IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B 32Mx8, 16Mx16 256Mb DDR Synchronous DRAM FEATURES: • Vdd =Vddq = 2.5V+0.2V (-5, -6, -75) • Double data rate architecture; two data transfers per clock cycle. • Bidirectional , data strobe (DQS) is transmitted/ received with data • Differential clock input (CLK and /CLK) • DLL aligns DQ and DQS transitions with CLK transitions edges of DQS • Commands entered on each positive CLK edge; • Data and data mask referenced to both edges of DQS • 4 bank operation controlled by BA0 , BA1 (Bank Address) • /CAS latency -2.0 / 2.5 / 3.0 (programmable) ; Burst length -2 / 4 / 8 (programmable) Burst type -Sequential / Interleave (programmable) • Auto precharge/ All bank precharge controlled by A10 • 8192 refresh cycles / 64ms (4 banks concurrent refresh) • Auto refresh and Self refresh • Row address A0-12 / Column address A0-9(x8)/ A0-8(x16) • SSTL_2 Interface • Package: 66-pin TSOP II (x8 and x16) 60-ball TF-BGA (x16 only) • Temperature Range: Commercial (0oC to +70oC) Industrial (-40oC to +85oC) Automotive (-40oC to +85oC) AUGUST 2010 DESCRIPTION: IS43/46R83200B is a 4-bank x 8,388,608-word x8bit, IS43/46R16160B is a 4-bank x 4,194,304-word x 16bit double data rate synchronous DRAM , with SSTL_2 interface. All control and address signals are referenced to the rising edge of CLK. Input data is registered on both edges of data strobe, and output data and data strobe are referenced on both edges of CLK. The device achieves very high speed clock rate up to 200 MHz. KEY TIMING PARAMETERS Parameter -5 -6 -75 Clk Cycle Time CAS Latency = 3 5 6 7.5 CAS Latency = 2.5 5 6 7.5 CAS Latency = 2 7.5 7.5 7.5 Clk Frequency CAS Latency = 3 200 167 133 CAS Latency = 2.5 200 167 133 CAS Latency = 2 133 133 133 Access Time from Clock CAS Latency = 3 +0.70 +0.70 +0.75 CAS Latency = 2.5 +0.70 +0.70 +0.75 CAS Latency = 2 +0.75 +0.75 +0.75 Unit ns ns ns MHz MHz MHz ns ns ns ADDRESS TABLE Parameter Configuration Bank Address Pins 32M x 8 8M x 8 x 4 banks BA0, BA1 16M x 16 4M x 16 x 4 banks BA0, BA1 Autoprecharge Pins Row Addresses Column Addresses Refresh Count A10/AP A0 – A12 A0 – A9 8192 / 64ms A10/AP A0 – A12 A0 – A8 8192 / 64ms Copyright © 2010 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any time without notice. ISSI assumes no liability arising out of the application or use of any information, products or services described herein. Customers are advised to obtain the latest version of this device specification before relying on any published information and before placing orders for products. Integrated Silicon Solution, Inc. does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless Integrated Silicon Solution, Inc. receives written assurance to its satisfaction, that: a.) the risk of injury or damage has been minimized; b.) the user assume all such risks; and c.) potential liability of Integrated Silicon Solution, Inc is adequately protected under the circumstances Integrated Silicon Solution, Inc. Rev. E 08/13/2010 1 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B PIN CONFIGURATION Package Code B: 60-ball TF-BGA (top view) (8mm x 13mm Body, 0.8mm x 1.0mm Ball Pitch) Top View (Balls seen through the package) UDQS LDQS UDM LDM CLK WE CAS RAS CS A12 PIN DESCRIPTION: for x16 A0-A12 Row Address Input WE Write Enable A0-A8 Column Address Input LDM, UDM Data Write Mask BA0, BA1 Bank Select Address LDQS, UDQS Data Strobe DQ0 – DQ15 Data I/O VDD Power CLK, CLK System Clock Input VDDQ Power Supply for I/O Pins CKE Clock Enable VSS Ground CS Chip Select VSSQ Ground for I/O Pins CAS Column Address Strobe Command VREF SSTL_2 reference voltage NC No Connection RAS Row Address Strobe Command 2 Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B PIN CONFIGURATIONS 66 pin TSOP - Type II for x8, x16 x8 x16 x16 x8 VDD VDD 1 66 VSS VSS DQ0 DQ0 2 65 DQ15 DQ7 VDDQ VDDQ 3 64 VSSQ VSSQ NC DQ1 4 63 DQ14 NC DQ1 DQ2 5 62 DQ13 DQ6 VSSQ VSSQ 6 61 VDDQ VDDQ NC DQ3 7 60 DQ12 NC DQ2 DQ4 8 59 DQ11 DQ5 VDDQ VDDQ 9 58 VSSQ VSSQ NC DQ5 10 57 DQ10 NC DQ3 DQ6 11 56 DQ9 DQ4 VSSQ VSSQ 12 55 VDDQ VDDQ NC DQ7 13 54 DQ8 NC NC NC 14 53 NC NC VDDQ VDDQ 15 52 VSSQ VSSQ NC LDQS 16 51 UDQS DQS NC NC 17 50 NC NC VDD VDD 18 49 VREF VREF NC NC 19 48 VSS VSS NC LDM 20 47 UDM DM WE WE 21 46 CLK CLK CAS CAS 22 45 CLK CLK RAS RAS 23 44 CKE CKE CS CS 24 43 NC NC NC NC 25 42 A12 A12 BA0 BA0 26 41 A11 A11 BA1 BA1 27 40 A9 A9 A10/AP A10/AP 28 39 A8 A8 A0 A0 29 38 A7 A7 A1 A1 30 37 A6 A6 A2 A2 31 36 A5 A5 A3 A3 32 35 A4 A4 VDD VDD 33 34 VSS VSS PIN DESCRIPTION: A0-A12 Row Address Input WE Write Enable A0-A8 (x16) A0-A9 (x8) Column Address Input LDM, UDM (x16) DM (x8) Data Write Mask BA0, BA1 Bank Select Address Data Strobe DQ0 – DQ15 (x16) DQ0 – DQ7 (x8) Data I/O LDQS, UDQS (x16) DQS (x8) VDD Power CLK, CLK System Clock Input VDDQ Power Supply for I/O Pins CKE Clock Enable VSS Ground CS Chip Select VSSQ Ground for I/O Pins CAS Column Address Strobe Command VREF SSTL_2 reference voltage RAS Row Address Strobe Command NC No Connection Integrated Silicon Solution, Inc. Rev. 08/13/2010 3 Zentel Electronics Corporation IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM I PIN FUNCTION SYMBOL TYPE DESCRIPTION Input Clock: CLK and /CLK are differential clock inputs. All address and control input signals are sampled on the crossing of the positive edge of CLK and negative edge of /CLK. Output (read) data is referenced to the crossings of CLK and /CLK (both directions of crossing). CKE Input Clock Enable: CKE controls internal clock. When CKE is low, internal clock for the following cycle is ceased. CKE is also used to select auto / self refresh. After self refresh mode is started, CKE becomes asynchronous input. Self refresh is maintained as long as CKE is low. /CS Input Chip Select: When /CS is high, any command means No Operation. /RAS, /CAS, /WE Input Combination of /RAS, /CAS, /WE defines basic commands. A0-12 Input