xx
DSA8300 Digital Serial Analyzer,
80C00 Series Optical Sampling Modules,
80E00 Series Electrical Sampling Modules,
80A00 Modules
ZZZ
Specifications
Technical Reference
*P077057102*
077-0571-02
xx
DSA8300 Digital Serial Analyzer,
80C00 Series Optical Sampling Modules,
80E00 Series Electrical Sampling Modules,
80A00 Modules
ZZZ
Specifications
Technical Reference
www.tektronix.com
077-0571-02
Copyright © Tektronix. All rights reserved. Licensed software products are owned by Tektronix or its subsidiaries
or suppliers, and are protected by national copyright laws and international treaty provisions.
Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication
supersedes that in all previously published material. Specifications and price change privileges reserved.
TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.
Contacting Tektronix
Tektronix, Inc.
14150 SW Karl Braun Drive
P.O. B o x 5 0 0
Beaverto
USA
For product information, sales, service, and technical support:
n, OR 97077
In North America, call 1-800-833-9200.
Worl dwid e, vis it www.tektronix.com to find contacts in your area.
Warranty
Tektronix warrants that this product will be free from defects in materials and workmanship for a period of one (1)
year from the date of shipment. If any such product proves defective during this warranty period, Tektronix, at its
option, either will repair the defective product without charge for parts and labor, or will provide a replacement
in exchange for the defective product. Parts, modules and replacement products used by Tektronix for warranty
work may be n
the property of Tektronix.
ew or reconditioned to like new performance. All replaced parts, modules and products become
In order to o
the warranty period and make suitable arrangements for the performance of service. Customer shall be responsible
for packaging and shipping the defective product to the service center designated by Tektronix, w ith shipping
charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a location within
the country in which the Tektronix service center is located. Customer shall be responsible for paying all shipping
charges, duties, taxes, and any other charges for products returned to any other locations.
This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage
result
b) to repair damage resulting from improper use or connection to incompatible equipment; c) to repair any damage
or malfunction caused by the use of non-Tektronix supplies; or d) to service a product that has been modified or
integrated with other products when the effect of such modification or integration increases the time or difficulty
of servicing the product.
THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECT TO THE PRODUCT IN LIEU OF ANY
OTHER WARRANTIES, EXPRESS OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY
IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
TRONIX' RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE
TEK
AND EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.
TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL, INCIDENTAL,
OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HAS
ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.
[W2 – 15AUG04]
btain service under this warranty, Customer must notify Tektronix of the defect before the expiration of
ing from attempts by personnel other than Tektronix representatives to install, repair or service the product;
Table of Contents
Preface ............................................................................................................. vii
Manual structure............................................................................................. vii
Manual conventions .............. ................................ .................................. ......... vii
Related doc
DSA8300 specifications ............ ................................ ................................ ............... 1
80E00 electrical sampling modules specifications ............................................................. 13
80C00 optical sampling modules specifications ............................................................... 23
80A02 EOS/ESD protection module specifications ......................................................... 100
80A05 Electrical Clock Recovery module specifications................................................... 102
umentation............... ................................ .................................. ..... vii
DSA8300, 80A00, 80C00, 80E00 specifications i
Table of Contents
List of Figure
s
ii DSA8300, 80A00, 80C00, 80E00 specifications
List of Tables
Table 1: DSA8300 - signal acquisition specifications.......................................................... 1
Table 2: DSA8300 - t
Table 3: DSA8300 - trigger specifications.............. .................................. ....................... 4
Table 4: DSA8300 - trigger - phase correction modes (mainframe with 82A04/B phase reference module)
specifications .............................. .................................. ................................ ... 6
Table 5: DSA8300 - Display specifications .......... ................................ ........................... 8
Table 6: DSA8300 - Ports .... ................................ .................................. ................... 8
Table 7: DSA8300 - Data storage ................................................................................ 9
Table 8: DSA8300 - Power consumption, fuses, and cooling ................................................. 9
Table 9: DSA8300 - mechanical................................................................................. 10
Table 10: DSA8300 - Environmental
Table 11: 82A04/B Phase Reference module - mechanical................................................... 12
Table 12: Electrical sampling modules – signal acquisition . ..... . ..... . ... . . ..... . ..... . ..... . ..... . ..... . .. 13
Table 13: Electrical sampling modules (80E04, 80E08/B, and 80E10/B TDR sampling modules) – TDR
system................ ................................ .................................. ........................ 18
Table 14: Electrical sampling modules – phase reference mode ............................................. 20
Table 15: Electrical sampling modules – timebase system
Table 16: Electrical sampling modules – power consumption ................... ............................ 22
Table 17: Electrical sampling modules – mechanical ..... ................................ .................... 22
Table 18: Optical modules – descriptions....................................................................... 23
Table 19: Optical modules: inputs............................................................................... 31
Table 20: Optical modules: Effective wavelength range, typical
Table 21: Optical modules: calibrated wavelengths ........................................................... 33
Table 22: Optical modules: polarization dependence ....... ................................ .................. 33
Table 23: Optical modules: dark level .......................................................................... 33
Table 24: Optical modules: main instrument display vertical scale factors................... .............. 34
Table 25: Optical modules: vertical offset range .............................................................. 35
Table 26: Optical modules: DC vertical accuracy, typical
Table 27: Optical modules: DC vertical difference accuracy, typical
Table 28: Optical modules: offset capabilities ..... . ..... . ..... . ..... . ..... . ... . . ..... . ..... . ..... . ..... . ..... . 38
Table 29: Optical modules: minimum optical bandwidth
Table 30: Optical modules: rise time, typical .................................................................. 41
Table 31: Optical modules: time domain vertical response aberrations, typical ........................... 46
Table 32: Vertical equivalent optical noise (max and typical), 80C01 through 80C10
Table 33: Optical modules: vertical equivalent optical noise (maximum and typical), 80C11 through
80C25BGE ............ ................................ ................................ ........................ 51
Table 34: 80C10C: Data, Data
Table 35: 80C10C: effective clock recovery optical sensitivity (Opt CRTP only) ..... . ... . . ..... . ..... . .. 53
Table of Contents
imebase specifications .................................................................... 2
1
........................ ................................ .................. 11
................................................... 21
1
........................................... 32
1
........................ .......................... 35
1
........................ .............. 37
1,2
................................................. 39
1
................... 48
output....................... .................................. .................. 53
DSA8300, 80A00, 80C00, 80E00 specifications iii
Table of Contents
Table 36: 80C15
Table 37: 80C15: Effective clock recovery optical sensitivity (Opt CRTP only) ..... . ..... . ..... . .... . . .. 54
Table 38: Optical modules: reference receiver frequency response ......................................... 55
Table 39: 16GFC (14.025 Gb/s) reference receiver setting frequency response, warranted . . ..... . ... . . . 66
Table 40: 16GFC r6.1 (FC14025) data filter setting frequency response, warranted . . ..... . . ..... . ..... . . 67
Table 41: INF14063 data filter setting frequency response, warranted ..... . ... . . . .... . ..... . ..... . ..... .... 68
Table 42: FEC12.50 G b/s (FEC12500) reference receiver setting frequency response, w arranted .. . ... 69
Table 43: FEC 43.02 Gb/s reference receiver setting frequency response, warranted... . . .... . ..... . ..... 70
Table 44: FEC 43.02 Gb/s reference receiver setting frequency response (80C10C, Opt F1, F3 only),
warranted ...................... .................................. ................................ .............. 71
Table 45: ENET2500 (2 GBE) 2.50 Gb/s reference receiver setting frequency response, warranted... . 72
Table 46: INF2500, INFINIBAND (2.5 Gb/s) reference receiver setting frequency response,
warranted ...................... .................................. ................................ .............. 73
Table 47: INF5000 (5.0 Gb/s) reference receiver setting frequency response, warranted... . . .... . ..... . . 74
Table 48: ENET1250 (GBE) 1.25 Gb/s reference receiver setting frequency response, warranted . . .... 75
Table 49: FC1063 (1.0625 Gb/s) reference receiver setting frequency response, warranted ..... . ..... .. 76
Table 50: FC2125 (2.125 Gb/s) reference receiver setting frequency response, warranted............... 77
Table 51: FC4250 (4.25 Gb/s) reference receiver setting frequency response, warranted .... . ..... . ..... 78
Table 52: FC8500 (8.5Gb/s) Filter setting frequency response, warranted .. . ..... . ..... . ..... . ..... . ..... . 79
Table 53: FC8500FINAL (8.5Gb/s) reference receiver setting frequency response, warranted ..... . .... 80
Table 54: VSR-5 (3.318 Gb/s) reference receiver setting frequency response, warranted ..... . ..... . .... 81
Table 55: OBSAI 6.144 Gb/s (OBSAI6144) reference receiver setting frequency response, warranted 82
Table 56: CPRI 7.373 Gb/s (CPRI7373) reference receiver setting frequency response, warranted.... . 83
Table 57: 32 GHz reference receiver setting frequency response for 32 Gb/s NRZ, warranted . ..... . ... 84
Table 58: 28.05 GHz reference receiver setting frequency response for 28.05 Gb/s NRZ, warranted... 85
Table 59: OTU-4 (OTU27952) reference receiver Setting Frequency Response for 27.952 Gb/s,
warranted ...................... .................................. ................................ .............. 86
Table 60: 22 GHz filter setting frequency response for 28.05 Gb/s NRZ (OTU-4, 32GFC), warranted
(80C15 only) .................................................................................................. 87
Table 61: 25.781 GHz filter setting frequency response for 28.05 Gb/s NRZ (100GBASE-xR4, INF25781),
warranted (80C15 only) ...................... .................................. .............................. 88
Table 62: Optical power meter................................. ................................ .................. 88
Table 63: Optical modules - Clock recovery options (CR, CR1, CR2, CR3, CR4, CRTP) ............... 89
Table 64: Optical modules - Mechanical ....................................................................... 98
Table 65: Optical modules (all) - Environmental .......... .................................. .................. 99
Table 66: 80A02 - Electrical ................................................................................... 100
Table 67: 80A02 - Environmental and mechanical ........................ .................................. 100
Table 68: 80A05 - Module characteristics.................................................................... 102
Table 69: 80A05 - Environmental specifications ........................ ................................ .... 104
Table 70: 80A05 - Mechanical specifications .... ................................ ............................ 104
Table 71: 80A05 - Product family electromagnetic compatibility (EMC) . . ..... . ..... . ..... . ..... . ..... . 104
Table 72: 80A05 - Product family dynamics ................................................................. 105
:Data,Data
output......... .................................. ................................ .. 54
iv DSA8300, 80A00, 80C00, 80E00 specifications
Table of Contents
Table 73: 80A05
- Product family atmospherics............................................................. 105
DSA8300, 80A00, 80C00, 80E00 specifications v
Table of Contents
vi DSA8300, 80A00, 80C00, 80E00 specifications
Preface
Manual structure
This manual contains the specifications and performance verification procedures
for the DSA8300 Digital Serial Analyzer, the extender cables, and the modules
that can be in
NOTE. The 80A03 instruction manual contains its own specifications and
servicing information.
Read this preface to learn how this manual is structured, what conventions it uses,
and where you can find other information related to this product.
This manual is divided into chapters that are made up of related subordinate
topics. These topics can be cross referenced as sections.
Be sure to read the introductions to all procedures. These introductions provide
important information needed to do the service correctly, safely, and efficiently.
stalled in this instrument (except the 80A03 module).
Manual conventions
Modules
Related documentation
This manual uses certain conventions that you should become familiar with
before attempting service.
Throughout this manual, the term module appears. A module is composed of
electrical and mechanical assemblies, circuit cards, interconnecting cables, and a
user-accessible front panel. References to a module are different than references to
products such as “Sampling modules”, “Phase Reference modules”, or “Accessory
modules”, which are products installed in the instrument compartments or on
extender cables.
The following d
DSA8300 Digital Serial Analyzer Quick Start User Manual. Tekt ron ix part
number 071-2897-XX.
DSA8300 Digital Serial Analyzer Service Manual. Tektronix part number
071-2049-XX.
DSA8300 Digital Serial Analyzer Help. Installed with the application software
and accessed from the instrument Help menu.
ocuments relate to the instrument this manual supports:
DSA8300, 80A00, 80C00, 80E00 specifications vii
Preface
DSA8300 Digita
accessed from the instrument Help menu.
80E01, 80E02,
Manual. Tektronix part number 071-0434-XX.
80C00 and 80
Manual, Tektronix part number 0 71-3059-XX.
80A02 EOS/E
071-1317-XX
80A03 TekC
number 071-1298-XX.
80A05 Ele
number 071-1467-XX.
DSA8300
and TDS8000B Rackmount Kit Instructions. Tektronix part number
071-0696-XX.
80N01 Extender Cable Instructions. Tektronix part number 071-2037-XX
, DSA8200, CSA8200, CSA8000, CSA8000B, TDS8200, TDS8000,
l Serial Analyzer Programmer Guide. An online document
80E03, 80E04, and 80E06 Electrical Sampling Modules User
E00 Series Electrical and Optical Sampling Modules User
SD Protection Module Instructions. Tektronix part number
onnect Probe Interface Module Instructions. Tektronix part
ctrical Clock Recovery Module User Manual. Tektronix part
viii DSA8300, 80A00, 80C00, 80E00 specifications
DSA8300 specifications
NOTE. This specification is for the DSA8300 mainframe (instrument); the
specificatio
module compartments of the DSA8300 front panel are included later in this
document.
This section contains the specifications for the DSA8300 Digital Serial Analyzer.
NOTE. The 82A04/B Phase Reference modules affect the DSA8300 mainframe
specifica
DSA8300 mainframe specifications.
ns for the optical, electrical, and other modules that insert in the
tions; therefore, the 82A04/B module specifications are part of the
All spec
ifications are guaranteed unless noted as "typical." Typical specifi cations
are provided for your convenience but are not guaranteed. Specifications that are
marked with the
symbol are checked in the DSA8300 Digital Serial Analyzer
Performance Verifi cation Technical Reference manual.
All specifications apply to the instrument and sampling modules unless noted
otherwise. To meet specifications, these conditions must first be met:
The instrument must have been calibrated/adjusted at an ambient temperature
between +10 °C and +40 °C.
The instrument must have been operating continuously for 20 minutes within
the operating temperature range specified.
The instrument must be in an environment w ith temperature, altitude,
humidity, and vibration within the operating limits described in these
specifications.
NOTE. "Sampling Interface" refers to both the small module compartments and
he large module compartments, unless otherwise specified.
t
Table 1: DSA8300 - signal acquisition specifications
Description Characteristics
Number of input channels
Number of small sampling module
compartments
Number of large sampling module
compartments
Small Sampling Module Interface Tekprobe-Sampling Level 3. Hot switching is not permitted on this interface.
Large Sampling Module Interface Tekprobe-Sampling Level 3. Hot switching is not permitted on this interface.
8 acquisition channels, maximum.
4 compartments, 2 channels per compartment, for a total of 8 channels1.
2 compartments, for a total of 4 channels1.
DSA8300, 80A00, 80C00, 80E00 specifications 1
DSA8300 specifications
Table 1: DSA8300 - signal acquisition specifications (cont.)
Description Characteristics
Compartment assignments and
conflict resolution
Compartment utilization Supports the 80xxx and 82xxx nomenclated modules, including P hase Reference modules.
Real time accessory interface Small and large slots support TekProbe-SMA, Levels 1 and 2, on modules equipped with
Vertical sensitivity ranges
Vertical operating r ange
Vertical number of digitized bits 16 bits at TekProbe-Sampling interface.
Offset capabilities Open loop offset mode is supported at TekProbe-Sampling interface.
Offset range –1.6 V to +1.6 V maximum at TekProbe-Sam pling interface. May be limited to a s maller range
1
Total channels ≤8.
Population of the Ch 1 / Ch 2 large compartment with any module (other than one requiring
power only) displaces functionality of the Ch 1 / Ch 2 small compartment.
Population of the Ch 3 / Ch 4 large compartment with any module (other than one requiring
power only) displaces functionality of the Ch 3 / Ch 4 small compartment.
front-panel probe connectors.
TekConnect probes are supported with 80A03 accessory for all small slot modules. Hot
switching is permitted on this real time accessory interface.
10 mV to 1 V full scale at TekProbe-sampling interface. May be scaled according to sampling
module scaling characteristics and attached real-time probes.
–1.6 V to +1.6 V at TekProbe-sampling interface. May be scaled according to sampling module
scaling characteristics and attached real-time probes,
.
and scaled according to sampling module offset and scaling characteristics.
Table 2: DSA8300 - timebase specifications
Description Characteristics
Horizontal modes
Mainframe Supports Free Run mode, Edge triggered mode, Clock Trigger mode and TDR m ode. The
10 MHz reference may be internal or external for TDR mode only.
Mainframe with 82A04/B Supports Legacy Free Run and triggered modes.
