Texas Instruments XIO2213B Evaluation Module / Reference Design XIO2213BEVM XIO2213BEVM 데이터 시트
제품 코드
XIO2213BEVM
SCPS210F – OCTOBER 2008 – REVISED MAY 2013
Recommended Operating Conditions (continued)
OPERATION
MIN
NOM
MAX
UNIT
EIA/JESD 51-8 ZAY
35
°C/W
θ
JB
Junction-to-board thermal resistance
EIA/JESD 51-8 ZAJ
27
°C/W
EIA/JESD 51-2 ZAY
0.1
°C/W
Ψ
JT
Junction-to-top of package
EIA/JESD 51-2 ZAJ
0.13
°C/W
EIS/JESD 51-6 ZAY
29.7
°C/W
Ψ
JB
Junction-to-board
EIS/JESD 51-6 ZAJ
22.1
°C/W
11.3
PCIe Differential Transmitter Output Ranges
TXP and TXN
PARAMETER
MIN
NOM
MAX
UNIT
COMMENTS
Each UI is 400 ps 300 ppm. UI does not account for
UI
Unit interval
399.88
400
400.12
ps
SSC dictated variations.
(1)
Differential peak-to-peak
V
TX-DIFFp-p
0.8
1.2
V
V
TX-DIFFp-p
= 2*|V
TXP
- V
TXN
|
(2)
output voltage
This is the ratio of the V
TX-DIFFp-p
of the second and
Deemphasized differential
following bits after a transition divided by the V
TX-
V
TX-DE-RATIO
3.0
3.5
4.0
dB
output voltage (ratio)
DIFFp-p
of the first bit after a transition.
(2)
The maximum transmitter jitter can be derived as
TTX-EYE
Minimum TX eye width
0.75
UI
T
TXMAX- JITTER
= 1 – T
TX-EYE
= 0.3 UI.
(2) (3)
Jitter is defined as the measurement variation of the
crossing points (V
crossing points (V
TX-DIFFp-p
= 0 V) in relation to
recovered TX UI. A recovered TX UI is calculated
Maximum time between
over 3500 consecutive UIs of sample data. Jitter is
T
TX-EYE-MEDIAN-to-MAX-JITTER
jitter median and maximum
0.15
UI
measured using all edges of the 250 consecutive
deviation from the median
UIs in the center of the 3500 UIs used for
calculating the TX UI.
calculating the TX UI.
(2) (3)
T
TX-RISE
P/N TX output rise/fall time
0.125
UI
(2) (4)
T
TX-FALL
V
TX-CM-ACp
= RMS(|V
TX
P + V
TXN
|/2 V
TX-CM-DC
) V
TX-CM-
RMS ac peak common-
V
TX-CM-ACp
20
mV
mode output voltage
DC
= DC(avg) of |V
TXP
+ V
TXN
|/2
(2)
|V
TX-CM-DC
V
TX-CM-Idle-DC
| 100 mV V
TX-CM-DC
= DC
(avg)
Absolute delta of dc
of |V
TXP
+ V
TXN
|/2 [during L0]
V
TX-CM-DC-ACTIVE-IDLE-DELTA
common-mode voltage
0
100
mV
V
TX-CM-Idle-DC
= DC
(avg)
of |V
TXP
+ V
TXN
|/2 (during
during L0 and electrical idle
electrical idle)
(2)
|V
TXP-CM-DC
V
TXN-CM-DC
| 25 mV when
Absolute delta of dc
V
TXP-CM-DC
= DC
(avg)
of |V
TXP
|
V
TX-CM-DC-LINE-DELTA
common-mode voltage
0
25
mV
between P and N
V
TXN-CM-DC
= DC
(avg)
of |V
TXN
|
(2)
Electrical idle differential
V
TX-IDLE-DIFFp
0
20
mV
V
TX-IDLE-DIFFp
= |V
TXP-Idle
V
TXN-Idle
| 20 mV
(2)
peak output voltage
Amount of voltage change
The total amount of voltage change that a
V
TX-RCV-DETECT
allowed during receiver
600
mV
transmitter can apply to sense whether a low
detection
impedance receiver is present
TX dc common-mode
The allowed dc common-mode voltage under any
V
TX-DC-CM
0
3.6
V
voltage
condition
The total current the transmitter can provide when
I
TX-SHORT
TX short-circuit current limit
90
mA
shorted to its ground
Minimum time a transmitter must be in electrical
Minimum time spent in
Idle. Utilized by the receiver to start looking for an
T
TX-IDLE-MIN
50
UI
electrical idle
electrical idle exit after successfully receiving an
electrical idle ordered set.
electrical idle ordered set.
(1)
No test load is necessarily associated with this value.
(2)
Specified at the measurement point into a timing and voltage compliance test load and measured over any 250 consecutive TX UIs.
(3)
A T
TX-EYE
= 0.75 UI provides for a total sum of deterministic and random jitter budget of T
TX-JITTER-MAX
= 0.25 UI for the transmitter
collected over any 250 consecutive TX UIs. The T
TX-EYE-MEDIAN-to-MAX-JITTER
specification ensures a jitter distribution in which the median
and the maximum deviation from the median is less than half of the total TX jitter budget collected over any 250 consecutive TX UIs. It
must be noted that the median is not the same as the mean. The jitter median describes the point in time where the number of jitter
points on either side is approximately equal as opposed to the averaged time value.
must be noted that the median is not the same as the mean. The jitter median describes the point in time where the number of jitter
points on either side is approximately equal as opposed to the averaged time value.
(4)
Measured between 20% and 80% at transmitter package terminals into a test load for both V
TXP
and V
TXN
.
Copyright © 2008–2013, Texas Instruments Incorporated
Electrical Characteristics
191
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