A0-12 specify the Row / Column Address in conjunction with BA0,1. The Row Address is specified by A0-12. The Column Address is specified by A0-9(x8) and A0-8(x16). A10 is also used to indicate precharge option. When A10 is high at a read / write command, an auto precharge is performed. When A10 is high at a precharge command, all banks are precharged. BA0,1 Input CLK, /CLK DQ0-7 (x8), DQ0-15 (x16), Input / Output DQS (x8) Input / Output UDQS, LDQS (x16) DM (x8) UDM, LDM (x16) Input Bank Address: BA0,1 specifies one of four banks to which a command is applied. BA0,1 must be set with ACT, PRE, READ, WRITE commands. Data Input/Output: Data bus Data Strobe: Output with read data, input with write data. Edge-aligned with read data, centered in write data. Used to capture write data. For the x16, LDQS corresponds to the data on DQ0-DQ7; UDQS correspond to the data on DQ8-DQ15 Input Data Mask: DM is an input mask signal for write data. Input data is masked when DM is sampled HIGH along with that input data during a WRITE access. DM is sampled on both edges of DQS. Although DM pins are input only, the DM loading matches the DQ and DQS loading. For the x16, LDM corresponds to the data on DQ0-DQ7; UDM corresponds to the data on DQ8-DQ15. VDD, VSS Power Supply Power Supply for the memory array and peripheral circuitry. VDDQ, VSSQ Power Supply VDDQ, and VSSQ are supplied to the Output Buffers only. Vref Input 4 SSTL_2 reference voltage. Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B DQ 0 - 7 BLOCK DIAGRAM x8 DLL DQ S I/O B uffer Memory Arra y Ba nk #0 Memory Arra y Ba nk #1 DQ S Bu ffer Memory Arra y Ba nk #2 Memory Arra y Ba nk #3 Mode Re gister Control C ircu itry Addres s B uffer Control Signal B uffer Cl ock B uffer A0-1 2 /CS /RAS /CAS BA 0,1 CLK Integrated Silicon Solution, Inc. Rev. 08/13/2010 /CLK /WE DM CKE 5 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B DQ 0 - 15 UDQS, LD QS I/O B uffer DQ S Buffer BLOCK DIAGRAM x16 DLL Memory Array Bank #0 Memory Array Ba nk #1 Memory Array Ba nk #2 Memory Array Ba nk #3 Mode Re gister Control C ircu itry Addres s B uffer Control Signal B uffer Cl ock B uffer A0-1 2 /CS /RAS /CAS BA 0,1 CLK 6 /CLK CKE /WE UDM , LD M Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM BASIC FUNCTIONS ISSI's 256-Mbit DDR SDRAM provides basic functions, bank (row) activate, burst read / write, bank (row) precharge, and auto / self refresh. Each command is defined by control signals of /RAS, /CAS and /WE at CLK rising edge. In addition to 3 signals, /CS , CKE and A10 are used as chip select, refresh option, and precharge option, respectively. To know the detailed definition of commands, please see the command truth table. /CLK CLK /CS Chip Select : L=select, H=deselect /RAS Command /CAS Command /WE Command CKE Refresh Option @refresh command A10 Precharge Option @precharge or read/write command define basic commands Activate (ACT) [/RAS =L, /CAS =/WE =H] ACT command activates a row in an idle bank indicated by BA. Read (READ) [/RAS =H, /CAS =L, /WE =H] READ command starts burst read from the active bank indicated by BA. First output data appears after /CAS latency. When A10 =H at this command, the bank is deactivated after the burst read (autoprecharge, READA) Write (WRITE) [/RAS =H, /CAS =/WE =L] WRITE command starts burst write to the active bank indicated by BA. Total data length to be written is set by burst length. When A10 =H at this command, the bank is deactivated after the burst write (auto-precharge, WRITEA) Precharge (PRE) [/RAS =L, /CAS =H, /WE =L] PRE command deactivates the active bank indicated by BA. This command also terminates burst read /write operation. When A10 =H at this command, all banks are deactivated (precharge all, PREA ). Auto-Refresh (REFA) [/RAS =/CAS =L, /WE =CKE =H] REFA command starts auto-refresh cycle. Refresh address including bank address are generated internally. After this command, the banks are precharged automatically. DDR SDRAM (Rev.1.1) Integrated Silicon Solution, Inc. Rev. 08/13/2010 7 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary I IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM I COMMAND TRUTH TABLE MNEMONIC CKE n-1 CKE n /CS /RAS /CAS Deselect DESEL H X H X X X X X X No Operation NOP H X L H H H X X X Row Address Entry & Bank Activate ACT H H L L H H V V V Single Bank Precharge PRE H H L L H L V L X Precharge All Banks PREA H H L L H L X H X Column Address Entry & Write WRITE H H L H L L V L V Column Address Entry & Write with Auto-Precharge WRITEA H H L H L L V H V Column Address Entry & Read READ H H L H L H V L V Column Address Entry & Read with Auto-Precharge READA H H L H L H V H V Auto-Refresh REFA H H L L L H X X X Self-Refresh Entry REFS H L L L L H X X X Self-Refresh Exit REFSX L H H X X X X X X L H L H H H X X X Burst Terminate TERM H H L H H L X X X 1 Mode Register Set MRS H H L L L L L L V 2 COMMAND /WE BA0,1 A10 /AP A0-9, note 11-12 H=High Level, L=Low Level, V=Valid, X=Don't Care, n=CLK cycle number NOTE: 1. Applies only to read bursts with autoprecharge disabled; this command is undefined (and should not be used) for read bursts with autoprecharge enabled, and for write bursts. 2. BA0-BA1 select either the Base or the Extended Mode Register (BA0 = 0, BA1 = 0 selects Mode Register;BA0=1 , BA1 = 0 selects Extended Mode Register; other combinations of BA0-BA1 are reserved; A0-A12 provide the op-code to be written to the selected Mode Register. 