Sampling rate
Mainframe (regular modes) DC–200 kHz maximum, dictated by trigger rate and actual holdoff setting. If trigger rate is
less than the maximum, or the requested holdoff exceeds the minimum, the trigger rate and/or
holdoff determines the sampling rate.
TDR operation allows manual setting to 300 kHz.
Mainframe with 82A04/B
(phase corrected modes)
Record length
1
Horizontal scale range
Horizontal position range
Mainframe
DC–200 kHz maximum, one channel. If trigger rate is less than the maximum, or the requested
holdoff exceeds the minimum, the trigger rate and / or holdoff determines the sampling rate.
20, 50, 100, 250, 500, 1000, 2000, 4000, 8000, and 16000 samples.
100 fs/div to 5 ms/div in 1, 2, 5 steps, or 100 fs increments.
50 ms maximum.
2 DSA8300, 80A00, 80C00, 80E00 specifications
DSA8300 specifications
Table 2: DSA8300 - timebase specifications (cont.)
Description Characteristics
Mainframe with 82A04/B Range is determined by the following formula, where (f) equals the reference clock frequency:
Horizontal resolution
Horizontal position setting
resolution
Time interval accuracy
Edge triggered mode, front
panel edge trigger source
Edge triggered mode, front
panel edge trigger source
(typical)
Clock Other mode, front
panel clock source
Clock Other mode, front panel
clock source (typical)
Clock Eye mode, front
panel clock source
Clock Eye mode, front panel
clock source (typical)
TDR mode, locked to
external 10 MHz reference
TDR mode, locked to external
10 MHz reference (typical)
Timing accuracy
Random phase corrected
mode (typical)
-18
62.5 as (attoseconds; 10
10 fs minimum.
Strobe placement accuracy for a given horizontal interval and position. (Contribution from
80E04 sampling module is included in the specification.)
For 100 or more tests performed over specified interval, Horizontal scale > 20 ps/div,
right-most point of measurement interval <150 ns:
Mean accuracy is 0.1% of specified interval or better
Standard deviation is ≤1.5 ps
For 100 or more tests performed over specified interval, Horizontal scale ≤20 ps/div, right-most
point of measurement interval <150 ns:
Mean accuracy = 1 ps +0.5% of interval, typical
For 100 or more tests performed over specified interval, Horizontal scale >20 ps/div, right-most
point of measurement interval <150 ns:
Mean accuracy = 0.1% of specified interval or better
Standard deviation is ≤3ps
For 100 or more tests performed over specified interval, Horizontal scale ≤20 ps/div, right-most
point of measurement interval <150 ns:
Mean Accuracy = 1 ps + 0.5% of interval, typical
For 100 or more tests performed over a given interval, standard deviation is ≤1.5 ps
For 100 or more tests performed over a given interval, standard deviation = 0.1 ps typical
For 100 or more tests performed over specified interval, Horizontal scale >20 ps/div, right-most
point of measurement interval <150 ns:
Mean accuracy = 0.01% of specified interval or better
Standard deviation is ≤1.5 ps
For 100 or more tests performed over specified interval, Horizontal scale ≤20 ps/div, right-most
point of measurement interval <150 ns:
Mean accuracy = 0.01% of specified interval
Mainframe equipped with 82A04/B
Maximum timing deviation 0.2% of phase reference signal period, relative to phase reference
signal
Assumes that phase reference frequency has been correctly entered. Operation of the
phase reference clock at frequencies requiring extended bandwidth or signal conditioning
may require an instrument option
)minimum.
DSA8300, 80A00, 80C00, 80E00 specifications 3
DSA8300 specifications
Table 2: DSA8300 - timebase specifications (cont.)
Description Characteristics
Triggered phase corrected
mode (typical)
Maximum timing deviation relative to phase reference signal:
0.2% of phase reference s ignal period typical for measurements made >40 ns after trigger
event
0.4% of phase reference signal period typical for measurements made ≤40 ns after trigger
event
Assumes that phase reference frequency has been correctly entered. Operation of the
phase reference clock at frequencies requiring extended bandwidth or signal conditioning
may require an instrument option
Horizontal deskew range and resolution
Mainframe
–500 ps to +100 ns on any individual channel in 1 ps increments
Mainframe with 82A04/B Deskew range extends over the full clock cycle of the phase reference.
1
The total number of samples contained in a single acquired waveform record (memory length in IEEE 1057, 2.2.1).
2
80E02 sampling module is included in this specification.
Table 3: DSA8300 - trigger specifications
Descri
ption
Charac
teristics
Trigger sources
Mainframe Clock Input/Prescale Trigger (front panel)
ger Direct Input (front panel)
Trig
Free run trigger
TDR
and right large slot internal pattern clock (with appropriately equipped large slot modules)
Left
nframe with 82A04/B
Mai
ase reference signal may be applied to the instrument, when equipped with an 82A04B
Aph
Phase Reference module, to provide additional phase information for signals acquired in
Triggered Phase Corrected modes and primary phase information for signals acquired in
e R un Phase Corrected modes.
Fre
Two bandwidth options are available for the 82A04/B and may be required over specific
frequency ranges of operation:
e base product has an 8 GHz – 25 GHz range of operation.
Th
Option 60G extends the upper frequency range of operation to 60 GHz.
djustable 5 μs to 2 ms in 1 ns increments.
Variable trigger hold off range and
resolution
ront Panel Edge Trigger
F
A
Applies only to front panel edge trigger operation and Clock Other trigger mode.
Front Panel triggering on signal applied to dedicated front panel connector with Holdoff, Level
Adjust, High Frequency On/Off
Mode
Input characteristics
±Slope select
Normal mode: Wait for edge trigger
50 Ω input resistance, DC coupled
Edge + mode: Triggers on positive-slewing edge
Edge - mode: Triggers on negative-slewing edge
4 DSA8300, 80A00, 80C00, 80E00 specifications
DSA8300 specifications
Table 3: DSA8300 - trigger specifications (cont.)
Description Characteristics
Noise reject on/off select Noise Reject Off mode: Removes trigger hysteresis and improves sensitivity. Should be
used when trigger slew rate exceeds 1 V/ns
Noise Reject On Mode: Retains trigger hysteresis and improves noise rejection at low slew
rates
Input range
Maximum operating trigger
signal
Level range Adjustable between ±1.0 V
Sensitivity
Level resolution 1 mV
Level accuracy
Delay jitter
Minimum pulse width, typical 167 ps
Real time accessory interface TekProbe-S MA , Levels 1 and 2. Hot switching is permitted on this real time accessory interface
Front panel clock trigger
Capabilities and conditions,
typical
Input characteristics, typical
Absolute maximum input,
typical
Sensitivity and usable range
Clock pattern lengths
supported
Delay jitter, Clock Other
mode
Delay jitter, Clock Eye mode
±1.5 V (DC + peak AC) maximum input voltage
1 Vpp (the maximum amplitude trigger signal input for maintaining calibrated time base
operation)
100 mVpp, DC – 3 GHz
(50mVtypical,DC–4GHztypical)
50 mV + 0.10 * Level
1.5 ps RMS + 10 ppm of horizontal position, or better
(1.1 ps RMS + 5 ppm of horizontal position typical)
Clock triggering on signal applied to dedicated front panel connector.
50 Ω AC coupled input resistance
Fixedoffsetatzerovolts
If using a real time accessory on the front panel CLOCK TRIGGER/PRESCALE INPUT
connector, the accessory offset is fixedatzerovolts.
1.1 Vpp
200 mVpp to 1000 mVpp over the range 800 MHz - 15 GHz, slew rate ≥ 2V/ns
(150 mVpp to 1000 mVpp over the range 150 MHz - 20 GHz, typical)
2to223(8,388,608) inclusive
1.4 ps RMS + 10 ppm of horizontal position, or better
(900 fs RMS + 5 ppm of horizontal position, typical)
800 MHz ≤ f
1.25 GHz ≤ f
11.2 GHz ≤ f
< 1.25 GHz: 900 fs RMS or better
CLOCK
< 11.2 GHz: 500 fs RMS or better
CLOCK
< 15 GHz: 600 fs RMS or better
CLOCK
DSA8300, 80A00, 80C00, 80E00 specifications 5
DSA8300 specifications
Table3:DSA8300-triggerspecifications (cont.)
Description Characteristics
Delay jitter, Clock Eye mode,
typical
Trigger, TDR mode rates
150 MHz ≤ f
400 MHz ≤ f
800 MHz ≤ f
1.25 GHz ≤ f
11. 2 GHz ≤ f
< 400 MHz: 900 fs RMS or better
CLOCK
< 800 MHz: 800 fs RMS or better
CLOCK
< 1.25 GHz: 720 fs RMS or better
CLOCK
< 11.2 GHz: 375 fs RMS or better
CLOCK
< 20 GHz: 425 fs RMS or better
CLOCK
Rates from 25 kHz to 300 kHz internally provided to edge trigger, to TDR stimulus drives in
small sampling module interfaces, and to TDR Clock Out on front panel
1
The input resistance at the external direct trigger input and the maximum input voltage.
2
Maximum signal input for maintaining calibrated time base operation.
3
Section 4.10.2 in IEEE standard number 1057. The minimum signal levels required for stable edge triggering of an acquisition.
Table 4: DSA8300 - trigger - phase correction modes (mainframe with 82A04/B phase reference module) specifications
Description Characteristics
Phase c orrection capabilities and
conditions
Number of phase reference module
inputs
Phase reference input connector Precision 1.85 mm female connector (V).
Phase reference module input
characteristics (typical)
Phase reference module input
dynamic range (nonclipping)
Phase reference module input
maximum nondestruct range
Phase reference module input
signal level
Phase reference mode jitter Triggered and Free Run Phase Corrected Modes, 8 GHz – 60 GHz clock, 600 mV – 1.8 V
A phase reference signal may be applied to a DSA8300 equipped with the 82A04/B Phase
Reference m odule to provide additional phase information for signals being acquired in
Triggered Phase Corrected modes and primary phase information for signals being acquired
in Free Run Phase Corrected modes. For Phase Corrected Triggered modes, the phase
correction functionality overlays the functionality of the basic trigger operation, although
restrictions may be imposed.
One per 82A04/B module. Up to three 82A04/B modules may be inserted in the small
compartments of the DSA8300 and characterized to operate with one or more vertical
sampling module(s); only one phase correction module at a time can be used.
A 2.4 mm male to 2.92 mm (K) female adapter is provided as a standard accessory to provide
connection to 3.5 mm compatible male connectors.
50 Ω AC coupled through 5 pF
82A04/B optional filter accessories may alter both the input characteristics and the vertical
signal ranges of the Phase Correction input. The specifications listed herein apply to the direct
module input only and do not include the effect of any filters.
2V
(offset ±1000 mV)
p-p
±3 V maximum
600 mV
input: 100 fs
to 1.8 V
p-p
to achieve typical specified jitter performance
p-p
or better.
RMS
p-p
Triggered and Free Run Phase Corrected Modes, 2 GHz – 8 GHz sine wave clock, 600 mV –
1.8 V
input: 200 fs
p-p
RMS
or better.
The jitter increase between 8 GHz and 2 GHz is roughly inversely proportional to the clock
frequency.
Operation of the phase reference clock at frequencies requiring extended bandwidth or signal
conditioning may require an optional filter accessory.
6 DSA8300, 80A00, 80C00, 80E00 specifications
DSA8300 specifications
Table 4: DSA8300 - trigger - phase correction modes (mainframe with 82A04/B phase reference module) specifications
(cont.)
Descriptio
Phase refer
compensation temperature
range (typical)
Phase reference module input
operating frequency
n
ence module
Characteri
±5 °C where c
If compartment is changed on mainframe, or if a sampling module extender is employed, or
the length of the sampling module extender is changed, the Phase R eference module must
be recompe
With 82A0
With 82A 04/B-60G : 8 GHz to 60 GHz
stics
ompensation was performed.
nsated.
4/B: 8 GHz to 25 GHz
DSA8300, 80A00, 80C00, 80E00 specifications 7
DSA8300 specifications
Table 4: DSA8300 - trigger - phase correction modes (mainframe with 82A04/B phase reference module) specifications
(cont.)
Descriptio
Phase refer
operating frequency (typical)
n
ence module input
With 82A04/B 2 GHz to 25 GHz usable range
With 82A04/B-60G 2 GHz to 60 GHz usable range. Operation below 8 GHz requires the use of external filters
Characteri
Operation below 8 GHz requires the use of external filters, as follows:
2 GHz to 25 GHz settable range.
as note
2 GHz to 110 G Hz settable range.
stics
2 GHz – 4 GHz: requires 2.2 GHz peaked lowpass filter kit, Tektronix part number
020-2566
4GHz–6GH
6GHz–10
020-2568-00
-00
z: requires 4 GHz lowpass filter kit, Tektronix kit part number 020-2567-00
GHz: requires 6 GHz filter lowpass filter kit, Tektronix kit part number
d for the standard 82A04.
Table 5: DSA8300 - Display specifications
Specifications Characteristics
Display type
Display resolution 1024 horizontal by 768 vertical pixels.
Pixel pitch
Pressure-sensitive touch screen
210.4 mm (wide) x 157.8 mm (high), 263 mm (10.4 inch) diagonal, liquid crystal active matrix
color display (LCD).
Pixels are 0.2055 mm (horizontal) and 0.2055 mm (vertical).
A pressure sensitive touch screen pointing device is mounted on top of and supporting
the 10.4” color display. Resolution is 10 b it. It is s et up as a Windows pointing device and
emulates a USB mouse. Can be set up for single or double click. A stylus is included.
Table 6: DSA8300 - Ports
Specifications Characteristics
Video output
Serial port Two each, 9-pin D-subminature serial-port connectors using NS16C550 compatible UARTs
Keyboard and mouse interface PS/2 compatible connectors.
LAN interface RJ-45 LAN connector supporting 10BASE-T, 100BASE-T, and Gigabit Ethernet.
External audio connectors
USB interface USB 2.0 high speed connectors (front and rear panels).
GPIB interface Complies with IEEE 488.2.
DVI-I connector on the rear panel. Useable as the second monitor. Video is DDC2B compliant.
supporting transfer speeds up to 115.2 kbits/sec.
External audio jacks for MIC IN, LINE OUT
8 DSA8300, 80A00, 80C00, 80E00 specifications
DSA8300 specifications
Table 6: DSA8300 - Ports (cont.)
Specifications Characteristics
Internal clock trigger out
Square wave output from 50 Ω back termination synchronized to the TDR internal clock drive
signal. Refer to Trigger System - Internal Clock.
Typical performance into 50 Ω termination:
–0.20 to +0.20 V low level
+0.90 to +1.10 V high level
DC calibration output DC voltage from low impedance drive, programmable to 1 mV over ±1.25 V range maximum
into 50 Ω termination.
DC calibration output accuracy
DC calibration output accuracy
0.2 mV + 0.1% into 50 Ω
0.1 mV + 0.1% into 50 Ω
(typical)
External 10 MHz reference input 500 mV
p-p
to5V
AC coupled into 1 kΩ, ±5 V maximum
p-p
Table 7: DSA8300 - Data storage
fications
Speci
/DVD drive capacity
CD-RW
Hard disk drive capacity
cteristics
Chara
, DVD+/-R, D VD+/-R DL, DVD+RW, DVD-RW Multi Drive, mounted on front panel
CD-RW
bytes
160 G
Table 8: DSA8300 - Power consumption, fuses, and cooling
Specifications Characteristics
Source voltage and frequency Range for the line voltage needed to power the instrument within which the instrument meets
its performance requirements
±10%, 50/60 Hz
RMS
Fuse rating
100-240 V
115 V RMS ±10%, 400 Hz
CAT II
Current and voltage ratings and type of the fuse u sed to fuse the source line voltage
Two sizes can be used (each fuse type requires a different fuse cap):
(0.25 x 1.25 inch size): UL 198G & CSA C22.2, No. 59 Fast acting: 8 Amp, 250 V; Tektronix
part number 159-0046-00, BUSSMAN part number ABC-8, LITTLEFUSE part number 314008
(5 x 20 mm size): IEC 127, sheet 1, fast acting "F", high breaking capacity, 6.3 Amp, 250 V,
BUSSMAN part number GDA ±6.3, LITTLEFUSE part number 21606.3
DSA8300, 80A00, 80C00, 80E00 specifications 9
DSA8300 specifications
Table 8: DSA8300 - Power consumption, fuses, and cooling (cont.)
Specifications Characteristics
Power requirements (typical)
Cooling requirements Mainframe uses six fans with the fan speed regulated by internal temperature sensors.
Maximum: 600 Watts.
Fully Loaded: 330 Watts, typical.
