lfx125ec-04fh516c Lattice Semiconductor Corp., lfx125ec-04fh516c Datasheet - Page 13

lfx125ec-04fh516c

Manufacturer Part Number

lfx125ec-04fh516c

Description

Ispxpga Family

Manufacturer

Lattice Semiconductor Corp.

Datasheet

1.LFX125EC-04FH516C.pdf (115 pages)

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Figure 13. EBR Synchronous Read Timing Diagram

Synchronous Write: The WE signal controls the synchronous write operation. When the WE signal is high, the

write operation begins. Once the address and data are present and the Output Enable (OE) is active, a rising clock

edge (or falling edge depending on polarity) causes the data to be stored into the EBR. Figure 14 illustrates the

synchronous write timing.

Figure 14. EBR Synchronous Write Timing Diagram

Asynchronous Read: The WE signal controls the asynchronous read operation. When the WE signal is low, the

read operation begins. Shortly after the address is present, the stored data is available on the DATA port. Figure 15

illustrates the asynchronous read timing. For more information about the EBR, refer to Lattice technical note num-

ber TN1028 ispXPGA Memory Usage Guidelines, available at www.latticesemi.com.

Figure 15. EBR Asynchronous Read Timing Diagram

ADDR

DATA

CLK

ADDR0

EBWEDIS

EBCES

EBWES

EBADDS

EBARAD_H

DATA0

EBARADO

Invalid Data

EBDATAH

EBCPW

EBCO

EBPW

WRITE

EBDATAS

Valid Data

DATA1

EBADDH

ADDR1

EBOEDIS

WRITE

EBADDS

ispXPGA Family Data Sheet

EBOEEN

EBWEH

EBCEH

Valid Data

DATA1

EBWEEN

ADDR2

lfx125ec-04fh516c Lattice Semiconductor Corp., lfx125ec-04fh516c Datasheet - Page 13

lfx125ec-04fh516c

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