8 DDR SDRAM (Rev.1.1) Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B Zentel Electronics Corporation A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM FUNCTION TRUTH TABLE Current State IDLE ROW ACTIVE READ(AutoPrecharge Disabled) /CS /RAS /CAS /WE Address H X X X X Action NOP Notes L L H H H H H X L BA NOP TERM NOP ILLEGAL L L L H L L L H H X BA, CA, A10 H BA, RA L BA, A10 READ / WRITE ACT PRE / PREA ILLEGAL Bank Active, Latch RA NOP 4 L L L REFA Auto-Refresh 5 L L L MRS Mode Register Set 5 H L L X H H X H H H X Op-Code, ModeL Add X X H X L BA DESEL NOP TERM L H L H BA, CA, A10 READ / READA L H L L WRITE / WRITEA 2 L L H H BA, RA ACT NOP NOP ILLEGAL Begin Read, Latch CA, Determine Auto-Precharge Begin Write, Latch CA, Determine Auto-Precharge Bank Active / ILLEGAL L L L L H L PRE / PREA REFA Precharge / Precharge All ILLEGAL L L L MRS ILLEGAL H L X H X H L BA, A10 H X Op-Code, ModeL Add X X H X DESEL NOP NOP (Continue Burst to END) NOP (Continue Burst to END) L H H L TERM L H L H BA, CA, A10 READ / READA L H L L WRITE / WRITEA Terminate Burst Terminate Burst, Latch CA, Begin New Read, Determine AutoPrecharge ILLEGAL L L L L H H H BA, RA L BA, A10 ACT PRE / PREA Bank Active / ILLEGAL Terminate Burst, Precharge L L L L L L H X REFA Op-Code, ModeL MRS Add Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 Command DESEL BA, CA, A10 BA BA, CA, A10 2 2 3 2 ILLEGAL ILLEGAL 9 Zentel Electronics Corporation IS43R83200B, IS46R83200B I IS43R16160B, IS46R16160B Preliminary A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM I FUNCTION TRUTH TABLE (continued) Current State WRITE(AutoPrecharge Disabled) READ with Auto-Precharge WRITE with Auto-Precharge /CS /RAS /CAS /WE Address H X X X X L H H H X Command DESEL NOP Action NOP (Continue Burst to END) NOP (Continue Burst to END) L H H L BA TERM L H L H BA, CA, A10 READ / READA L H L L BA, CA, A10 WRITE / WRITEA L L H H BA, RA ACT ILLEGAL Terminate Burst, Latch CA, Begin Read, Determine Auto-Precharge Terminate Burst, Latch CA, Begin Write, Determine Auto-Precharge Bank Active / ILLEGAL L L L L H L PRE / PREA REFA Terminate Burst, Precharge ILLEGAL L L L MRS ILLEGAL H X X L BA, A10 H X Op-Code, ModeL Add X X DESEL NOP (Continue Burst to END) L H H H X NOP NOP (Continue Burst to END) L L L L L H H H L L H L L H H L H L H L TERM READ / READA WRITE / WRITEA ACT PRE / PREA ILLEGAL ILLEGAL ILLEGAL Bank Active / ILLEGAL Precharge / ILLEGAL L L L ILLEGAL L L L H X X H X REFA Op-Code, ModeL MRS Add X X DESEL L L L L L H H H H L H H L L H H L H L H NOP (Continue Burst to END) ILLEGAL ILLEGAL ILLEGAL Bank Active / ILLEGAL L L L L H L L L L L BA, A10 PRE / PREA H X REFA Op-Code, ModeL MRS Add 10 DDR SDRAM (Rev.1.1) BA BA, CA, A10 BA, CA, A10 BA, RA BA, A10 X BA BA, CA, A10 BA, CA, A10 BA, RA NOP TERM READ / READA WRITE / WRITEA ACT Notes 3 3 2 2 2 ILLEGAL NOP (Continue Burst to END) Precharge / ILLEGAL ILLEGAL 2 2 ILLEGAL Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation A3S56D30/40ETP IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B 256M Double Data Rate Synchronous DRAM FUNCTION TRUTH TABLE (continued) Current State PRECHARGING ROW ACTIVATING WRITE RECOVERING /CS /RAS /CAS /WE Address H X X X X Action NOP (Idle after tRP) Notes L H H H X NOP NOP (Idle after tRP) L L L H H L H L H L BA X BA, CA, A10 H BA, RA TERM READ / WRITE ACT ILLEGAL ILLEGAL ILLEGAL 2 2 2 L L H L PRE / PREA NOP (Idle after tRP) 4 L L L L L L H X X H X REFA Op-Code, ModeL MRS Add X X DESEL NOP (Row Active after tRCD) L H H H X NOP NOP (Row Active after tRCD) L L L H H L H L H L BA X BA, CA, A10 H BA, RA TERM READ / WRITE ACT ILLEGAL ILLEGAL ILLEGAL 2 2 2 L L H L PRE / PREA ILLEGAL 2 L L L L L L H X X H X REFA Op-Code, ModeMRS L Add X X DESEL NOP L H H H X NOP NOP L L L H H L H L H L BA X BA, CA, A10 H BA, RA TERM READ / WRITE ACT ILLEGAL ILLEGAL ILLEGAL 2 2 2 L L H L PRE / PREA ILLEGAL 2 L L L L L L H X REFA Op-Code, ModeMRS L Add DDR SDRAM Integrated Silicon(Rev.1.1) Solution, Inc. Rev. 08/13/2010 Command DESEL BA, A10 BA, A10 BA, A10 ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL 11 Zentel Electronics Corporation IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B I A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM FUNCTION TRUTH TABLE (continued) Current State /CS /RAS /CAS /WE Address REFRESHING H X X X X MODE REGISTER SETTING Command DESEL Action NOP (Idle after tRC) NOP TERM READ / WRITE ACT PRE / PREA NOP (Idle after tRC) ILLEGAL ILLEGAL ILLEGAL ILLEGAL L L L L L H H H L L H H L H H H L X H L X BA BA, CA, A10 BA, RA BA, A10 L L L H L L L L ILLEGAL H X X X X REFA Op-Code, ModeMRS Add X DESEL L L L L L H H H L L H H L H H H L X H L X BA BA, CA, A10 BA, RA BA, A10 NOP (Row Active after tRSC) ILLEGAL ILLEGAL ILLEGAL ILLEGAL L L L H L L L L X REFA Op-Code, ModeMRS Add NOP TERM READ / WRITE ACT PRE / PREA Notes ILLEGAL NOP (Row Active after tRSC) ILLEGAL ILLEGAL ABBREVIATIONS: H=High Level, L=Low Level, X=Don't Care BA=Bank Address, RA=Row Address, CA=Column Address, NOP=No Operation NOTES: 1. All entries assume that CKE was High during the preceding clock cycle and the current clock cycle. 2. ILLEGAL to bank in specified state; function may be legal in the bank indicated by BA, depending on the state of that bank. 3. Must satisfy bus contention, bus turn around, write recovery requirements. 4. NOP to bank precharging or in idle state. May precharge bank indicated by BA. 5. ILLEGAL if any bank is not idle. ILLEGAL = Device operation and/or data-integrity are not guaranteed. 12 DDR SDRAM (Rev.1.1) Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM FUNCTION TRUTH TABLE for CKE Current State SELFREFRESHING POWER DOWN ALL BANKS IDLE ANY STATE other than listed above CKE n-1 CKE n /CS /RAS /CAS /WE Address Action Notes H X X X X X X INVALID 1 L H H X X X X Exit Self-Refresh (Idle after tRC) 1 L H L H H H X Exit Self-Refresh (Idle after tRC) 1 L H L H H L X ILLEGAL 1 L H L H L X X ILLEGAL 1 L H L L X X X ILLEGAL 1 L L X X X X X NOP (Maintain Self-Refresh) 1 H X X X X X X INVALID L H X X X X X Exit Power Down to Idle L L X X X X X NOP (Maintain Self-Refresh) H H X X X X X Refer to Function Truth Table 2 H L L L L H X Enter Self-Refresh 2 H L H X X X X Enter Power Down 2 H L L H H H X Enter Power Down 2 H L L H H L X ILLEGAL 2 H L L H L X X ILLEGAL 2 H L L L X X X ILLEGAL 2 L X X X X X X Refer to Current State =Power Down 2 H H X X X X X Refer to Function Truth Table H L X X X X X Begin CLK Suspend at Next Cycle 3 L H X X X X X Exit CLK Suspend at Next Cycle 3 L L X X X X X Maintain CLK Suspend ABBREVIATIONS: H=High Level, L=Low Level, X=Don't Care NOTES: 1. CKE Low to High transition will re-enable CLK and other inputs asynchronously. A minimum setup time must be satisfied before any command other than EXIT. 2. Power-Down and Self-Refresh can be entered only from the All Banks Idle State. 