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89HPES8T5AZBBCGI

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P29
10 of 29 June 18, 2014
IDT 89HPES8T5A Data Sheet
Logic Diagram — PES8T5A
Figure 4 PES8T5A Logic Diagram
PEREFCLKP
PEREFCLKN
JTAG_TCK
GPIO[10:0]
11
V
DD
CORE
V
DD
I/O
V
DD
PE
V
DD
APE
MSMBADDR[4:1]
MSMBCLK
MSMBDAT
4
SSMBADDR[5,3:1]
SSMBCLK
SSMBDAT
4
CCLKUS
RSTHALT
JTAG_TDI
JTAG_TDO
JTAG_TMS
JTAG_TRST_N
V
SS
SWMODE[2:0]
3
CCLKDS
PERSTN
REFCLKM
MSMBSMODE
V
TT
PE
PE0RP[0]
PE0RN[0]
PE0RP[3]
PE0RN[3]
PE0TP[0]
PE0TN[0]
PE0TP[3]
PE0TN[3]
...
...
PE2RP[0]
PE2RN[0]
PE2TP[0]
PE2TN[0]
PE3RN[0]
PE3TP[0]
PE3TN[0]
PE4RP[0]
PE4RN[0]
PE4TP[0]
PE4TN[0]
PE5RP[0]
PE5RN[0]
PE5TP[0]
PE5TN[0]
PES8T5A
PE3RP[0]
WAKEN
Reference
Clocks
Serdes Input
Port 0
Serdes Input
Port 2
Serdes Input
Port 3
Serdes Input
Port 4
Serdes Input
Port 5
Master
SMBus
Interface
Slave
SMBus
Interface
System
Pins
Serdes Output
Port 2
Serdes Output
Port 3
Serdes Output
Port 4
Serdes Output
Port 5
General Purpose
Power/Ground
APWRDISN
Serdes Output
Port 1
I/O
11 of 29 June 18, 2014
IDT 89HPES8T5A Data Sheet
System Clock Parameters
Values based on systems running at recommended supply voltages and operating temperatures, as shown in Tables 13 and 14.
AC Timing Characteristics
Parameter Description Min Typical Max Unit
PEREFCLK
Refclk
FREQ
Input reference clock frequency range 100 125
1
1.
The input clock frequency will be either 100 or 125 MHz depending on signal REFCLKM.
MHz
Refclk
DC
2
2.
ClkIn must be AC coupled. Use 0.01 — 0.1 µF ceramic capacitors.
Duty cycle of input clock 40 50 60 %
T
R
, T
F
Rise/Fall time of input clocks 0.2*RCUI RCUI
3
3.
RCUI (Reference Clock Unit Interval) refers to the reference clock period.
V
SW
Differential input voltage swing
4
4.
AC coupling required.
0.6 1.6 V
T
jitter
Input clock jitter (cycle-to-cycle) 125 ps
Table 9 Input Clock Requirements
Parameter Description Min
1
Typical
1
Max
1
Units
PCIe Transmit
UI Unit Interval 399.88 400 400.12 ps
T
TX-EYE
Minimum Tx Eye Width 0.7 .9 UI
T
TX-EYE-MEDIAN-to-
MAX-JITTER
Maximum time between the jitter median and maximum
deviation from the median
0.15 UI
T
TX-RISE,
T
TX-FALL
D+ / D- Tx output rise/fall time 50 90 ps
T
TX- IDLE-MIN
Minimum time in idle 50 UI
T
TX-IDLE-SET-TO-
IDLE
Maximum time to transition to a valid Idle after sending
an Idle ordered set
20 UI
T
TX-IDLE-TO-DIFF-
DATA
Maximum time to transition from valid idle to diff data 20 UI
T
TX-SKEW
Transmitter data skew between any 2 lanes 500 1300 ps
T
BTEn
Time from asserting Beacon TxEn to beacon being trans-
mitted on the lane
30 80 ns
PCIe Receive
UI Unit Interval 399.88 400 400.12 ps
T
RX-EYE (with jitter)
Minimum Receiver Eye Width (jitter tolerance) 0.4 UI
Table 10 PCIe AC Timing Characteristics (Part 1 of 2)
12 of 29 June 18, 2014
IDT 89HPES8T5A Data Sheet
Figure 5 GPIO AC Timing Waveform
T
RX-EYE-MEDIUM TO
MAX JITTER
Max time between jitter median & max deviation 0.3 UI
T
RX-IDLE-DET-DIFF-
ENTER TIME
Unexpected Idle Enter Detect Threshold Integration Time 10 ms
T
RX-SKEW
Lane to lane input skew 20 ns
1.
Minimum, Typical, and Maximum values meet the requirements under PCI Specification 1.1
Signal Symbol
Reference
Edge
Min Max Unit
Timing
Diagram
Reference
GPIO
GPIO[10:0]
1
1.
GPIO signals must meet the setup and hold times if they are synchronous or the minimum pulse width if
they are asynchronous.
Tpw_13b
2
2.
The values for this symbol were determined by calculation, not by testing.
None 50 ns See Figure 5.
Table 11 GPIO AC Timing Characteristics
Parameter Description Min
1
Typical
1
Max
1
Units
Table 10 PCIe AC Timing Characteristics (Part 2 of 2)
Tdo_13aTdo_13a
Tpw_13b
EXTCLK
GPIO (synchronous output)
GPIO (asynchronous input)
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P29

89HPES8T5AZBBCGI

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PCI Interface IC PCI EXPRESS SWITCH
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