參數(shù)資料
型號: TSB14AA1AI
廠商: Texas Instruments, Inc.
英文描述: 3.3 V IEEE 1394-1995 BACKPLANE PHY
中文描述: 3.3伏電機及電子學(xué)工程師聯(lián)合會1394-1995底板PHY
文件頁數(shù): 29/37頁
文件大?。?/td> 257K
代理商: TSB14AA1AI
6
9
6.2.6
Backplane Timing Definitions
Logic Skew
The skew between data and strobe within the physical layer itself due to internal skews
between data and strobe logic.
Spatial Skew
The skew between data and strobe due to differences in propagation delays along the
transmission line from the arbiter to the transceiver.
Package Skew
The propagation delay difference through the transceiver between the data and strobe
channels.
Backplane Skew
The skew along the backplane itself due to impedance and/or mismatched data and
strobe line length.
Receive Setup/Hold
The setup and hold time needed to latch the incoming data within the PHY arbiter,
based on the recovered clock from Data_Rx and Strb_Rx.
Total Transmit Skew
The total skew between data and strobe in transmitting data from the PHY out to the
bus. This is given by the following equation:
Total Transmit Skew = Transmit Package Skew + Spatial Skew + Logic Skew
Total Receive Skew
The total skew between data and strobe in receiving data from the bus into the PHY.
This is given by the following equation:
Total Receive Skew = Receive Package Skew + Spatial Skew + Receive Setup + Receive Hold
Skew Margin
The bit cell period minus all skews. This is given by the following equation:
Skew Margin = Bit Cell Period
Total Transmit Skew
Backplane Skew
Total Receive Skew
Transmit Edge Separation
The minimum time required between any two consecutive transitions of the
bus signals to ensure proper operation of data-strobe bit level encoding. Transmit edge separation is
measured from the midpoint of the signal transition to the midpoint of the next signal transition out on the
bus. Minimum transmit edge separation is the minimum bit cell period less the maximum total transmit skew.
Receive Edge Separation
The minimum time required between any two consecutive transitions of the bus
signals to ensure proper operation of data-strobe bit level decoding. Receive edge separation is measured
from the midpoint of the signal transition to the midpoint of the next signal transition out on the bus. This
is the minimum bit cell period reduced by the amount of maximum total transmit skew and maximum
backplane skew.
6.2.7
Gap Timing
A gap is a period of time during which the bus is idle (Data_Rx and Strb_Rx are unasserted). There are three types
of gaps:
Acknowledge Gap
Appears between the end of a packet and an acknowledge, as well as between
isochronous transfers. A node should detect the occurrence of an acknowledge gap after the bus has been
in an unasserted state for 4 arbitration clock times (approximately 81.38 ns) but should not assert the bus
until a total of 8 arbitration clock times (approximately 182.76 ns) have occurred. This requirement ensures
that a node is given adequate time to detect the acknowledge gap before the bus is asserted by another
node upon detecting an acknowledge gap. This includes the minimum time required to detect a Bus_Idle
(4 arbitration clock times), as well as the maximum delay between the arbitration state machine within any
two nodes on the bus (another 4 arbitration clock times).
Subaction Gap
Appears before asynchronous transfers within a fairness interval. A node should detect
the occurrence of a subaction gap after the bus has been in an unasserted state for at least 16 arbitration
clock times (approximately 325.52 ns), but should not assert the bus until a total of 20 arbitration clock times
(approximately 406.9 ns) have occurred. This requirement ensures that a node is given adequate time to
相關(guān)PDF資料
PDF描述
TSB14AA1AT 3.3 V IEEE 1394-1995 BACKPLANE PHY
TSB21LV03BI IEEE 1394-1995 Triple-Cable Transceiver/Arbiter(IEEE1394-1995 三電纜收發(fā)器/判優(yōu)器)
TSB42AA4I IEEE 1394 A CONSUMER ELECTRONICS LINK LAYER CONTROLLER
TSB42AA4PDT IEEE 1394 A CONSUMER ELECTRONICS LINK LAYER CONTROLLER
TSB42AA4PGE IEEE 1394 A CONSUMER ELECTRONICS LINK LAYER CONTROLLER
相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
TSB14AA1AIPFB 功能描述:1394 接口集成電路 IEEE139419953.3V1prt 50/100Mbps BkplnPHY RoHS:否 制造商:Texas Instruments 類型:Link Layer Controller 工作電源電壓: 封裝 / 箱體:LQFP 封裝:Tray
TSB14AA1AIPFBG4 功能描述:1394 接口集成電路 3.3V 1-port 50/100 Mbps Backplane PHY RoHS:否 制造商:Texas Instruments 類型:Link Layer Controller 工作電源電壓: 封裝 / 箱體:LQFP 封裝:Tray
TSB14AA1APFB 功能描述:1394 接口集成電路 3.3V 1-port 50/100 Mbps Backplane PHY RoHS:否 制造商:Texas Instruments 類型:Link Layer Controller 工作電源電壓: 封裝 / 箱體:LQFP 封裝:Tray
TSB14AA1APFBG4 功能描述:1394 接口集成電路 3.3V 1-port 50/100 Mbps Backplane PHY RoHS:否 制造商:Texas Instruments 類型:Link Layer Controller 工作電源電壓: 封裝 / 箱體:LQFP 封裝:Tray
TSB14AA1AT 制造商:TI 制造商全稱:Texas Instruments 功能描述:3.3 V IEEE 1394-1995 BACKPLANE PHY
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