1GB-AUTO-AS4C64M16D3 Datasheet, PDF(30/86 Page) Alliance Semiconductor Corporation – Supports JEDEC clock jitter specification

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

1GB-AUTO-AS4C64M16D3 Datasheet, PDF (30/86 Pages) Alliance Semiconductor Corporation – Supports JEDEC clock jitter specification

◁

1Gb Auto-AS4C64M16D3

- Multi-Purpose Register (MPR)

The Multi Purpose Register (MPR) function is used to Read out a predefined system timing calibration bit sequence.

Figure 8. MPR Block Diagram

Memory Core

(all banks precharged)

MRS 3

ãA2ã

Multipurpose register

Pre-defined data for Reads

DQ, DM, DQS, DQS#

To enable the MPR, a MODE Register Set (MRS) command must be issued to MR3 Register with bit A2 = 1. Prior

to issuing the MRS command, all banks must be in the idle state (all banks precharged and tRP met). Once the

MPR is enabled, any subsequent RD or RDA commands will be redirected to the Multi Purpose Register. The

resulting operation, when a RD or RDA command is issued, is defined by MR3 bits A[1:0] when the MPR is enabled

as shown in table 11. When the MPR is enabled, only RD or RDA commands are allowed until a subsequent MRS

command is issued with the MPR disabled (MR3 bit A2 = 0). Note that in MPR mode RDA has the same

functionality as a READ command which means the auto precharge part of RDA is ignored. Power-Down mode,

Self-Refresh and any other non-RD/RDA command is not allowed during MPR enable mode. The RESET function

is supported during MPR enable mode.

Table 19. MPR MR3 Register Definition

MR3 A[2]

MR3 A[1:0]

Function

MPR

MPR-Loc

Normal operation, no MPR transaction.

Donât care (0b or 1b) All subsequent Reads will come from DRAM array.

All subsequent Write will go to DRAM array.

See the table11

Enable MPR mode, subsequent RD/RDA commands defined by

MR3 A[1:0].

Confidential

--30/86

Rev.1.0 June 2015

▷