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MT48LC16M8A2FC-7ELIT Datasheet(PDF) 9 Page - Micron Technology |
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MT48LC16M8A2FC-7ELIT Datasheet(HTML) 9 Page - Micron Technology |
9 / 59 page 9 128Mb: x4, x8, x16 SDRAM Micron Technology, Inc., reserves the right to change products or specifications without notice. 128MSDRAM_E.p65 – Rev. E; Pub. 1/02 ©2001, Micron Technology, Inc. 128Mb: x4, x8, x16 SDRAM FUNCTIONAL DESCRIPTION In general, the 128Mb SDRAMs (8 Meg x 4 x 4 banks, 4 Meg x 8 x 4 banks and 2 Meg x 16 x 4 banks) are quad- bank DRAMs that operate at 3.3V and include a synchro- nous interface (all signals are registered on the positive edge of the clock signal, CLK). Each of the x4’s 33,554,432- bit banks is organized as 4,096 rows by 2,048 columns by 4 bits. Each of the x8’s 33,554,432-bit banks is organized as 4,096 rows by 1,024 columns by 8 bits. Each of the x16’s 33,554,432-bit banks is organized as 4,096 rows by 512 columns by 16 bits. Read and write accesses to the SDRAM are burst ori- ented; accesses start at a selected location and continue for a programmed number of locations in a programmed sequence. Accesses begin with the registration of an AC- TIVE 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 accessed (BA0 and BA1 select the bank, A0- A11 select the row). The address bits (x4: A0-A9, A11; x8: A0-A9; x16: A0-A8) registered coincident with the READ or WRITE command are used to select the starting col- umn location for the burst access. Prior to normal operation, the SDRAM must be initial- ized. The following sections provide detailed informa- tion covering device initialization, register definition, command descriptions and device operation. Initialization SDRAMs must be powered up and initialized in a predefined manner. Operational procedures other than those specified may result in undefined operation. Once power is applied to VDD and VDDQ (simultaneously) and the clock is stable (stable clock is defined as a signal cycling within timing constraints specified for the clock pin), the SDRAM requires a 100µs delay prior to issuing any command other than a COMMAND INHIBIT or NOP. Starting at some point during this 100µs period and con- tinuing at least through the end of this period, COM- MAND INHIBIT or NOP commands should be applied. Once the 100µs delay has been satisfied with at least one COMMAND INHIBIT or NOP command having been applied, a PRECHARGE command should be applied. All banks must then be precharged, thereby placing the device in the all banks idle state. Once in the idle state, two AUTO REFRESH cycles must be performed. After the AUTO REFRESH cycles are complete, the SDRAM is ready for mode register pro- gramming. Because the mode register will power up in an unknown state, it should be loaded prior to applying any operational command. Register Definition MODE REGISTER The mode register is used to define the specific mode of operation of the SDRAM. This definition includes the selection of a burst length, a burst type, a CAS latency, an operating mode and a write burst mode, as shown in Figure 1. The mode register is programmed via the LOAD MODE REGISTER command and will retain the stored information until it is programmed again or the device loses power. Mode register bits M0-M2 specify the burst length, M3 specifies the type of burst (sequential or interleaved), M4-M6 specify the CAS latency, M7 and M8 specify the operating mode, M9 specifies the write burst mode, and M10 and M11 are reserved for future use. The mode register must be loaded when all banks are idle, and the controller must wait the specified time before initiating the subsequent operation. Violating ei- ther of these requirements will result in unspecified op- eration. Burst Length Read and write accesses to the SDRAM are burst ori- ented, with the burst length being programmable, as shown in Figure 1. The burst length determines the maxi- mum number of column locations that can be accessed for a given READ or WRITE command. Burst lengths of 1, 2, 4, or 8 locations are available for both the sequential and the interleaved burst types, and a full-page burst is available for the sequential type. The full-page burst is used in conjunction with the BURST TERMINATE com- mand to generate arbitrary burst lengths. Reserved states should not be used, as unknown op- eration or incompatibility with future versions may re- sult. When a READ or WRITE command is issued, a block of columns equal to the burst length is effectively selected. All accesses for that burst take place within this block, meaning that the burst will wrap within the block if a boundary is reached. The block is uniquely selected by A1-A9, A11 (x4), A1-A9 (x8), or A1-A8 (x16) when the burst length is set to two; by A2-A9, A11 (x4), A2-A9 (x8), or A2- A8 (x16) when the burst length is set to four; and by A3-A9, A11 (x4), A3-A9 (x8), or A3-A8 (x16) when the burst length is set to eight. The remaining (least significant) address bit(s) is (are) used to select the starting location within the block. Full-page bursts wrap within the page if the boundary is reached. |
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