High Speed Characterization Report

High Speed Characterization Report
QTS-025-03-L-D-A
Mated With
QSS-025-01-L-D-A
Description:
Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Table of Contents
Connector Overview........................................................................................................ 1
Connector System Speed Rating .................................................................................... 1
Frequency Domain Data Summary ................................................................................. 2
Table 1 - Single-Ended Connector System Performance ............................................ 2
Table 2 - Differential Connector System Bandwidth .................................................... 2
Time Domain Data Summary .......................................................................................... 3
Table 3 - Single-Ended Impedance (Ω) ....................................................................... 3
Table 4 - Differential Impedance (Ω)............................................................................ 3
Table 5 - Single-Ended Crosstalk (%).......................................................................... 4
Table 6 - Differential Crosstalk (%) .............................................................................. 4
Table 7 - Propagation Delay (Mated Connector) ......................................................... 4
Characterization Details .................................................................................................. 5
Differential and Single-Ended Data.............................................................................. 5
Connector Signal to Ground Ratio ............................................................................... 5
Frequency Domain Data.............................................................................................. 7
Time Domain Data....................................................................................................... 7
Appendix A – Frequency Domain Response Graphs ...................................................... 9
Single-Ended Application – Insertion Loss .................................................................. 9
Single-Ended Application – Return Loss ..................................................................... 9
Single-Ended Application – NEXT ............................................................................. 10
Single-Ended Application – FEXT.............................................................................. 10
Differential Application – Insertion Loss..................................................................... 11
Differential Application – Return Loss........................................................................ 11
Differential Application – NEXT ................................................................................. 12
Differential Application – FEXT .................................................................................. 12
Appendix B – Time Domain Response Graphs............................................................. 13
Single-Ended Application – Input Pulse..................................................................... 13
Single-Ended Application – Impedance ..................................................................... 14
Single-Ended Application – Propagation Delay ......................................................... 14
Single-Ended Application – NEXT, “Worst Case” Configuration................................ 15
Single-Ended Application – FEXT, “Worst Case” Configuration ................................ 15
Single-Ended Application – NEXT, “Best Case” Configuration .................................. 16
Single-Ended Application – FEXT, “Best Case” Configuration .................................. 16
Single-Ended Application – NEXT, Across Power/Ground Blade .............................. 17
Single-Ended Application – FEXT, Across Power/Ground Blade .............................. 17
Differential Application – Input Pulse ......................................................................... 18
Differential Application – Impedance ......................................................................... 19
Differential Application – Propagation Delay.............................................................. 19
Differential Application – NEXT, “Worst Case” Configuration .................................... 20
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:ii
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – FEXT, “Worst Case” Configuration..................................... 20
Differential Application – NEXT, “Best Case” Configuration ...................................... 21
Differential Application – FEXT, “Best Case” Configuration....................................... 21
Differential Application – NEXT, Across Power/Ground Blade .................................. 22
Differential Application – FEXT, Across Power/Ground Blade................................... 22
Appendix C – Product and Test System Descriptions ................................................... 23
Product Description ................................................................................................... 23
Test System Description............................................................................................ 23
Appendix D – Test and Measurement Setup................................................................. 25
Test Instruments ........................................................................................................ 26
Measurement Station Accessories ............................................................................ 26
Test Cables & Adapters............................................................................................. 26
Appendix E - Frequency and Time Domain Measurements .......................................... 27
Frequency (S-Parameter) Domain Procedures ......................................................... 27
CSA8000 Setup ..................................................................................................... 27
Insertion Loss......................................................................................................... 28
Return Loss............................................................................................................ 28
Near-End Crosstalk (NEXT) ................................................................................... 29
Far-End Crosstalk (FEXT)...................................................................................... 29
Time Domain Procedures .......................................................................................... 30
Impedance ............................................................................................................. 30
Propagation Delay.................................................................................................. 30
Crosstalk ................................................................................................................ 30
Appendix F – Glossary of Terms................................................................................... 31
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:iii
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Connector Overview
Q Strip® .635mm (.025”) pitch interfaces (QSS/QTS Series) are available with up to 250
I/Os and with standard board-to-board spacing of 5mm (0.197"), 8mm (0.315"), 11mm
(0.433"), and 16mm (0.630") between boards. The data in this report is applicable
only to the 11mm (0.433") board-to-board stack height version.
