S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 108
S5920Q
Manufacturer Part Number
S5920Q
Description
Manufacturer
Applied Micro Circuits Corporation
Datasheet
1.S5920Q.pdf
(165 pages)
Specifications of S5920Q
Operating Temperature (min)
0C
Operating Temperature Classification
Commercial
Operating Temperature (max)
70C
Package Type
PQFP
Rad Hardened
No
Lead Free Status / Rohs Status
Not Compliant
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S5920 – PCI Product: PCI Bus Protocol
PCI BUS INTERRUPTS
The S5920 controller is able to generate PCI bus inter-
rupts by asserting the PCI bus interrupt signal (INTA#).
INTA# is a multi-sourced, wire-ORed signal on the PCI
bus and is driven by an open drain output on the
S5920. The assertion and deassertion of INTA# have
no fixed timing relationship with respect to the PCI bus
clock. Once the S5920 asserts INTA#, it remains
asserted until the interrupt source is cleared by a write
to the Interrupt Control/Status Register (INTCSR). In
the case of the external Add-On Interrupt, INTA# will
remain set as long as the ADDINT# pin is driven low
by an Add-On device(s). The source(s) driving ADD-
INT# must deassert this input before the PCI interrupt
(INTA#) is driven to the false state. It is the responsibil-
ity host software to clear the Add-On interrupt source
before exiting its interrupt handler routine.
PCI BUS PARITY ERRORS
The PCI specification defines two error-reporting sig-
nals, PERR# and SERR#. These signals indicate a
parity error condition on the signals AD[31:0], C/
BE[3:0]#, and PAR. The validity of the PAR signal is
delayed one clock period from its corresponding
AD[31:0] and C/BE[3:0]# signals. Even parity is sup-
ported by PCI: when the total number of ones in the
group of signals AD[31:0] and C/BE[3:0]# is equal to
an even number the parity bit will be deasserted. If an
odd number of ones is seen, the parity bit will be
asserted.
PERR# is the error-reporting mechanism for parity
errors that occur during the data phase for all but PCI
Special Cycle commands. SERR# is the error-report-
ing mechanism for parity errors that occur during the
address phase.
The timing diagram in Figure 9 shows the timing rela-
tionships between the signals AD[31:0], C/BE[3:0]#,
PAR, PERR# and SERR#.
AMCC Confidential and Proprietary
The S5920 asserts SERR# if it detects odd parity dur-
ing an address phase, if enabled. The SERR# enable
bit is bit 8 in the S5920 PCI Command Register
(PCICMD). The odd parity error condition involves the
state of signals AD[31:0] and C/BE[3:0]# when
FRAME# is first asserted and the PAR signal during
the following clock. If an error is detected, the S5920
asserts SERR# on the following (after PAR valid)
clock. Since many targets may observe an error on an
address phase, the SERR# signal is an open-drain
multi-sourced, wire-ORed signal on the PCI bus. The
S5920 drives SERR# low for one clock period when
an address phase error is detected. Once an SERR#
error is detected by the S5920, the PCI Status register
bit 14, System Error, is set and remains set until
cleared through software or a hardware reset.
The PERR# signal is similar to the SERR# with two
differences: it reports errors for the data phase and is
only asserted by the device receiving the data. The
S5920 drives this signal (removed from tri-state) when
it is the selected target for write transactions. The par-
ity error conditions are only reflected by the PERR#
pin if the Parity Error Enable bit (bit 6) of the PCI Com-
mand Register is set. Upon the detection of a data
parity error, the Detected Parity Error bit (bit 15) of the
PCI Status Register is set (PCISTS). Unlike the
PERR# signal pin, this Status bit is set regardless of
the state of the PCI Command Register's Parity Error
Enable bit.
The assertion of PERR# occurs two clock periods fol-
lowing the data transfer. This two-clock delay occurs
because the PAR signal does not become valid until
the clock following the transfer, and an additional clock
is provided to generate and assert PERR# once an
error is detected. PERR# is only asserted for one
clock cycle for each error sensed. The S5920 only
qualifies the parity error detection during the actual
data transfer portion of a data phase (when both
IRDY# and TRDY# are asserted).
Revision 1.02 – April 12, 2007
Data Book
DS1596
108
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