3. Must be legal command. Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 13 Zentel Electronics Corporation IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B I A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM SIMPLIFIED STATE DIAGRAM POWER APPLIED POWER ON PRE CHARGE ALL PREA SELF REFRESH REFS MRS MODE REGISTER SET REFSX MRS AUTO REFRESH REFA IDLE CKEL CKEH Active Power Down ACT POWER DOWN CKEL CKEH ROW ACTIVE WRITE WRITE BURST STOP READ WRITEA WRITE READA READ WRITEA READ READ TERM READA READA WRITEA READA PRE PRE PRE PRE CHARGE Automatic Sequence Command Sequence 14 DDR SDRAM (Rev.1.1) Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM POWER ON SEQUENCE Before starting normal operation, the following power on sequence is necessary to prevent a SDRAM from damaged or multifunctioning. 1. Apply VDD before or the same time as VDDQ 2. Apply VDDQ before or at the same time as VTT & Vref 3. Maintain stable condition for 200us after stable power and CLK, apply NOP or DSEL 4. Issue precharge command for all banks of the device 5. Issue EMRS 6. Issue MRS for the Mode Register and to reset the DLL 7. Issue 2 or more Auto Refresh commands 8. Maintain stable condition for 200 cycle After these sequence, the DDR SDRAM is idle state and ready for normal operation. CLK MODE REGISTER /CLK Burst Length, Burst Type and /CAS Latency can be programmed by setting the mode register (MRS). The mode register stores these data until the next MRS command, which may be issued when all banks are in idle state. After tMRD from a MRS command, the DDR SDRAM is ready for new command. /CS /RAS /CAS /WE BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 0 0 0 0 0 Latency Mode 0 DR CL 0 0 0 0 0 1 0 1 0 0 1 1 1 0 0 1 0 1 1 1 0 1 1 1 0 LTMODE /CAS Latency R R 2 3 R R 2.5 R BT BL Burst Length DLL Reset NO 1 YES Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 BA1 A12-A0 BL 0 0 0 0 0 1 0 1 0 0 1 1 1 0 0 1 0 1 1 1 0 1 1 1 Burst Type 0 BA0 V BT=0 R 2 4 8 R R R R BT=1 R 2 4 8 R R R R 0 Sequential 1 Interleaved R: Reserved for Future Use 15 Zentel Electronics Corporation IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B I A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM EXTENDED MODE REGISTER DLL disable / enable mode can be programmed by setting the extended mode register (EMRS). The extended mode register stores these data until the next EMRS command, which may be issued when all banks are in idle state. After tMRD from a EMRS command, the DDR SDRAM is ready for new command. CLK /CLK /CS /RAS /CAS BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 0 1 0 0 0 0 0 0 0 0 0 0 0 DS DD /WE BA0 BA1 V A12-A0 DLL Disable Drive Strength 16 DDR SDRAM (Rev.1.1) 0 1 0 1 DLL Enable DLL Disable Normal Weak Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B Preliminary A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM /CLK CLK Command Read Write Y Y Address DQS Q0 Q1 Q2 Q3 DQ CL= 2 BL= 4 Initial Address A2 Burst Length Burst Length /CAS Latency BL Column Addressing A1 A0 Sequential Interleaved 0 0 0 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 0 0 1 1 2 3 4 5 6 7 0 1 0 3 2 5 4 7 6 0 1 0 2 3 4 5 6 7 0 1 2 3 0 1 6 7 4 5 0 1 1 3 4 5 6 7 0 1 2 3 2 1 0 7 6 5 4 1 0 0 4 5 6 7 0 1 2 3 4 5 6 7 0 1 2 3 1 0 1 5 6 7 0 1 2 3 4 5 4 7 6 1 0 3 2 1 1 0 6 7 0 1 2 3 4 5 6 7 4 5 2 3 0 1 1 1 1 7 0 1 2 3 4 5 6 7 6 5 4 3 2 1 0 - 0 0 0 1 2 3 0 1 2 3 - 0 1 1 2 3 0 1 0 3 2 - 1 0 2 3 0 1 2 3 0 1 - 1 1 3 0 1 2 3 2 1 0 - - 0 0 1 0 1 - - 1 1 0 1 0 8 4 2 Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 D0 D1 D2 D3 17 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B ABSOLUTE MAXIMUM RATINGS Symbol Parameter Conditions Ratings Unit Vdd Supply Voltage with respect to Vss -0.5 ~ 3.7 V VddQ Supply Voltage for Output with respect to VssQ -0.5 ~ 3.7 V VI Input Voltage with respect to Vss -0.5 ~ VDD+0.5 V VO Output Voltage with respect to VssQ -0.5 ~ VDDQ +0.5 V IO Output Current 50 mA mW o Pd Power Dissipation Ta = 25 C 1500 Topr Operating Temperature Commercial Temperature Industrial Temperature Automotive Temperature 0 to 70 o Tstg Storage Temperature -65 ~ 150 o -40 to +85 -40 to +85 C C DC OPERATING CONDITIONSo o (Ta=0 ~ 70 C for Commercial. Ta = -40 ~ +85 C for Industrial and Automotive) Limits Symbol Parameter Min. Typ. Vdd Max. Unit Supply Voltage 2.3 2.5 2.7 V VddQ I/O Supply Voltage 2.3 2.5 2.7 V VREF I/O Reference Volatage 0.49*VddQ 0.5*VddQ 0.51*VddQ V VTT I/O Termination Voltage VREF-0.04 VREF VREF+0.04 V Vref+0.15 Vdd+0.3 V -0.3 Vref-0.15 V VIN(DC) Input Voltage Level, CK and /CK inputs -0.3 VddQ+0.3 V VID(DC) Input Differential Voltage, CK and /CK inputs 0.36 VddQ+0.6 V -2 2 uA -5 5 uA VIH(DC) Input High Voltage VIL(DC) IL Input Low Voltage Input Leakage Current, Any input 0V<VIN<VDD (All other pins not under test = 0V) IOH Output Leakage Current DQs are disabled ; 0V<Vout<VddQ Output High Current (VOUT=1.95V) -16.2 mA IOL Output Low Current (VOUT=0.35V) 16.2 mA IOZ Notes AC OPERATING CONDITIONS (Ta=0 ~ 70oC for Commercial. Ta = -40 ~ +85oC for Industrial and Automotive) (Vdd = VddQ = 2.5V + 0.2V, Vss = VssQ = 0V, unless otherwise noted) Symbol Parameter VIH(A C) In p u t Hig h Vo ltag e Limits Min. Typ. Vref+0.31 VID(AC) Input Differential Voltage, CK and /CK inputs 0.7 VIX(AC) Input Crossing Point Voltage, CK and /CK inputs 0.5*VddQ-0.2 Unit No tes V VIL(A C) In p u t Lo w Vo ltag e 18 Max. 0.5*VddQ Vref-0.31 V VddQ+0.6 V 0.5*VddQ-0.2 