Connector System Speed Rating
QSS/QTS Series, Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433")Stack Height
Signaling
Speed Rating
Single-Ended:
Differential:
6.0 GHz / 12 Gbps
5.5 GHz / 11 Gbps
The Speed Rating is based on the -3 dB insertion loss point of the connector system.
The -3 dB point can be used to estimate usable system bandwidth in a typical, two-level
signaling environment.
To calculate the Speed Rating, the measured -3 dB point is rounded up to the nearest
half-GHz level. The up-rounding corrects for a portion of the test board’s trace loss,
since trace losses are included in the loss data in this report. The resulting loss value is
then doubled to determine the approximate maximum data rate in Gigabits per second
(Gbps).
For example, a connector with a -3 dB point of 7.8 GHz would have a Speed Rating of 8
GHz/ 16 Gbps. A connector with a -3 dB point of 7.2 GHz would have a Speed Rating
of 7.5 GHz/ 15 Gbps.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:1
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Frequency Domain Data Summary
Table 1 - Single-Ended Connector System Performance
Test Parameter
Configuration
Insertion Loss
GSG
-3dB @ 5.74GHz
Return Loss
GSG
< -5 dB to 5.74GHz
GAQG
< -5 dB to 5.74GHz
GAGQG
< -20 dB to 5.74GHz
Xrow, GAG to GQG
< -40 dB to 5.74GHz
GAQG
< -18 dB to 5.74GHz
GAGQG
< -18 dB to 5.74GHz
Xrow, GAG to GQG
< -40 dB to 5.74GHz
Near-End Crosstalk
Far-End Crosstalk
Table 2 - Differential Connector System Bandwidth
Test Parameter
Configuration
Insertion Loss
GSSG
-3dB @ 5.38GHz
Return Loss
GSSG
< -5dB to 5.38GHz
GAAQQG
< -10dB to 5.38GHz
GAAGQQG
< -25dB to 5.38GHz
Xrow, GAAG to GQQG
< -35dB to 5.38GHz
GAAQQG
< -15 dB to 5.74GHz
GAAGQQG
< -15 dB to 5.74GHz
Xrow, GAAG to GQQG
< -40 dB to 5.74GHz
Near-End Crosstalk
Far-End Crosstalk
Insertion Loss (dB)
Conne ctor Sys te m Ins e rtion Los s
Single Ende d & Diffe re ntial Signal Re s pons e
Se rie s QSS-01 / QTS-03
1
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
single ended
differential
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Fre que ncy (GHz)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:2
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Time Domain Data Summary
Table 3 - Single-Ended Impedance (Ω)
Signal Risetime
Maximum
Impedance
Minimum
Impedance
30±5ps
50 ps
100 ps
250 ps
500 ps
750 ps
1 ns
60.8
55.8
52.2
51.9
51.4
51.2
50.9
35.7
38.1
41.0
45.2
47.5
48.6
49.2
S i ng l e - E nd e d A p p l i c at i o n
I mp ed a nc e vs . R i s et i me
75
70
65
60
55
maximum
50
minimum
45
40
35
30
35
50
10 0
2 50
50 0
750
100 0
Riset ime (p Sec)
Table 4 - Differential Impedance (Ω)
Signal Risetime
Maximum
Impedance
Minimum
Impedance
30±5ps
50 ps
100 ps
250 ps
500 ps
750 ps
1 ns
103.8
103.2
102.9
102.6
102.2
101.9
101.8
59.5
62.8
69.1
78.8
86.6
90.7
93.0
D i f f er e nt i al A p p l i c at i o n
I mp ed a nc e vs . R i s et i me
120
110
100
90
maximum
minimum
80
70
60
50
35
50
10 0
250
50 0
750
100 0
Riset ime (pSec)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
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Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Table 5 - Single-Ended Crosstalk (%)
Input
(tr)
30±5ps
50 ps
100 ps
250 ps
500 ps
750 ps
1 ns
NEXT
GAQG
GAGQG
Xrowse
18.5
3.3
< 1.0
17.7
2.7
< 1.0
16.3
2.3
< 1.0
10.9
1.5
< 1.0
6.4
< 1.0
< 1.0
4.6
< 1.0
< 1.0
3.6
< 1.0
< 1.0
FEXT
GAQG
GAGQG
Xrowse
3.5
2.9
< 1.0
2.4
2.1
< 1.0
1.6
1.4
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
Table 6 - Differential Crosstalk (%)
Input
(tr)
30±5ps
50 ps
100 ps
250 ps
500 ps
750 ps
1 ns
NEXT
GAAQQG
GAAGQQG
Xrowdiff
5.4
< 1.0
< 1.0
5.2
< 1.0
< 1.0
4.8
< 1.0
< 1.0
3.3
< 1.0
< 1.0
2.0
< 1.0
< 1.0
1.5
< 1.0
< 1.0
1.2
< 1.0
< 1.0
FEXT
GAAQQG
GAAGQQG
Xrowdiff
1.7
< 1.0
< 1.0
1.5
< 1.0
< 1.0
1.3
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
< 1.0
Table 7 - Propagation Delay (Mated Connector)
