A43L3616AV-7F AMIC, A43L3616AV-7F Datasheet - Page 14

A43L3616AV-7F

Manufacturer Part Number

A43L3616AV-7F

Description

58T1326

Manufacturer

AMIC

Datasheet

1.A43L3616AV-7F.pdf (40 pages)

Specifications of A43L3616AV-7F

Memory Type

SDRAM

Memory Configuration

8M X 16

Access Time

5.4ns

Interface Type

LVTTL

Memory Case Style

TSOPII

No. Of Pins

Operating Temperature Range

0Â°C To +70Â°C

Frequency

143MHz

Rohs Compliant

Yes

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Device Operations (continued)

Bank Activate

The bank activate command is used to select a random row

in an idle bank. By asserting low on RAS and

desired row and bank addresses, a row access is initiated.

The read or write operation can occur after a time delay of

internal timing parameter of SDRAM, therefore it is

dependent on operating clock frequency. The minimum

number of clock cycles required between bank activate and

read or write command should be calculated by dividing

the result to the next higher integer. The SDRAM has two

internal banks on the same chip and shares part of the

internal circuitry to reduce chip area, therefore it restricts the

activation of both banks immediately. Also the noise

generated during sensing of each bank of SDRAM is high

requiring some time for power supplies recover before the

other bank can be sensed reliably. t

minimum time required between activating different banks.

The number of clock cycles required between different bank

activation must be calculated similar to t

minimum time required for the bank to be active to initiate

sensing and restoring the complete row of dynamic cells is

determined by t

command to that active bank can be asserted. The maximum

time any bank can be in the active state is determined by

Burst Read

The burst read command is used to access burst of data on

consecutive clock cycles from an active row in an active

bank. The burst read command is issued by asserting low on

the clock. The bank must be active for at least t

before the burst read command is issued. The first output

appears CAS latency number of clock cycles after the issue

of burst read command. The burst length, burst sequence

and latency from the burst read command is determined by

the mode register which is already programmed. The burst

read can be initiated on any column address of the active

row. The address wraps around if the initial address does not

start from a boundary such that number of outputs from each

I/O are equal to the burst length programmed in the mode

the burst, unless a new burst read was initiated to keep the

data output gapless. The burst read can be terminated by

issuing another burst read or burst write in the same bank or

the other active bank or a precharge command to the same

bank. The burst stop command is valid at every page burst

length.

PRELIMINARY (January, 2009, Version 0.6)

RCD

RAS

(max). The number of cycles for both t

(max) can be calculated similar to t

(min) from the time of bank activation. t

(min) with cycle time of the clock and then rounding off

and

CAS

with

RAS

(min) specification before a precharge

being high on the positive edge of

RCD

RRD

RCD

(min) specifies the

specification.

specification. The

RCD

RAS

(min) is an

(min) and

RCD

(min)

with

Burst Write

The burst write command is similar to burst read command,

and is used to write data into the SDRAM consecutive clock

cycles in adjacent addresses depending on burst length and

burst sequence. By asserting low on

valid column address, a write burst is initiated. The data

inputs are provided for the initial address in the same clock

cycle as the burst write command. The input buffer is

deselected at the end of the burst length, even though the

internal writing may not have been completed yet. The writing

can not complete to burst length. The burst write can be

terminated by issuing a burst read and DQM for blocking

data inputs or burst write in the same or the other active

bank. The burst stop command is valid only at full page burst

length where the writing continues at the end of burst and the

burst is wrap around. The write burst can also be terminated

by using DQM for blocking data and precharging the bank

“t

See DQM OPERATION also.

DQM Operation

The DQM is used to mask input and output operation. It

works similar to

during write operation. The read latency is two cycles from

DQM and zero cycle for write, which means DQM masking

occurs two cycles later in the read cycle and occurs in the

same

synchronous with the clock, therefore the masking occurs for

a complete cycle. The DQM signal is important during burst

interrupts of write with read or precharge in the SDRAM. Due

to asynchronous nature of the internal write, the DQM

operation is critical to avoid unwanted or incomplete writes

when the complete burst write is not required.

Precharge

The precharge operation is performed on an active bank by

asserting low on

of the bank to be precharged. The precharge command can

be asserted anytime after t

activate command in the desired bank. “t

minimum time required to precharge a bank.

The minimum number of clock cycles required to complete

row precharge is calculated by dividing “t

time and rounding up to the next higher integer. Care should

be taken to make sure that burst write is completed or DQM

is used to inhibit writing before precharge command is

asserted. The maximum time any bank can be active is

specified by t

precharged

command. At the end of precharge, the bank enters the idle

state and is ready to be activated again.

Entry to Power Down, Auto refresh, Self refresh and Mode

state.

RDL

” after the last data input to be written into the active row.

cycle

within

RAS

during

(max). Therefore, each bank has to be

during read operation and inhibits writing

RAS

write

(max)

AMIC Technology, Corp.

RAS

(min) is satisfied from the bank

A43L3616A Series

cycle.

from

and A10/AP with valid BA

DQM

the

CAS

” is defined as the

” with clock cycle

bank

and

operation

activate

with

A43L3616AV-7F AMIC, A43L3616AV-7F Datasheet - Page 14

A43L3616AV-7F

Specifications of A43L3616AV-7F

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