64 31 5,10,21,26,55,60,71,76 VSSQ -4- Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM A6 A7 CS1 CS2 N.C. N.C. WEb WEa CS2 VDD VSS CLK GW BW OE ADSC ADSP ADV A8 A9 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 100 Pin TQFP (20mm x 14mm) 47 48 49 50 A14 A15 A16 A17 41 VDD 46 40 VSS A13 39 N.C. 45 38 N.C. A12 37 A0 44 36 A1 A11 35 A2 43 34 A3 N.C. 33 A4 42 32 N.C. 31 K7A401800B(256Kx18) A5 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 LBO N.C. N.C. N.C. VDDQ VSSQ N.C. N.C. DQb0 DQb1 VSSQ VDDQ DQb2 DQb3 N.C. VDD N.C. VSS DQb4 DQb5 VDDQ VSSQ DQb6 DQb7 DQPb N.C. VSSQ VDDQ N.C. N.C. N.C. 100 PIN CONFIGURATION(TOP VIEW) 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 A10 N.C. N.C. VDDQ VSSQ N.C. DQPa DQa7 DQa6 VSSQ VDDQ DQa5 DQa4 VSS N.C. VDD ZZ DQa3 DQa2 VDDQ VSSQ DQa1 DQa0 N.C. N.C. VSSQ VDDQ N.C. N.C. N.C. PIN NAME SYMBOL PIN NAME TQFP PIN NO. A0 - A 17 Address Inputs ADV ADSP ADSC CLK CS1 CS2 CS2 WEx (x=a,b) OE GW BW ZZ LBO Burst Address Advance Address Status Processor Address Status Controller Clock Chip Select Chip Select Chip Select Byte Write Inputs 32,33,34,35,36,37, 44,45,46,47,48,49, 50,80,81,82,99,100 83 84 85 89 98 97 92 93,94 Output Enable Global Write Enable Byte Write Enable Power Down Input Burst Mode Control 86 88 87 64 31 SYMBOL PIN NAME TQFP PIN NO. VDD VSS N.C. Power Supply(+3.3V) Ground No Connect 15,41,65,91 17,40,67,90 1,2,3,6,7,14,16,25,28,29, 30,38,39,42,43,51,52,53, 56,57,66,75,78,79,95,96 DQa0~a7 DQb0~b7 DQPa, Pb VDDQ Data Inputs/Outputs 58,59,62,63,68,69,72,73 8,9,12,13,18,19,22,23 74,24 4,11,20,27,54,61,70,77 VSSQ -5- Output Power Supply (2.5V or 3.3V) Output Ground 5,10,21,26,55,60,71,76 Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM FUNCTION DESCRIPTION The K7A4036/3200B and K7A401800B are synchronous SRAM designed to support the burst address accessing sequence of the P6 and Power PC based microprocessor. All inputs (with the exception of OE, LBO and ZZ) are sampled on rising clock edges. The start and duration of the burst access is controlled by ADSC, ADSP and ADV and chip select pins. The accesses are enabled with the chip select signals and output enabled signals. Wait states are inserted into the access with ADV. When ZZ is pulled high, the SRAM will enter a Power Down State. At this time, internal state of the SRAM is preserved. When ZZ returns to low, the SRAM normally operates after 2cycles of wake up time. ZZ pin is pulled down internally. Read cycles are initiated with ADSP(regardless of WEx and ADSC)using the new external address clocked into the on-chip address register whenever ADSP is sampled low, the chip selects are sampled active, and the output buffer is enabled with OE. In read operation the data of cell array accessed by the current address, registered in the Data-out registers by the positive edge of CLK, are carried to the Data-out buffer by the next positive edge of CLK. The data, registered in the Data-out