Single-Ended
Differential
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
118.0 ps
125.0 ps
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
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Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Characterization Details
This report presents data which characterizes the signal integrity response of a connector pair in a controlled printed circuit board (PCB) environment. All efforts are made to
reveal typical best-case responses inherent to the system under test (SUT).
In this report, the SUT includes the test PCB from drive side probe tips to receive side
probe tips. PCB effects are not removed or de-embedded from the test data. PCB designs with impedance mismatch, large losses, skew, cross talk, or similar impairments
can have a significant impact on observed test data. Therefore, great design effort is
put forth to limit these effects in the PCB utilized in these tests. Some board related effects, such as pad-to-ground capacitance and trace loss, are included in the data presented in this report. But other effects, such as via coupling or stub resonance, are not
evaluated here. Such effects are addressed and characterized fully by the Samtec
Final Inch® products.
Additionally, intermediate test signal connections can mask the connectors’ true performance. Such connection effects are minimized by using high performance test cables, adapters, and microwave probes. Where appropriate, calibration and deembedding routines are also used to reduce residual effects.
Differential and Single-Ended Data
Most Samtec connectors can be used successfully in both differential and single-ended
applications. However, electrical performance will differ depending on the signal drive
type. In this report, data is presented for both differential and single-ended drive scenarios.
Connector Signal to Ground Ratio
Samtec connectors are most often designed for generic applications, and can be implemented using various signal and ground pin assignments. In high speed systems,
provisions must be made in the interconnect for signal return currents. Such paths are
often referred to as “ground”. In some connectors, a ground plane or blade, or an outer
shield is used as the signal return, while in others, connector pins are used as signal
returns. Various combinations of signal pins, ground blades, and shields can also be
utilized. Electrical performance can vary significantly depending upon the number and
location of ground pins.
In general, the more pins dedicated to ground, the better electrical performance will be.
But dedicating pins to ground reduces signal density of a connector. So care must be
taken when choosing signal/ground ratios in cost- or density-sensitive applications.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:5
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
For this connector, the following configurations were evaluated:
Single-Ended Impedance:
• GSG (ground-signal-ground)
Single-Ended Crosstalk:
• Electrical “worst case”: GAQG (ground-active-quiet-ground)
• Electrical “best case”: GAGQG (ground-active-ground-quiet-ground)
• Across row: Xrowse (from one row of terminals to the other row across the ground
blade)
Differential Impedance:
• GSSG (Ground-positive signal-negative signal-ground)
Differential Crosstalk:
• Electrical “worst case”: GAAQQG (ground-active-active-quiet-quiet-ground)
• Electrical “best case”: GAAGQQG (ground-active-active-ground-quiet-quietground)
• Across row:Xrowdiff (from one row of terminals to the other row across the ground
blade)
In all cases in this report, the center ground blade of the connector was grounded to the
PCB. Only one single-ended signal or differential pair was driven for crosstalk measurements.
Other configurations can be evaluated upon request. Please contact [email protected]
for more information.
