2GB-DDR3L-AS4C128M16D3L Datasheet, PDF(17/84 Page) Alliance Semiconductor Corporation

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2GB-DDR3L-AS4C128M16D3L Datasheet, PDF (17/84 Pages) Alliance Semiconductor Corporation – Fully synchronous operation

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2Gb DDR3L â AS4C128M16D3L

- DLL Enable/Disable

The DLL must be enabled for normal operation. DLL enable is required during power up initialization, and upon

returning to normal operation after having the DLL disabled. During normal operation (DLL-on) with MR1

(A0=0), the DLL is automatically disabled when entering Self-Refresh operation and is automatically re-enable

upon exit of Self-Refresh operation. Any time the DLL is enabled and subsequently reset, tDLLK clock cycles

must occur before a Read or synchronous ODT command can be issued to allow time for the internal clock to

be synchronized with the external clock. Failing to wait for synchronization to occur may result in a violation of

the tDQSCK, tAON, or tAOF parameters. During tDLLK, CKE must continuously be registered high. DDR3L

SDRAM does not require DLL for any Write operation, expect when RTT_WR is enabled and the DLL is

required for proper ODT operation. For more detailed information on DLL Disable operation are described in

DLL-off Mode. The direct ODT feature is not supported during DLL-off mode. The on-die termination resistors

must be disabled by continuously registering the ODT pin low and/or by programming the RTT_Nom bits

MR1{A9,A6,A2} to {0,0,0} via a mode register set command during DLL-off mode.

The dynamic ODT feature is not supported at DLL-off mode. User must use MRS command to set Rtt_WR,

MR2 {A10, A9} = {0, 0}, to disable Dynamic ODT externally

- Output Driver Impedance Control

The output driver impedance of the DDR3L SDRAM device is selected by MR1 (bit A1 and A5) as shown in

MR1 definition figure.

- ODT Rtt Values

DDR3L SDRAM is capable of providing two different termination values (Rtt_Nom and Rtt_WR). The nominal

termination value Rtt_Nom is programmable in MR1. A separate value (Rtt_WR) may be programmable in

MR2 to enable a unique Rtt value when ODT is enabled during writes. The Rtt_WR value can be applied

during writes even when Rtt_Nom is disabled.

- Additive Latency (AL)

Additive Latency (AL) operation is supported to make command and data bus efficient for sustainable

bandwidth in DDR3L SDRAM. In this operation, the DDR3L SDRAM allows a read or write command (either

with or without auto-precharge) to be issued immediately after the active command. The command is held for

the time of the Additive Latency (AL) before it is issued inside the device. The Read Latency (RL) is controlled

by the sum of the AL and CAS Latency (CL) register settings. Write Latency (WL) is controlled by the sum of

the AL and CAS Write Latency (CWL) register settings. A summary of the AL register options are shown in MR.

- Write leveling

For better signal integrity, DDR3L memory module adopted fly-by topology for the commands, addresses,

control signals, and clocks. The fly-by topology has benefits from reducing number of stubs and their length but

in other aspect, causes flight time skew between clock and strobe at every DRAM on DIMM. It makes difficult

for the Controller to maintain tDQSS, tDSS, and tDSH specification. Therefore, the controller should support

âwrite levelingâ in DDR3L SDRAM to compensate for skew.

- Output Disable

The DDR3L SDRAM outputs maybe enable/disabled by MR1 (bit 12) as shown in MR1 definition. When this

feature is enabled (A12=1) all output pins (DQs, DQS, DQS#, etc.) are disconnected from the device removing

any loading of the output drivers. This feature may be useful when measuring modules power for example. For

normal operation A12 should be set to â0â.

Confidential

Rev. 2.0

Aug. /2014

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