buffer, are projected to the output pins. ADV is ignored on the clock edge that samples ADSP asserted, but is sampled on the subsequent clock edges. The address increases internally for the next access of the burst when WEx are sampled High and ADV is sampled low. And ADSP is blocked to control signals by disabling CS1. All byte write is done by GW(regaedless of BW and WEx.), and each byte write is performed by the combination of BW and WEx when GW is high. Write cycles are performed by disabling the output buffers with OE and asserting WEx. WEx are ignored on the clock edge that samples ADSP low, but are sampled on the subsequent clock edges. The output buffers are disabled when WEx are sampled Low(regardless of OE). Data is clocked into the data input register when WEx sampled Low. The address increases internally to the next address of burst, if both WEx and ADV are sampled Low. Individual byte write cycles are performed by any one or more byte write enable signals(WEa, WEb, WEc or WEd) sampled low. The WEa control DQa0 ~ DQa7 and DQPa, WEb controls DQb0 ~ DQb7 and DQPb, WEc controls DQc0 ~ DQc7 and DQPc, and WEd control DQd0 ~ DQd7 and DQPd. Read or write cycle may also be initiated with ADSC, instead of ADSP. The differences between cycles initiated with ADSC and ADSP as are follows; ADSP must be sampled high when ADSC is sampled low to initiate a cycle with ADSC. WEx are sampled on the same clock edge that sampled ADSC low(and ADSP high). Addresses are generated for the burst access as shown below, The starting point of the burst sequence is provided by the external address. The burst address counter wraps around to its initial state upon completion. The burst sequence is determined by the state of the LBO pin. When this pin is Low, linear burst sequence is selected. When this pin is High, Interleaved burst sequence is selected. BURST SEQUENCE TABLE LBO PIN (Interleaved Burst) Case 1 HIGH A1 0 0 1 1 First Address Fourth Address Case 2 A0 0 1 0 1 A1 0 0 1 1 Case 3 A0 1 0 1 0 A1 1 1 0 0 Case 4 A0 0 1 0 1 A1 1 1 0 0 A0 1 0 1 0 Note : 1. LBO pin must be tied to High or Low, and Floating State must not be allowed. BQ TABLE LBO PIN (Linear Burst) Case 1 LOW A1 0 0 1 1 First Address Fourth Address Case 2 A0 0 1 0 1 A1 0 1 1 0 Case 3 A0 1 0 1 0 A1 1 1 0 0 Case 4 A0 0 1 0 1 A1 1 0 0 1 A0 1 0 1 0 Note : 1. LBO pin must be tied to High or Low, and Floating State must not be allowed. ASYNCHRONOUS TRUTH TABLE (See Notes 1 and 2): OPERATION ZZ OE I/O STATUS Sleep Mode H X High-Z L L DQ Read L H High-Z Write L X Din, High-Z Deselected L X High-Z Notes 1. X means "Dont Care". 2. ZZ pin is pulled down internally 3. For write cycles that following read cycles, the output buffers must be disabled with OE, otherwise data bus contention will occur. 