Compliance and Characterization Solution for Sampling Scopes

100GBASE-KR4, 100GBASE-CR4, & CAUI-4 Datasheet

定價範圍

-

更多資訊:

線上參閱:

IEEE 802.3bj (100GBASE-KR4/100GBASE-CR4) and IEEE 802.3bm (CAUI-4) Electrical Equivalent Time Transmitter Compliance and Characterization Solution

The Tektronix Equivalent Time Instrument based 100GBASE-KR4/100GBASE-CR4 or CAUI-4 Transmitter Characterization automation system provides turnkey testing and debug of three of the 100G Ethernet industries most common electrical interfaces. As silicon designers need to perform 100GBASE-KR4 and 100GBASE-CR4 validation of their silicon, and system designers need to perform 100GBASE-CR4 and CAUI-4 validation, these three tools are brought together in a single 100G-TXE (Electrical Transmitter Validation) package.

100G-TXE application package is an automated compliance and characterization solution for IEEE 100GBASE-KR4, 100GBASE-CR4, and IEEE CAUI-4 users. This package operates on DSA8300 sampling instrument with 80E09B or 80E10B electrical acquisition modules and 82A04B Phase Reference module. The 100G-TXE loads the required Bessel Thomson roll-off filter which constrains the channel requirements to IEEE mandated 33 GHz, 3 dB point. The unique lower noise levels of the DSA8300 sampling architecture supports key signal to noise and distortion ratio (SNDR) measurement, the result of which is attained with the highest possible margin on the DSA8300 system. The 100G-TXE solution is also available on Real Time Scope (DPO70KSX and 70KDX series).

Key features
  • 100G-TXE offers streamlined and fully automated transmitter characterization of 802.3bj’s 100GBASE-KR4/100GBASE-CR4 electrical transmitter specifications, as well as 802.3bm CAUI-4 specification.
  • Extends 80SJNB for analysis and debug into 100GBASE-KR4/100GBASE-CR4 and CAUI-4 1.

1CAUI-4 is also known as CAUI.

Applications
  • Measurements of electrical transmitter on 25+ Gb/s PAM2 NRZ lanes
  • Validation of 100GBASE-KR4/100GBASE-CR4 and CAUI-4 

IEEE 802.3bj (100GBASE-KR4) Electrical Transmitter Measurements fully automated

Mapping of TP0a 100GBASE-KR4 measurement
Parameter Subclause reference Value Units
Signaling rate 93.8.1.2  25.78125±100 ppm GBd
Differential peak-to-peak output voltage (max)
Transmitter disabled 93.8.1.3  30  mV
Transmitter enabled 93.8.1.3  1200  mV
DC common-mode output voltage (max) 93.8.1.3  1.9  V
DC common-mode output voltage (min) 93.8.1.3  V
AC common-mode output voltage (RMS, max) 93.8.1.3  12  mV
Output waveform
steady-state voltage (max) 93.8.1.5.2  0.6  V
steady-state voltage (min) 93.8.1.5.2  0.4  V
Linear fit pulse peak (min) 93.8.1.5.2  0.71 x vf V
Normalized coefficient step size (min) 93.8.1.5.4  0.0083  -
Normalized coefficient step size (max) 93.8.1.5.4  0.05  -
Pre-cursor full-scale range (min) 93.8.1.5.5  1.54  -
Post-cursor full-scale range (min) 93.8.1.5.5  -
Signal-to-noise-and-distortion ratio (min) 93.8.1.6  27  dB
Output jitter (max)
Even-odd jitter 93.8.1.7  0.035  UI
Effective bounded uncorrelated jitter, peak-to-peak 93.8.1.7  0.1  UI
Effective total uncorrelated jitter, peak-to-peak 93.8.1.7  0.18  UI


Thumbnail


Transmitter test fixture and test points

IEEE 802.3bj (100GBASE-CR4) Electrical Transmitter Measurements fully automated

Mapping of TP2 100GBASE-CR4 measurement
Parameter Subclause reference Value Units
Differential peak-to-peak output voltage (max) with Tx disabled 92.8.3.1  35  mV
DC common-mode output voltage (max) 92.8.3.1  1.9  V
AC common-mode output voltage, vcmi (max., RMS) 92.8.3.1  30  mV
Differential peak-to-peak voltage, vdi (max.) 92.8.3.1  1200  mV
Transmitter waveform
Transmitter steady-state voltage, vf (min.) 92.8.3.5.2  0.34  V
Transmitter steady-state voltage, vf (max.) 92.8.3.5.2  0.6  V
Linear fit pulse peak (min.) 92.8.3.5.2  0.45 × vf V
Transmitted waveform
abs coefficient step size (min.) 92.8.3.5.4  0.0083  -
abs coefficient step size (max.) 92.8.3.5.2  0.05  -
minimum precursor full-scale ratio 92.8.3.5.5  1.54  -
minimum post cursor full-scale ratio 92.8.3.5.5  -
 
