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Digital Design & Interconnect Standards
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- Application Note (45)
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1-25 of 45
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Agilent Method of Implementation (MOI) for 10GBASE-T Ethernet Cable Tests
Agilent Method of Implementation (MOI) for 10GBASE-T Cable Tests Using Agilent E5071C ENA Option TDR
Application Note 2013-05-21 |
PDF
2.13 MB
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USB 2.0 Compliance Testing with Infiniium Oscilloscopes - Application Note
This Application Note discusses the Agilent solution for the USB 2.0 test suite. The Agilent solution is the only one-box solution that uses the official USB-IF scripts for precompliance ans compliance testing.
Application Note 2013-05-10 |
PDF
2.02 MB
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Method of Implementation (MOI) for HDMI 1.4b Cable Assembly Test
Method of Implementation (MOI) for HDMI 1.4b Cable Assembly Test Using Agilent E5071C ENA Network Analyzer Option TDR.
Application Note 2013-04-24 |
PDF
2.02 MB
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Agilent Method of Implementation (MOI) for DisplayPort Cable-Connector Assembly Compliance Test
Agilent Method of Implementation (MOI) for DisplayPort Cable-Connector Assembly Compliance Test Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2013-02-18 |
PDF
1.29 MB
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Agilent Method of Implementation (MOI) for MHL Cables Compliance Tests
Agilent Method of Implementation (MOI) for MHL Cable Compliance Tests Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2013-02-14 |
PDF
1.76 MB
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Agilent Method of Implementation (MOI) for USB3.0 Cable-Connector Assembly Compliance Test
Agilent Method of Implementation (MOI) for USB3.0 Cable-Connector Assembly Compliance Test Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2012-12-17 |
PDF
1.82 MB
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Evaluating Oscilloscope Sample Rates vs. Sampling Fidelity
Evaluating Oscilloscope Sample Rates vs. Sampling Fidelity: How to Make the Most Accurate Digital Measurements When you select an oscilloscope for accurate, high-speed digital measurements, sampling fidelity can often be more important than maximum sample rate.
Application Note 2012-11-11 |
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Frequency Domain Analysis of Jitter Amplification in Clock Channels
Clock channel jitter amplification factor in terms of transfer function or S-parameters is derived. Amplification is shown to arise from smaller attenuation in jitter lower sideband than in the fundamental. Amplification scaling with loss is obtained.
Application Note 2012-11-01 |
PDF
257 KB
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Agilent Method of Implementation (MOI) for PCI Express 3.0 PCB Differential Trace Impedance Test
Agilent Method of Implementation (MOI) for PCI Express 3.0 PCB Differential Trace Impedance Test Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2012-10-16 |
PDF
1.62 MB
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Explore the SERDES Design Space Using the IBIS AMI Channel Simulation Flow
Simulation of modern chip-to-chip links requires you abandon the SPICE-based approach and adopt a new approach based on an IBIS AMI channel simulation flow.
Application Note 2012-09-21 |
PDF
467 KB
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Crossing the Digital-Analog Divide - White Paper
This white paper helps to better understand how to cope with the physical nature of signals that we might prefer to think of as bits, nibbles and bytes, let's start with an ideal digital waveform.
Application Note 2012-05-02 |
PDF
6.46 MB
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Which Electromagnetic Simulator Should I Use?
This paper outlines three of the key EM simulation technologies, MoM, FEM, FDTD and attempt to compare and contrast the relative merits of each.
Application Note 2012-04-06 |
PDF
3.21 MB
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Simulating FPGA Power Integrity Using S-Parameter Models
This application note describes how self-impedance (frequency) can easily be determined by simulating the frequency domain self-impedance profile of a Power Distribution Network (PDN).
Application Note 2012-04-02 |
PDF
5.68 MB
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6 Hints for Better SATA and SAS Measurements
These 6 Hints for better SATA and SAS measurements cover Tx, Rx, Impedance and Return Loss, and Host/Device Digital testing challenges.
Application Note 2012-02-02 |
PDF
1.59 MB
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SATA II Drive TX/RX Testing & Cable SI Testing Using the 86100C DCA-J (PN 86100-8)
Due to the inherent limitations of parallel
technology, SATA is expected to replace parallel ATA everywhere, and expand the use of ATA-based technology in the entry server and network storage market segments.
Application Note 2012-01-31 |
PDF
2.73 MB
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Effective Reflection Characterization for Active Devices Using ENA Option TDR Application Note
This application note describes Hot TDR measurement, which is an effective characterization method for the reflection of transmitter and receiver.
Application Note 2012-01-12 |
PDF
416 KB
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Agilent Method of Implementation (MOI) for MIPI D-PHY Conformance Tests
Agilent Method of Implementation (MOI) for MIPI D-PHY Conformance Tests Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2011-12-01 |
PDF
920 KB
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Agilent Method of Implementation (MOI) for MIPI M-PHY Conformance Tests
Agilent Method of Implementation (MOI) for MIPI M-PHY Conformance Tests Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2011-12-01 |
PDF
918 KB
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Simulating High-Speed Serial Channels with IBIS-AMI Models
This paper reviews some of the benefits and limitations of using IBIS models and introduces the new AMI extensions to the latest IBIS version 5.0 specification.
Application Note 2011-11-15 |
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Measurement Uncertainty of VNA based TDR/TDT Measurement Application Note
This application note explains the theory of measurement uncertainty in TDR/TDT measurement with the ENA Option TDR.
Application Note 2011-07-08 |
PDF
1.77 MB
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MOI for SATA PHY, TSG and OOB Tests
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Application Note 2011-01-20 |
PDF
7.10 MB
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Agilent Method of Implementation (MOI) for SATA RXTX Compliance Test
Agilent Method of Implementation (MOI) for SATA RXTX Compliance Test Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2011-01-12 |
PDF
1.19 MB
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Agilent Method of Implementation (MOI) for SATA SI Compliance Test
Agilent Method of Implementation (MOI) for SATA SI Compliance Test Using Agilent E5071C ENA Network Analyzer Option TDR
Application Note 2011-01-12 |
PDF
1.41 MB
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An Overview of the Electrical Validation of 10BASE-T, 100BASE-TX, and 1000BASE-T
The technology used in these ports, commonly known as “LAN” or “NIC” ports, is usually one of the 10BASE-T, 100BASE-TX, and 1000BASE-T standards or a combination of them.
Application Note 2011-01-11 |
PDF
1.21 MB
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Using ADS for Signal Integrity Optimization
This white paper shows how to replace a multi-dimensional sweep of a long running PRBS time-domain simulation (including manual data evaluation) by short, channel-pulse characterization in the Advanced Design System to efficiently optimize a channel.
Application Note 2009-10-19 |
PDF
275 KB
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