Revision History. Agilent Technologies E5071C
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The Agilent Technologies E5071C is a versatile network analyzer that combines excellent performance with wide frequency coverage, making it ideal for a range of applications in the electronics industry. It offers precise and efficient vector network analysis with frequency ranges of up to 20 GHz, allowing you to analyze and troubleshoot complex circuits and devices with accuracy. With its superior dynamic range and high sensitivity, the E5071C enables reliable characterization of even the most demanding designs.
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Agilent MOI for MHL Cables Compliance Tests
1.
Revision History
Revision Comments
1.00 Initial Revision.
Issue Date
Feb. 15, 2013
2.
Purpose
This test procedure was written to explain how to use the Agilent ENA Option TDR to make the cable measurements required per MHL (Mobile High-definition Link)
Specification Version 2.0.
3.
References
MHL (Mobile High-definition Link) Specification Version 2.0 (Feb. 2012)
MHL (Mobile High-definition Link) Compliance Test Specification Revision 2.0 (Sep.
2012)
4.
Required Equipments
1.
E5071C ENA Series Network Analyzer
Option 480 or 485 (8.5 GHz) / 4D5 (14 GHz) / 4K5 (20 GHz)
Option TDR (Enhanced time domain analysis)
2.
Test Fixture
Wilder Technologies MHL-TPA-R-WOC (Source)
Wilder Technologies MHL-TPA-R-WOSI (Sink)
3.
4-port ECal Module
N4431B (for E5071C-480 or 485)
N4433A (for E5071C-4D5 or 4K5)
4.
Coaxial RF cables
5.
50 Ohm terminators (ex. Agilent 909D-301)
4
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Table of contents
- 4 Revision History
- 4 Purpose
- 4 References
- 4 Required Equipments
- 5 Test Procedure
- 5 Outline of Test Procedure
- 7 Instrument Setup
- 7 Recalling a State File
- 8 Saving a State File
- 9 Calibration
- 9 Time Domain Calibration
- 12 Frequency Domain Calibration
- 15 Measurement
- 15 Differential Intra-Pair Skew
- 16 Common-mode Intra-Pair Skew
- 17 Differential Characteristic Impedance
- 17 Common-mode Characteristic Impedance
- 18 CBUS Cable Delay
- 19 Differential Insertion Loss
- 19 Common-mode Insertion Loss
- 20 Differential to Common-mode Conversion
- 21 CBUS Insertion Loss
- 21 CBUS Line Capacitance
- 23 Far-End Crosstalk
- 26 [Appendix] Manual Setup
- 26 Channel & Trace Setup
- 27 Differential Intra-Pair Skew
- 27 Parameter Setup
- 28 Crosstalk Compensation
- 29 Common-Mode Intra-Pair Skew
- 29 Parameter Setup
- 30 Crosstalk Compensation
- 30 Differential Characteristic Impedance
- 31 Common-Mode Characteristic Impedance
- 32 CBUS Cable Delay
- 32 Common Parameters Setup for Frequency-domain Measurements
- 33 Differential Insertion Loss
- 33 Common-Mode Insertion Loss
- 33 Differential and Common-mode Conversion
- 34 CBUS Insertion Loss
- 34 Far-End Crosstalk
- 34 CBUS Line Capacitance
- 35 Defining Limit Line Tables