MB82DBS08164C-70L Datasheet, PDF(12/58 Page) Fujitsu Component Limited. – 128 M Bit (8 M word×16 bit) Mobile Phone Application Specific Memory

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MB82DBS08164C-70L Datasheet, PDF (12/58 Pages) Fujitsu Component Limited. – 128 M Bit (8 M word×16 bit) Mobile Phone Application Specific Memory

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MB82DBS08164C-70L

â¢ ADV Input Function

The ADV is input signal to latch the valid address. It is applicable to the synchronous operation as well as

asynchronous operation. ADV input is active during CE1 = L and CE1 = H disables ADV input. All addresses

are determined on the rising edge of ADV.

During synchronous burst read/write operation, ADV = H disables all address inputs. Once ADV is brought to

High after the valid address latch, it is inhibited to bring ADV Low until the end of burst or until the burst operation

is terminated. ADV Low pulse is mandatory for the synchronous burst read/write operation mode to latch the

valid address input.

During asynchronous operation, ADV = H also disables all address inputs. ADV can be tied to Low during

asynchronous operations and it is not necessary to control ADV to High.

â¢ WAIT Output Function

The WAIT is output signal to indicate the data bus status when the device is operating in the synchronous burst

mode.

During burst read operation, WAIT output is enabled after specified time duration from OE = L or CE1 = L

whichever occurs last. WAIT output Low indicates data output at next clock cycle is invalid, and WAIT output

becomes High one clock cycle prior to valid data output. During OE read suspend, WAIT output doesnât indicate

the data bus status but carries the same level from previous clock cycle (kept High) except for the burst read

suspend on the final data output. If final read data output is suspended, WAIT output becomes high impedance

after specified time duration from OE = H.

During burst write operation, WAIT output is enabled to High level after specified time duration from WE = L or

CE1 = L whichever occurs last and kept High for entire write cycles including WE write suspend. The actual write

data latching starts on the appropriate clock edge with respect to Read Latency, and Burst Length. During WE

write suspend, WAIT output doesnât indicate the data bus status but carries the same level from previous clock

cycle (kept High) except for write suspend on the final data input. If final write data input is suspended, WAIT

output becomes high impedance after specified time duration from WE = H.

This device doesnât incur additional output delay against crossing device-row boundary or internal refresh

operation. Therefore, the burst operation is always started after the fixed latency with respect to Read Latency.

And there is no waiting cycle asserted in the middle of burst operation except for the burst read or write suspend

by OE brought to High or WE brought to High. Thus, once WAIT output is enabled and brought to High, WAIT

output keeps High level until the end of burst or until the burst operation is terminated.

When the device is operating in the asynchronous mode, WAIT output is always in High Impedance.

â¢ Latency

Read Latency (RL) is the number of clock cycles between the address being latched and first read data becoming

available during synchronous burst read operation. It is set through CR Set sequence after power-up. Once

specific RL is set through CR Set sequence, write latency, that is the number of clock cycles between address

being latched and first write data being latched, is automatically set to RL-1.

The burst operation is always started after the fixed latency with respect to Read Latency set in CR.

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