In a real system environment, active signals might be located at the outer edges of the
signal contacts of concern, as opposed to the ground signals utilized in laboratory testing. For example, in a single-ended system, a pin-out of “SSSS”, or four adjacent single
ended signals, might be encountered, as opposed to the “GSG” and “GSSG” configurations tested in the laboratory. Electrical characteristics in such applications could vary
slightly from laboratory results. But in most applications, performance can safely be considered equivalent.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:6
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Signal Edge Speed (Rise Time):
In pulse signaling applications, the perceived performance of an interconnect can vary
significantly depending on the edge rate or rise time of the exciting signal. For this report, the fastest rise time used was 30 +/-5 ps. Generally, this should demonstrate
worst case performance.
In many systems, the signal edge rate will be significantly slower at the connector than
at the driver launch point. To estimate interconnect performance at other edge rates,
data is provided for several rise times between 30 ps and 1.0 ns.
For this report, rise times were measured at 10%-90% signal levels.
Frequency Domain Data
Frequency domain parameters are helpful in evaluating the connector system’s signal
loss and crosstalk characteristics across a range of sinusoidal frequencies. In this report, parameters presented in the frequency domain are insertion loss, return loss, and
near-end and far-end crosstalk. Other parameters or formats, such as VSWR or Sparameters, may be available upon request. Please contact our Signal Integrity Group
at [email protected] for more information.
Frequency performance characteristics for the SUT are generated from time domain
measurements using Fourier Transform calculations. Procedures and methods used in
generating the SUT’s frequency domain data are provided in the frequency domain test
procedures in Appendix E of this report.
Time Domain Data
Time Domain parameters indicate impedance mismatch versus length, signal propagation time, and crosstalk in a pulsed signal environment. Time Domain data is provided
in Appendix E of this report. Parameters or formats not included in this report may be
available upon request. Please contact our Signal Integrity Group at [email protected]
for more information.
Reference plane impedance is 50 ohms for single-ended measurements and 100 ohms
for differential measurements. The fastest risetime signal exciting the SUT is 30 ± 5
picoseconds.
In this report, propagation delay is defined as the signal propagation time through the
PCB connector pads and connector pair. It does not include PCB traces. Delay is
measured at 30 ± 5 picoseconds signal risetime. Delay is calculated as the difference
in time measured between the 50% amplitude levels of the input and output pulses.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:7
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Crosstalk or coupled noise data is provided for various signal configurations. All measurements are single disturber. Crosstalk is calculated as a ratio of the input line voltage
to the coupled line voltage. The input line is sometimes described as the active or drive
line. The coupled line is sometimes described as the quiet or victim line. Crosstalk ratio
is tabulated in this report as a percentage. Measurements are made at both the nearend and far-end of the SUT.
Data for other configurations may be available. Please contact our Signal Integrity
Group at [email protected] for further information.
As a rule of thumb, 10% crosstalk levels are often used as a general first pass limit for
determining acceptable interconnect performance. But modern system crosstalk tolerance can vary greatly. For advice on connector suitability for specific applications,
please contact our Signal Integrity Group at [email protected].
Additional information concerning test conditions and procedures is located in the appendices of this report. Further information may be obtained by contacting our Signal
Integrity Group at [email protected].
