HYB39S64160BT-8 Datasheet, PDF(13/53 Page) Infineon Technologies AG

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HYB39S64160BT-8 Datasheet, PDF (13/53 Pages) Infineon Technologies AG – 64-MBit Synchronous DRAM

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HYB 39S64400/800/160BT(L)

64-MBit Synchronous DRAM

command is necessary. A minimum tRC time is required between two automatic refreshes in a burst

refresh mode. The same rule applies to any access command after the automatic refresh operation.

The chip has an on-chip timer and the Self Refresh mode is available. It enters the mode when RAS,

CAS, and CKE are low and WE is high at a clock timing. All of external control signals including the

clock are disabled. Returning CKE to high enables the clock and initiates the refresh exit operation.

After the exit command, at least one tRC delay is required prior to any access command.

DQM Function

DQM has two functions for data I/O read and write operations. During reads, when it turns to âhighâ

at a clock timing, data outputs are disabled and become high impedance after two clock delay (DQM

Data Disable Latency tDQZ). It also provides a data mask function for writes. When DQM is activated,

the write operation at the next clock is prohibited (DQM Write Mask Latency tDQW = zero clocks).

Suspend Mode

During normal access mode, CKE is held high enabling the clock. When CKE is low, it freezes the

internal clock and extends data read and write operations. One clock delay is required for mode

entry and exit (Clock Suspend Latency tCSL).

Power Down

In order to reduce standby power consumption, a power down mode is available. All banks must be

precharged and the necessary Precharge delay (tRP) must occur before the SDRAM can enter the

Power Down mode. Once the Power Down mode is initiated by holding CKE low, all of the receiver

circuits except CLK and CKE are gated off. The Power Down mode does not perform any refresh

operations, therefore the device canât remain in Power Down mode longer than the Refresh period

(tREF) of the device. Exit from this mode is performed by taking CKE âhighâ. One clock delay is

required for mode entry and exit.

Auto Precharge

Two methods are available to precharge SDRAMs. In an automatic precharge mode, the CAS

timing accepts one extra address, CA10, to determine whether the chip restores or not after the

operation. If CA10 is high when a Read Command is issued, the Read with Auto-Precharge

function is initiated. If CA10 is high when a Write Command is issued, the Write with Auto-

Precharge function is initiated. The SDRAM automatically enters the precharge operation two

clocks after the last data in.

Precharge Command

There is also a separate precharge command available. When RAS and WE are low and CAS is

high at a clock timing, it triggers the precharge operation. Three address bits, BA0, BA1 and A10 are

used to define banks as shown in the following list. The precharge command can be imposed one

clock before the last data out for CAS latency = 2 and two clocks before the last data out for CAS

latency = 3. Writes require a time delay tWR from the last data out to apply the precharge command.

Data Book

12.99

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