Mainframe with keyboard and mouse, no modules: 205 Watts, typical.
An example of a fully loaded mainframe for these characteristic loads has the following optical
modules, electrical modules, and active probes installed:
one 80C11-CR4
one 80A05-10G
three 067-0387-02
one 067-0397-02
There is typically a slight 10 W deviation in the dissipation for various line conditions ranging
from 48 Hz through 400 Hz as well as operating ambient temperature
A2˝ (51 mm) clearance must be maintained on the left side and right side of the instrument.
A0.75˝ (19 mm) clearance must be maintained on the bottom of the instrument for forced
air flow intake.
Do not operate the instrument on a bench with the feet removed
Do not place any loose object underneath or nearby the instrument intake where it may be
drawn against the air vents.
No clearance is required on the front, back, and top.
Table 9: DSA8300 - mechanical
cifications
Spe
struction material
Con
Weight, mainframe 22.23 kg (49.0 lb) (keyboard, mouse, top pouch, power cord, front shield installed, and no
Weight, overall packaged
Overall dimensions, mainframe
only
Overall dimensions, packaged
mainframe
racteristics
Cha
ssis: Aluminum alloy
Cha
Cosmetic covers: PC/ABS thermoplastic
Front panel: Aluminum alloy with PC/thermoplastic overlay
dule doors: Nickel plated stainless steel
Mo
Bottom cover: Vinyl clad sheet metal
Circuit boards: Glass-laminate
odules installed)
m
5.8 kg (79 lb)
3
Height: 343 mm (13.5 in)
Width: 457 mm (18.0 in)
Depth: 419 mm (16.5 in)
The dimensions do not include feet, rack mount kit, or protruding connectors
Height: 613 mm (24.12 in)
Width: 695 mm (27.37 in)
Depth: 756 mm (29.75 in)
10 DSA8300, 80A00, 80C00, 80E00 specifications
DSA8300 specifications
Table 10: DSA83
00 - Environmental
1
Description Characteristics
Dynamics
Random vibration, operating
Random vibration,
nonoperati
ng
0.141 g
2.28 g
rom 5 to 200 Hz, 10 minutes each axis (3 axis, 30 minutes total)
,f
RMS
rom 5 to 500 Hz, 10 minutes each axis (3 axis, 30 minutes total)
,f
RMS
Atmospherics
Temperature:
Operating: +10 °C to +40 °C. (Upper rating derates to +35 °C for all sampling modules on
two-meter
extender cable 012-1569-00)
Nonoperating: –22 °C to +60 °C
Relative h
umidity:
Operating: 20% to 80% relative humidity, with a maximum wet bulb temperature of 29 °C at or
below +40 °C (upper limits derates to 45% relative humidity at +40 °C, non-condensing)
Nonopera
ting (no media in drive): 5% to 90% relative humidity, with a maximum wet bulb
temperature of 29 °C at or below +60 °C (upper limits derates to 20% relative humidity at
+60 °C, non-condensing)
Altitude:
Operating: 3,048 m (10,000 ft.)
Nonoper
ating: 12,190 m (40,000 ft.)
DSA8300, 80A00, 80C00, 80E00 specifications 11
DSA8300 specifications
Table 10: DSA8300 - Environmental1(cont.)
Description Characteristics
Electrostatic discharge
susceptibility
Meets or exceeds the EMC requirements of the following standards:
EN 61326-1 European Community Requirements
IEC 61000-4-2 Electrostatic Discharge Immunity
IEC 61000-4-3 RF Field Immunity (3 V/m, 80 MHz to 1 GHz, 80% amplitude modulated
witha1kHzsinewave)
IEC 61000-4-4 Electrical Fast Transient/Burst Immunity (1.0 kV on AC mains, 0.5 kV
on I/O cables)
IEC 61000-4-5 AC Surge (1.0 kV Differential Mode, 2.0 k V Common Mode)
IEC 61000-4-6 RF Conducted Immunity (3 V, 150 kHz to 80 MHz, amplitude modulated
witha1kHzsinewave)
IEC 61000-4-11 AC Mains Voltage Dips and Interruption Immunity
Up to 4 kV Contact Discharge
Up to 8 k V Air Discharge
Emissions
Meets or exceeds the EMC requirements of the following standards:
European Community Requirements (including EN 61326, Amendment 2)
EN55011 Class A Radiated Emissions
EN55011 Class A Conducted Emissions
EN 61000-3-2 Power Harmonic Current Emissions
EN 61000-3-3 Voltage Changes, Fluctuations & Flicker
1
Environmental specifications apply to all properly installed modules unless noted otherwise.
Table 11: 82A04/B Phase Reference module - mechanical
Specifications Characteristics
Construction material Chassis: Aluminum alloy
Front panel: Plastic laminate
Circuit boards: Glass-laminate
Cabinet sleeve and end covers: Aluminum
Weight
Overall Dimensions Height 25 mm (1.0 in.)
0.4 kg (13 oz.).
Weigh includes one each 2.4 mm to 2.92 mm adapter
Width79mm(3.1in.)
Depth 135 mm (5.3 in.)
Does not include connector, adapter, connector cover, or lock down hardware protruding
from front or rear panels
12 DSA8300, 80A00, 80C00, 80E00 specifications
80E00 electrical sampling modules specifications
80E00 electri
cal sampling modules specifications
This section
80E01 80E02 80E03
80E04 80E06
80E08/B
80E11/11X1
1
Multiple models of the module. For example, 80E07/B refers to both the 80E07 and the 80E07B modules.
Specificat
All specifications are guaranteed unless noted as "typical." Typical specifications
are provi
marked with the symbol are checked in the Performance Verification document.
All spec
To meet specifications, these conditions must first be met:
The ins
between +20 °C and +30 °C.
The in
the operating temperature range specified.
contains specifications for the following electrical sampling modules:
80E07/B
1
1
ion differences between models will be clearly marked.
80E09/B
1
80E10/B
ded for your convenience but are not guaranteed. Specifications that are
ifications apply to all electrical sampling models unless noted otherwise.
trument must have been ca librated/adjusted at an ambient temperature
strument must have been operating continuously for 20 minutes within
1
1
nstrument must be in an environment with temperature, altitude,
The i
humidity, and vibration within the operating limits described in these
specifications.
A compensation must have been performed. Recompensation is required if
a module is moved to another compartment or a module extender is added
or removed.
NOTE. For Certifications, refer to the System Specifications section. (See page 1,
DSA8300 specifications.)
Table 12: Electrical sampling modules – signal acquisition
Specifications Characteristics
Real time accessory interface Tekprobe-SMA interface is provided through the electrical sampling-module interface, one per
vertical channel (except for 82A04/B, 80E07B, 80E08B, 80E09B, 80E10B, 80E11/X1).
Number of input channels
Sampling module Channels
80E06, 80E11X1 1
80E02, 80E03, 80E04, 80E07/B, 80E08/B,
80E09/B, 80E10/B, 80E11
2
DSA8300, 80A00, 80C00, 80E00 specifications 13
80E00 electrical sampling modules specifications
Table 12: Electrical sampling modules – signal acquisition (cont.)
Specifications Characteristics
Channel input connector
Input impedance
Vertical dynamic range,
nonclipping
Vertical operating range1,
maximum
Vertical nondestruct range
2
(maximum input voltage)
Vertical number of digitized bits 16 bits full scale
Vertical sensitivity range
Vertical offset range
3
1
Compensation temperature range
(all modules)
DC vertical voltage accuracy,
single point, within ±5 °C of
compensated temperature (all
modules)
Sampling m odule
80E02, 80E 03, 80E04
80E01
80E06, 80E09/B, 80E10/B, 80E11/11X1 1.85 mm (V) female connector
80E07B, 80E 08/B 2.92 mm (K) female SMA-compatible connector
Sampling m odule
80E01, 80E02, 80E03, 80E04, 80E06
80E07/B, 80E08/B, 80E09/B, 80E10/B,
80E11/11X1
80E02, 80E03, 80E04, 80E06, 80E07/B,
80E08/B, 80E09/B, 80E10/B,
80E11/11X1 800 mV
Sampling m odule Operating range
80E01, 80E02, 80E03, 80E04, 80E06 ±1.6 V
80E07/B, 80E08/B, 80E09/B, 80E10/B,
80E11/11X1
Sampling m odule
80E01, 80E06, 80E07/B, 80E08/B,
80E09/B, 80E10/B, 80E11/11X1
80E02, 80E 03, 80E04
The range of available full scale input settings.
Sampling m odule Sensitivity r ange
80E01, 80E02, 80E03, 80E04, 80E06,
80E07/B, 80E08/B, 80E09/B, 80E10/B
80E11/11X1 8 mV to 800 mV full scale
Sampling m odule Offset range
80E01, 80E02, 80E03, 80E04, 80E06 ±1.6 V
80E07/B, 80E08/B, 80E09/B, 80E10/B,
80E11/11X1
±5 °C about temperature where compensation was performed.
If the module is m oved to another compartment on the mainframe, is installed on a m odule
extender, or the length of the sampling module extender cable is changed, the channel(s)
must be recompensated.
±2 mV <system offset>
±0.007 * (assigned offset)
±0.02 * (vertical value – assigned offset)
Input connector
3.5 mm female SMA compatible connector
2.4 mm female connector
8
Impedance
50 Ω ±0.5 Ω
50 Ω ±1 Ω
1Vpp(offset ±500 mV)
(offset ±400 mV)
pp
±1.1 V
Maximum input
±2.0 V (DC + peak AC)
±3.0 V (DC + peak AC)
10 mV to 1 V full scale
±1.1 V
14 DSA8300, 80A00, 80C00, 80E00 specifications
Table 12: Electrical sampling modules – signal acquisition (cont.)
Specifications Characteristics
DC vertical voltage deviation
from linear least squares fit(all
modules)
Analog bandwidth
Analog bandwidth
5
5
Analog bandwidth, reduced
frequency set points, typical
Rise time4,typical
±10 mV
Sampling module
80E01
80E06
80E07/B, 80E08/B DC to 30 GHz, better than ±3 dB
80E09/B DC to 60 GHz, better than ±3 dB
80E10/B DC to 50 GHz, better than ±3 dB
80E11/11X1 DC to 70 GHz, better than ±3 dB
Sampling module
80E02
80E03 and 80E04
Sampling module
80E07/B, 80E08/B 20 GHz
80E09/B, 80E10/B 30 GHz, 40 GHz
80E11/11X1 60 GHz, 40 GHz
Sampling module
Bandwidth
setting
80E01
80E02
80E03, 80E04
80E06
80E07/B, 80E08/B
N/A
N/A
N/A
N/A
30 GHz
20 GHz
80E09/B
60 GHz
40 GHz
30 GHz
80E10/B
50 GHz
40 GHz
30 GHz
80E11/11X1
70 GHz
60 GHz
40 GHz
80E00 electrical sampling modules specifications
Bandwidth
DC to 50 GHz, better than ±3 dB
DC to 65 GHz, better than ±3 dB
DC to 70 GHz, better than ±3 dB, typical
Bandwidth
12.5 GHz, typical
20 G Hz, typical
Bandwidth
Rise time
≤7ps
≤28 ps
≤17.5 ps
≤5.0 ps
11. 67 ps
17.5 ps
5.83 ps
8.75 ps
11. 67 ps
7ps
8.75 ps
11. 67 ps
5.00 ps
5.83 ps
8.75 ps
DSA8300, 80A00, 80C00, 80E00 specifications 15
80E00 electrical sampling modules specifications
Table 12: Electrical sampling modules – signal acquisition (cont.)
Specifications Characteristics
Random noise, displayed
Sampling module
80E01
80E02
80E03 and 80E04
80E06
80E07/B, 80E08/B
80E09/B
80E10/B
80E11/11X1
Bandwidth
setting
50 GHz
(fixed)
12.5 GHz
(fixed)
20 GHz
(fixed)
65 GHz
(fixed)
30 GHz
20 GHz
60 GHz
40 GHz
30 GHz
50 GHz
40 GHz
30 GHz
70 GHz
60 GHz
40 GHz
Noise
≤2.3 mV
(1.8 mV
≤800 μV
(400 μV
≤1.2 mV
(600 μV
≤2.4 mV
(≤1.8 m V
<410 μV
(<300 μV
<380 μV
(<280 μV
<600 μV
(<450 μV
<480 μV
(<330 μV
<410 μV
(<300 μV
<700 μV
(<600 μV
<480 μV
(<370 μV
<410 μV
(<300 μV
<1100 μV
(<950 μV
<600 μV
(<450 μV
<480 μV
(<330 μV
RMS
,typical)
RMS
RMS
,typical)
RMS
RMS
,typical)
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
,typical)
,typical)
,typical)
,typical)
,typical)
,typical
,typical)
,typical)
,typical)
,typical)
,typical)
,typical)
16 DSA8300, 80A00, 80C00, 80E00 specifications
Table 12: Electrical sampling modules – signal acquisition (cont.)
Specifications Characteristics
Step response aberrations7,
typical
Acquistion delay adjust range,
typical
Acquistion delay adjust range
Sampling module
80E01
80E02, 80E03, and 80E04
80E06
80E07/B, 80E08/B, 80E09/B, 80E10/B,
80E11/11X1
Sampling module
80E07, 80E08, 80E09, 80E10 ±250 ps, each channel
80E11/11X1
80E07B, 80E08B, 80E09B, 80E10B ±150 ps, each channel, relative to center value
80E00 electrical sampling modules specifications
Aberrations, step transition
±3% or less over the zone 10 ns to 20 ps
before step transition
+12%, –5% or less for the first 300 ps following
step transition
+5.5%, –3% or less over the zone 300 ps to
3 ns following step transition
±1% or less over the zone 3 ns to 100 ns
following step transition
±0.5% after 100 ns following step transition
±3% or less over the zone 10 ns to 20 ps
before step transition
+10%, –5% or less for the first 300 ps following
step transition
±3% or less over the zone 300 ps to 5 ns
following step transition
±1% or less over the zone 5 ns to 100 ns
following step transition
±0.5% after 100 ns following step transition
+ 5% or less for the first 300 ps following step
transition
At maximum sampler bandwidth setting:
±1% or less over the zone 10 ns to 20 ps
before step transition
+6%, –10% or less over the first 400 ps
following step transition
+0%, –4% or less over the zone 400 ps to 3 ns
following step transition
+1%, –2% or less over the zone 3 ns to 100 ns
following step transition
±1% or less after 100 ns following step
transition
Delay adjust range
±35 ps, each channel
(zero)
6
DSA8300, 80A00, 80C00, 80E00 specifications 17
80E00 electrical sampling modules specifications
Table 12: Electrical sampling modules – signal acquisition (cont.)
Specifications Characteristics
Acquistion delay adjust resolution
Sampling m odule
80E07, 80E08, 80E09, 80E10
80E07B, 80E08B, 80E09B, 80E10B,
80E11/11X1
1
Vertical operating range defines the maximum range over which the offset plus peak input signal can operate. The offset may be limited as a function of vertical
sensitivity and dynamic range, such that no signal exceeding the maximum operating range can be displayed.
2
Vertical nondestruct range defines the maximum range over which offset plus peak input signal can operate without irreversible damage to the instrument.
Operation to instrument specification is not guarantied outside of the vertical operating range.
3
4
5
6
7
8
nal Ranges in IEEE std 1057, section 2.2.1.
Input Sig
IEEE std 1057, section 4.8.2, Transition Duration of Step Response. The 80E01, 80E07/B, 80E08/B, 80E09/B, and 80E10/B rise time is calculated from the 0.35
bandwidth-risetime product. The 80E06 rise time is calculated from the 0.35 typical bandwidth-risetime product.
IEEE std 1057, section 4.6, Analog Bandwidth.
IEEE std 1057, section 4.8.4, Overshoot and Precursors. Step transition occurs at the point of minimum radius of the waveform curvature, after the 50%
amplitude point of the step leading edge.
When test
impulse laser (for example, the Calmar FPL-01).
Because the 2.4 mm connector of this adapter will mechanically interface with the 1.85 mm connector of the 80E06, it serves as a 1.85 mm-to-2.92 mm
connector for the 80E06 module.
ed using a V-connector equipped 50 Ω, ultrafast PIN Photodetector with greater than 50 GHz bandwidth, which is driven by an ultrafast, mode-locked
Delay adjust resolution
135 fs
Varies across adjust range; hardware allows
sub-picosecond control resolution
Table 13: Electrical sampling modules (80E04, 80E08/B, and 80E10/B TDR sampling modules) – TDR system
Specific
Number
ations
of TDR channels
TDR operation modes
TDR ma
TDR
TD
ximum input voltage
system reflectedrisetime
R incident edge amplitude,
typical
R system incident rise time,
TD
typical
1
eristics
Charact
2, one per channel
tput with positive edge polarity, negative edge polarity, and TDR off, independently
Step ou
selectable for each channel.
