S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 125

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

S5920 PASSIVE MODE OPERATION

The Pass-Thru address and data registers can be

accessed as Add-On operation registers. The Pass-

Thru FIFO is updated on the rising edge of ADCLK.

For this reason, all Pass-Thru inputs must be synchro-

nous to ADCLK. In the following sections the Add-On

Pass-Thru interface is described for Pass-Thru single

cycle accesses, burst accesses, target-requested

retries, and when using 8-bit and 16-bit Add-On data

buses.

Single-Cycle PCI to Pass-Thru Write

A single-cycle Pass-Thru write operation occurs when

a PCI initiator writes a single value to the Pass-Thru

region. PCI single cycle transfers consist of an

address phase followed by one data phase. During the

address phase of the PCI transfer, the S5920 stores

the PCI address into the Pass-Thru Address Register

(APTA). If the S5920 determines that the address is

within one of its defined Pass-Thru regions, it captures

the PCI data into the FIFO.

Figure 4 shows a single cycle Pass-Thru write access

in the Passive Mode. The Add-On must read the data

stored in the FIFO and transfer it to its destination. If

the proper SELECT#, ADR[6:2] and BE[3:0]# signals

are present, the S5920 will drive data one clock after

RD# is asserted. It will stop driving data after the rising

edge of ADCLK when RD# has been sampled

deasserted.

Clock 0: The PCI bus cycle address information is

stored in the S5920 and later stored in the Pass-Thru

Address Register. The PCI address is recognized as a

write to Pass-Thru region 1. The PCI data is stored in

the S5920 Write FIFO.

Clock 1: Pass-Thru signals PTATN#, PTBURST#,

PTNUM[1:0], PTWR and PTBE[3:0] are driven to indi-

cate what action is required by Add-On logic. These

status signals are valid only when PTATN# is active.

Add-On logic can decode status signals upon the

assertion of PTATN#.

PTATN# Asserted. Indicates a Pass-Thru access is

pending

PTBURST# Deasserted. The access has a single data

phase.

PTNUM[1:0] 1h. Indicates the access is to Pass-Thru

region 1.

PTWR Asserted. The Pass-Thru access is a write.

AMCC Confidential and Proprietary

PTBE[3:0]# 0h. Indicates the Pass-Thru access has all

bytes valid.

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

driven to read the Pass-Thru Write FIFO at offset 2Ch.

DQ[31:0] is driven one clock after RD# and SELECT#

are asserted. PTRDY# is asserted, indicating that the

transfer is complete.

Clock 3: PTBE[3:0] will update one clock after RD# is

asserted to indicate which bytes have not yet been

read. The data is also driven on the DQ bus since RD#

was asserted a clock earlier. Since PTRDY# was sam-

pled asserted, PTATN# is deasserted and the Pass-

Thru access is complete. If the Add-On logic requires

more time to complete the read, PTRDY# can be

delayed, extending the Pass-Thru cycle.

Clock 4: As PTATN# is deasserted, the Pass-Thru

access is complete, and the S5920 can accept new

Pass-Thru accesses starting on the next clock. The

other Pass-Thru signals can also change state (in

anticipation of a new transfer). The S5920 stops driv-

ing the DQ bus as RD# and SELECT# were not valid

on the previous cycle.

Figure 5 shows a single cycle Pass-Thru write for the

Passive Mode using the Pass-Thru address informa-

tion. This provides PCI cycle address information to

select a specific address location within an Add-On

memory or peripheral. Add-On logic may latch the

address for use during the data transfer (if PTADR#

was asserted). Typically, the entire 32-bit address is

not required. The Add-On may implement a scheme

where only the required number of address bits are

latched. It may also be useful to use the Pass-Thru

region identifiers, PTNUM[1:0], as address lines. For

example, Pass-Thru region 1 might be a 64K block of

SRAM for data, while Pass-Thru region 2 might be

64K of SRAM for code storage (downloaded from the

host during initialization). Using PTNUM0 as address

line A16 allows two unique add-on memory regions to

be defined.

Unlike all other Add-On operation register reads, the

Add-On PTADR# input directly accesses the Pass-

Thru Address Register and drives the contents onto

the data bus during the same clock cycle. WR# must

not be asserted the same time as PTADR#, or there

would be contention on the DQ bus! However, it is per-

mitted to assert RD# and PTADR# during the same

cycle. This is because all reads performed with RD#

are pipelined, while address reads with PTADR# are

not pipelined.

Revision 1.02 – April 12, 2007

Data Book

DS1596

125

S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 125

S5920Q

Specifications of S5920Q

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