Our idea is to encapsulate protocols such as PCIe, USB, Radar, Lidar etc..

This translates to a wireless (ZigBee, WiFi, DECT, GSM ...) or wired (twisted pair, PLC, ethernet, USB, ...) interface.        

. · CableLabs, co-author of CableHome architecture · Authored/led DOCSIS host based CM spec · Chaired USB-DWG communications device class WG, authored Ethernet section · Authored/lead DOCSIS USB attach spec · ACPI/OnNow: co-authored power managed comm. specs, led ad-hoc WGs · TIA / TR-29 Facsimile (Class 1,2 DCE, BFT) contributions · Company affiliation: Intel R&D · Diverse set of balanced interests (silicon, systems, wireless, wired, …) · Substantial presence in wireless research (UWB) · Management has committed my resources required to fill this role · Technical focus area in 15.3a: UWB MAC, application stacks (peripherals) · Key Strengths · Proven ability to lead industry standards efforts · Quote in review re: industry leadership: “ … seemingly endless patience to calmly keep pushing in a focused direction despite divergent opposition ” · Technical breadth: SW, HW, systems, platform architecture / development Michael Dydyk, Motorola · No biography available at this time Kerry Greer, SkyCross · Qualifications: Mr.

Mon Protocol Logic BIST 10 USB Register Segmentation and Power domain control DC Input Review 1149.1-2013 - Standard Test Access Port and Boundary Scan architecture "Boundary Scan" has always been a misnomer, it's only a part of the standard.

. · CableLabs, co-author of CableHome architecture · Authored/led DOCSIS host based CM spec · Chaired USB-DWG communications device class WG, authored Ethernet section · Authored/lead DOCSIS USB attach spec · ACPI/OnNow: co-authored power managed comm. specs, led ad-hoc WGs · TIA / TR-29 Facsimile (Class 1,2 DCE, BFT) contributions · Company affiliation: Intel R&D · Diverse set of balanced interests (silicon, systems, wireless, wired, …) · Substantial presence in wireless research (UWB) · Management has committed my resources required to fill this role · Technical focus area in 15.3a: UWB MAC, application stacks (peripherals) · Key Strengths · Proven ability to lead industry standards efforts · Quote in review re: industry leadership: “ … seemingly endless patience to calmly keep pushing in a focused direction despite divergent opposition ” · Technical breadth: SW, HW, systems, platform architecture / development Michael Dydyk, Motorola · No biography available at this time Kerry Greer, SkyCross · Qualifications: Mr.

To supply power other devices beyond the USB 10W power range .

To supply power other devices beyond the USB 10W power range .

To supply power other devices beyond the USB 10W power range .

The apple IPod can be charged from a USB charger, it does not require apple to change their connector on the product, just the connector on the other end of the charging cable.  

Take for example USB-PD.

 SAS – to mass storage  USB – peripherals interconnect, 90 ohms Zdiff  QPI & DDR get highest priority  If they don’t need higher cost materials, then none get them  Future platform DDR4, QPI and PCIe requirements encourage use of lossy materials to mitigate reflections on short channels.

Unmodulated CW signal USB Cable Adapter d Shielded enclosure (Sits on 2 cm of insulating material) BCI probe calibrated as per Annex A of ISO 11452-4 to 50 mA (substitution method) Sweep with BCI probe 45 cm from the PHY platform (d = 45 cm), 30 MHz to 400 MHz The DUT PHY transmitter and echo canceller are disabled (quiet) while the receiver is set for continuous ADC buffer capture.

Unmodulated CW signal USB Cable Adapter d Shielded enclosure (Sits on 2 cm of insulating material) BCI probe calibrated as per Annex A of ISO 11452-4 to 50 mA (substitution method) Sweep with BCI probe 45 cm from the PHY platform (d = 45 cm), 30 MHz to 400 MHz The DUT PHY transmitter and echo canceller are disabled (quiet) while the receiver is set for continuous ADC buffer capture.