V Integrated Silicon Solution, Inc. Rev. E 08/13/09 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B AC Overshoot/Undershoot Specification for Address and Control Pins Parameter Max. Unit Peak amplitude allowed for overshoot 1.5 V Peak amplitude allowed for undershoot 1.5 V Area between the overshoot signal and VDD must be less than or equal to 4.5 V--ns Area between the undershoot signal and GND must be less than or equal to 4.5 V--ns +5 +4 +3 Volts +2 (V) +1 0 -1 -2 -3 Max. amplitude = 1.5 V Overshoot VDD Ground Undershoot Max. area = 4.5 V-ns 0 1 2 3 4 5 6 Time (ns) Address and Control AC Overshoot and Undershoot Definition Overshoot/Undershoot Specification for Data, Strobe, and Mask Pins Parameter Max Unit Peak amplitude allowed for overshoot 1.2 V Peak amplitude allowed for undershoot 1.2 V Area between the overshoot signal and VDD must be less than or equal to 2.4 V--ns 2.4 V--ns Area between the undershoot signal and GND must be less than or equal to +5 +4 +3 Volts +2 (V) +1 0 -1 -2 -3 Max. amplitude = 1.2 V Overshoot VDD Ground Undershoot Max. area = 2.4 V--ns 0 1 2 3 4 5 6 Time (ns) DQ/DM/DQS AC Overshoot and Undershoot Definition Integrated Silicon Solution, Inc. Rev. 08/13/2010 19 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B AVERAGE SUPPLY CURRENT from Vdd ( Symbol o C (Vdd = VddQ = 2.5V + 0.2V, Vss = VssQ = 0V, Output Open, unless otherwise noted) Parameter/Test Conditions OPERATING CURRENT: One Bank; Active-Read-Precharge;Burst = 2; t IDD1 RC = t RC MIN; t CK = t CK MIN; IOUT= 0mA; Address and control inputs changing once per clock cycle IDD2P PRECHARGE POWER-DOWN STANDBY CURRENT: All banks idle; power-down mode; CKE <VIL (MAX); t CK = t CK MIN IDLE STANDBY CURRENT: /CS > VIH (MIN); All banks idle; IDD2N CKE > VIH (MIN); t CK = t CK MIN; Address and other control inputs changing once per clock cycle Limits(Max.) -6 -75 185 165 150 30 25 20 55 50 40 60 IDD3P ACTIVE POWER DOWN STANDBY CURRENT: One bank active;power down mode;CKE VIL(MAX);t CK = t CK MIN 50 45 IDD3N ACTIVE STANDBY CURRENT: /CS > VIH (MIN); CKE > VIH (MIN); One bank; Active-Precharge; t RC = t RAS MAX; t CK = t CK MIN; DQ,DM and DQS inputs changing twice per clock cycle; address and other control inputs changing once per clock cycle 95 90 75 OPERATING CURRENT: Burst =2; Read ; Continuous burst;All banks IDD4R active; Address and control inputs changing once per clock cycle;t CK = t CK MIN; IOUT = 0 mA 290 250 210 OPERATING CURRENT: Burst =2; Write ; Continuous burst;All banks IDD4W active; Address and control inputs changing once per clock cycle;t CK = t CK MIN; DQ and DQS inputs changing twice per clock cycle 290 250 210 170 160 150 5 5 IDD5 AUTO REFRESH CURRENT: t RC = t RFC (MIN) IDD6 SELF REFRESH CURRENT: CKE < 0.2V 20 -5 Unit Notes mA 5 Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B AC TIMING REQUIREMENTS Symbol tAC -5 AC Characteristics Parameter DQ Output access time from CLK//CLK tDQSCK DQS Output access time from CLK//CLK -6 -75 Unit Min. Max Min. Max Min. Max -0.70 +0.70 -0.70 +0.70 -0.75 +0.75 ns -0.6 +0.6 -0.60 +0.60 -0.75 +0.75 ns tCH CLK High level width 0.45 0.55 0.45 0.55 0.45 0.55 tCK tCL CLK Low level width 0.45 0.55 0.45 0.55 0.45 0.55 tCK 5 7.5 6 12 7.5 12 ns CL=2.5 5 12 6 12 7.5 12 ns CL=2.0 7.5 12 7.5 12 7.5 12 ns CL=3.0 tCK CLK cycle time tDS Input Setup time (DQ,DM) 0.4 0.45 0.5 ns tDH Input Hold time(DQ,DM) 0.4 0.45 0.5 ns tIPW Control & address input pulse width (for each input) 2.2 2.2 2.2 ns tDIPW DQ and DM input pulse width (for each input) tHZ Data-out-high impedance time from CLK//CLK tLZ Data-out-low impedance time from CLK//CLK 1.75 1.75 +0.70 -0.70 tDQSQ DQ Valid data delay time from DQS +0.70 1.75 +0.70 -0.70 0.40 +0.70 -0.75 0.45 ns +0.75 ns 14 +0.75 ns 14 0.5 ns tHP Clock half period tCLmin or tCHmin tCLmin or tCHmin tCLmin or tCHmin ns tQH DQ output hold time from DQS (per access) tHP-tQHS tHP-tQHS tHP-tQHS ns tQHS Data hold skew factor (for DQS & associated DQ signals) tDQSS Write command to first DQS latching transition 0.50 0.72 1.25 0.55 0.75 1.25 1.25 tCK 0.35 0.35 0.35 tCK tDQSL DQS input Low level width 0.35 0.35 0.35 tCK tDSS DQS falling edge to CLK setup time 0.2 0.2 0.2 tCK tDSH DQS falling edge hold time from CLK 0.2 0.2 0.2 tCK tMRD Mode Register Set command cycle time 2 2 2 tCK 0 0 0 0.6 0.6 16 15 tWPRE Write preamble max (0.25*tck, 1.5ns) 0.25*tck 0.25*tck ns Input Setup time (address and control) 0.6 0.75 0.9 ns 19 ns 19 Input Hold time (address and control) 0.6 tRPST Read postamble 0.4 0.6 0.4 0.6 0.4 0.6 tCK tRPRE Read preamble 0.9 1.1 0.9 1.1 0.9 1.1 tCK Integrated Silicon Solution, Inc. Rev. 08/13/2010 0.75 0.4 ns 0.4 tIH 0.4 tCK tWPST Write postamble tIS 0.6 20 0.75 0.75 tDQSH DQS input High level width tWPRES Write preamble setup time Notes 0.9 21 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B AC TIMING REQUIREMENTS(Continues) Symbol -5 AC Characteristics Parameter -6 -75 Min. Max Min. Max Min. Max 120,000 42 120,000 45 120,000 Unit tRAS Row Active time 40 tRC Row Cycle time(operation) 55 60 65 ns tRFC Auto Ref. to Active/Auto Ref. command period 70 72 75 ns tRCD Row to Column Delay 15 18 20 ns Row Precharge time 15 18 20 ns tRRD Act to Act Delay time 10 12 15 ns tWR Write Recovery time 15 15 15 ns tDAL Auto Precharge write recovery + precharge time − − − tCK tWTR Internal Write to Read Command Delay tCK tRP Notes ns 2 1 1 tXSNR Exit Self Ref. to non-Read command 75 75 75 ns tXSRD Exit Self Ref. to -Read command 200 200 200 tCK 21 tXPNR Exit Power down to command 1 1 1 tCK tXPRD Exit Power down to -Read command 1 1 1 tCK 18 µs 17 tREFI Average Periodic Refresh interval 7.8 7.8 7.8 Output Load Condition VREF DQS DQ VTT =V REF VREF 50Ω VOUT Zo=50Ω 30pF VREF Output Timing Measurement Reference Point CAPACITANCE o (Ta= 25 C, Vdd = VddQ = 2.5V + 0.2V Vss = VssQ = 0V, unless otherwise noted) 22 Symbol Parameter CI(A) CI(C) CI(K) CI/O Input Capacitance, address pin Input Capacitance, control pin Input Capacitance, CLK pin I/O Capacitance, I/O, DQS, DM pin Test Condition VI=1.25v f=100MHz VI=25mVrms Limits Delta Unit Notes Min. Max. Cap.