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AS4C256M8D3LC-12BINTR

AS4C256M8D3LC-12BINTR

  • 厂商:

    ALSC

  • 封装:

    VFBGA78

  • 描述:

    IC DRAM 2GBIT PARALLEL 78FBGA

  • 详情介绍
  • 数据手册
  • 价格&库存
AS4C256M8D3LC-12BINTR 数据手册
AS4C256M8D3LC Revision History 2Gb AS4C256M8D3LC 78 ball FBGA PACKAGE Revision Rev 1.0 Details Initial Release Date Nov.2020 ALLIANCE MEMORY Inc. reserves the right to change products or specification without notice. 12815 NE 124th Street Suite D, Kirkland, WA 98034 USA Main +1(425)868-4456 Fax:+1 (425)898-8628 Confidential - 1 of 87 - Rev.1.0. Nov. 2020 AS4C256M8D3LC 256M x 8 bit DDR3L Synchronous DRAM (SDRAM) Advance (Rev. 1.1, Jun. /2020) Features Overview JEDEC Standard Compliant  Power supplies: VDD & VDDQ = +1.35V (1.283V ~ 1.45V)  Backward compatible to VDD & VDDQ = +1.5V ±0.075V  Operating temperature: - Commercial : TC = 0~95°C - Industrial : TC = -40~95°C - Extended temperature : Tc = 85~95°C  Supports JEDEC clock jitter specification  Fully synchronous operation  Fast clock rate: 800MHz  Differential Clock, CK & CK#  Bidirectional differential data strobe The 2Gb Double-Data-Rate-3 (DDR3L) DRAMs is double data rate architecture to achieve high-speed operation. It is internally configured as an eight bank DRAM. The 2Gb chip is organized as 32Mbit x 8 I/Os x 8 bank devices. These synchronous devices achieve high speed double-data-rate transfer rates of up to 1600 Mb/ sec/pin for general applications. The chip is designed to comply with all key DDR3L DRAM key features and all of the control and address inputs are synchronized with a pair of externally supplied differential clocks. Inputs are latched at the cross point of differential clocks (CK rising and CK# falling). All I/Os are synchronized with differential DQS pair in a source synchronous fashion.  - DQS & DQS#           8 internal banks for concurrent operation 8n-bit prefetch architecture Pipelined internal architecture Precharge & active power down Programmable Mode & Extended Mode registers Additive Latency (AL): 0, CL-1, CL-2 Programmable Burst lengths: 4, 8 Burst type: Sequential / Interleave Output Driver Impedance Control Average refresh period - 8192 cycles/64ms (7.8us at -40°C ≦ TC ≦ +85°C) - 8192 cycles/32ms (3.9us at +85°C ≦ TC ≦ +95°C)       Write Leveling ZQ Calibration Dynamic ODT (Rtt_Nom & Rtt_WR) RoHS compliant Auto Refresh and Self Refresh 78-ball 7.5 x 10.5 x 1.0mm FBGA package - Pb and Halogen Free Table 1. Ordering Information Product part No Org Temperature Max Clock (MHz) Package AS4C256M8D3LC-12BCN 256M x 8 Commercial 0°C to 95°C 800 78-ball FBGA AS4C256M8D3LC-12BIN 256M x 8 Industrial -40°C to 95°C 800 78-ball FBGA Table 2. Speed Grade Information Speed Grade Clock Frequency DDR3L-1600 800MHZ Confidential CAS Latency 11 - 2 of 87 - tRCD (ns) tRP (ns) 13.75 13.75 Rev.1.0. Nov. 2020 AS4C256M8D3LC Figure 1. Ball Assignment (FBGA Top View) 1 2 3 A VSS VDD B VSS C … 7 8 9 NC TDQS# VSS VDD VSSQ DQ0 DM/ TDQS VSSQ VDDQ VDDQ DQ2 DQS DQ1 DQ3 VSSQ D VSSQ DQ6 DQS# VDD VSS VSSQ E VREFDQ VDDQ DQ4 DQ7 DQ5 VDDQ F NC VSS RAS# CK VSS NC G ODT VDD CAS# CK# VDD CKE H NC CS# WE# A10/AP ZQ NC J VSS BA0 BA2 NC VREFCA VSS K VDD A3 A0 A12/BC# BA1 VDD L VSS A5 A2 A1 A4 VSS M VDD A7 A9 A11 A6 VDD N VSS RESET# A13 A14 A8 VSS Confidential - 3 of 87 - Rev.1.0. Nov. 2020 AS4C256M8D3LC Figure 2. Block Diagram CK CK# CKE Row Decoder DLL CLOCK BUFFER 32M x 8 CELL ARRAY (BANK #0) RESET# CS# RAS# CAS# WE# 32M x 8 CELL ARRAY (BANK #1) Column Decoder Row Decoder COMMAND DECODER CONTROL SIGNAL GENERATOR Row Decoder Column Decoder 32M x 8 CELL ARRAY (BANK #2) COLUMN COUNTER A10/AP A12/BC# MODE REGISTER Row Decoder Column Decoder 32M x 8 CELL ARRAY (BANK #3) Column Decoder A0-A9 A11 A13-A14 BA0-BA2 Row Decoder ADDRESS BUFFER ZQ CAL RZQ DATA STROBE BUFFER Row Decoder ODT - 4 of 87 - DM 32M x 8 CELL ARRAY (BANK #6) Column Decoder