4. Sleep Mode means power down state of which stand-by current does not depend on cycle time. 5. Deselected means power down state of which stand-by current depends on cycle time. -6- Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM TRUTH TABLES SYNCHRONOUS TRUTH TABLE CS1 CS2 CS2 ADV WRITE CLK ADDRESS ACCESSED OPERATION H X X ADSP ADSC X L X X N/A Not Selected L L X L X X X N/A Not Selected L X H L X X X N/A Not Selected L L X X L X X N/A Not Selected L X H X L X X N/A Not Selected L H L L X X X External Address Begin Burst Read Cycle L H L H L X L External Address Begin Burst Write Cycle L H L H L X H External Address Begin Burst Read Cycle X X X H H L H Next Address Continue Burst Read Cycle H X X X H L H Next Address Continue Burst Read Cycle X X X H H L L Next Address Continue Burst Write Cycle H X X X H L L Next Address Continue Burst Write Cycle X X X H H H H Current Address Suspend Burst Read Cycle H X X X H H H Current Address Suspend Burst Read Cycle X X X H H H L Current Address Suspend Burst Write Cycle H X X X H H L Current Address Suspend Burst Write Cycle Notes : 1. X means "Dont Care". 2. The rising edge of clock is symbolized by . 3. WRITE = L means Write operation in WRITE TRUTH TABLE. WRITE = H means Read operation in WRITE TRUTH TABLE. 4. Operation finally depends on status of asynchronous input pins(ZZ and OE). WRITE TRUTH TABLE( x36/32) GW BW WEa WEb H H X X H L H H H L L H H L H L H L H H L L L X X WEc WEd OPERATION X X READ H H READ H H WRITE BYTE a H H WRITE BYTE b H L L WRITE BYTE c and d L L L WRITE ALL BYTEs X X X WRITE ALL BYTEs Notes : 1. X means "Dont Care". 2. All inputs in this table must meet setup and hold time around the rising edge of CLK(). WRITE TRUTH TABLE(x18) GW BW WEa WEb OPERATION H H X X READ H L H H READ H L L H WRITE BYTE a H L H L WRITE BYTE b H L L L WRITE ALL BYTEs L X X X WRITE ALL BYTEs Notes : 1. X means "Dont Care". 2. All inputs in this table must meet setup and hold time around the rising edge of CLK( ). -7- Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM ABSOLUTE MAXIMUM RATINGS* PARAMETER SYMBOL RATING UNIT VDD -0.3 to 4.6 V VDDQ VDD V Voltage on V DD Supply Relative to VSS Voltage on V DDQ Supply Relative to VSS Voltage on Input Pin Relative to VSS VIN -0.3 to VDD+0.3 V Voltage on I/O Pin Relative to VSS VIO -0.3 to VDDQ+0.3 V Power Dissipation Storage Temperature Operating Temperature PD 2.2 W TSTG -65 to 150 C Commercial TOPR 0 to 70 C Industrial TOPR -40 to 85 C TBIAS -10 to 85 C Storage Temperature Range Under Bias *Note : Stresses greater than 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 operating sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. OPERATING CONDITIONS at 3.3V I/O (0C TA70C) PARAMETER Supply Voltage Ground SYMBOL MIN Typ. MAX UNIT VDD 3.135 3.3 3.6 V VDDQ 3.135 3.3 3.6 V VSS 0 0 0 V * The above parameters are also guaranteed at industrial temperature range. OPERATING CONDITIONS at 2.5V I/O (0C TA 70C) PARAMETER Supply Voltage Ground SYMBOL MIN Typ. MAX UNIT VDD 3.135 3.3 3.6 V VDDQ 2.375 2.5 2.9 V VSS 0 0 0 V * The above parameters are