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:8
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Appendix A – Frequency Domain Response Graphs
Single-Ended Application – Insertion Loss
PCB/Conne ctor Te s t Sys te m
Single Ende d Application
Se rie s QSS-01 / QTS-03
1
Insertion Loss (dB)
0
-1
-2
-3
-4
single ended
-5
-6
-7
-8
-9
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Single-Ended Application – Return Loss
PCB/Conne ctor Te s t Sys te m
Single Ende d Application
Se rie s QSS-01 / QTS-03
0
-10
Return Loss (dB)
-20
-30
-40
single ended
-50
-60
-70
-80
-90
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:9
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Single-Ended Application – NEXT
PCB/Conne ctor Te s t Sys te m
Single Ende d Application
Se rie s QSS-01 / QTS-03
Near-End Crosstalk (dB)
0
-10
-20
-30
-40
w orst case
-50
best case
-60
across ground blade
-70
-80
-90
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Single-Ended Application – FEXT
PCB/Conne ctor Te s t Sys te m
Single Ende d Application
Se rie s QSS-01 / QTS-03
0
Far-End Crosstalk (dB)
-10
-20
-30
-40
w orst case
-50
best case
-60
across ground blade
-70
-80
-90
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:10
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – Insertion Loss
PCB/Conne ctor Te s t Sys te m
Diffe re ntial Application
Se rie s QSS-01 / QTS-03
1
Insertion Loss (dB)
0
-1
-2
-3
dif f erential
-4
-5
-6
-7
-8
-9
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Differential Application – Return Loss
PCB/Conne ctor Te s t Sys te m
Diffe re ntial Application
Se rie s QSS-01 / QTS-03
0
-10
Return Loss (dB)
-20
-30
-40
dif f erential
-50
-60
-70
-80
-90
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:11
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – NEXT
PCB/Conne ctor Te s t Sys te m
Diffe re ntial Application
Se rie s QSS-01 / QTS-03
0
Near-End Crosstalk (dB)
-10
-20
-30
-40
w orst case
-50
best case
-60
across ground blade
-70
-80
-90
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Differential Application – FEXT
PCB/Conne ctor Te s t Sys te m
Diffe re ntial Application
Se rie s QSS-01 / QTS-03
0
Far-End Crosstalk (dB)
-10
-20
-30
-40
w orst case
-50
best case
-60
across ground blade
-70
-80
-90
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Frequency (GHz)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
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Fax: 812-948-5047
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High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Appendix B – Time Domain Response Graphs
Single-Ended Application – Input Pulse
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
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High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Single-Ended Application – Impedance
Single-Ended Application – Propagation Delay
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:14
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
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High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Single-Ended Application – NEXT, “Worst Case” Configuration
Single-Ended Application – FEXT, “Worst Case” Configuration
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:15
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Single-Ended Application – NEXT, “Best Case” Configuration
Single-Ended Application – FEXT, “Best Case” Configuration
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:16
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Single-Ended Application – NEXT, Across Power/Ground Blade
Single-Ended Application – FEXT, Across Power/Ground Blade
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:17
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
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High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – Input Pulse
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:18
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – Impedance
Differential Application – Propagation Delay
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:19
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – NEXT, “Worst Case” Configuration
Differential Application – FEXT, “Worst Case” Configuration
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:20
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – NEXT, “Best Case” Configuration
Differential Application – FEXT, “Best Case” Configuration
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:21
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Differential Application – NEXT, Across Power/Ground Blade
Differential Application – FEXT, Across Power/Ground Blade
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:22
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Appendix C – Product and Test System Descriptions
Product Description
Product samples are the 11mm (0.433”) stack height Q Strip® High Speed QSS Series
sockets P/N QSS-025-01-X-D-A and P/N QSS-050-01-X-D-A. The mating QTS Series
headers are P/N QTS-025-03-X-D-A and P/N QTS-050-03-X-D-A respectively.
Each connector structure consists of 2 rows of 25 or 50 positions mounted into a plastic
housing with a surface mount design. A conductive ground/power blade lies lengthwise
between terminal rows in the housing. The contacts are evenly spaced at a.635mm
(.025”) pitch
Test System Description
The Test fixtures are composed of a 4-layer FR-4 material with 50Ω and100Ω signal
trace and pad configurations designed for the electrical characterization of Samtec hispeed connector products. The pictured fixtures are specific to the QSS/QTS series
connector and are identified by Samtec P/N PCB-100245-TST-01 and P/N PCB100245-TST-02 (Figure 1)
Figure 1 Mated PCB Test Fixture with Mounted Test Connectors
Terminated onto P/N PCB-100245-TST-01 (Figure 2) are three QSS socket series connectors. The 25 position (Rt.) standard connector is setup for characterizing single
ended type signals (GSG). The 50 position connector (Lt.) characterizes differential
type signals(GSSG). The 16 pair connector pictured in the middle characterizes differential pairs with specified grounded terminals or in a totally open pin field fashion.
However, test results from this connector type are documented in a separate report
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:23
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Figure 2 (Lt. to Rt.) QSS-050-01-X-D-A, QSS-016-01-X-D-A, QSS-025-01-X-D-A
P/N PCB-100245-TST-02 accepts the QTS terminal connectors (Figure 3) and is designed to mate with PCB-100245-TST-01. Design differences are that signal traces
propagate through the board through via's to signal trace and probing pads located on
the opposite side from the connector. QTS trace transitions can be observed on the top
board of Figure 1.