Signal-to-noise-and-distortion ratio (min.) 92.8.3.5.7  26  dB
Output jitter (max.)
Even-odd jitter, peak-to-peak 92.8.3.8.1  0.035  UI
Effective bounded uncorrelated jitter, peak-to-peak 92.8.3.8.2  0.1  UI
Effective total uncorrelated jitter, peak-to-peak 92.8.3.8.2  0.18  UI
Signaling rate, per lane 92.8.3.9  25.78125±100 ppm GBd
Unit interval nominal 92.8.3.9  38.787879  ps

Thumbnail


Transmitter test fixture and test points

IEEE 802.3bm (CAUI-4) Electrical Transmitter Measurements fully automated

Mapping of TP1a CAUI-4 measurement
Parameter Subclause reference Value Units
Signaling rate per lane (range) 83E.3.1.1  25.78125 ± 100 ppm GBd
DC common-mode output voltage (max) 83E.3.1.2  2.8  V
DC common-mode output voltage (min) 83E.3.1.2  –0.3  V
Single-ended output voltage (max) 83E.3.1.2  3.3  V
Single-ended output voltage (min) 83E.3.1.2  –0.4  V
AC common-mode output voltage (max, RMS) 83E.3.1.2  17.5  mV
Differential peak-to-peak output voltage (max)
Transmitter disabled 83E.3.1.2  35  mV
Transmitter enabled 83E.3.1.2  900  mV
 
Eye width (min) 83E.3.1.6  0.46  UI
Eye height A, differential (min) 83E.3.1.6  95  mV
Eye height B, differential (min) 83E.3.1.6  80  mV
Transition time (min, 20% to 80%) 83E.3.1.5  10  ps
Mapping of TP4 CAUI-4 measurement
Parameter Subclause reference Value Units
Signaling rate per lane (range) 83E.3.1.1  25.78125 ± 100 ppm GBd
AC common-mode output voltage (max, RMS) 83E.3.1.2  17.5  mV
Differential output voltage (max) 83E.3.1.2  900  mV
Eye width (min) 83E.3.2.1  0.57  UI
Eye height, differential (min) 83E.3.2.1  228  mV
Vertical eye closure (max) 83E.4.2.1  5.5  dB
Transition time (min, 20% to 80%) 83E.3.1.5  12  ps
DC common mode voltage (min) 1 83E.3.1.2  –350  mV
DC common mode voltage (max) 1 83E.3.1.2  2850  mV

Thumbnail


Transmitter test fixture and test points

Host Control Board (HCB) and Module Control Board (MCB) are for test point TP1a and TP4 respectively.

1DC common mode voltage is generated by the host. Specification includes effects of ground offset voltage.

Electrical System Interconnect Setup

Direct electrical connections via a precision fixture or 2.92mm interconnects are the preferred method to access the backplane and cabled signals. The QSFP28 module interconnect point found on 100GBASE-CR4 and CAUI-4 designs is the most typical signal access point.


Thumbnail


Refer to Wilder Technologieswww.wilder-tech.com/qsfp-28-kits.htmfor details regarding the various methods of signal break-out.

100GBASE-KR4/100GBASE-CR4 Measurement Selection

The setup and test execution are simple with the 100G-TXE software. The oscilloscope acquisition and analysis are all controlled through the 100G-TXE automation solution. The Graphical User Interface (GUI) provides an intuitive and easily repeatable workflow for setup and testing.


Thumbnail


TekExpress ® 100GBASE-KR4 measurement setup

Design characterization is supported beyond 100GBASE-KR4/100GBASE-CR4/CAUI-4 compliance requirements for all measurements. TekExpress 100G-TXE offers flexible control over test configurations such as analysis windows and other parameters. User defined mode lets customers make changes to the test limits, and perform marginal testing beyond compliance.

User Defined mode

Users can configure global parameters, test specific parameters, measurement repeat parameters, and notification parameters in user defined mode. This supports characterization measurements rather than developing custom lab setups, reducing testing time and complexity.


Thumbnail


Reports & Measurement Results


Thumbnail



Thumbnail



Thumbnail



Thumbnail



Thumbnail



Thumbnail


Last Modified: 2017-01-27 04:00:00
下載
下載

下載手冊、產品規格表、軟體等等:

Go to top