also guaranteed at industrial temperature range. CAPACITANCE*(TA=25C, f=1MHz) PARAMETER Input Capacitance Output Capacitance SYMBOL TEST CONDITION MIN MAX UNIT CIN VIN=0V - 4 pF COUT VOUT=0V - 6 pF *Note : Sampled not 100% tested. -8- Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM DC ELECTRICAL CHARACTERISTICS(TA=0 to 70C, VDD=3.3V+0.3V/-0.165V) PARAMETER SYMBOL TEST CONDITIONS MIN MAX UNIT Input Leakage Current(except ZZ) IIL VDD = Max ; VIN=VSS to VDD -2 +2 A Output Leakage Current IOL Output Disabled, VOUT=VSS to V DDQ -2 +2 A Operating Current ICC Device Selected, IOUT=0mA, ZZVIL, All Inputs=VIL or VIH , Cycle Time cyc Min -16 - 290 -14 - 250 ISB Device deselected, IOUT=0mA,ZZVIL, f=Max, All Inputs0.2V or VDD-0.2V -16 - 140 -14 - 130 ISB1 Device deselected, IOUT=0mA, ZZ0.2V, f = 0, All Inputs=fixed (VDD-0.2V or 0.2V) - 80 mA ISB2 Device deselected, IOUT=0mA, ZZVDD-0.2V, f=Max, All InputsVIL or VIH - 50 mA Standby Current mA mA Output Low Voltage(3.3V I/O) VOL IOL = 8.0mA - 0.4 V Output High Voltage(3.3V I/O) VOH IOH = -4.0mA 2.4 - V Output Low Voltage(2.5V I/O) VOL IOL = 1.0mA - 0.4 V Output High Voltage(2.5V I/O) VOH IOH = -1.0mA 2.0 - V Input Low Voltage(3.3V I/O) VIL -0.5* 0.8 V Input High Voltage(3.3V I/O) VIH 2.0 VDD+0.3** V Input Low Voltage(2.5V I/O) VIL -0.3* 0.7 V Input High Voltage(2.5V I/O) VIH 1.7 VDD+0.3** V The above parameters are also guaranteed at industrial temperature range. * VIL(Min)=-2.0(Pulse Width tCYC/2) ** VIH(Max)=4.6(Pulse Width tCYC/2) ** In Case of I/O Pins, the Max. V IH=VDDQ+0.3V TEST CONDITIONS (VDD=3.3V+0.3V/-0.165V,VDDQ=3.3V+0.3/-0.165V or VDD=3.3V+0.3V/-0.165V,VDDQ=2.5V+0.4V/-0.125V, TA=0 to 70C) PARAMETER VALUE Input Pulse Level(for 3.3V I/O) 0 to 3V Input Pulse Level(for 2.5V I/O) 0 to 2.5V Input Rise and Fall Time(Measured at 0.3V and 2.7V for 3.3V I/O) 1ns Input Rise and Fall Time(Measured at 0.3V and 2.1V for 2.5V I/O) 1ns Input and Output Timing Reference Levels for 3.3V I/O 1.5V Input and Output Timing Reference Levels for 2.5V I/O VDDQ/2 Output Load See Fig. 1 * The above parameters are also guaranteed at industrial temperature range. -9- Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Output Load(A) Dout Output Load(B) (for tLZC, tLZOE, tHZOE & tHZC) +3.3V for 3.3V I/O /+2.5V for 2.5V I/O RL=50 Z0=50 30pF* VL=1.5V for 3.3V I/O VDDQ/2 for 2.5V I/O 319 / 1667 Dout 353 / 1538 * Capacitive Load consists of all components of the test environment. 5pF* * Including Scope and Jig Capacitance Fig. 1 AC TIMING CHARACTERISTICS(TA=0 to 70C, VDD=3.3V+0.3V/-0.165V) PARAMETER Symbol Cycle Time Clock Access Time -16 Min -14 Max Min Max Unit tCYC 6.0 - 7.2 - ns tCD - 3.5 - 4.0 ns Output Enable to Data Valid tOE - 3.5 - 4.0 ns Clock High to Output Low-Z tLZC 0 - 0 - ns Output Hold from Clock High tOH 1.5 - 1.5 - ns Output Enable Low to Output Low-Z tLZOE 0 - 0 - ns Output Enable High to Output High-Z tHZOE - 3.5 - 4.0 ns tHZC 1.5 3.5 1.5 4.0 ns Clock