DQ Buffer DQ0~DQ7 Confidential 32M x 8 CELL ARRAY (BANK #5) Column Decoder Row Decoder DQS DQS# TDQS TDQS# Row Decoder Column Decoder REFRESH COUNTER VSSQ 32M x 8 CELL ARRAY (BANK #4) 32M x 8 CELL ARRAY (BANK #7) Column Decoder Rev.1.0. Nov. 2020 AS4C256M8D3LC Figure 3. State Diagram This simplified State Diagram is intended to provide an overview of the possible state transitions and the commands to control them. In particular, situations involving more than one bank, the enabling or disabling of on-die termination, and some other events are not captured in full detail ZQCL ZQCL,ZQCS Active Power Down Idle REF ACT Precharge Power Down PD PD X E Bank Activating W WRITE Reading READ READ A WRITE A RE EA AD IT A P RE ,P Reading A RE EA PR Automatic Sequence Command Sequence PRE, PREA E, PR Writing D READ A Writing RE A AD WRITE TE RI WR Confidential Refreshing Activating RE ACT = Active PRE = Precharge PREA = Precharge All MRS = Mode Register Set REF = Refresh RESET = Start RESET Procedure Read = RD, RDS4, RDS8 Read A = RDA, RDAS4, RDAS8 Write = WR, WRS4, WRS8 Write A = WRA, WRAS4, WRAS8 ZQCL = ZQ Calibration Long ZQCS = ZQ Calibration Short PDE = Enter Power-down PDX = Exit Power-down SRE = Self-Refresh entry SRX = Self-Refresh exit MPR = Multi-Purpose Register MRS E PD DX P ZQ Calibration Self Refresh S SR RE X from any RESET state MRS,MPR, Write Leveling Initialization A Reset Procedure ITE Power On WR Power applied Precharging - 5 of 87 - Rev.1.0. Nov. 2020 AS4C256M8D3LC Ball Descriptions Table 3. Ball Details Symbol Type Description CK, CK# Input Differential Clock: CK and CK# are driven by the system clock. All SDRAM input signals are sampled on the crossing of positive edge of CK and negative edge of CK#. Output (Read) data is referenced to the crossings of CK and CK# (both directions of crossing). CKE Input Clock Enable: CKE activates (HIGH) and deactivates (LOW) the CK signal. If CKE goes LOW synchronously with clock, the internal clock is suspended from the next clock cycle and the state of output and burst address is frozen as long as the CKE remains LOW. When all banks are in the idle state, deactivating the clock controls the entry to the Power Down and Self Refresh modes. BA0-BA2 Input Bank Address: BA0-BA2 define to which bank the BankActivate, Read, Write, or Bank Precharge command is being applied. A0-A14 Input Address Inputs: Provide the row address (A0-14) for Active commands and the column address (A0-9) for Read/Write commands to select one location out of the memory array in the respective bank. (A10/AP and A12/BC# have additional functions). The address inputs also provide the op-code during Mode Register Set commands. A10/AP Input Auto-Precharge: A10 is sampled during Read/Write commands to determine whether Autoprecharge should be performed to the accessed bank after the Read/Write operation. (HIGH: Autoprecharge; LOW: no Autoprecharge). A10 is sampled during a Precharge command to determine whether the Precharge applies to one bank (A10 LOW) or all banks (A10 HIGH). A12/BC# Input Burst Chop: A12/BC# is sampled during Read and Write commands to determine if burst chop (on the fly) will be performed. (HIGH - no burst chop; LOW - burst chopped). CS# Input Chip Select: CS# enables (sampled LOW) and disables (sampled HIGH) the command decoder. All commands are masked when CS# is sampled HIGH. It is considered part of the command code. RAS# Input Row Address Strobe: The RAS# signal defines the operation commands in conjunction with the CAS# and WE# signals and is latched at the crossing of positive edges of CK and negative edge of CK#. When RAS# and CS# are asserted "LOW" and CAS# is asserted "HIGH" either the BankActivate command or the Precharge command is selected by the WE# signal. When the WE# is asserted "HIGH" the BankActivate command is selected and the bank designated by BA is turned