PI7C8150BNDIE Pericom Semiconductor, PI7C8150BNDIE Datasheet - Page 97

PI7C8150BNDIE

Manufacturer Part Number

PI7C8150BNDIE

Description

IC PCI-PCI BRIDGE ASYNC 256-PBGA

Manufacturer

Pericom Semiconductor

Datasheet

1.PI7C8150BNDE.pdf (109 pages)

Specifications of PI7C8150BNDIE

Applications

Interface

Voltage - Supply

Package / Case

256-PBGA

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

PI7C8150BNDIE

Manufacturer:

PERICOM

Quantity:

300

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

PI7C8150BNDIE

Manufacturer:

PERICOM

Quantity:

301

Company:

BOSTOCK HK LIMITED

Part Number:

PI7C8150BNDIE

Manufacturer:

Pericom

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

PI7C8150BNDIE

Manufacturer:

PERICOM

Quantity:

20 000

Current page: 97 of 109
Download datasheet (746Kb)

15.2.3

15.2.4

16.1

read data. Again, the PAR signal corresponds to read data from the previous data phase

cycle.

REPORTING PARITY ERRORS

For all address phases, if a parity error is detected, the error should be reported on the

P_SERR_L signal by asserting P_SERR_L for one cycle and then 3-stating two cycles

after the bad address. P_SERR_L can only be asserted if bit 6 and 8 in the Command

asserting the P_PERR_L signal two cycles after the data phase and should remain asserted

for one cycle when bit 6 in the Command register is set to a 1.

The target reports any type of data parity errors during write cycles, while the master

reports data parity errors during read cycles.

Detection of an address parity error will cause the PCI-to-PCI Bridge target to not claim

the bus (P_DEVSEL_L remains inactive) and the cycle will then terminate with a Master

Abort. When the bridge is acting as master, a data parity error during a read cycle results in

the bridge master initiating a Master Abort.

SECONDARY IDSEL MAPPING

When PI7C8150B detects a Type 1 configuration transaction for a device connected to

the secondary, it translates the Type 1 transaction to Type 0 transaction on the downstream

interface. Type 1 configuration format uses a 5-bit field at P_AD[15:11] as a device

number. This is translated to S_AD[31:16] by PI7C8150B.

IEEE 1149.1 COMPATIBLE JTAG CONTROLLER

An IEEE 1149.1 compatible Test Access Port (TAP) controller and associated TAP pins

are provided to support boundary scan in PI7C8150B for board-level continuity test and

diagnostics. The TAP pins assigned are TCK, TDI, TDO, TMS and TRST_L. All digital

input, output, input/output pins are tested except TAP pins.

The IEEE 1149.1 Test Logic consists of a TAP controller, an instruction register, and

a group of test data registers including Bypass and Boundary Scan registers. The TAP

controller is a synchronous 16-state machine driven by the Test Clock (TCK) and the Test

Mode Select (TMS) pins. An independent power on reset circuit is provided to ensure the

machine is in TEST_LOGIC_RESET state at power-up. The JTAG signal lines are not

active when the PCI resource is operating PCI bus cycles.

PI7C8150B implements 3 basic instructions: BYPASS, SAMPLE/PRELOAD, and

EXTEST.

Boundary-scan test logic consists of a boundary-scan register and support logic. These are

accessed through a Test Access Port (TAP). The TAP provides a simple serial interface

BOUNDARY SCAN ARCHITECTURE

Page 97 of 109

ASYNCHRONOUS 2-PORT PCI-TO-PCI BRIDGE

ADVANCE INFORMATION

April 2009 – Revision 1.08

PI7C8150B

PI7C8150BNDIE Pericom Semiconductor, PI7C8150BNDIE Datasheet - Page 97

PI7C8150BNDIE

Specifications of PI7C8150BNDIE

Available stocks

Related parts for PI7C8150BNDIE