High Pulse Width tCH 2.4 - 2.8 - ns Clock Low Pulse Width tCL 2.4 - 2.8 - ns Address Setup to Clock High tAS 1.5 - 1.5 - ns Address Status Setup to Clock High tSS 1.5 - 1.5 - ns Clock High to Output High-Z Data Setup to Clock High tDS 1.5 - 1.5 - ns Write Setup to Clock High (GW, BW, WEX) tWS 1.5 - 1.5 - ns tADVS 1.5 - 1.5 - ns Address Advance Setup to Clock High Chip Select Setup to Clock High tCSS 1.5 - 1.5 - ns Address Hold from Clock High tAH 0.5 - 0.5 - ns Address Status Hold from Clock High tSH 0.5 - 0.5 - ns Data Hold from Clock High tDH 0.5 - 0.5 - ns Write Hold from Clock High (GW, BW, WEX) tWH 0.5 - 0.5 - ns tADVH 0.5 - 0.5 - ns Chip Select Hold from Clock High tCSH 0.5 - 0.5 - ns ZZ High to Power Down tPDS 2 - 2 - cycle ZZ Low to Power Up tPUS 2 - 2 - cycle Address Advance Hold from Clock High Notes : 1. The above parameters are also guaranteed at industrial temperature range. 2. All address inputs must meet the specified setup and hold times for all rising clock edges whenever ADSC and/or ADSP is sampled low and CS is sampled low. All other synchronous inputs must meet the specified setup and hold times whenever this device is chip selected. 3. Both chip selects must be active whenever ADSC or ADSP is sampled low in order for the this device to remain enabled. 4. ADSC or ADSP must not be asserted for at least 2 Clock after leaving ZZ state. - 10 - Nov 2001 Rev 1.0 - 11 - Data Out OE ADV CS WRITE ADDRESS ADSC ADSP CLOCK tCSS tAS tSS A1 tADVS tCSH tWS tAH tSH Q1-1 A2 tHZOE tSH Q2-1 tCD tOH Q2-2 A3 Q2-3 (ADV INSERTS WAIT STATE) BURST CONTINUED WITH NEW BASE ADDRESS NOTES : WRITE = L means GW = L, or GW = H, BW = L, WEx = L CS = L means CS1 = L, CS2 = H and CS2 = L CS = H means CS1 = H, or CS1 = L and CS2 = H, or CS1 = L, and CS2 = L tLZOE tOE tADVH tWH tSS tCL tCYC tCH TIMING WAVEFORM OF READ CYCLE Q2-4 Q3-1 Q3-2 Q3-3 Undefined Dont Care Q3-4 tHZC K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Nov 2001 Rev 1.0 - 12 - Data Out Data In OE ADV CS WRITE ADDRESS ADSC ADSP CLOCK Q0-3 tCSS tAS tSS Q0-4 A1 tHZOE tCSH tAH tSH D1-1 tCL tCYC tCH A2 D2-1 D2-2 (ADV SUSPENDS BURST) D2-2 D2-3 (ADSC EXTENDED BURST) TIMING WAVEFORM OF WRTE CYCLE D2-4 D3-1 A3 tDS tADVS tWS tSS D3-2 tDH tADVH tWH tSH D3-3 Undefined Dont Care D3-4 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Nov 2001 Rev 1.0 - 13 - Data Out Data In OE ADV CS WRITE ADDRESS ADSP CLOCK tHZC tSS A1 tSH tCD tLZC tAS Q1-1 A2 tCL tHZOE tDS tADVS tWS tAH tCYC tCH D2-1 tDH tADVH tWH A3 tLZOE Q3-1 Q3-2 tOH Q3-3 TIMING WAVEFORM OF COMBINATION READ/WRTE CYCLE(ADSP CONTROLLED , ADSC=HIGH) Undefined Dont Care Q3-4 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Nov 2001 Rev 1.0 - 14 - Data In Data Out OE ADV CS WRITE ADDRESS ADSC CLOCK tCSS tSS A1 tCSH tSH tOE tLZOE A2 Q1-1 A3 Q2-1 A4 Q3-1 Q4-1 tHZOE D5-1 A5 tDS tWS D6-1 A6 tDH tWH D7-1 A7 tCL tWS tCYC tCH A8 tLZOE tWH A9 TIMING WAVEFORM OF SINGLE READ/WRITE CYCLE(ADSC CONTROLLED , ADSP=HIGH) Q8-1 Undefined Dont Care Q9-1 tOH K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Nov 2001 Rev 1.0 - 15 - ZZ Data Out Data In OE ADV CS WRITE ADDRESS ADSC ADSP CLOCK tCSS tAS tSS A1 tCSH tAH tSH tLZOE tOE Q1-1 ZZ Setup Cycle tPDS tHZC Sleep State ZZ Recovery Cycle tPUS tCL tCYC tCH TIMING WAVEFORM OF POWER DOWN CYCLE tWS Normal Operation Mode tHZOE A2 D2-1 tWH Undefined Dont Care D2-2 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM APPLICATION INFORMATION DEPTH EXPANSION The Samsung 128Kx36 Synchronous Pipelined Burst SRAM has two additional chip selects for simple depth expansion. This permits easy secondary cache upgrades from 128K depth to 256K depth without extra logic. I/O[0:71] Data Address A[0:17] A[17] A[0:16] A[17] Address CLK 64-Bits Microprocessor CS2 CS2 CLK 128Kx36 SPB SRAM ADSC WEx WEx (Bank 0) OE Cache Controller Address CS2 ADSC CLK Data CS2 CLK Address A[0:16] 128Kx36 SPB SRAM (Bank 1) OE CS1 Data CS1 ADV ADV ADSP ADSP ADS INTERLEAVE READ TIMING (Refer to non-interleave write timing for interleave write timing) (ADSP CONTROLLED , ADSC=HIGH) Clock tSS tSH ADSP tAS ADDRESS [0:n] tAH A2 A1 tWS tWH WRITE tCSS tCSH CS1 Bank 0 is selected by CS2, and Bank 1 deselected by CS2 An+1 tADVS Bank 0 is deselected by CS2 , and Bank 1 selected by CS2 tADVH ADV OE tOE Data Out (Bank 0) tHZC tLZOE Q1-1 Q1-2 Q1-3 Q1-4 tCD tLZC Data Out (Bank 1) Q2-1 *Notes : n = 14 15 16 17 32K depth 64K depth 128K depth 256K depth Q2-2 Q2-3 Dont Care - 16 - Q2-4 Undefined Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM APPLICATION INFORMATION DEPTH EXPANSION The Samsung 256Kx18 Synchronous Pipelinde Burst SRAM has two additional chip selects for simple depth expansion. This permits easy secondary cache upgrades from 256K depth to 512K depth without extra logic. I/O[0:71] Data Address A[18] A[0:18] A[0:17] A[18] Address CLK Microprocessor CS2 CS2 CS2 ADSC WEx WEx (Bank 0) OE Cache Controller CLK 256Kx18 SPB SRAM ADSC CLK Address CS2 CLK Address Data A[0:17] OE CS1 Data 256Kx18 SPB SRAM (Bank 1) CS1 ADV ADV ADSP ADSP ADS INTERLEAVE READ TIMING (Refer to non-interleave write timing for interleave write timing) (ADSP CONTROLLED , ADSC=HIGH) Clock tSS tSH ADSP tAS ADDRESS [0:n] tAH A2 A1 tWS tWH WRITE tCSS tCSH CS1 Bank 0 is selected by CS2, and Bank 1 deselected by CS2 An+1 tADVS tADVH Bank 0 is deselected by CS2 , and Bank 1 selected by CS2 ADV OE tOE Data Out (Bank 0) tHZC tLZOE Q1-1 Q1-2 Q1-3 Q1-4 tCD tLZC Data Out (Bank 1) Q2-1 *Notes : n = 14 32K depth, 15 64K depth, 16 128K depth, 17 256K depth - 17 - Q2-2 Q2-3 Dont Care Q2-4 Undefined Nov 2001 Rev 1.0 K7A403600B K7A403200B K7A401800B 128Kx36/x32 & 256Kx18 Synchronous SRAM PACKAGE DIMENSIONS Units ; millimeters/Inches 100-TQFP-1420A 0~8 22.00 0.30 0.127 +- 0.10 0.05 20.00 0.20 16.00 0.30 14.00 0.20 0.10 MAX (0.83) 0.50 0.10 #1 0.65 (0.58) 0.30 0.10 0.10 MAX 1.40 0.10 1.60 MAX 0.50 0.10 - 18 - 0.05 MIN Nov 2001 Rev 1.0