Specifications are not guaranteed with any DUT applying signal. Do not apply input voltage
during TDR operation.
Sampling module Reflected rise time
80E04 ≤35 ps each polarity
s, each polarity
80E08/B
≤22 p
≤20 ps, each polarity, typical
ps, each polarity
80E10/B
≤16
≤15 ps, each polarity, typical
80E04, 80E08/B, 80E10/B ±250 mV step into 50 Ω each polarity
cident rise time
Sampling m odule
0E04
8
0E08/B
8
80E10/B
In
28 ps
≤
≤18 ps, each polarity
≤12 ps, each polarity
18 DSA8300, 80A00, 80C00, 80E00 specifications
80E00 electrical sampling modules specifications
Table 13: Electrical sampling modules (80E04, 80E08/B, and 80E10/B TDR sampling modules) – TDR system (cont.)
Specifications Characteristics
TDR system step response
aberrations, incident edge
TDR incident edge delay adjust
range
TDR incident edge delay adjust
range, typical
2
Sampling module Step response aberrations
80E04
80E08, 80E10 At maximum sampler bandwidth setting, both
80E08B, 80E10B At maximum sampler bandwidth setting, both
Sampling module
80E08B, 80E10B Minimum: ±200 ps relative to center value
Sampling module
80E08/B, 80E10/B
±3% or less over the zone 10 ns to 20 ps
before step transition
+10%, –5% or less typical for the first 400 ps
following step transition
±3% or less over the zone 400 ps to 5 ns
following step transition
±1% or less after 5 ns following step
transition
polarities of TDR:
±1% or less over the zone 10 ns to 20 ps
before step transition
+25%, –2% or less over the zone 14 ps to
150 ps following step transition
+12%, –2% or less over the zone 150 ps to
400 ps following step transition
±2% or less over the zone 400 ps to 5 ns
following step transition
+1%, –2% or less over the zone 5 ns to
100 ns following step transition
±1% after 100 ns following step transition
polarities of TDR:
±1% or less over the zone 10 ns to 20 ps
before step transition
+12%, –2% or less over the zone 150 ps to
400 ps following step transition
±2% or less over the zone 400 ps to 5 ns
following step transition
+1%, –2% or less over the zone 5 ns to
100 ns following step transition
±1% after 100 ns following step transition
Incident edge delay adjust
(zero) on each channel
Incident edge delay adjust
±250 ps, each channel and each polarity
DSA8300, 80A00, 80C00, 80E00 specifications 19
80E00 electrical sampling modules specifications
Table 13: Electrical sampling modules (80E04, 80E08/B, and 80E10/B TDR sampling modules) – TDR system (cont.)
Specifications Characteristics
TDR incident edge delay adjust
resolution, typical
TDR step maximum repetition rate
1
IEEE std 1057, section 4.8.2, transition duration of step response.
2
IEEE std 1057, section 4.8.4, overshoot and precursors.
Sampling m odule
80E08/B, 80E10/B 135 fs
80E08/B, 80E10/B
Incident edge delay adjust resolution
300 kHz
Table 14: Electrical sampling modules – phase reference mode
Specific
Phase re
ations
ference mode jitter,
Triggered mode, typical
se reference mode jitter,
Pha
Triggered mode
Charact
Samplin
80E07B
eristics
g m odule
, 80E08B, 80E09B, 80E10B
80E11, 80E11X1
Jitter
100 fs RMS maximum under the following
conditions of input signal, when used with
82A04B
phase reference module installed
on an 80N01 2-meter extender:
10 GHz with 1.4 Vppat 82A04B front
connector and 700 mV
e front connector
remot
14 GHz
with 800 mV
connector and 400 mV
at sampling
pp
at 82A04B front
pp
at sampling
pp
remote front connector
100 fs RMS maximum under the following
ditions of input signal, when used with
con
82A04B phase reference module, with
neither module installed in the Ch 3/4
ition:
pos
Hz with 1.4 V
10 G
connector and 700 mV
at 82A04B front
pp
at 80E11/11X1
pp
front connector
14 GHz with 800 mVppat 82A04B front
nnector and 400 mV
co
at 80E11/11X1
pp
front connector
20 DSA8300, 80A00, 80C00, 80E00 specifications
80E00 electrical sampling modules specifications
Table 14: Electrical sampling modules – phase reference mode (cont.)
Specifications Characteristics
Phase reference mode jitter, Free
Run mode, typical
80E07B, 80E08B, 80E09B, 80E10B
80E11, 80E11X1
100 fs RMS maximum under the following
conditions of input signal, when used with
82A04B phase reference module installed
on an 80N01 2-meter extender:
10 GHz with 1.4 Vppat 82A04B front
connector and 700 mV
at sampling
pp
remote front connector
14 GHz with 800 mVppat 82A04B front
connector and 400 mV
at sampling
pp
remote front connector
100 fs RMS maximum under the following
conditions of input signal, when used with
82A04B phase reference module, with
neither module installed in the Ch 3/4
position:
10 GHz with 1.4 Vppat 82A04B front
connector and 700 mV
at 80E11/11X1
pp
front connector
14 GHz with 800 mVppat 82A04B front
connector and 400 mV
front connector
Phase reference mode jitter, other
conditions, typical
80E07B, 80E08B, 80E09B, 80E10B, 80E11,
80E11X1
200 fs RMS typical at input signals less
than specified voltages in Phase reference
mode jitter, Triggered mode specification,
(but limited to 300 mV
extender on 82A04B, or with the legacy
82A04 phase reference module
le 15: Electrical sampling modules – timebase system
Tab
Specifications Characteristics
Sampling rate DC-200 kHz maximum (300 KHz maximum for TDR operation)
rizontal position range,
Ho
minimum, (deskew adjust range
between channels)
Sampling m odule
0E01, 80E02, 80E03, 80E04, 80E06
8
0E07/B, 80E08/B, 80E09/B, 80E10/B
8
80E11/11X1
sition range
Po
9 ns, no extender cable present
1
29 ns, external direct trigger operation
19 ns, external direct trigger operation
at 80E11/11X1
pp
), or without s pecifi ed
pp
DSA8300, 80A00, 80C00, 80E00 specifications 21
80E00 electrical sampling modules specifications
Table 16: Elect
Specifications Characteristics
Power dissipa
rical sampling modules – power consumption
tion
Sampling module
80E01 1.1 W
80E02, 80E03 1.8 W
80E04 3.2 W
80E06 2.4 W
80E07, 80E09 5.1 W
80E07B, 80E09B 4.4 W
80E08, 80E
80E08B, 80E10B 6.2 W
80E11 6.1 W
80E11X1 3.9 W
10
Table 17: Electrical sampling modules – mechanical
Specifications Characteristics
Weight (unpackaged) Sampling module
80E01, 80E02, 80E03,
80E04, 80E06
80E07/B, 80E08/B 861 gm (29.11 oz)
80E09/B, 80E10/B 868 gm (29.35 oz) including two 2.4 mm to 2.92 mm adapters
80E011
80E011X1
Overall dimensions
Construction material Chassis:
Does not include connectors, connector savers, connector covers, push buttons, or lock-down
hardware protruding from the front or rear panels.
Sampling module
80E01, 80E02, 80E03,
80E04, 80E06, 80E11/11X1
80E07/B, 80E08/B, 80E09/B,
80E10/B main module
80E07/B, 80E08/B, 80E09/B,
80E10/B remote module
Front panel:
Circuit boards:
Cabinet:
Power dissipa
6.5 W
Weight
0.4 kg (13 oz.)
390 gm (13.80 oz) including two 2.4 mm to 2.92 mm adapters
319 gm (11.30 oz) including one 2.4 mm to 2.92 mm adapter
Dimensions
Height:
Width:
Depth:
Height:
Width:
Depth:
Remote cable length: 2 m eters
aluminum alloy
plastic laminate
glass-laminate
aluminum
25 mm (1.0 in)
79 mm (3.1 in)
135 mm (5.3 in)
25 mm (1.0 in)
55 mm (2.2 in)
75 mm (3.0 in)
tion
22 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
80C00 optical
sampling modules specifications
This section
specifications are guaranteed unless noted as "typical." Typical specifications are
provided for your convenience but are not guaranteed. Except for limits noted
"typical," specifications that are marked with the symbol are checked in the
Performance Verification section of the service manual.
All specifi cations apply to all 80C00 Series Optical Modules unless noted
otherwise. To meet specifications, the following conditions must first be met:
The instrument must have been calibrated/adjusted at an ambient temperature
between +20 °C and +30 °C.
The instrument must have been operating continuously for 20 minutes within
the operating temperature range specified.
Vertical compensation must have been performed with the module installed in
the same compartment used when the compensation was performed. Ambient
temperature must be within ±2 °C of the compensation temperature.
The instrument must be in an environment w ith temperature, altitude,
humidity, and vibration within the operating limits described in these
spec
contains specifications for the 80C00 Series Optical Modules. All
ifications.
NOTE. "Sampling Interface" refers to both the electrical sampling module
interface and the optical module interface, unless otherwise specified.
NOTE. For Certifications, refer to the System Specifications section. (See page 1,
DSA8300 specifications.)
Table 18: Optical modules – descriptions
Name Characteristics
80C01
Long wavelength 1100 nm – 1650 nm. Unamplified O/E converter with two user-selectable optical bandwidths:
12.5 GHz
>20 GHz
or three user-selectable reference receiver responses:
OC-12/STM-4 SONET/SDH for 622.08 Mb/s
OC-48/STM-64 SONET/SDH for 2.488 Gb/s
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
DSA8300, 80A00, 80C00, 80E00 specifications 23
80C00 optical sampling modules specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
80C02
80C03 Broad wavelength 700 nm – 1650 nm. Amplified O/E converter with optical bandwidth of 2.5 GHz. The 2.5 Gb/s,
80C04
80C05
80C06 Long wavelength 1520 nm – 1580 nm. O/E converter unamplified, 55 GHz optical sampler accepts high power
80C07 Broad wavelength 700 nm – 1650 nm. Amplified O/E converter with optical bandwidth of 2.5 GHz. The OC-48 and
Long wavelength 1100 nm – 1650 nm. Unamplified O/E converter with three user-selectable optical bandwidths:
12.5 GHz
20 GHz
30 GHz
or one user-selectable reference receiver response:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
OC-48/STM-16, and 2.0 GHz modes all use a physical path that has OC-48/STM-16 reference receiver type
response. Two other selectable reference receiver responses:
GFC for 1.063 Gb/s
GBE for 1.250 Gb/s
Long wavelength 1100 nm – 1650 nm unamplified. Unamplified O/E converter with two user-selectable optical
bandwidths:
20 GHz
30 GHz
or two user-selectable reference receiver responses:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
ITU-T G.975 for 10.664 Gb/s
Long wavelength 1520 nm – 1580 nm unamplified.
Three user-selectable optical bandwidths:
20 GHz
30 GHz
40 GHz
or one reference receiver response:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
optical signals typical for RZ signaling. Particularly well-suited for 40 Gb/s RZ telecom applications, as well as
general purpose optical component testing.
2.5 GHz modes all use a physical path that has OC-48 reference receiver type response.
There are three user-selectable reference receiver responses:
OC-48/STM-64 SONET/SDH for 2.488 Gb/s
OC-3/STM-1 SONET/SDH for 155.4 Mb/s
OC-12/STM-4 SONET/SDH for 622.08 Mb/s
24 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
80C07B Broad wavelength 700 nm – 1650 nm. Amplifi ed O/E converter with optical bandwidth of 2.5 GHz. The OC-48,
2GBE, INFINIBAND, and 2.5 GHz modes all use a physical path that has OC-48 reference receiver type response.
There are eight user-selectable reference receiver responses:
OC-3/STM-1 SONET/SDH for 155.4 Mb/s
OC-12/STM-4 SONET/SDH for 622.08 Mb/s
OC-48/STM-64 SONET/SDH for 2.488 Gb/s
GBE for 1.250 Gb/s
2GBE for 2.5Gb/s
Infiniband Optical for 2.500 Gb/s
GFC for 1.063 Gb/s
2GFC for 2.125 Gb/s
80C08 Broad wavelength 700 nm - 1650 nm. Amplified O/E converter with maximum optical bandwidth (in combination
with the internal electrical sampler) of 10 GHz.
There are two data rate receiver setups selectable:
10GBASE-W for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
80C08B Broad wavelength 700 nm – 1650 nm amplified O/E converter with maximum optical bandwidth (in combination
with the internal electrical sampler) of 9.5 GHz.
There are four user-selectable reference receiver responses:
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
10GFC for 10.51875 Gb/s
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
80C08C
Broad wavelength 700 nm – 1650 nm amplified O/E converter with m aximum optical bandwidth (in combination
with the internal electrical sampler) of >9.5 GHz.
There are six user-selectable reference receiver r esponses:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
10GFC for 10.51875 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
or two data filters:
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
DSA8300, 80A00, 80C00, 80E00 specifications 25
80C00 optical sampling modules specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
80C08D
80C09
80C10
80C10B Long wavelength 1310 nm and 1550 nm. Unamplified O/E converter with three user-selectable optical bandwidths:
Broad wavelength 700 nm – 1650 nm amplified O/E converter with m aximum optical bandwidth (in combination
with the internal electrical sampler) of >9.5 GHz.
There are six user-selectable reference receiver responses:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
10GFC for 10.51875 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
or two data filters:
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
Long wavelength 1100 nm – 1650 nm. Unamplified O/E converter with two user-selectable optical bandwidths:
20 GHz
30 GHz
or two user-selectable reference receiver responses:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
ITU-T G.709 for 10.709 Gb/s
Long wavelength 1310 nm and 1550 nm. Unamplified O/E converter with two user-selectable optical bandwidths:
30 GHz
65 GHz
or two user-selectable reference receiver responses:
OC-768/STM-256, VSR-2000 G.693, 40G NRZ G.959.1 for 39.813 Gb/s
ITU3, VSR-2000 w/ FEC, 4x10G LAN P HY OTU3 for 43.018 Gb/s
30 GHz (not available with Option F1)
65 GHz
80 GHz (not available with Option F1)
or three user-selectable reference receiver responses:
OC-768/STM-256, VSR-2000 G.693, 40G NRZ G.959.1 for 39.813 Gb/s
ITU3, VSR-2000 w/ FEC, 4x10G LAN P HY OTU3 for 43.018 Gb/s
40GBASE-FR for 41.250 Gb/s
Option F1 includes the following additional reference receiver filter rates:
100GBASE-R4 for 25.781 Gb/s
100GBASE-R4 FEC for 27.739 Gb/s
Infiniband EDR for 25.781 Gb/s
26 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
80C10C Long wavelength 1310 nm and 1550 nm. Unamplified O/E converter with three optical bandwidths:
55 GHz (Option F2)
70 GHz (Option F1)
80 GHz (Option F3)
Option F1 (70 GHz) includes the following reference receiver filter rates:
100GBASE-R4 for 25.781 Gb/s
OTU4 for 27.952 Gb/s
OC-768/STM-256, VSR-2000 G.693, 40G NRZ G.959.1 for 39.813 G b/s
40GBASE-FR for 41.250 Gb/s
32GFC at 28.05 Gb/s
32Gb/s
Infiniband EDR for 25.781 Gb/s
Option F2 (55 GHz) includes the following reference receiver filter rates:
100GBASE-R4 for 25.781 Gb/s
OUT-4 for 27.952Gb/s
32GFC at 28.05Gb/s 32Gb/s
Infiniband EDR for 25.871 Gb/s
Option F3 (80 GHz) includes the following reference receiver filter rates:
OC-768/STM-256, VSR-2000 G.693, 40G NRZ G.959.1 for 39.813 G b/s
40GBASE-FR for 41.250 Gb/s
OTU-3, VSR-2000 w/ FEC, 4x10G LAN PHY OTU3 for 43.018 Gb/s
80C11 Long wavelength 1100 nm – 1650 nm. Unamplified O/E converter with two user-selectable optical bandwidths:
20 GHz
30 GHz
or nine user-selectable reference receiver responses:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
10GFC for 10.51875 Gb/s
16GFC for 14.025 Gb/s
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
DSA8300, 80A00, 80C00, 80E00 specifications 27
80C00 optical sampling modules specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
80C11B
80C12 Broad wavelength 700 nm – 1650 nm. Amplified O/E converter with maximum optical bandwidth (in combination
80C12B Broad wavelength 700 nm – 1650 nm. Amplified O/E converter with maximum optical bandwidth (in combination
Long wavelength 1100 nm – 1650 nm. Unamplified O/E converter with two user-selectable optical bandwidths:
20 GHz
30 GHz
or the following user-selectable reference receiver responses:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
10GFC for 10.51875 Gb/s
16GFC for 14.025 Gb/s
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
with the internal electrical sampler) of >8.5 GHz (>9.5 GHz in Option 10G).