(Max.) 1.3 2.5 pF 0.75 1.3 2.5 pF 1.3 2.5 0.25 pF 2 4 1.3 pF Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B Zentel Electronics Corporation A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM I Notes 1. All voltages referenced to Vss. 2. Tests for AC timing, IDD, and electrical, AC and DC characteristics, may be conducted at nominal reference/supply voltage levels, but the related specifications and device operation are guaranteed for the full voltage range specified. 3. AC timing and IDD tests may use a VIL to VIH swing of up to 1.5V in the test environment, but input timing is still referenced to VREF (or to the crossing point for CK//CK), and parameter specifications are guaranteed for the specified AC input levels under normal use conditions. The minimum slew rate for the input signals is 1V/ns in the range between VIL(AC) and VIH(AC). 4. The AC and DC input level specifications are as defined in the SSTL_2 Standard (i.e. the receiver will effectively switch as a result of the signal crossing the AC input level, and will remain in that state as long as the signal does not ring back above (below) the DC input LOW (HIGH) level. 5. VREF is expected to be equal to 0.5*VddQ of the transmitting device, and to track variations in the DC level of the same. Peak-to-peak noise on VREF may not exceed +2% of the DC value. 6. VTT is not applied directly to the device. VTT is a system supply for signal termination resistors, is expected to be set equal to VREF, and must track variations in the DC level of VREF. 7. VID is the magnitude of the difference between the input level on CLK and the input level on /CLK. 8. The value of VIX is expected to equal 0.5*VddQ of the transmitting device and must track variations in the DC level of the same. 9. Enables on-chip refresh and address counters. 10. IDD specifications are tested after the device is properly initialized. 11. This parameter is sampled. VddQ = 2.5V+0.2V, Vdd = 2.5V + 0.2V , f = 100 MHz, Ta = 25oC, VOUT(DC) = VddQ/2, VOUT(PEAK TO PEAK) = 25mV. DM inputs are grouped with I/O pins - reflecting the fact that they are matched in loading (to facilitate trace matching at the board level). 12. The CLK//CLK input reference level (for timing referenced to CLK//CLK) is the point at which CLK and /CLK cross; the input reference level for signals other than CLK//CLK, is VREF. 13. Inputs are not recognized as valid until VREF stabilizes. Exception: during the period before VREF stabilizes, CKE< 0.3VddQ is recognized as LOW. 14. t HZ and tLZ transitions occur in the same access time windows as valid data transitions. These parameters are not referenced to a specific voltage level, but specify when the device output is no longer driving (HZ), or begins driving (LZ). 15. The maximum limit for this parameter is not a device limit. The device will operate with a greater value for this parameter, but system performance (bus turnaround) will degrade accordingly. 16. The specific requirement is that DQS be valid (HIGH, LOW, or at some point on a valid transition) on or before this CLK edge. A valid transition is defined as monotonic, and meeting the input slew rate specifications of the device. When no writes were previously in progress on the bus, DQS will be transitioning from High-Z to logic LOW. If a previous write was in progress, DQS could be HIGH, LOW, or transitioning from HIGH to LOW at this time, depending on tDQSS. 17. A maximum of eight AUTO REFRESH commands can be posted to any given DDR SDRAM device. 18. tXPRD should be 200 tCLK in the condition of the unstable CLK operation during the power down mode. 19. For command/address and CK & /CK slew rate > 1.0V/ns. 20. Min (tCL,tCH) refers to the smaller of the actual clock low time and the actual clock high time as provided to the device. 21. tDAL minimum = (tWR/tCK) + (tRP/tCK) If either addend is not an integer, it should be rounded up. Integrated Silicon Solution, Inc. Rev. 08/13/2010 DDR SDRAM (Rev.1.1) 23 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B Read Operation tCK /CLK tCH tCL CLK tIS Cmd & Add. DQS tIH Valid Data tDQSCK tRPRE VREF tRPST tQH tDQSQ DQ tAC Write Operation / tDQSS=max. /CLK CLK tDQSS tWPST tDSS tWPRES DQS tDQSL tWPRE tDQSH tDS tDH DQ Write Operation / tDQSS=min. /CLK CLK DQS tDSH tDQSS tWPST tWPRES tWPRE tDQSL tDS tDQSH tDH DQ 24 Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B I Zentel Electronics Corporation A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM OPERATIONAL DESCRIPTION BANK ACTIVATE The DDR SDRAM has four independent banks. Each bank is activated by the ACT command with the bank addresses (BA0,1). A row is indicated by the row address A0-12. The minimum activation interval between one bank and the other bank is tRRD. PRECHARGE The PRE command deactivates the bank indicated by BA0,1. When multiple banks are active, the precharge all command (PREA,PRE+A10=H) is available to deactivate them at the same time. After tRP from the precharge, an ACT command to the same bank can be issued. Bank Activation and Precharge All (BL=8, CL=2) /CLK CLK 2 ACT command / tRCmin Command ACT ACT READ tRRD A0-9,11,12 Xa tRCmin PRE tRP tRAS Xb ACT Y tRCD Xb BL/2 A10 Xa Xb 0 BA0,1 00 01 00 1 Xb 01 DQS DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Precharge all A precharge command can be issued at BL/2 from a read command without data loss. Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 25 Zentel Electronics Corporation IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B Preliminary A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM READ After tRCD from the bank activation, a READ command can be issued. 