S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 120

S5920Q

Manufacturer Part Number

S5920Q

Description

Manufacturer

Applied Micro Circuits Corporation

Datasheet

1.S5920Q.pdf (165 pages)

Specifications of S5920Q

Operating Temperature (min)

Operating Temperature Classification

Commercial

Operating Temperature (max)

70C

Package Type

PQFP

Rad Hardened

Lead Free Status / Rohs Status

Not Compliant

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S5920 – PCI Product: Pass-Thru Operation

Figure 61. 16 Bit Mode Operation Register DWORD Write/Read

Figure 3. 16 Bit Mode Operation Register DWORD

Write/Read Figure 3 shows an example of a DWORD

write of 12345678h using a 16 bit-mode write transfer,

and is described as follows:

Clock 1: ADR[6:2], BE[3:0], SELECT# and WR# are

driven, DQ[15:0] is driven with the data to be written.

BE3# is low indicating that the DQ bus data is to be

written to the lower WORD of the register. BE[2:0]# is

00h, indicating that both bytes on the DQ[15:0] bus are

valid and should be written to the register indicated by

ADR[6:2].

Clock 2: The rising edge of clock 2 writes 5678h into

the lower WORD of the register. 1234h is driven onto

the DQ[15:0] bus. BE3# is driven high, indicating the

DQ bus data is to be written to the upper WORD of the

of the WORD on DQ[15:0] bus is valid. This example

shows how the BEs function.

Clock 3: The rising edge of clock 3 writes 34h into the

lower byte of the upper WORD of the register.

BE[2:0]# is “01” indicating the upper byte on DQ[15:0]

is valid.

Clock 4: The rising edge of clock 4 writes 12h into the

upper byte of the upper WORD of the register.

12345678h is in the register selected by ADR[6:2].

SELECT#, ADR[6:2], WR#, BE[3:0]# and DQ are

deasserted. No read or write occurs on the rising edge

of clocks 5 and 6.

AMCC Confidential and Proprietary

DQMODE

SELECT#

ADR[6:2]

BE3#

BE[1:0]#

WR#

RD#

DQ[15:0]

ADCLK

1234

00b

5678h

60h

10b

1234h

01b

56789

Figure 3 also shows a DWORD read of 12345678h

from the same register, using a 16-bit mode read

transfer, and is described as follows:

Clock 6: ADR[6:2], SELECT# and RD# are asserted.

BE3# is high, indicating the upper WORD of the regis-

ter is to be driven onto DQ[15:0] and BE[1:0]# is 00h

indicating both bytes of the WORD are to be driven.

Clock 7: The S5920 drives 1234h onto DQ[15:0] as a

result of the read issued during the previous cycle.

BE3# is next driven low to indicate the lower WORD of

the register is to be driven onto DQ[15:0]. BE[1:0]# is

00h indicating both bytes of the WORD should be

driven onto DQ[15:0]. Note: in the event that BE[0]#

was 1b, DQ[7:0] would NOT be driven during Clock 8,

it would remain tri-state. The only exception to this is if

ADR[6:2] indicated the Pass-Thru Data Register,

where all of DQ[15:0] would be driven, regardless of

the state of BE[1:0]#.

Clock 8: On the rising-edge, Add-On logic latches data

1234h. The S5920 drives 5678h onto DQ[15:0] as a

result of the read issued during the previous cycle.

ADR[6:2], SELECT#, RD# and BE[3:0]# are deas-

serted, completing the transfer.

Clock 9: On the rising-edge, Add-On logic latches data

5678h. DQ[15:0] returns to tri-state as RD# was sam-

pled deasserted.

60h

00b

1234

5678h

Revision 1.02 – April 12, 2007

Data Book

DS1596

120

S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 120

S5920Q

Specifications of S5920Q

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