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17 sequence diagram, 1 single and burst synchronous read example – Cypress Perform CY7C68013 User Manual

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CY7C68013A, CY7C68014A
CY7C68015A, CY7C68016A

Document #: 38-08032 Rev. *L

Page 50 of 62

10.17 Sequence Diagram

10.17.1 Single and Burst Synchronous Read Example

Figure 29. Slave FIFO Synchronous Read Sequence and Timing Diagram

[20]

Figure 30. Slave FIFO Synchronous Sequence of Events Diagram

Figure 29

shows the timing relationship of the SLAVE FIFO

signals during a synchronous FIFO read using IFCLK as the
synchronizing clock. The diagram illustrates a single read
followed by a burst read.

At t = 0 the FIFO address is stable and the signal SLCS is
asserted (SLCS may be tied low in some applications). Note
that t

SFA

has a minimum of 25 ns. This means when IFCLK is

running at 48 MHz, the FIFO address setup time is more than
one IFCLK cycle.

At t = 1, SLOE is asserted. SLOE is an output enable only,
whose sole function is to drive the data bus. The data that is
driven on the bus is the data that the internal FIFO pointer is
currently pointing to. In this example it is the first data value in
the FIFO. Note: the data is pre-fetched and is driven on the bus
when SLOE is asserted.

At t = 2, SLRD is asserted. SLRD must meet the setup time of
t

SRD

(time from asserting the SLRD signal to the rising edge of

the IFCLK) and maintain a minimum hold time of t

RDH

(time

from the IFCLK edge to the deassertion of the SLRD signal).

If the SLCS signal is used, it must be asserted before SLRD is
asserted (The SLCS and SLRD signals must both be asserted
to start a valid read condition).

The FIFO pointer is updated on the rising edge of the IFCLK,
while SLRD is asserted. This starts the propagation of data
from the newly addressed location to the data bus. After a
propagation delay of t

XFD

(measured from the rising edge of

IFCLK) the new data value is present. N is the first data value
read from the FIFO. To have data on the FIFO data bus, SLOE
MUST also be asserted.

The same sequence of events are shown for a burst read and
are marked with the time indicators of T = 0 through 5.

Note For the burst mode, the SLRD and SLOE are left asserted
during the entire duration of the read. In the burst read mode,
when SLOE is asserted, data indexed by the FIFO pointer is on
the data bus. During the first read cycle, on the rising edge of the
clock the FIFO pointer is updated and increments to point to
address N+1. For each subsequent rising edge of IFCLK, while
the SLRD is asserted, the FIFO pointer is incremented and the
next data value is placed on the data bus.

IFCLK

SLRD

FLAGS

SLOE

DATA

t

SRD

t

RDH

t

OEon

t

XFD

t

XFLG

t

IFCLK

N+1

Data Driven: N

>= t

SRD

t

OEon

t

XFD

N+2

t

XFD

t

XFD

>= t

RDH

t

OEoff

N+4

N+3

t

OEoff

t

SFA

t

FAH

FIFOADR

SLCS

t=0

N+1

t=1

t=2

t=3

t=4

t

FAH

T=0

t

SFA

T=1

T=2

T=3

T=4

N

N

N+1

N+2

FIFO POINTER

N+3

FIFO DATA BUS

N+4

Not Driven

Driven: N

SLOE

SLRD

N+1

N+2

N+3

Not Driven

SLRD

SLOE

IFCLK

IFCLK

IFCLK

IFCLK

IFCLK

N+4

N+4

IFCLK

IFCLK

IFCLK

IFCLK

SLRD

N+1

SLRD

N+1

N+1

SLOE

Not Driven

N+4

N+4

IFCLK

SLOE

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