1st Output data is available after the /CAS Latency from the READ, followed by (BL-1) consecutive data when the Burst Length is BL. The start address is specified by A0-9(x8)/A0-8(x16), and the address sequence of burst data is defined by the Burst Type. A READ command may be applied to any active bank, so the row precharge time (tRP) can be hidden behind continuous output data by interleaving the multiple banks. When A10 is high at a READ command, the auto-precharge (READA) is performed. Any command(READ,WRITE,PRE,ACT) to the same bank is inhibited till the internal precharge is complete. The internal precharge starts at BL/2 after READA. The next ACT command can be issued after (BL/2+tRP) from the previous READA. Multi Bank Interleaving READ (BL=8, CL=2) /CLK CLK Command ACT READ ACT READ PRE tRCD A0-9,11,12 Xa Y Xb Y A10 Xa 0 Xb 0 0 BA0,1 00 00 10 10 00 DQS DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Qb0 Qb1 Qb2 Qb3 Qb4 Qb5 Qb7 Qb8 Burst Length /CAS latency 26 DDR SDRAM (Rev.1.1) Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B READ with Auto-Precharge (BL=8, CL=2,2.5,3.0) 0 1 2 3 4 5 /CLK CLK Command 7 8 9 10 11 12 BL/2 + tRP ACT READ tRCD tRP BL/2 Xa Y A10 Xa 1 BA0,1 00 00 A0-9,11,12 6 DQS CL=2 DQ Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 Qa7 Qa0 Qa1 Qa2 Qa3 Qa4 Qa5 Qa6 DQS CL=2.5 DQ DQS CL=3.0 DQ Qa7 Internal Precharge Start Timing Integrated Silicon Solution, Inc. Rev. 08/13/2010 27 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM WRITE After tRCD from the bank activation, a WRITE command can be issued. 1st input data is set from the WRITE command with data strobe input, following (BL-1) data are written into RAM, when the Burst Length is BL. The start address is specified by A0-9(x8)/A0-8(x16), and the address sequence of burst data is defined by the Burst Type. A WRITE command may be applied to any active bank, so the row precharge time (tRP) can be hidden behind continuous input data by interleaving the multiple banks. From the last data to the PRE command, the write recovery time (tWRP) is required. When A10 is high at a WRITE command, the auto-precharge(WRITEA) is performed. Any command(READ,WRITE,PRE,ACT) to the same bank is inhibited till the internal precharge is complete. The next ACT command can be issued after tDAL from the last input data cycle. Multi Bank Interleaving WRITE (BL=8) /CLK CLK Command A0-9,11,12 ACT tRCD Xa D WRITE ACT Ya Xb WRITE tRCD D PRE PRE Yb A10 Xa Xa 0 Xb 0 0 0 BA0,1 00 00 10 10 00 10 DQS DQ 28 DDR SDRAM (Rev.1.1) Da0 Da1 Da2 Da3 Da4 Da5 Da6 Da7 Db0 Db1 Db2 Db3 Db4 Db5 Db6 Db7 Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IS43R83200B, IS46R83200B I Preliminary IS43R16160B, IS46R16160B I A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM WRITE with Auto-Precharge (BL=8) 0 1 2 3 4 5 6 7 8 9 10 11 12 /CLK CLK Command ACT WRITE ACT tDAL tRC A0-9,11,12 Xa Y Xb A10 Xa 1 Xb BA0,1 00 00 00 D DQS DQ Integrated Silicon Solution, Inc. DDR SDRAM (Rev.1.1) Rev. 08/13/2010 Da0 Da1 Da2 Da3 Da4 Da5 Da6 Da7 29 Zentel Electronics Corporation A3S56D30/40ETP Preliminary Preliminary IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B 256M Double Data Rate Synchronous DRAM BURST INTERRUPTION [Read Interrupted by Read] Burst read operation can be interrupted by new read of any bank. Random column access is allowed. READ to READ interval is minimum 1CLK. Read Interrupted by Read (BL=8, CL=2) /CLK CLK Command READ READ READ READ Yi Yj Yk Yl A10 0 0 0 0 BA0,1 00 00 10 01 A0-9,11,12 DQS DQ Qai0 Qai1 Qaj0 Qaj1 Qaj2 Qaj3 Qak0 Qak1 Qak2 Qak3 Qak4 Qak5 Qal0 Qal1 Qal2 Qal3 Qal4 Qal5 Qal6 Qal7 [Read Interrupted by precharge] Burst read operation can be interrupted by precharge of the same bank. READ to PRE interval is minimum 1 CLK. A PRE command to output disable latency is equivalent to the /CAS Latency. As a result, READ to PRE interval determines valid data length to be output. The figure below shows examples of BL=8. Read Interrupted by Precharge (BL=8) /CLK CLK Command READ PRE DQS DQ Command CL=2.0 Q0 READ Q1 Q2 Q3 Q0 Q1 Q2 Q3 Q0 Q1 Q4 Q5 PRE DQS DQ Command READ PRE DQS DQ DDR SDRAM (Rev.1.1) 30 Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IIS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B I /CLK CLK Command A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM Read Interrupted by Precharge (BL=8) READ PRE DQS DQ Command CL=2.5 READ Q0 Q1 Q2 Q3 Q0 Q1 Q2 Q3 Q0 Q1 Q4 Q5 PRE DQS DQ Command READ PRE DQS DQ Read Interrupted by Precharge (BL=8) /CLK CLK Command READ PRE DQS DQ Command CL=3.0 READ Q0 Q1 Q2 Q3 Q0 Q1 Q2 Q3 Q0 Q1 Q4 Q5 PRE DQS DQ Command READ PRE DQS DQ Integrated Silicon Solution, Inc. DDR Rev. SDRAM (Rev.1.1) 08/13/2010 31 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM [Read Interrupted by Burst Stop] Burst read operation can be interrupted by a burst stop command(TERM). READ to TERM interval is minimum 1 CLK. A TERM command to output disable latency is equivalent to the /CAS Latency. As a result, READ to TERM interval determines valid data length to be output. The figure below shows examples of BL=8. Read Interrupted by TERM (BL=8) /CLK CLK Command READ TERM DQS DQ Command CL=2.0 Q0 READ Q1 Q2 Q3 Q0 Q1 Q2 Q3 Q0 Q1 Q4 Q5 Q4 TERM DQS DQ Command READ TERM DQS DQ Command READ TERM DQS DQ Command CL=2.5 READ Q0 Q1 Q2 Q3 Q0 Q1 Q2 Q3 Q0 Q1 Q5 TERM DQS DQ Command READ TERM DQS DQ 32 DDR SDRAM (Rev.1.1) Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B Read Interrupted by TERM (BL=8) /CLK CLK READ Command TERM DQS DQ READ Command CL=3.0 Q0 Q1 Q2 Q3 Q0 Q1 Q2 Q3 Q0 Q1 Q4 Q5 TERM DQS DQ READ TERM Command DQS DQ [Read Interrupted by Write with TERM] Read Interrupted by TERM (BL=8) /CLK CLK Command READ TERM DQS CL=2.0 Q0 DQ Command READ Q1 Q2 D0 Q3 TERM D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D0 D2 D3 D4 D5 WRITE DQS CL=2.5 Q0 DQ Command CL=3.0 Integrated Silicon Solution, Inc. READ Q1 Q2 Q3 TERM WRITE DQS DQ Rev. 08/13/2010 WRITE Q0 Q1 Q2 Q3 D1 33 