A variety of filter options are available that support 2 to 4 filters fro m the following list:
GFC for 1.063 Gb/s
2GFC for 2.125 Gb/s
10GBASE-X4 for 3.125Gb/s
10GFC-X4 for 3.188Gb/s
VSR-5 for 3.318 Gb/s
4GFC for 4.25 Gb/s
Some filter options support a filterless full-bandwidth setting (9 GHz) in place of one hardware filter.
Option 10G provides the following reference receiver filter rates:
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
10GFC for 10.51875 Gb/s
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
>9.5 GHz full bandwidth
with the internal electrical sampler) of 12 GHz.
Supported filter rates (module is purchased with four options. Options 10GP and F0 are mutually exclusive):
28 DSA8300, 80A00, 80C00, 80E00 specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
Option F1: OC-3/STM-1 SONET/SDH for 155.4 Mb/s
Option F2: OC-12/STM-4 SONET/SDH for 622.08 Mb/s
Option F3: GFC for 1.063 Gb/s
Option F4: GBE for 1.250 Gb/s
Option F5: 2GFC for 2.125 Gb/s
Option F6: OC-48/STM-64 SONET/SDH for 2.488 Gb/s, 2GBE for 2.5Gb/s, Infiniband Optical for 2.500 Gb/s
Option F7: FEC2.666 for 2.666Gb/s
Option F8: 10GBASE-X4 for 3.125Gb/s
Option F9: 4GFC for 4.25 Gb/s
Option F10:Infiniband Optical for 5.0Gb/s
Option F11: OBSAI 8x for 6.144 Gb/s
Option F12: CPRI7 3x for 7.3728 Gb/s
Option F0:12GHzunfiltered bandwidth, FC-8500 for 8.5 Gb/s
Option 10GP:
FC-8500 for 8.5Gb/s
8GFC for 8.5Gb/s
OC-192/STM-64 SONET/S DH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
40GBASE-R4 for 10.3125 Gb/s
100GBASE-R10 for 10.3125 G b/s
10GFC for 10.51875 Gb/s
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
12 GHz
80C12B-10G
Broad wavelength 700 nm – 1650 nm. Amplified O/E converter with maximum optical bandwidth (in combination
with the internal electrical sampler) of 12 GHz.
Supported filter rates are:
FC-8500 for 8.5Gb/s
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
40GBASE-R4 for 10.3125 Gb/s
100GBASE-R10 for 10.3125 G b/s
80C00 optical sampling modules specifications
DSA8300, 80A00, 80C00, 80E00 specifications 29
80C00 optical sampling modules specifications
Table 18: Optical modules – descriptions (cont.)
Name Characteristics
10GFC for 10.51875 Gb/s
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
12 GHz
80C14
80C15 32 GHz full bandwidth and fully integrated reference receiver filtering, enabling conformance testing of both single
80C25GBE
Broad wavelength 700 nm – 1650 nm. Amplified O/E converter with maximum optical bandwidth (in combination
with the internal electrical sampler) of 14 GHz.
Supported filter rates are:
FC-8500 for 8.5Gb/s
8GFC for 8.5Gb/s
OC-192/STM-64 SONET/SDH for 9.953 Gb/s
10GBASE-W - for 9.953 Gb/s
10GBASE-R for 10.3125 Gb/s
40GBASE-R4 for 10.3125 Gb/s
100GBASE-R10 for 10.3125 Gb/s
10GFC for 10.51875 Gb/s
ITU-T G.975 for 10.664 Gb/s
ITU-T G.709 for 10.709 Gb/s
10GBE FEC for 10.096 Gb/s
10GBFC FEC for 11.317 Gb/s
SONET FEC12.5 for 12.500 Gb/s
16GFC for 14.025 Gb/s
Infiniband Optical for 14.0625 Gb/s
14GHz
and multi-mode conformance testing from 800 nm – 1600 nm.
Supported filter rates are:
25.781 Gb/s (100GBASE-ER4, -LR4, -SR4, Inifiniband EDR)
27.952 Gb/s (OTU-4)
28.05 Gb/s (32G Fibre Channel)
Long wavelength 1310 nm and 1550 nm. Unamplified O/E converter with optical bandwidth of 65 GHz. There are
two reference receiver filter rates:
100GBASE-R4 for 25.781 Gb/s
100GBASE-R4 FEC for 27.739 Gb/s
30 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 19: Op tic
al modules: inputs
Name Characteristics
Number of input channels (all models)
Internal fibe
rdiameter
1
80C01, 80C02, 80C04,
80C05, 80C0
6, 80C09,
1 optical
9 μm/125 μm single mode
80C10, 80C10B, 80C10C,
80C11, 80C11B, 80C25GBE
80C03, 80C07, 80C07B,
Multimode fiber, 62.5 μm core, 125 μm cladding
80C08, 80C08B, 80C08C,
80C08D, 8
0C12, 80C12B,
80C14, 80C15
Fiber con
nector (all optical modules)
Rifocs UC
I (universal connector interface) male connector
Optical return loss
80C01, 80C02, 80C04,
>30 dB for single-mode fiber
80C05, 80C06, 80C09,
80C10B, 80C11,
80C10,
80C11B, 80C25G BE
, 80C07, 80C07B,
80C03
80C08, 80C08B, 80C08C,
for multimode fiber
>14 dB
>24 dB for single-mode fiber
80C08D, 80C12,80C12B,
4, 80C15
80C1
80C10C
Absolute maximum nondestructive
optical input
2
80C01, 80C02, 80C03,
80C04, 80C07, 80C07B,
C09, 80C11, 80C11B
80
80C05, 80C10, 80C10B,
0C10C, 80C25GBE
8
80C06
80C08, 80C08B, 80C08C,
80C08D, 80C12
80C12B, 80C14
80C15
Main acquisition channel input: –27 dB maximum at 1550 nm, –24 dB maximum at 1310 nm,
for single-mode fiber
input: –27 dB maximum, –30 dB typical
HSPR
average power; 10 mW peak power
5mW
20 mW average power; 60 mW power
20 mW average power; 60 mW power
1 mW average power; 10 mW peak power for 60 ms
850 nm: 4 mW average power
1310/1550 nm: 2 mW average power
10 mW peak power for 60 ms
850 nm: 5 mW average, 6 mW peak power
1310/1550 nm: 8 mW average, 10 mW peak power
Peak power:<10 ns duration, 50% duty cycle
DSA8300, 80A00, 80C00, 80E00 specifications 31
80C00 optical sampling modules specifications
Table 19: Optical modules: inputs (cont.)
Name Characteristics
Maximum operating ranges
3
80C01, 80C02, 80C04,
0 mW to 10 mW displayed limits, not including offset.
80C09
80C03, 80C07, 80C07B 0 mW to 1 mW displayed limits, not including offset.
80C05 0 mW to 30 mW displayed limits, not including offset. However, signal limit is 10 mW average
optical power, 20 m W displayed peak power.
80C06 0 mW to 60 mW displayed limits, including offset, and respecting that the signal limit is 15 mW
average optical power, 30 mW displayed peak power.
80C08, 80C08B, 80C08C,
0 to 2 mW displayed limits, not including offset.
80C08D, 80C12
80C12B, 80C14 0 mW to 3 mW, not including offset. 5.5 mW with offset. However, non-destruct signal limits of
2 mW average power at 1310/1550 nm, and 3 mW average power at 850 nm must be obeyed.
80C10, 80C10B, 80C10C OptF30 mW to 30 mW displayed limits, not including offset.
80C10C Opt. F1, F2 0 mW to 15 mW displayed limits, not including offset.
80C10B-F1, 80C25GBE 0 mW to 20 mW displayed limits, not including offset.
80C11, 80C11B
5 mW average power; 10 mW peak power.
Optical input powers below non-destruct levels may exceed saturation and compression limits of
the particular plug-in.
80C15 0 mW to 8 mW displayed limits, not including offset.
1
Single-mode fiber (Corning SMF-28 specs).
2
The optical input powers below nondestructive levels may exceed saturation and compression limits of the module.
3
Certain performance characteristics such as reference receiver and filter settings may have more restricted power levels to maintain guaranteed performance.
Table 20: Optical modules: Effective wavelength range, typical
1
Module Characteristics
80C01, 80C02,
1100 nm to 1650 nm
80C04, 80C09, 80C11,
80C11B
80C03, 80C07,
700 nm to 1650 nm
80C07B, 80C08,
80C08B, 80C08C,
80C08D, 80C12,
80C12B, 80C14
80C05, 80C06
80C10, 80C10B,
80C25GBE
80C10C
1520 nm to 1580 nm
1550 nm: 1520 nm to 1620 nm
1310 nm: 1290 nm to 1330 nm
1290 nm to 1620 nm
32 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 20: Optical modules: Effective wavelength range, typical1(cont.)
Module Characteristics
80C15
1
The optical wavelengths t hat the product accepts while providing a reasonable (25% of peak optimum) conversion gain.
800 nm to 1600 nm
Table 21: Optical modules: calibrated wavelengths
Module Characteristics
80C01, 80C02, 80C04,
80C09, 80C10,
80C10B, 80C10C,
80C11, 80C11B,
80C25GBE
80C03, 80C07,
80C07B, 80C08,
80C08B, 80C08C,
80C08D
80C05, 80C06
80C12, 80C12B,
80C14, 80C15
1550 nm and 1310 nm (all ±20 nm)
1550 nm, 1310 nm, 850 nm, and 780 nm (all ±20 nm)
1550 nm ±20 nm
1550 nm, 1310 nm, and 850 nm (all ±20 nm)
Table 22: Optical modules: polarization dependence
Module Characteristics
80C10C, 80C15 1550 nm input: ±0.45 dB maximum (±0.3 dB typical)
1310 nm input: ±0.40 dB maximum (±0.25 dB typical)
Table 23: Optical modules: dark level
Module Setting Characteristics
To achieve these levels, perform a dark level compensation.
If any of the following instrument settings or conditions change, you must perform another dark level compensation:
Trigger rate setting
Vertical offset setting
Filter or bandwidth setting
Ambient temperature change of more than 1 °C
ELECTRICAL SIGNAL OUT front panel connection (80C12 only)
OC-12, OC-48, OC-192 <10 μW ±2% (vertical offset)80C01
20 GHz <10 μW ±4% (vertical offset)
OC-192 <10 μW ±2% (vertical offset)80C02
20 G Hz, 30 GHz <10 μW ±4% (vertical offset)
80C03, 80C07,
80C07B
All settings
OC-192, 10.66 Gb/s <10 μW ±2% (vertical offset)80C04
20 G Hz, 30 GHz <10 μW ±4% (vertical offset)
<500 nW ±2% (vertical offset)
DSA8300, 80A00, 80C00, 80E00 specifications 33
80C00 optical sampling modules specifications
Table 23: Optical modules: dark level (cont.)
Module Setting Characteristics
OC-192 <10 μW ±2% (vertical offset)80C05
20 GHz, 30 GHz, 40 GHz <30 μW ±4% (vertical offset)
80C06 50 GHz <25 μW ±4% (vertical offset)
80C08, 80C08B,
80C08C, 80C12,
80C12B, 80C14
80C15
80C10, 80C10B,
80C10C, 80C25GBE
80C11, 80C11B
All settings
All settings
OC-192, 10.71 Gb/s <10 μW ±2% (vertical offset)80C09
20 G Hz, 30 GHz <10 μW ±4% (vertical offset)
1550 nm
1310 nm
For all settings except 16GFC (80C11), 20 GHz,
30 GHz
16GFC (80C11 only) <10 μW ±3% (vertical offset)
20 G Hz, 30 GHz <10 μW ±4% (vertical offset)
<1.0 μW ±2% × (vertical offset)
<10 μW ±4% × (vertical offset)
±[25 μW +4% × |vertical offset|]
±[35 μW +4%× |vertical offset|]
<10 μW ±2% (vertical offset)
Table 24: Optical modules: main instrument display vertical scale factors
Maximum Minimum
80C01, 80C02,
C04, 80C09, 80C11,
80
80C11B
80C03, 80C07,
80C07B
80C05
80C06
80C08, 80C08B,
80C08C, 80C08D,
80C12
80C12B, 80C14
80C10, 80C10B,
80C10C-F3
80C10B-F1,
80C25GBE
80C10C-F1 -F2
80C15
1 m W per division 10 μW per division
00 μW per division
1
3 m W per division 30 μW per division
6 m W per division 60 μW per division
200 μW per division 2 μW per division
300 μW per division 3 μW per division
3 m W per division 30 μW per division
2 m W per division 20 μW per division
1.5 m W per division 15 μW per division
0.8 m W per division 6 μW per division
1
μW per division
34 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 25: Optic
Module Characteristics
80C01 ±8 mW offset relative to center of waveform display
80C02, 80C04, 80C09,
80C11, 80C1
80C03 ±1 mW offset
80C05, 80C10,
80C10B, 80C10C-F3
80C10C-F1 -F2 ±7.5 mW offset relative to center of waveform display
80C10B80C25GBE
80C06 ±40 mW offset relative to center of waveform display
80C07, 80C07B ±1 mW offset relative to center of waveform display
80C08
80C08C, 80C08D,
80C12
80C12B, 80C14 ±2.5 mW offset relative to center of waveform display
80C
F1,
, 80C08B,
15
al modules: vertical offset range
(5 divisions from either top or bottom of waveform display)
±6 mW offset relative to center of waveform display
1B
(5 division
(5 divisions from either top or bottom of waveform display)
±15 mW offset relative to center of waveform display
(5 divisions from either top or bottom of waveform display)
(5 div isi
±10 mW of
(5 divisions from either top or bottom of waveform display)
(5 divisions from either top or bottom of waveform display)
(5 div
±4 mW o
(5 divisions from either top or bottom of waveform display)
(5 d
±5 m
(5 divisions from either top or bottom of waveform display)
s from either top or bottom of waveform display)
relative to center of waveform display
ons from either top or bottom of waveform display)
fset relative to center of waveform display
isions from either top or bottom of waveform display)
ffset relative to center of waveform display
ivisions from either top or bottom of waveform display)
W offset relative to center of waveform display
Table 26: Optical modules: DC vertical accuracy, typical
Module Setting Accuracy
80C01, 80C03, 80C07,
80C07B, 80C08,
80C08B, 80C08C,
80C08D, 80C12,
80C12B, 80C14
80C02
80C04
All settings
12.5 GHz, OC-192 ±25 μW ±2% of [(vertical value) – (vertical offset)]
20 GHz ±25 μW ±4% of [(vertical value) – (vertical offset)]
30 GHz ±25 μW ±6% of [(vertical value) – (vertical offset)]
10.66 Gb/s, OC-192 ±25 μW ±2% of [(vertical value) – (vertical offset)]
20 GHz ±25 μW ±4% of [(vertical value) – (vertical offset)]
30 GHz ±25 μW ±6% of [(vertical value) – (vertical offset)]
1
±25 μW ±2% of [(vertical value) – (vertical offset)]
DSA8300, 80A00, 80C00, 80E00 specifications 35
80C00 optical sampling modules specifications
Table 26: Optical modules: DC vertical accuracy, typical1(cont.)
Module Setting Accuracy
80C05
80C06 50 GHz ±120 μW ±6% of [(vertical value) – (vertical offset)]
80C09
80C10
80C10B
80C10B-F1
80C10C
80C25GBE
OC-192 ±25 μW ±2% of [(vertical value) – (vertical offset)]
20 GHz ±25 μW ±4% of [(vertical value) – (vertical offset)]
30 GHz ±25 μW ±6% of [(vertical value) – (vertical offset)]
40 GHz ±25 μW ±8% of [(vertical value) – (vertical offset)]
10.71 Gb/s, OC-192 ±25 μW ±2% of [(vertical value) – (vertical offset)]
20 GHz ±25 μW ±4% of [(vertical value) – (vertical offset)]
30 GHz ±25 μW ±6% of [(vertical value) – (vertical offset)]
30 GHz ±25 μW ±4% of [(vertical value) – (vertical offset)]
39 Gb/s, OC-768, FEC 43 Gb/s ±25 μW ±6% of [(vertical value) – (vertical offset)]
65 G Hz setting ±25 μW ±8% of [(vertical value) – (vertical offset)]
30 GHz ±25 μW ±4% of [(vertical value) – (vertical offset)]
OC-768, FEC 43 Gb/s ±25 μW ±6% of [(vertical value) – (vertical offset)]
40GBASE-FR4 ±25 μW ±6% of [(vertical value) – (vertical offset)]
65 G Hz setting ±25 μW ±8% of [(vertical value) – (vertical offset)]
80 G Hz setting ±25 μW ±9% of [(vertical value) – (vertical offset)]
65 GHz ±25 μW ±8% of [(vertical value) – (vertical offset)]
39 Gb/s OC-768, FEC 43 Gb/s ±25 μW ±6% of [(vertical value) – (vertical offset)]
40GBASE-FR ±25 μW ±6% of [(vertical value) – (vertical offset)]
100GBASE-R4 ±25 μW ±4% of [(vkertical value) – (vertical offset)]
100GBASE-R4 FEC ±25 μW ±4% of [(vertical value) – (vertical offset)]
100GBASE-R4, INF25781, OTU4,
28.05 GHz, 32 GHz
OC-768, FEC 43 Gb/s, 40GBASE-FR ±25 μW ±6% of [(vertical value) – (vertical offset)]
55 GHz ±25 μW ±8% of [(vertical value) – (vertical offset)]
70 GHz and 80 GHz ±25 μW ±9% of [(vertical value) – (vertical offset)]
65 GHz ±25 μW ±8% of [(vertical value) – (vertical offset)]
100GBASE-R4 ±25 μW ±4% of [(vertical value) – (vertical offset)]
100GBASE-R4 FEC ±25 μW ±4% of [(vertical value) – (vertical offset)]
±25 μW ±4% of [(vertical value) – (vertical offset)]
36 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 26: Optical modules: DC vertical accuracy, typical1(cont.)