Figure 3 (Lt. to Rt.) QTS-050-03-X-D-A, QTS-016-03-X-D-A, QTS-025-03-X-D-A
Test point signal paths coincide with each other upon mating and are marked accordingly. Single ended 25 position signal terminal paths are J4, J7, J8, J46 and J48. Differential signal terminal paths for the 50 position connector are J4_6, J9_11, J10_12,
J78_80 and J82_84. All signal paths are for monitoring through or adjacent signaling
test conditions with the exception of the J7 and J9_11. These conditions are setup for
monitoring signal conditions across the terminal rows.
Both the single-ended and differential fixtures “J” number represents each terminal’s
designated position within the connector. Signals can be launched or received from either the socket or header side of the connector. All data and waveforms presented in
the report are results from a socket side signal launch.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:24
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Appendix D – Test and Measurement Setup
Test instruments are a Tektronix CSA8000 Communication Signal Analyzer Mainframe
and the Agilent 8720ES Vector Network Analyzer. Four bays of the CSA8000 are occupied with three Tektronix 80E04 TDR/Sampling Heads and one Tektronix 80E03
Sampling Head. For this series of tests, four of the eight TDR/Sampling Head capability
is used (Figure 4). The 8720ES serves as a supporting test instrument for verification
or troubleshooting results obtained from the TDA Systems IConnect Software package.
IConnect is a TDR based measurement software tool used in generating frequency domain related responses from high speed interconnects.
The probe stations illuminated video microscopy system, microprobe positioners, and
40GHz capable probes provide both the mechanical properties and electrical characteristics for obtaining the precise signal launch and calibrations that are critical in obtaining
accurate high speed measurements. The 450 micron pitch probes are located to PCB
launch points with 25X to 175X magnification and XYZ fine positioning adjustments
available from both the probe table and micro-probe positioners. Electrically the microwave probes rate a < 1.0 dB insertion loss, a < 18 dB return loss, and an isolation of 38
dB to 40 GHz (Figure 4). Test cables and interconnect adapters are high quality and
insure high-bandwidth and low parasitic measurements.
Figure 4 – Probe Station Measurements Capability
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:25
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Test Instruments
QTY Description
1
Tektronix CSA8000 Communication Signal Analyzer
3
Tektronix 80E04 Dual Channel 20 GHz TDR Sampling Module
1
Tektronix 80E03 Dual Channel 20 GHz Sampling Module
1
Agilent 8720ES Vector Network Analyzer, 50 MHz to 20 GHz
Measurement Station Accessories
QTY Description
1
GigaTest Labs Model (GTL3030) Probe Station
4
GTL Micro-Probe Positioners
2
Picoprobe by GGB Ind. Model 40A GSG (single ended applications)
2
Picoprobe by GGB Ind. Dual Model 40A GSG-GSG (differential applications)
1
Keyence VH-5910 High Resolution Video Microscope
1
Keyence VH-W100 Fixed Magnification Lens 100 X
1
Keyence VH-Z25 Standard Zoom Lens 25X-175X
1
CS-9 GSG Picoprobe Calibration Substrate (U9450.sq)
1
CS-11 GS-SG Picoprobe Calibration Substrate (U11450.sq)
Figure 5 – 40 GHz High Performance Microwave Probes
Test Cables & Adapters
QTY Description
4
Micro-Coax Cable Assembly 48” 3.5mm Male to 3.5mm Female, 26.5 GHz
(IL = .33 dB@ 10 GHz)
2
Huber-Suhner Cable Assembly 36” SMA Female to SMA Female 26.5 GHz
(IL = .34 dB @ 10 GHz)
4
Pasternack Precision Adapters, 3.5 mm Male to 2.9(K) Male,
Max.VSWR 1.25 @ 34GHz
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:26
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Appendix E - Frequency and Time Domain Measurements
It is important to note before gathering measurement data that TDA Systems IConnect
measurements and CSA8000 measurements are virtually the same measurements with
diverse formats. This means that the operator, being extremely aware, can obtain SI
time and frequency characteristics in an almost simultaneous fashion.