4/21/2015 4 Common-Mode Impulse Noise Event Measurement Test Setup ● Set scope channel (500 MHz BW) sampling rate to 1.0 Gsps for switch arc events or 2.5 Gsps for ESD events, and 10000 samples memory capture depth (4 usec span for ESD events or 10 usec span for switch arc events) ● Verify stray coupling is below –20 dB by comparing reference BBQ igniter noise measurements both with and without attached test channel cable ● Cable channel under test is 7ft Cat 5e UTP ● Impulse capture threshold controlled by scope trigger level (set to ~50 mV) Control Computer (PC with GPIB) Digital Storage Oscilloscope (Tektronix TDS 3052B) USB-to-GPIB RJ45 Cable channel under test (Cat 5e/6/6A UTP with connectors, L = 1 to 100 meters) CM-DM Termination Block RJ45 Shielded far-end termination (100  Differential-mode and 50  Common-mode for all four pairs) All unused pairs terminated with 50  Shielded RJ45-to-SMA Breakout/ Termination Board 50  50  Power Splitter 50  50  External (anti-alias) low-pass filter (f 3dB = 440 MHz) Mini-Circuits SLP-450 GPIB Optional connector Optional connector 0-degree splitter for common-mode (Mini-Circuits ZFSC-2-4-S+) 100  differential 61 46 31 Ferrite clamps 61 46 31 61 46 31 All coaxial cables are double shielded BBQ Igniter 25 to 50 cm ESD impulse noise from BBQ igniter used to check stray noise coupling of test setup 4/21/2015 5 Implementation of Measurement Test Setup 4/21/2015 6 Comparison of Common-Mode vs Differential ESD-Based Impulse Noise Measurements from Cubicle (After 220 MHz Lowpass Filter) Cat 5e UTP Description of Event Peak-to-peak voltage (mV) Time span (nsec) Peak-to-peak voltage (mV) Time span (nsec) Metal Tool Contact at 50cm After Walking on Carpet 1475.74 536.0 39.75 71.2 Metal Tool Contact at 100cm After Walking on Carpet 630.29 336.0 39.83 62.8 Metal Tool Contact at 50cm After Sitting in Chair 4387.20 536.8 100.27 83.6 Metal Tool Contact at 100cm After Sitting in Chair 2453.33 163.2 98.28 92.0 Hand Contact to Guest Chair Frame at 100cm 1004.93 528.4 85.58 216.8 Tool Contact to Guest Chair Frame at 100cm 2833.74 634.0 113.83 190.0 Tool Contact to Metal Shelf at 150cm After Sitting in Chair 2727.44 366.4 52.08 164.0 Mesh Desk Chair Internal ESD at 1m 1332.52 268.4 107.42 52.8 Note: The common-mode and differential-mode values shown for each event are not from the same identical impulse noise event.

Thanks to the wide adoption of USB for low > power products, I actually get annoyed when I get yet another USB power > supply with my product. 

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r7 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 2 August 2004 Source [Gerald W.

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r9 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 2 August 2004 Source [Gerald W.

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r10 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 3 August 2004 Source [Gerald W.

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r8 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 2 August 2004 Source [Gerald W.

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r11 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 27 August 2004 Source [Gerald W.

USB in consumer devices does not allow them to peer with each other.

USB in consumer devices does not allow them to peer with each other.

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r5 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 15 July 2004 Source [Gerald W.

Orlando TG3a Minutes March, 1994 DOC: IEEE P802.11-94/xxx July 2004 IEEE P802.15-04/377r6 IEEE P802.15 Wireless Personal Area Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Consolidation of Explanations for No Vote on Confirmation Date Submitted 15 July 2004 Source [Gerald W.

Microsoft Word - Memory ChannelPARv1.doc 9/12/2004 Bob Davis Summit Computer Systems, Inc. 1 of 5 The Memory Channel PAR Justification Bob Davis Summit Computer Systems, Inc.