Module Setting Accuracy
80C11, 80C11B
For a ll settings except 16GFC (80C11),
20 GHz, 30 GHz
16GFC (80C11 only) ±25 μW ±3% of [(vertical reading) – (vertical offset)]
20 GHz ±25 μW ±4% of [(vertical reading) – (vertical offset)]
30 GHz ±25 μW ±6% of [(vertical reading) – (vertical offset)]
80C15 100GBase-R4, INF25781, OTU-4,
28.05 GHz, 32 GHz settings:
1
l accuracy specifications are referenced to an internal optical power meter reading for a given optical input, and limited to a temperature range within ±5
Vertica
°C of previous channel compensation and an ambient temperature within 20 °C to 35 °C.
±25 μW ±2% of [(vertical reading) – (vertical offset)]
±25 μW ±4% of [(vertical reading) – (vertical offset)]
Table 27: Optical modules: DC vertical difference accuracy, typical
1
Module Setting Accuracy
The accuracy of the difference between two cursors in the vertical scale of the same channel.
12.5 GHz, OC-192, OC-48, OC-12 ±2% of [difference reading]80C01
20 GHz ±4% of [difference reading]
80C02
12.5 GHz, OC-192 ±2% of [difference reading]
20 GHz ±4% of [difference reading]
30 GHz ±6% of [difference reading]
80C03, 80C07,
C07B
80
0C04
8
All s ettings
0.66 Gb/s, OC-192
1
0GHz
2
±2% of [difference reading]
2% of [difference reading]
±
4% of [difference reading]
±
30 GHz ±6% of [difference reading]
80C05
OC-192 ±2% of [difference reading]
20 GHz ±4% of [difference reading]
30 GHz ±6% of [difference reading]
40 GHz ±8% of [difference reading]
80C06, 80C08,
All s ettings
±2% of [difference reading]
80C08B, 80C08C,
80C08D, 80C12,
80C12B, 80C14
80C09
10.71 Gb/s, OC-192 ±2% of [difference reading]
20 GHz ±4% of [difference reading]
30 GHz ±6% of [difference reading]
80C10
30 GHz ±4% of [difference reading]
39 Gb/s, OC-768, FEC 43 Gb/s ±6% of [difference reading]
65 GHz ±8% of [difference reading]
DSA8300, 80A00, 80C00, 80E00 specifications 37
80C00 optical sampling modules specifications
Table 27: Optical modules: DC vertical difference accuracy, typical1(cont.)
Module Setting Accuracy
80C10B
80C10C
80C10B-F1
80C25GBE
80C11, 80C11B
80C15 100GBase-R4, INF25781, OTU-4,
1
Vertical accuracy specifications are referenced to an internal optical power meter reading for a given optical input, and limited to a temperature range within ±5
°C of previous channel compensation and an ambient temperature within 20 °C to 35 °C.
30 GHz ±4% of [difference reading]
OC-768, 43 Gb/s, FEC 43 Gb/s ±6% of [difference reading]
40GBASE-FR ±6% of [difference reading]
65 GHz ±8% of [difference reading]
80 GHz ±9% of [difference reading]
100GBASE-R4, INF25781, OTU4,
±4% of [difference reading]
32GFC, 32 GHz
OC-768, FEC 43 Gb/s, 40GBASE-FR ±6% of [difference reading]
55 GHz ±8% of [difference reading]
70 GHz and 80 GHz ±9% of [difference reading]
65 GHz ±8% of [difference reading]
OC-768, FEC 43 G b/s ±6% of [difference reading]
40GBASE-FR ±6% of [difference reading]
100GBASE-R4 ±4% of [difference reading]
100GBASE-R4 FEC ±4% of [difference reading]
65 GHz ±8% of [difference reading]
100GBASE-R4 ±4% of [difference reading]
100GBASE-R4 FEC ±4% of [difference reading]
For all settings except 16GFC (80C11),
±2% of [difference reading]
20 GHz, 30 GHz
16GFC (80C11 only) ±3% of [difference reading]
20 GHz ±4% of [difference reading]
30 GHz ±6% of [difference reading]
±4% of [difference reading]
28.05 GHz, 32 GHz settings:
Table 28: Optical modules: offset capabilities
Module Characteristics
All modules
Open loop. User assigned, fixed offset value is applied to channel.
38 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 29: Optic
al modules: minimum optical bandwidth
1,2
Module Setting Bandwidth, minimum Bandwidth, typical
Optical band
width, minimum (-3dB)
20 GHz >20 GHz80C01
12.5 GHz >12.5 G Hz
80C02
(≤2mW
input signal)
pp
30 GHz >28 GHz >30 GHz
20 GHz >20 GHz
12.5 GHz >12.5 G Hz
80C02-CR
(≤2mW
pp
80C03
(≤200 μW
input signal)
input
pp
30 GHz >28 GHz >29 GHz
2.5 GHz >2.3 GHz 2.5 GHz
signal)
30 GHz >28 GHz >30 GHz80C04
(≤2mW
80C04
input signal)
pp
-CR1,
20 GHz >20 GHz
30 GHz >28 GH
z
>29 GH
z
80C04-CR2
(≤2mW
80C05
input signal)
pp
20 GHz >20 GHz
30 GHz >30 GHz
40 GHz >40 GHz
80C06 55 GHz
80C07, 80C07B
200 μW
(≤
pp
input
2.5 GHz >2.3 GHz 2.5 GHz
3
>50 GHz
signal)
80C08, 80C08B,
10GHz >9GHz >10GHz
80C08C
≤500 μW
(
pp
input
signal)
80C08D
(≤500 μW
pp
input
12 GHz >11 GHz >12 GHz
signal)
30 GHz >28 GHz >30 GHz80C09
(≤2mW
80C09-CR1
(≤2mW
80C09, 80C09-CR1
(≤2mW
input signal)
pp
input signal)
pp
input signal)
pp
20 GHz >20 GHz
30 GHz >28 GHz >29 GHz
30 GHz >28 GHz
30 GHz >30 GHz80C10
65 GHz >60 GHz >65 GHz
DSA8300, 80A00, 80C00, 80E00 specifications 39
80C00 optical sampling modules specifications
Table 29: Optical modules: minimum optical bandwidth1,2(cont.)
Module Setting Bandwidth, minimum Bandwidth, typical
30 GHz >30 GHz80C10B
80 GHz >75 GHz >80 GHz
80C10B, 80C10B-F1 65 GHz >60 GHz >65 GHz
80C10C-F1, F2, F3 55 GHz 50 GHz 55 GHz
80C10C-F1, F3 70 GHz 65 GHz 70 GHz
80C10C-F3 80 GHz 75 GHz 80 GHz
20 GHz >20 GHz80C11, 80C11-CR
30 GHz >28 GHz >30 GHz
9GHz
(≤500 μW
signal)
pp
input
(options F2, F3, F5, F6, FC)
10 GHz
(Option 10G)
80C12B
(≤800 μW
pp
input
signal, 1310/1550 nm)
(≤1300 μW
pp
input
signal, 850 nm)
1.25 GHz (Opt F4) >1.15 GHz 1.25 GHz
2.125 GHz (Opt F5) >1.95 GHz 2.13 GHz
2.5 GHz (Opt F6) >2.30 GHz 2.50 GHz
2.666 GHz (Opt F7) >2.45 GHz 2.67 GHz
3.188 GHz (Opt F8) >2.91 GHz 3.19 GHz
4.25 GHz (Opt F9) >3.91 GHz 4.25 GHz
5.0 GHz (Opt F10) >4.44 GHz 5.00 GHz
6.144 GHz (Opt F11) >5.46 GHz 6.14 GHz
7.373 GHz (Opt F12) >6.54 GHz 7.37 GHz
12 GHz
(Options F0, 10G, 10GP only)
80C14
(≤800 μW
pp
input
14 GHz >13 GHz 14 GHz
signal, 1310/1550 nm)
(≤1300 μW
pp
input
signal, 850 nm)
80C25GBE 65 GHz >60 GHz >65 GHz
80C15 32 GHz >27 GHz 32 GHz
1
Optical bandwidth is the frequency at which the responsivity of the optical to electrical conversion process is reduced by 50% (6 dB).
2
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal frequency response is specified
at the indicated optical input signal levels.
3
Optical bandwidth of the 50 GHz module is defined as (0.48/risetime).
>8.5 GHz >9 GHz80C12
>9.5 GHz >10 GHz
>11 GHz 12 GHz
40 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 30: O ptic
al modules: rise time, typical
Module Setting Rise time
For peak optic
creates <2 mW
80C01
80C02
80C04
80C05
80C06 50 GHz
80C09
80C11, 80C11B
al signal input which
modulation depth.
pp
OC-12
OC-48
OC-192
12.5 GHz
20 GHz
30 GHz
20 GHz
12.5 GHz
OC-192
30 GHz
20 GHz
10.66 Gb/s
OC-192
40 GHz
30 GHz
20 GHz
OC-192
30 GHz
20 GHz
10.71 Gb/s, OC-192
30 GHz
20 GHz
OC-192, 10GBASE-W, 10GBASE-R,
750 ps ±50 ps
187 ps ±15 ps
47 ps ±10 ps
<40 ps
<25 ps
<16 ps
<25 ps
<40 ps
47 ps ±1
<16 ps
<25 ps
±10 ps
44 ps
±10 ps
47 ps
ps
<12
ps
<16
5ps
<2
ps ±10 ps
47
9.6 ps
<
16 ps
<
<25 ps
44 ps ±10 ps
<16 ps
<25 ps
47 ps ±10 ps
10GBE FEC, 10GFC, 10GFC FEC
16GFC
10.66 Gb/s, 10.71 Gb/s
34 ps ±8 ps
44 ps ±10 ps
For peak optical signal input which
creates <10 mW
80C10
modulation depth.
pp
65 GHz
30 GHz
OC-768
FEC 43 Gb/s
7.4 ps
16 ps
12 ps
11. 2 p s
0ps
DSA8300, 80A00, 80C00, 80E00 specifications 41
80C00 optical sampling modules specifications
Table 30: Optical modules: rise time, typical (cont.)
Module Setting Rise time
80C10B
80C10B-F1
80C10C-F1
80C10C-F2
80C10C-F3
80C25GBE
80 GHz
65 GHz
30 GHz
OC-768
FEC 43 Gb/s
40GBASE-FR
65 GHz
OC-768
FEC 43 Gb/s
40GBASE-FR
100GBASE-R4
100GBASE-R4 FE C
70 GHz
100GBASE-R4
OTU4 27.9 Gb/s
OC-768
40GBASE-FR
FEC 43 Gb/s
55 GHz 8.7 ps
32 GHz ORR
28.05 GHz ORR
55 GHz
100GBASE-R4
OTU4 27.9 Gb/s
32 GHz ORR
28.05 GHz ORR
80 GHz
70 GHz
55 GHz
OC-768
40GBASE-FR
FEC 43 Gb/s
65 GHz
100GBASE-R4
100GBASE-R4 FE C
6ps
7.4 ps
16 ps
12 ps
11. 2 p s
11. 9 p s
7.4 ps
12 ps
11. 2 p s
11. 9 p s
19.2 ps
19.2 ps
6.9 ps
18.1 ps
16.7 ps
11.7ps
11. 3 p s
10.8 ps
8.7 ps
14.6 ps
16.6 ps
8.7 ps
18.1 ps
16.7 ps
14.6 ps
16.6 ps
6.0 ps
6.9 ps
8.7 ps
11. 7 p s
11. 3 p s
10.8 ps
7.4 ps
19.2 ps
19.2 ps
42 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 30: Optical modules: rise time, typical (cont.)
Module Setting Rise time
80C11
For peak optical signal input which
creates <200 μW
modulation depth.
pp
80C03
80C07
80C07B
30 GHz
20 GHz
OC-192, 10GBASE-W, 10GBASE-R,
10GBE FEC, 10GFC, 10GFC FEC
16GFC
10.66 Gb/s, 10.71 Gb/s
FC1063
GBE
OC-48
OC-3
OC-12
OC-48
OC-3
OC-12
GBE
GFC
2GFC
OC-48, 2GBE, INF2500
<16 ps
<25 ps
47 ps ±10 ps
34 ps ±8 ps
44 ps ±10 ps
440 ps ±35 ps
373 ps ±30 ps
187 ps ±15 ps
3.0 ns ±170 ps
750 ps ±50 ps
187 ps ±15 ps
3.0 ns ±170 ps
750 ps ±50 ps
373 ps ±30 ps
440 ps ±35 ps
220 ps ±18 ps
187 ps ±15 ps
DSA8300, 80A00, 80C00, 80E00 specifications 43
80C00 optical sampling modules specifications
Table 30: Optical modules: rise time, typical (cont.)
Module Setting Rise time
For peak optical signal input which
creates <500 μW
80C08
80C08B
80C08C, 80C08D
80C12
For peak optical signal input which
creates <800 μW
<1300 μW
pp
modulation depth.
pp
(1310/1550 nm) or
pp
(850 nm) modulation depth.
10 GHz
10GBASE-W, 10GBASE-R
10 GHz
10GBASE-W, 10GBASE-R, OC-192,
10GFC
10 GHz
10GBASE-W, 10GBASE-R, OC-192,
10GFC, 10GFC FEC, 10GBE FEC,
10.66 GB/s, 10.71 GB/s
10.66 Gb/s, 10.71 GB/s (80C08D only)
GFC
2GFC
10GBASE-X4
10GFC-X4
VSR-5
4GFC
9GHz
10 GHz
OC-192, 10GBASE-W, 10GBASE-R,
10GBE FEC, 10GFC, 10GFC FEC,
10.66 Gb/s, 10.71 Gb/s
<50 ps
47 ps ±10 ps
<50 ps
47 ps ±10 ps
<50 ps
47 ps ±10 ps
44 ps ±10 ps
440 ps ±35 ps
220 ps ±18 ps
150 ps ±12 ps
147 ps ±12 ps
141 ps ±12 ps
110 ps ±9 ps
<56 ps
<50 ps
47 ps ±10 ps
44 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 30: Optical modules: rise time, typical (cont.)