Since IConnect setup procedures are specific to the frequency information sought, it is
mandatory that the sample preparation and CSA8000 functional setups be consistent
throughout the waveform gathering process. If the operators test equipment permits
recall sequencing between the various test parameter setups, it insures IConnect functional setups remain consistent with the TDR/TDT waveforms previously recorded. Related time and frequency test parameter data recorded for this report were gathered simultaneously.
Frequency (S-Parameter) Domain Procedures
Frequency data extraction involves two steps that first measure the frequency related
time domain waveform followed by post-processing of the time domain waveforms into
loss and crosstalk response parameters versus frequency. The first step utilizes the
Tektronix CSA8000 time based instrument to capture frequency related single-ended or
differential signal types propagating through an appropriately prepared SUT. The second step involves a correlation of the time based waveforms using the TDA Systems
IConnect software tool to post-process these waveforms into frequency response parameters. TDA Systems labels these frequency related waveform relationships as the
Step and DUT reference. This report establishes the setup procedures for defining the
Step and DUT reference for frequency parameters of interest. Once established, the
Step and DUT references are post-processed in IConnect’s S-parameter computations
window.
CSA8000 Setup
Listed below are the CSA 8000 functional menu setups used for single-ended and differential frequency response extractions. Both signal types utilize I-Connect software
tools to generate S-parameter upper and lower frequency boundaries along with the
step frequency. These frequency boundaries are determined by a time domain instruments functional settings such as window length, number of points and averaging capability. Once window length, number of points and averaging functions are set, maintain
the same instrument settings throughout the extraction process.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:27
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
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High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Vertical Scale:
Offset:
Horizontal Scale:
Max. Record Length:
Averages:
Single-Ended Signal
100 mV/ Div:
Default / Scroll
1nSec/ Div = 20 MHz step
frequency
4000 = Min. Resolution
≥ 128
Differential Signal
100 mV/ Div:
Default / Scroll
1nSec/ Div = 20 MHz step
frequency
4000 = Min. Resolution
≥ 128
Insertion Loss
SUT Preparation – Use J8 or J4 signal paths to establish single ended waveforms and
J10_12 or J4_6 signal paths to establish differential waveforms (Figure 1) Adjacent
transmission paths are terminated 50Ω to GND single-ended or 100Ω differential.
Step Reference - Establish this waveform by making a TDT transmission measurement
that includes all cables, adapters, and probes connected in the test systems transmission path. The transmission path is completed by inserting a negligible length of transmission standard (Figure 5) between the microwave probes.
DUT Reference - Establish this waveform by making an active TDT transmission measurement that includes all cables, adapters, and probes connected in the test systems
transmission path. Manually insert the SUT between the probes in place of the transmission standard (Figure 5).
Return Loss
SUT Preparation – Use J8 or J4 signal paths to establish single ended waveforms and
J10_12 or J4_6 signal paths to establish differential waveforms (Figure 1) Adjacent
transmission paths are terminated 50Ω to GND single-ended or 100Ω differential.
Step Reference - Establish the waveform by making an active TDR reflection measurement that includes all cables, adapters, and probes connected in the test systems electrical path to the open standard.
DUT Reference - Establish the waveform by making a TDT (matched) transmission
measurement that includes all cables, adapters, and probes connected in the test systems transmission path (Figure 5). Cables and adapters located on the far-end of the
inserted SUT providing a resistive load impedance that matches the test system input
impedance condition. (i.e.; 50Ω single-ended or 100Ω differential)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:28
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Near-End Crosstalk (NEXT)
SUT Preparation - Establish 50Ω to GND terminations at J4, J7, J8, J46, & J48 on the
PCB (-02) terminal fixture. Establish 50Ω to GND terminations or 100Ω across signal
paths at J4_6, J9_11 , J10_12, J78_80 & J82_84 on the PCB (-02) terminal fixture (Figure 3).
Step Reference - Establish this waveform by making an active measurement that includes all cables, adapters, and probes connected in the test systems electrical path to
the open standard.