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B [Write interrupted by Write] Burst write operation can be interrupted by write of any bank. Random column access is allowed. WRITE to WRITE interval is minimum 1 CLK. Write Interrupted by Write (BL=8) /CLK CLK Command A0-9,11,12 WRITE WRITE WRITE WRITE Yi Yj Yk Yl A10 0 0 0 0 BA0,1 00 00 10 00 DQS DQ Dai0 Dai1 Daj0 Daj1 Daj2 Daj3 Dak0 Dak1 Dak2 Dak3 Dak4 Dak5 Dal0 Dal1 Dal2 Dal3 Dal4 Dal5 Dal6 Dal7 [Write interrupted by Read] Burst write operation can be interrupted by read of the same or the other bank. Random column access is allowed. Internal WRITE to READ command interval(tWTR) is minimum 1 CLK. The input data on DQ at the interrupting READ cycle is "don't care". tWTR is referenced from the first positive edge after the last data input. Write Interrupted by Read (BL=8, CL=2.5) /CLK CLK Command WRITE READ A0-9,11,12 Yi Yj 0 0 00 00 A10 BA0,1 DM tWTR QS DQ 34 Dai0 Dai1 Qaj0 Qaj1 Qaj2 Qaj3 Qaj4 Qaj5 Qaj6 Qaj7 Integrated Silicon Solution, Inc. Rev. 08/13/2010 Zentel Electronics Corporation IS43R83200B, IS46R83200B I IS43R16160B, IS46R16160B Preliminary A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM I [Write interrupted by Precharge] Burst write operation can be interrupted by precharge of the same or all bank. Random column access is allowed. tWR is referenced from the first positive CLK edge after the last data input. Write Interrupted by Precharge (BL=8, CL=2.5) /CLK CLK Command WRITE A0-9,11,12 Yi A10 BA0,1 PRE 0 00 00 tWR DM QS DQ Dai0 Dai1 Integrated Silicon Solution, Inc. Rev. 08/13/2010 DDR SDRAM (Rev.1.1) 35 Zentel Electronics Corporation IS43R83200B, IS46R83200B Preliminary IS43R16160B, IS46R16160B [Initialize and Mode Register sets] A3S56D30/40ETP 256M Double Data Rate Synchronous DRAM Initialize and MRS /CLK CLK CKE Command NOP PRE A0-12 1 A10 BA0,1 EMRS MRS Code Code Code Code 10 00 PRE AR AR MRS ACT Xa 1 Code Xa 00 Xa DQS DQ tMRD Extended Mode Register Set tMRD tRP tRFC tRFC tMRD Mode Register Set, Reset DLL [AUTO REFRESH] Single cycle of auto-refresh is initiated with a REFA(/CS=/RAS=/CAS=L,/WE=CKE=H) command. The refresh address is generated internally. 8192 REFA cycles within 64ms refresh 256Mbits memory cells. The auto-refresh is performed on 4 banks concurrently. Before performing an auto refresh, all banks must be in the idle state. Auto-refresh to auto-refresh interval is minimum tRFC . Any command must not be supplied to the device before tRFC from the REFA command. Auto-Refresh /CLK CLK /CS NOP or DESELECT /RAS /CAS /WE CKE tRFC A0-12 BA0,1 Auto Refresh on All Banks 36 DDR SDRAM (Rev.1.1) Auto Refresh on All Banks Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B [SELF REFRESH] Self -refresh mode is entered by issuing a REFS command (/CS=/RAS=/CAS=L,/WE=H,CKE=L). Once the self-refresh is initiated, it is maintained as long as CKE is kept low. During the selfrefresh mode, CKE is asynchronous and the only enable input, all other inputs including CLK are disabled and ignored, so that power consumption due to synchronous inputs is saved. To exit the self-refresh, supplying stable CLK inputs, asserting DESEL or NOP command and then asserting CKE for longer than tXSNR/tXSRD. Self-Refresh /CLK CLK /CS /RAS /CAS /WE CKE A0-12 X Y BA0,1 X Y tXSNR tXSRD Self Refresh Exit Integrated Silicon Solution, Inc. Rev. 08/13/2010 37 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B [Power DOWN] The purpose of CLK suspend is power down. CKE is synchronous input except during the selfrefresh mode. A command at cycle is ignored. From CKE=H to normal function, DLL recovery time is NOT required in the condition of the stable CLK operation during the power down mode. Power Down by CKE /CLK CLK Standby Power Down CKE Command PRE NOP NOP Valid tXPNR/tXPRD Active Power Down CKE Command ACT NOP NOP Valid [DM CONTROL] DM is defined as the data mask for writes. During writes,DM masks input data word by word. DM to write mask latency is 0. DM Function(BL=8,CL=2) /CLK CLK Command WRITE READ DM Don't Care DQS DQ D0 D1 D3 D4 D5 D6 D7 Q0 Q1 Q2 Q3 Q4 Q5 Q6 masked by DM=H 38 Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B ORDERING INFORMATION - Vdd = 2.5V Commercial Range: 0°C to +70°C Frequency 200 MHz 166 MHz Speed (ns) 5 6 Order Part No. Organization Package IS43R83200B-5TL 32Mx8 66-pin TSOP-II, Lead-free IS43R16160B-5TL IS43R16160B-5BL 16Mx16 16Mx16 66-pin TSOP-II, Lead-free 60-ball TF-BGA, Lead-free IS43R83200B-6TL 32Mx8 66-pin TSOP-II, Lead-free IS43R16160B-6TL IS43R16160B-6BL 16Mx16 16Mx16 66-pin TSOP-II, Lead-free 60-ball TF-BGA, Lead-free Industrial Range: -40°C to +85°C Frequency 200 MHz 166 MHz Speed (ns) 5 6 Order Part No. Organization Package IS43R83200B-5TLI 32Mx8 66-pin TSOP-II, Lead-free IS43R16160B-5TLI IS43R16160B-5TI IS43R16160B-5BLI IS43R16160B-5BI 16Mx16 16Mx16 16Mx16 16Mx16 66-pin TSOP-II, Lead-free 66-pin TSOP-II 60-ball TF-BGA, Lead-free 60-ball TF-BGA IS43R83200B-6TLI 32Mx8 66-pin TSOP-II, Lead-free IS43R16160B-6TLI IS43R16160B-6BLI IS43R16160B-6BI 16Mx16 16Mx16 16Mx16 66-pin TSOP-II, Lead-free 60-ball TF-BGA, Lead-free 60-ball TF-BGA Automotive Range (A1): -40°C to +85°C Frequency 166 MHz Speed (ns) 6 Integrated Silicon Solution, Inc. Rev. E 08/13/2010 Order Part No. Organization Package IS46R83200B-6TLA1 32Mx8 66-pin TSOP-II, Lead-free IS46R16160B-6TLA1 IS46R16160B-6BLA1 16Mx16 16Mx16 66-pin TSOP-II, Lead-free 60-ball TF-BGA, Lead-free 39 40 Θ Package Outline 10/04/2006 4. Formed leads shall be planar with respect to one another within 0.1mm at the seating plane after final test. 3. Dimension b does not include dambar protrusion/intrusion. 2. Dimension D and E1 do not include mold protrusion . 1. Controlling dimension : mm NOTE : IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B Integrated Silicon Solution, Inc. Rev. 08/13/2010 IS43R83200B, IS46R83200B IS43R16160B, IS46R16160B Integrated Silicon Solution, Inc. Rev. 08/13/2010 41