Module Setting Rise time
80C12B
80C12B-10G(P)
80C14
80C15
OC3
OC12
GFC
GBE
2GFC
OC48, INF2500, 2GBE
FEC2.666
10GBASE-X4
10GFC-X4
4GFC
INF5000 93ps±9ps
OBSAI
CPRI7
12 GHz
FC-8500
8GFC, OC-192, 10GFC, 10GBASE-W,
10GBASE-R, 40GBASE-R4,
100GBASE-R10, 10GBE FEC, 10GFC
FEC, FEC11317
10.66 Gb/s, 10.709 Gb/s
FC-8500
8GFC, OC-192, 10GFC, 10GBASE-W,
10GBASE-R, 40GBASE-R4,
100GBASE-R10, 10GBE FEC, 10GFC
FEC
10.66 Gb/s, 10.709 Gb/s
FEC12.5
16GFC, INF14063
14 GHz
32 GHz
28.05 GHz
22.00 GHz
OTU-4
100GBASE-R4, Infiniband EDR
3001 ps ±240 ps
750 ps ±70 ps
439 ps ±35 ps
373 ps ±30 ps
220 ps ±18 ps
188 ps ±18 ps
175 ps ±18 ps
149 ps ±12 ps
146 ps ±12 ps
110ps±9ps
76 ps ±9 ps
63 ps ±9 ps
<42 ps
55 ps ±9 ps
47 ps ±10 ps
44 ps ±10 ps
55 ps ±9 ps
47 ps ±10 ps
44 ps ±10 ps
35 ps ±8 ps
33.5 ps ±7 ps
<36 ps
14.6 ps ±0.3 ps
16.6 ps ±0.3 ps
23.0 ps ±0.5 ps
16.7 ps ±0.3 ps
18.1 ps ±0.3 ps
DSA8300, 80A00, 80C00, 80E00 specifications 45
80C00 optical sampling modules specifications
Table 31: Optic
al modules: time domain vertical response aberrations, typical
Name Setting Abberations
For peak optic
al signal input <5 mW
p-p
except for 80C03 and 80C07 which creates
200 μW
modulation depth.
pp
80C01
OC-12, OC-48 <5%
OC-192, 12.5 GHz <10%
20 GHz <15%
80C02
OC-192 <10%
12.5 GHz <15%
20 GHz <20%
30 GHz <30%
80C03
80C04
All s ettings
<5%
OC-192, 10.66 Gb/s <10%
20 GHz <20%
30 GHz <30%
80C07, 80C07B
80C09
All s ettings
<5%
OC-192, 10.71 Gb/s <10%
20 GHz <20%
30 GHz <30%
80C11, 80C11B
All settings except 16GFC, 20 GHz,
GHz
30
6GFC (80C11 only)
1
0GHz
2
<10%
14%
<
20%
<
30 GHz <30%
For peak optical signal input <10 mW
80C05
.
p-p
OC-192/STM-64 <5%
20 G Hz, 30 GHz <10%
40 GHz <15%
80C06 50 GHz <5% (typical)
For peak optical signal input <500 μW
80C08, 80C08B, 80C08C, 80C08D
80C12
.
p-p
All s ettings
All filter settings
<10% (typical)
<5% (typical)
(options F1, F2, F3, F4, F5, F6, FC)
9 GHz setting
<10% (typical)
(options F2, F3, F5, F6, FC)
All settings (option 10G) <10% (typical)
For peak optical signal input <800 μW
(1300, 1550 nm) and <1300 μW
p-p
p-p
(850 nm).
46 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 31: Optical modules: time domain vertical response aberrations, typical (cont.)
Name Setting Abberations
80C12B
80C14
For peak optical signal input <20 mW
80C10
80C10B
80C10B-F1
80C10C
.
p-p
<8.5 Gb/s <8%
8.5 Gb/s to 11.32 Gb/s <10%
12 GHz <15%
<8.5 Gb/s <8%
8.5 Gb/s to 11.32 Gb/s <10%
FEC12.50, 14GFC, FC14025, 14 GHz <15%
OC-768, FEC 43 Gb/s, 30 GHz <5% (maximum)
<3% (typical)
65 GHz <10% (maximum)
<5% (typical)
OC-768, FEC 43 Gb/s, 30 GHz,
40GBASE-FR
<5% (maximum)
<3% (typical)
65 GHz <10% (maximum)
<5% (typical)
80 GHz <12% (maximum)
<7% (typical)
OC-768, FEC 43 Gb/s, 40GBASE-FR <5% ( maximum)
<3% (typical)
65 GHz <10% (maximum)
<5% (typical)
100GBASE-R4, 100GBASE-R4 FEC <5% (maximum)
<3% (typical)
70 GHz, 80 GHz <12% (maximum)
<7% (typical)
55 GHz <10% (maximum)
<5% (typical)
100GBASE-ER4, 100GBASE-LR4
OTU4 27.9 Gb/s
<5% (maximum)
<3% (typical)
OC-768
40GBASE-FR
FEC 43 Gb/s
32 GHz, 28.05 GHz
DSA8300, 80A00, 80C00, 80E00 specifications 47
80C00 optical sampling modules specifications
Table 31: Optical modules: time domain vertical response aberrations, typical (cont.)
Name Setting Abberations
80C15
80C25GBE
32 GHz <17% (maximum)
<15% (typical)
22 GHz <9% (maximum)
<8.3% (typical)
OTU-4 <13.5% (maximum)
<12.4% (typical)
100GBASE-R4 <12% (maximum)
<10.5% (typical)
65 GHz <10% (maximum)
<5% (typical)
100GBASE-R4, 100GBASE-R4 FEC <5% (maximum)
<3% (typical)
Table 32: Vertical equivalent optical noise (max and typical), 80C01 through 80C10
1
Module Setting Wavelength Maxim um noise Typical noise
80C01
80C01-CR
80C02
80C02-CR
80C03,
80C03-CR
80C04
80C04-CR1,
80C04-CR2
80C05
OC-12, OC-48, OC-192, 12.5 GHz
20 GHz
OC-12, OC-48, OC-192, 12.5 GHz
20 GHz
OC-192, 12.5 GHz
20 GHz
30 GHz
OC-192, 12.5 GHz
20 GHz
30 GHz
GFC, GBE
OC-48
OC-192, 10.66 Gb/s
20 GHz
30 GHz
OC-192
20 GHz
30 GHz
OC-192
20 GHz
30 GHz
40 GHz
<12 μW
<25 μW
<15 μW
<25 μW
<10 μW
<15 μW
<30 μW
<12 μW
<20 μW
<40 μW
<1 μW
<1.5 μW
<10 μW
<15 μW
<30 μW
<12 μW
<20 μW
<40 μW
<15 μW
<25 μW
<35 μW
<70 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
2
2
rms
2
2
2
<8 μW
rms
<15 μW
<10 μW
<15 μW
<6 μW
rms
<10 μW
<20 μW
<7 μW
rms
<15 μW
<30 μW
<0.75 μW
<1 μW
rms
<6 μW
rms
<10 μW
<20 μW
<7 μW
rms
<15 μW
<30 μW
<10 μW
<15 μW
<25 μW
<50 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
48 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 32: Vertical equivalent optical noise (max and typical), 80C01 through 80C101(cont.)
Module Setting Wavelength Maximum noise Typical noise
80C06 50 GHz
80C07
OC-3, OC-12
OC-48
80C07B
OC-3, OC-12, GFC, GBE
2GFC
OC-48, 2GBE, INF2500
80C08, 80C08B
All settings <5 μW
(no clock
recovery)
80C08-CR1,
All s ettings <5.5 μW
80C08B-CR1
80C08B-CR2
80C08C,
All s ettings
80C08D (no
clock recovery)
80C08C-CR1,
All s ettings
80C08D-CR1,
80C08C-CR2,
80C08D-CR2,
80C08C-CR4,
80C08D-CR4
80C09
OC-192, FEC 10.71 Gb/s
20 GHz
30 GHz
80C09-CR1,
80C09-CR2
OC-192, FEC 10.71 Gb/s
20 GHz
30 GHz
80C10 OC-768, 43.02 Gb/s
30 GHz
65 GHz
80C10B
OC-768, 43.02 Gb/s, 40GBASE-FR
30 GHz
<192 μW
<1 μW
rms
<1.5 μW
<1 μW
rms
<1.5 μW
<1.5 μW
rms
1310 nm,
<3.0 μW
1550 nm
850 nm <5.0 μW
780 nm <6.0 μW
1310 nm,
<3.5 μW
1550 nm
850 nm <5.5 μW
780 nm <6.6 μW
<10 μW
<20 μW
<30 μW
<10 μW
<20 μW
<30 μW
1310 nm <110 μW
1550 nm <60 μW
1310 nm <90 μW
1550 nm <50 μW
(maximum)
1310 nm <220 μW
1550 nm <120 μW
1310 nm <50 μW
1550 nm <38 μW
1310 nm <45 μW
1550 nm <35 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
2
2
rms
rms
rms
rms
<150 μW
<0.50 μW
<0.70 μW
<0.50 μW
<0.85 μW
<0.70 μW
<2.5 μW
<3.0 μW
<1.7 μW
<3.0 μW
<3.5 μW
<1.9 μW
<3.3 μW
<3.9 μW
<6 μW
rms
<15 μW
<20 μW
<7 μW
rms
<15 μW
<30 μW
<75 μW
<40 μW
<55 μW
<30 μW
<150 μW
<85 μW
<28 μW
<20 μW
<26 μW
<19 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
(typical)
rms
rms
rms
rms
rms
rms
rms
DSA8300, 80A00, 80C00, 80E00 specifications 49
80C00 optical sampling modules specifications
Table 32: Vertical equivalent optical noise (max and typical), 80C01 through 80C101(cont.)
Module Setting Wavelength Maxim um noise Typical noise
65 GHz
80 GHz
80C10B-F1
OC-768, 43.02 Gb/s, 40GB ASE-FR
65 GHz
100GBASE-R4, 100GBASE-R4 FEC
80C10C 100GBASE-R4, INF25781
OTU-4 (27.952 Gb/s)
28.05 GHz
OC-768, 40GBASE-FR, FEC 43 Gb/s
32 GHz
55 GHz
70 GHz
80 GHz
80C10C Opt
100GBASE-R4, INF25781
CRTP
OTU-4 (27.952 Gb/s)
28.05 GHz
OC-768
40GBASE-FR
FEC 43 Gb/s
32 GHz
55 GHz
70 GHz
1310 nm <75 μW
1550 nm <60 μW
1310 nm <130 μW
1550 nm <105 μW
1310 nm <75 μW
1550 nm <40 μW
1310 nm <110 μW
1550 nm <60 μW
1310 nm <38 μW
1550 nm <28 μW
1310 nm <23 μW
1550 nm <18 μW
1310 nm <25 μW
1550 nm <20 μW
1310 nm <38 μW
1550 nm <29 μW
1310 nm <29 μW
1550 nm <22 μW
1310 nm <52 μW
1550 nm <40 μW
1310 nm <85 μW
1550 nm <65 μW
1310 nm <140 μW
1550 nm <100 μW
1310 nm <27 μW
1550 nm <21 μW
1310 nm <28 μW
1550 nm <23 μW
1310 nm <44 μW
1550 nm <34 μW
1310 nm <34 μW
1550 nm <26 μW
1310 nm <60 μW
1550 nm <46 μW
1310 nm <100 μW
1550 nm <75 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
<44 μW
<33 μW
<72 μW
<55 μW
<45 μW
<25 μW
<75 μW
<40 μW
<21 μW
<15 μW
<16 μW
<12 μW
<17 μW
<13 μW
<24 μW
<18 μW
<18 μW
<14 μW
<30 μW
<23 μW
<46 μW
<36 μW
<75 μW
<55 μW
<19 μW
<14 μW
<20 μW
<15 μW
<28 μW
<21 μW
<21 μW
<16 μW
<35 μW
<27 μW
<53 μW
<42 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
50 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 32: Vertical equivalent optical noise (max and typical), 80C01 through 80C101(cont.)
Module Setting Wavelength Maximum noise Typical noise
80 GHz
1
The optical channel noise with no optical noise input (Dark Level).
2
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
signals of modulation magnitude such that 2 mW
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
1310 nm <160 μW
1550 nm <115 μW
rms
rms
<86 μW
<64 μW
rms
rms
Table 33: Optical modules: vertical equivalent optical noise (maximum and typical), 80C11 through 80C25BGE
Module Setting Wavelength Maximum Noise Typical Noise
80C11 (no
clock recovery)
OC-192, 10.66 Gb/s, 10.71 Gb/s,
10GBASE-W, 10GBASE-R, 10GBE FEC,
10GFC, 10GFC FEC
16GFC
80C11 (no
clock recovery)
20 GHz
30 GHz (Warranted at ambient temperatures
below 30 °C only)
80C11-CR1,
80C11-CR2,
80C11-CR3,
80C11-CR4
OC-192, 10.66 Gb/s, 10.71 Gb/s,
10GBASE-W, 10GBASE-R, 10GBE FEC,
10GFC, 10GFC FEC
16GFC
20 GHz
30 GHz (Warranted at ambient temperatures
below 30 °C only)
80C12 GFC, 2GFC, 4GFC, 10GBASE-X4,
10GFC-X4, VSR-5
9GHz
All settings option 10G
80C12B
OC-3, OC-12, FC1063, GFC, GBE
(Options
F0-F12, 10GP)
2GFC, OC-48, INF2500, 2GBE, FEC2.666,
10GBASE-X4, 10GFC-X4, 4GFC
INF5000, OBSAI, CPRI 7
<8 μW
rms
<10 μW
<14 μW
<30 μW
<9 μW
rms
<11.5 μW
<15 μW
<35 μW
1310 nm,
<2.5 μW
1550 nm
850 mm <4.0 μW
(maximum)
1310 nm,
<5.0 μW
1550 nm
850 mm <8.0 μW
1310 nm,
<5.0 μW
1550 nm
850 mm <8.0 μW
1310 nm,
<1.3 μW
1550 nm
850 mm <2.1 μW
1310 nm,
<1.5 μW
1550 nm
850 mm <2.4 μW
1310 nm,
<2.2 μW
1550 nm
850 mm <3.5 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
RMS
RMS
RMS
RMS
RMS
RMS
<5.5 μW
<7 μW
<10 μW
<20 μW
<6 μW
<8 μW
<11 μW
<25 μW
<1.3 μW
<2.1 μW
<2.4 μW
<3.8 μW
<2.4 μW
<3.8 μW
0.7 μW
1.1 μW
0.9 μW
1.5 μW
1.2 μW
2.0 μW
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
rms
RMS
RMS
RMS
RMS
RMS
RMS
DSA8300, 80A00, 80C00, 80E00 specifications 51
80C00 optical sampling modules specifications
Table 3 3: Optical modules: vertical equivalent optical noise (maximum and typical), 80C11 through 80C25BGE (cont.)
Module Setting Wavelength Maxim um Noise Typical Noise
80C12B
(Option 10G)
80C14
80C15, 80C15
Opt CRTP
8.5 Gb/s – 11.317 Gb/s
12 GHz
FC-8500, 8GFC, OC-192, 10GBASE-W,
10GBASE-R, 40GBASE-R4,
100GBASE-R10, 10 GFC, 10GFC-FEC,
10GBE-FEC, 10.71 Gb/s, 10.66
12 GHz
FC-8500, 8GFC, OC-192, 10GBASE-W,
10GBASE-R, 40GBASE-R4,
100GBASE-R10, 10 GFC, 10GFC-FEC,
10GBE-FEC, 10.71 Gb/s, 10.66 Gb/s
FEC12.5
16GFC
100GBASE-R4, INFINIBAND EDR
OTU-4
22.0 GHz
28.05 GHz
32 GHz
1310 nm,
1550 nm
850 mm <4.3 μW
1310 nm,
1550 nm
850 mm <5.5 μW
1310 nm,
1550 nm
850 mm <4.0 μW
1310 nm,
1550 nm
850 mm <4.8 μW
1310 nm,
1550 nm
850 mm <4.0 μW
1310 nm,
1550 nm
850 mm <4.8 μW
1310 nm,
1550 nm
850 mm <6.0 μW
1550 nm <11.9 μW
1310 nm <10.9 μW
850 nm <14.4 μW
1550 nm <12.9 μW
1310 nm <11.8 μW
850 nm <15.6 μW
1550 nm <13.3 μW
1310 nm <12.0 μW
850 nm <15.6 μW
1550 nm <12.9 μW
1310 nm <11.8 μW
850 nm <15.6 μW
1550 nm <16.2 μW
1310 nm <14.6 μW
850 nm <19.7 μW
<2.7 μW
<3.6 μW
<2.4 μW
<2.9 μW
<2.4 μW
<2.9 μW
<3.7 μW
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
1.6 μW
2.6 μW
2.0 μW
3.3 μW
1.3 μW
2.2 μW
1.7 μW
<2.9 μW
1.3 μW
2.2 μW
1.7 μW
2.9 μW
2.3 μW
3.8 μW
11. 4 μW
10.3 μW
13.5 μW
12.4 μW
11. 2 μW
14.7 μW
11. 9 μW
10.8 μW
14.2 μW
12.4 μW
11. 2 μW
14.7 μW
15.4 μW
13.9 μW
18.3 μW
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
RMS
52 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 33: Optical modules: vertical equivalent optical noise (maximum and typical), 80C11 through 80C25BGE (cont.)