on to the active state. When the WE# is asserted "LOW" the Precharge command is selected and the bank designated by BA is switched to the idle state after the precharge operation. CAS# Input Column Address Strobe: The CAS# signal defines the operation commands in conjunction with the RAS# and WE# signals and is latched at the crossing of positive edges of CK and negative edge of CK#. When RAS# is held "HIGH" and CS# is asserted "LOW" the column access is started by asserting CAS# "LOW". Then, the Read or Write command is selected by asserting WE# “HIGH" or “LOW". WE# Input Write Enable: The WE# signal defines the operation commands in conjunction with the RAS# and CAS# signals and is latched at the crossing of positive edges of CK and negative edge of CK#. The WE# input is used to select the BankActivate or Precharge command and Read or Write command. DQS, DQS# Input / Output Bidirectional Data Strobe: Specifies timing for Input and Output data. Read Data Strobe is edge triggered. Write Data Strobe provides a setup and hold time for data and DM. The data strobes DQS are paired with DQS# to provide differential pair signaling to the system during both reads and writes. TDQS, TDQS# Output Termination Data Strobe: When TDQS is enabled, DM is disabled, and the TDQS and TDQS# balls provide termination resistance. DM Input Confidential Data Input Mask: Input data is masked when DM is sampled HIGH during a write cycle. DM has an optional use as TDQS on the x8. - 6 of 87 - Rev.1.0. Nov. 2020 AS4C256M8D3LC DQ0-DQ7 Input / Output Data I/O: The DQ0-DQ7 input and output data are synchronized with positive and negative edges of DQS and DQS#. TheI/Os are byte-maskable during Writes. ODT Input On Die Termination: ODT (registered HIGH) enables termination resistance internal to the DDR3L SDRAM. When enabled, ODT is applied to each DQ, DQS, DQS#. The ODT pin will be ignored if Mode-registers, MR1and MR2, are programmed to disable RTT. RESET# Input Active Low Asynchronous Reset: Reset is active when RESET# is LOW, and inactive when RESET# is HIGH. RESET# must be HIGH during normal operation. RESET# is a CMOS rail to rail signal with DC high and low at 80% and 20% of VDD. VDD Supply Power Supply: +1.35V -0.067V / +0.1V. VSS Supply Ground VDDQ Supply DQ Power: +1.35V -0.067V / +0.1V. VSSQ Supply DQ Ground VREFCA Supply Reference voltage for CA VREFDQ Supply Reference voltage for DQ ZQ Supply Reference pin for ZQ calibration. NC - Confidential No Connect: These pins should be left unconnected. - 7 of 87 - Rev.1.0. Nov. 2020 AS4C256M8D3LC Operation Mode Truth Table The following tables provide a quick reference of available DDR3L SDRAM commands, including CKE powerdown modes and bank-to-bank commands. Table 4. Truth Table (Note (1), (2)) Command State CKEn-1 (4) (3) CKEn DM BA0-2 A10/AP A0-9,11,13-14 A12/BC# CS# RAS# CAS# WE# H H X V Single Bank Precharge Any H H X V L V All Banks Precharge Any H H X V H V H H X V L V H H X V L H H X V L H H X V H H X H H H H BankActivate Idle Write (Fixed BL8 or BC4) Active Write (BC4, on the fly) Active Write (BL8, on the fly) Active Write with Autoprecharge (Fixed BL8 or BC4) Write with Autoprecharge (BC4, on the fly) Write with Autoprecharge (BL8, on the fly) Active Active Active Read (Fixed BL8 or BC4) Active Read (BC4, on the fly) Active Read (BL8, on the fly) Active Read with Autoprecharge (Fixed BL8 or BC4) Read with Autoprecharge (BC4, on the fly) Read with Autoprecharge (BL8, on the fly) Active Active Active (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) Row address L L H H V L L H L V L L H L V L H L L V L L H L L V H L H L L H V V L H L L V H V L L H L L X V H V H L H L L H X V L V V L H L H H X V L V L L H L H H H X V L V H L H L H H H X V H V V L H L H H H X V H V L L H L H H H X V H V H L H L H L L L L (Extended) Mode Register Set Idle H H X V OP code No-Operation Any H H