DUT Reference - Establish these waveforms by driving an active signal line (i.e.; J8)
and recording the TDR coupled energy at the adjacent near-end (i.e.; J4). Maintain
same procedures to establish the waveforms for worse case, best case, and across row
(xrow) crosstalk conditions. These conditions are present for both single-ended and differential configurations.
Far-End Crosstalk (FEXT)
SUT Preparation - Establish 50Ω to GND terminations at J4, J7, & J46 on the PCB (-01)
socket fixture (Figure 2) and at J8 & J48 of the PCB (-02) terminal fixture (Figure 3).
Differential paths are terminated 50Ω to GND or 100Ω across signal paths at J4_6,
J9_11, & J78_80 on the PCB (-01) socket fixture (Figure 2) and at J1012 & J82_84 of the
PCB (-02) terminal fixture (Figure 3)
Step Reference - Establish this waveform by making a TDT transmission measurement
that includes all cables, adapters, and probes connected in the test systems transmission path. The transmission path is completed by inserting a negligible length of transmission standard (Figure 5) between the microwave probes.
DUT Reference - Establish these waveforms by driving an active signal line (i.e.; J8)
and recording the TDR coupled energy at the adjacent near-end (i.e., J4). Maintain
same procedures to establish the waveforms for worse case, best case, and across row
(xrow) crosstalk conditions. These conditions are present for both single-ended and differential configurations.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:29
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Time Domain Procedures
Measurements involving digital type pulses are performed utilizing either Time Domain
Reflectometer (TDR) or Time Domain Transmission (TDT) methods. For this series of
tests, TDR methods are employed for the impedance and propagation delay measurements. Crosstalk measurements utilize TDT methods. The Tektronix 80E04 TDR/ Sampling Head provide both the signaling type and sampling capability necessary to accurately
and fully characterize the SUT.
Impedance
The signal line(s) of the SUT’s signal configuration is energized with a TDR pulse. The
far-end of the energized signal line is terminated in the test systems characteristic impedance (e.g.; 50Ω or 100Ω terminations). By terminating the adjacent signal lines in
the test systems characteristic impedance, the effects on the resultant impedance
shape of the waveform is limited.
Propagation Delay
This connector series uses the fastest edge rate (30ps) of the TDR impedance waveform to measure propagation delay. . Differential or single ended signal delay is the
measured difference of propagation between the known signal trace length delay and
the delay of the mated SUT. The measurement is a one-way propagation result. Termination of the adjacent signal lines into the test systems characteristic impedance eliminate alternate current paths providing for better measurement accuracy.
Crosstalk
An active pulsed waveform is transmitted through a selected SUT signal line. The adjacent quiet signal lines are monitored for the coupled energy at the near-end and far-end.
Active and quiet lines not being monitored are terminated in the test systems characteristic impedance. Signal lines adjacent to the quiet lines remain terminated on both ends
throughout the test sequence. Failing to terminate the active near or far end, quiet
lines, or in some cases, signal lines adjacent to the quiet line may have an effect on
amplitude and shape of the coupled energy.
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:30
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved
High Speed Characterization Report
Series: QSS / QTS
Description: Parallel Board-to-Board, 0.635mm Pitch, 11mm (0.433”) Stack Height
Appendix F – Glossary of Terms
BC – Best Case crosstalk configuration
DP – Differential Pair signal configuration
DUT – Device under test; TDA IConnect reference waveform
FEXT – Far-End Crosstalk
GSG – Ground–Signal-Ground; geometric configuration
NEXT – Near-End Crosstalk
PCB – Printed Circuit Board
SE – Single-Ended
SI – Signal Integrity
SUT – System under test
TDR – Time Domain Reflectometry
TDT – Time Domain Transmission
WC – Worse Case crosstalk configuration
Xrowse – Cross ground/ power bar crosstalk, single-ended signal
Xrowdiff – Cross ground/ power bar crosstalk, differential signal
Z – Impedance (expressed in ohms)
Samtec Inc.
520 Park East Blvd.
New Albany IN 47151-1147 USA
©Samtec, Inc. 2005
WWW.SAMTEC.COM
1-800-SAMTEC-9 (US & Canada)
[email protected]
Page:31
Phone: 812-944-6733
Fax: 812-948-5047
Report Revision: 5/12/2005
All Rights Reserved