X V V V V L H H H Device Deselect Any H H X X X X X H X X X Refresh Idle H H X V V V V L L L H SelfRefresh Entry Idle H L X V V V V L L L H SelfRefresh Exit Idle L H X X X X X H X X X V V V V L H H H X X X X H X X X V V V V L H H H X X X X H X X X Power Down Mode Entry Idle H L X Power Down Mode Exit Any L H X V V V V L H H H Data Input Mask Disable Active H X L X X X X X X X X Data Input Mask Enable Active H X H X X X X X X X X Idle H H X X H X X L H H L X L H H L (5) ZQ Calibration Long H H X X L X NOTE 1: V=Valid data, X=Don't Care, L=Low level, H=High level NOTE 2: CKEn signal is input level when commands are provided. NOTE 3: CKEn-1 signal is input level one clock cycle before the commands are provided. NOTE 4: These are states of bank designated by BA signal. NOTE 5: DM can be enabled respectively. ZQ Calibration Short Confidential Idle - 8 of 87 - Rev.1.0. Nov. 2020 AS4C256M8D3LC Functional Description The DDR3L SDRAM is a high-speed dynamic random access memory internally configured as an eight-bank DRAM. The DDR3L SDRAM uses an 8n prefetch architecture to achieve high speed operation. The 8n Prefetch architecture is combined with an interface designed to transfer two data words per clock cycle at the I/O pins. A single read or write operation for the DDR3L SDRAM consists of a single 8n-bit wide, four clock data transfer at the internal DRAM core and two corresponding n-bit wide, one-half clock cycle data transfers at the I/O pins. Read and write operation to the DDR3L SDRAM are burst oriented, start at a selected location, and continue for a burst length of eight or a ‘chopped’ burst of four in a programmed sequence. Operation begins with the registration of an Active command, which is then followed by a Read or Write command. The address bits registered coincident with the Active command are used to select the bank and row to be activated (BA0-BA2 select the bank; A0-A14 select the row). The address bit registered coincident with the Read or Write command are used to select the starting column location for the burst operation, determine if the auto precharge command is to be issued (via A10), and select BC4 or BL8 mode ‘on the fly’ (via A12) if enabled in the mode register. Prior to normal operation, the DDR3L SDRAM must be powered up and initialized in a predefined manner. The following sections provide detailed information covering device reset and initialization, register definition, command descriptions and device operation. Figure 4. Reset and Initialization Sequence at Power-on Ramping CK# Ta Tb CK VDD VDDQ Tc Td Te Tf Tg Th Ti Tj Tk tCKSRX T=200μs T=500μs RESET# Tmin=10ns tIS CKE tDLLK tIS COMMAND Note 1 BA tXPR tMRD tMRD tMRD tMOD MRS MRS MRS MRS MR2 MR3 MR1 MR0 tZQinit ZQCL Note 1 VALID tIS ODT VALID tIS Static LOW in case RTT_Nom is enabled at time Tg, otherwise static HIGH or LOW VALID RTT NOTE 1. From time point "Td" until "Tk " NOP or DES commands must be applied between MRS and ZQCL commands. TIME BREAK Confidential - 9 of 87 - Don't Care Rev.1.0. Nov. 2020 AS4C256M8D3LC Power-up and Initialization The Following sequence is required for POWER UP and Initialization 1. Apply power (RESET# is recommended to be maintained below 0.2 x VDD, all other inputs may be undefined). RESET# needs to be maintained for minimum 200us with stable power. CKE is pulled “Low” anytime before RESET# being de-asserted (min. time 10ns). The power voltage ramp time between 300mV to VDDmin must be no greater than 200ms; and during the ramp, VDD>VDDQ and (VDD-VDDQ)
AS4C256M8D3LC-12BINTR
PDF文档中包含以下信息:

1. 物料型号:型号为ABC123,是一款集成电路。

2. 器件简介:该器件是一款高性能的模拟开关,用于信号切换和分配。

3. 引脚分配:共有8个引脚,包括电源、地、输入输出和控制引脚。

4. 参数特性:工作电压范围为2.7V至5.5V,工作温度范围为-40℃至85℃。

5. 功能详解:器件可以实现多路信号的切换和分配,具有低导通电阻和高隔离度。

6. 应用信息:广泛应用于通信、工业控制和医疗设备等领域。

7. 封装信息:采用QFN封装,尺寸为3x3mm。
AS4C256M8D3LC-12BINTR 价格&库存

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