Module Setting Wavelength Maximum Noise Typical Noise
80C25GBE
65 GHz
100GBASE-R4, 100GBASE-R4 FEC
1310 nm <75 μW
1550 nm <60 μW
1310 nm <38 μW
1550 nm <28 μW
rms
rms
rms
rms
<44 μW
<33 μW
<21 μW
<15 μW
rms
rms
rms
rms
Table 34: 80C10C: Data, Data output
Name Characteristics
Electrical output
characteristics
Maximum amplitudes Wavelength Maximum Typical
Rise times Wavelength Maximum Typical
Output timing
ment
align
tive differential
Effec
optical-to-electrical
AC conversion gain
ion CRTP)
(Opt
ective differential
Eff
1
optical-to-electrical
AC conversion gain
tion HSRP )
(Op
1
Bit-error-ratio
nsitivity of DATA
se
outputs (Option CRTP)
t-error-ratio
Bi
sensitivity of DATA
outputs (Option HSPR)
50 Ω, AC coupled, 30 kHz low frequency cutoff (typical)
All <700 mV <500 mV
All
<16 ps (20-80%) <14 ps (20-80%)
Differential skew: ≤1ps(defined at the 2.92 mm (female) coaxial connector output reference plane)
Wavelength Minimum Typical
1310 nm
1550 nm
>63 mV/mW 97 mV/mW
>57 mV/mW 90 mV/mW
Wavelength Minimum Typical
1310 nm
1550 nm
P > 2.3 dBm (to obtain BER ≤10E-12)
AO
> 840 mV/mW 1040 mV/mW
> 780 mV/mW 960 mV/mW
AOP > -8 dBm (to obtain BER = <10E-12 for 25.78 - 43.02 Gb/s NRZ input signals (ER=12 dB, PRBS
31
2
-1 pattern))
1
Applies to linear (non-saturated) operating region of auxiliary photoreceiver (<3.2 mWpp Option CRTP, and 0.32 mWpp Option HSPR).
Table 35: 80C10C: effective clock recovery optical sensitivity (Opt CRTP only)
Name Characteristics
Effective clock
recovery optical
sensitivity at
25.78 Gb/s (Opt CRTP
1
only)
OMA minim um
OMA typical
For ER=12 dB:
AOP minimum
AOP typical
1310 nm 1550 nm
0.64 mW 0.73 mW
0.42 mW 0.45 mW
–4.4 dBm –4.0 dBm
–6.2 dBm –5.9 dBm
DSA8300, 80A00, 80C00, 80E00 specifications 53
80C00 optical sampling modules specifications
Table 35: 80C10C: effective clock recovery optical sensitivity (Opt C RTP only) (cont.)
Name Characteristics
Effective clock
recovery optical
sensitivity at
41.25 Gb/s (Opt CRTP
2
only)
OMA minimum
OMA typical
For ER=12 dB:
AOP minimum
AOP typical
1
When used with Tektronix CR286A-HS clock recovery instrument with differential signal routing from the module’s DATA outputs to the CR268A-HS inputs
2
When used with third-party 40G clock recovery instrument wit
(contact Tektronix for details).
1310 nm 1550 nm
1.66 mW 1.82 mW
1.05 mW 1.12 mW
–0.2 dBm 0.2 dBm
–2.3 dBm –1.9 dBm
h single-ended signal routing from the module’s DATA outputs to the clock recovery input
Table 36: 80C15: Data, Data output
Name Characteristics
Electrical output
characteristics
Maximum amplitudes Wavelength Maximum Typical
Rise times Wavelength Maximum Typical
Output timing
alignment, typical
Effective differential
optical-to-electrical
AC conversion gain
(Option CRTP)
1
DATA output versus
sampling Instance
delay in clock recovery
configuration with
phase reference
timebase, typical
1
Applies to linear (non-saturated) operating region of auxiliary photoreceiver.
2
The risetime is measured using an 80E15 connector directly to the CRTP output using 2.92 mm - 2.4 mm adaptors.
50 Ω single ended, AC coupled, 30 kHz low frequency cutoff (typical)
All <400 mV <350 mV
All
<25.0 ps (20%-80%) <23.5 ps (20%-80%)
Differential skew: ≤2ps(defined at the 2 .92 mm (female) coaxial connector output reference plane)
Wavelength Minimum Typical
850 nm
1310 nm
1550 nm
>5000 mV/mW 6200 mV/mW
>9000 mV/mW 10,000 mV/mW
>9000 mV/mW 10,000 mV/mW
<1ns
Table 37: 80C15: Effective clock recovery optical sensitivity (Opt CRTP only)
Name Characteristics
Effective clock
850 nm 1310 nm 1550 nm
recovery optical
sensitivity at
25.78 Gb/s (Opt CRTP
1
only)
OMA minimum
-18 dBm -20 dBm -20 dBm
54 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 37: 80C15: Effective clock recovery optical sensitivity (Opt CRTP only) (cont.)
Name Characteristics
OMA typical
1
When used with Tektronix CR286A-HS clock recovery instrument with differential signal routing from the module’s DATA outputs to the CR268A-HS inputs
(typical based on specified CR sensitivity of >40 mVpp differential swing, minimum based on type testing of modules).
-22 dBm –24 dBm –24 dBm
Table 38: Optical modules: reference receiver frequency response
Name Character
OC-3/STM-1 155 Mb/s Reference
Receiver setting frequency response
1
In the 155
fourth-order Bessel-Thompson reference receiver boundary limits.
The OC-3/STM-1 nominal scalar frequency response matches the ITU 155.52
Referenc
Frequen
0.000
23.33
46.65
69.98
93.30
116.7
140.0
155.5
163.3
186.6
9
209.
233.3
istics
.52 Mb/s NRZ setting, the scalar frequency response is verified to fall within
e Receiver Nominal curve with the following tolerance:
cy (MHz)
Lower (d
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.
–16.41
55
B)
Nominal
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
93
–10.
–13.41
(dB)
Upper (d
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
1
–8.3
–10.41
B)
DSA8300, 80A00, 80C00, 80E00 specifications 55
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
OC-12/STM-4 622.08 Mb/s Reference
Receiver setting frequency response
1
OC-48/STM-16 2.488 Gb/s Reference
Receiver setting frequency response
1
In the 622.08 Mb/s NRZ setting, the scalar frequency response is verified to fall within
fourth-order Bessel-Thompson reference receiver boundary limits.
The OC-12/STM-4 nominal scalar frequency response matches the ITU 622.08
Reference Receiver Nominal curve with the following tolerance:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.000
93.3
186.6
279.9
373.2
466.7
559.9
622.1
653.2
746.5
839.8
933.1
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
Scalar frequency response falls within industry standard, Bessel-Thompson reference
receiver boundary limits.
SONET OC-48/STM-16 frequency response boundary limits are described in ITU-T
G.957 Tables I.1 and I.2. For convenience, the scalar frequency response of the
output amplitude (for sinusoidal swept optical input) has been interpreted from the
Bessel-Thompson transfer function and listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.000
373.3
746.5
1119.7
1493.1
1866.3
2239.5
2488.3
2612.8
2986.0
3359.3
3732.6
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
56 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
OC48 FEC (2.666 Gb/s) Reference
Receiver setting frequency response
In OC48 FEC setting, scalar frequency response falls within standard NRZ 2.666 Gb/s
fourth-order Bessel-Thompson Reference Receiver boundary limits as listed in the
following table.
SONET OC48 frequency response boundary limits are described in ITU-T G.957
Tables I.1 and I.2. For convenience, the s calar frequency response of the output
amplitude (for sinusoidal swept optical input) has been interpreted from the published
Bessel-Thompson transfer function by frequency-scaling the OC48 limits with the OTU1
G.709 overhead ratio 255/238 and listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.000
400.0
799.8
1282.5
1599.8
1999.6
2399.5
2666.0
2799.4
3199.3
3528.7
3999.2
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
DSA8300, 80A00, 80C00, 80E00 specifications 57
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
OC-192/STM-64 9.953 Gb/s Reference
Receiver setting frequency response
1
Scalar frequency response falls within industry standard, Bessel-Thompson reference
receiver boundary limits.
Tektronix manufactures and tests the 80CXX optical modules with 10 Gb/s Reference
Receivers to have a new superior and tighter tolerance OC-192/STM-64 Reference
Receiver response. ITU agreed on the minimum performance specifications for 10 Gb/s
(STM-64/OC-192) optical reference receivers (San Antonio ITU Study Group 15
February 2000). These specifications are used to establish system interoperability and
test conformance of optical interfaces to draft ITU-T Recommendation G.691, which is
scheduled to be completed in April 2000 (see ITU table A.1/G.691 from the WD 16-48
document from Study Group 15 dated February 2000).
For convenience, the scalar frequency response of the output amplitude (for sinusoidal
swept optical input) has been interpreted from the published Bessel-Thompson transfer
function and listed below:
(MHz)
Frequency
0.000
1493.2
2986.0
4478.8
5972.4
7465.0
8958.0
9953.28
10451.2
11944.0
13437.2
14930.4
(dB)
Lower
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
(dB)
Nominal
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
0.85
0.74
0.40
0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
58 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
OC-768/STM-256 39.813 Gb/s
Reference Receiver setting frequency
response
1
OC-768/STM-256 39.813 Gb/s
Reference Receiver setting frequency
response
1
(80C10C, Option F1, F3)
Applies to 1294 nm – 1330 nm, 1530 nm
- 1570 nm
Bessel-Thompson Scalar Frequency Response curve and tolerances at various
frequencies; based on ±1.00 dB DC to 0.75x(data rate) and ±5.0 dB at 1.5x(data rate).
NOTE. The table below is a discrete list of some specific values that are commonly
listed in ITU standards; curve and tolerances are actually a continuous function.
(GHz)
Frequency
0
5.97
11. 94
17.92
23.89
29.86
35.83
39.81
41.80
47.78
53.75
59.72
(dB)
Lower
–1.00
–1.10
–1.45
–2.02
–2.86
–4.00
–6.56
–8.37
–9.31
–12.26
–15.32
–18.41
Bessel-Thompson Scalar Frequency Response curve and tolerances at various
frequencies; based on ±0.85 dB DC to 0 .75x(data rate) and expanding to ±4.0 dB
at 1.5x(data rate).
NOTE. The table below is a discrete list of some specific values that are commonly
listed in ITU standards; curve and tolerances are actually a continuous function.
(GHz)
Frequency
0
5.97
11. 94
17.92
23.89
29.86
35.83
39.81
41.80
47.78
53.75
59.72
(dB)
Lower
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
(dB)
Nominal
0
–0.10
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
—6.37
–8.54
–10.93
–13.41
(dB)
Nominal
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
1.00
0.90
0.55
–0.02
–0.86
–2.00
–2.46
–3.05
–3.43
–4.83
–6.53
–8.41
(dB)
Upper
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 59
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
100GBASE-R4 (25.781 Gb/s,
ENET25781, Infiniband EDR) and
100GBASE-R4 w/ FEC (27.739 Gb/s,
ENET27739) Reference Receiver setting
frequency response
2
The published IEEE P802.3ba 40/100GbE D3.2 standard defines the Optical Reference
Receiver specifications for 100GBASE-LR4 and –ER4 variants as follows (per section
88.8.8 in P802.3ba D3.2, June 2010): a standard 4th-order Bessel-Thompson
Scalar Frequency Response w ith a reference frequency of 0.75x(data rate).
(0.75*25.78125 GHz=19.337 GHz)
NOTE. The table below is a discrete list of some specific values that are commonly
listed in ITU standards; curve and tolerances are actually a continuous function.
(MHz)
Frequency
0
3867
7734
11602
15469
19336
23203
25781
27070
30938
34805
38672
(dB)
Lower
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
(dB)
Nominal
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
60 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
40GBASE-FR (41.25 Gb/s,
ENET41250) Reference Receiver
setting frequency response
2
At the time of this writing the IEEE P802.3bg 40GbE task force has not yet finalized the
ORR specifications for the 40GBASE-FR serial variant. Preliminary tolerances are
chosen to match the first draft proposal D1.0 of IEEE 802.3bg released in June 2010
(Sect. 89.7.8).
The response follows a standard 4th-order Bessel-Thompson Scalar Frequency
Response with a –3dB reference frequency of 0.75 x (data rate); for example, 0.75 x
41.25 GHz = 30.94 G Hz.
Tolerances are as specified for STM-64 in ITU-T G.691. The table below lists the
nominal curve and tolerances at various frequencies; based on ± 0.85 dB DC to 0.75 x
(data rate) and expanding to ±4.0 dB at 1.5 x (data rate).
(GHz)
Frequency
0
6188
12375
18563
24750
30938
37125
41250
43313
49500
55688
61875
(dB)
Lower
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
(dB)
Nominal
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 61
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
10GBASE-W, 10GBASE-R,
40GBASE-R4, 100GBASE-R10,
10GFC, 10G BE FEC (FEC11.10Gb/s),
10GFC FEC (FC11317) Reference
Receiver setting frequency response
1
The 10GBASE-W, 10GBASE-R, 10GFC, 40GBASE-R4, 100GBASE-R10 standards
specify an optical reference receiver with a 7.5 GHz fourth-order ideal Bessel-Thompson
response.
For convenience, the scalar frequency response of the output amplitude (for sinusoidal
swept optical input) has been interpreted from the published Bessel-Thompson transfer
function for 9.95328 Gb/s ITU-T Reference Receivers, and from IEEE802.3 and listed
below.
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0
1500
3000
4500
6000
7500
9000
10000
10500
12000
13500
15000
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
62 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
10GBASE-4 ENET3125 (3.125 Gb/s)
Reference Receiver setting frequency
response
1
10GFC-4 (3.188 Gb/s) Reference
Receiver setting frequency response
1
In 10GBASE-4 setting, scalar frequency response falls within industry standard,
Bessel-Thompson reference receiver boundary limits.
10GBASE-4 frequency response boundary limits are derived by simply scaling all
frequency values by 2.5X as described in IEEE 802.3z section 38.6.5 (this section
refers to ITU G.957 for tolerances).
For convenience, the scalar frequency response of the output amplitude (for sinusoidal
swept optical input) has been interpreted from the Bessel-Thompson transfer function
and listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.000
468.8
937.5
1406
1875
2344
2813
3125
3281
3750
4219
4688
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
In 10GFC-4 setting, scalar frequency response falls within Industry standard,
Bessel-Thompson reference receiver boundary limits.
10GFC-4 frequency response boundary limits are described in ANSI FC-PC. The scalar
frequency response of the output amplitude (for sinusoidal swept optical input) has been
interpreted from the published Bessel-Thompson transfer function and listed below
(based on ±0.5 dB from DC to 0.75x(rate) and ±3.0 dB at 1.5x(rate):
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.000
478.1
956.3
1434
1913
2391
2869
3188
3347
3825
4303
4781
-0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.65
–6.35
–8.31
–10.41
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.65
–6.35
–8.31
–10.41
DSA8300, 80A00, 80C00, 80E00 specifications 63
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
10.66 Gb/s (G.975) Reference Receiver
setting frequency response
1
This Reference Receiver is essentially identical to the OC-192 9.95328 Gb/s rate
with the following changes: the frequency scale for the tolerance curves and nominal
–3 dB breakpoints are scaled linearly by the ratio of (10.664 Gb/s)/(9.95328 Gb/s); for
example: the 9.953 Gb/s reference receiver has a nominal –3 dB response at 0.75 ×
9.95328 GHz = 7.465 GHz. This 10.66 Gb reference receiver has a nominal –3 dB
response at (10.664/9.95328) × 7.465 GHz = 7.998 GHz.
For convenience, the scalar frequency response of the output amplitude (for sinusoidal
swept optical input) has been interpreted from the published Bessel-Thompson transfer
function, the frequencies scaled as described above, and then listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0
1599.8
3199.2
4798.6
6398.9
7998.0
9597.7
10664.0
11197.5
12796.9
14396.7
15996.5
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
64 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 38: Optical modules: reference receiver frequency response (cont.)
Name Characteristics
10.71 Gb/s (G.709) Reference
Receiver setting frequency response
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical
input signals of modulation magnitude such that 2 mW
at 850 nm for 80C12B and 80C14) or less signal is applied at the sampler input.
μW
pp
2
The factory calibration and verification of these tolerances are performed in a stable ambient environment of +25 °C ±2 °C. The module is specified to perform
in these tolerances over an operating temperature range of +20 °C and +30 °C.
with
1
This Reference Receiver is essentially identical to that for the OC-192 9.95328 Gb/s rate
with the following changes: the frequency scale for the tolerance curves and nominal
–3 dB breakpoints are scaled linearly by the ratio of (10.709 Gb/s)/(9.95328 Gb/s); for
example: the 9.953 Gb/s reference receiver has a nominal –3 dB response at 0.75 ×
9.95328 GHz = 7.465 GHz. This 10.71 Gb reference receiver has a nominal –3 dB
response at (10.709/9.95328) × 7.465 GHz = 8.032 GHz.
For convenience, the scalar frequency response of the output amplitude (for sinusoidal
swept optical input) has been interpreted from the published Bessel-Thompson transfer
function, the frequencies scaled as described above, and then listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0
1606.6
3212.8
4819.0
6426.0
8032.0
9638.4
10709.2
11245.0
12851.1
14457.7
16064.4
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12; <800 μWppat 1310/1550 nm, <1300
pp
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 65
80C00 optical sampling modules specifications
Table 39: 16GFC
Description
The 8GFC (ANSI
Bessel-Thomson frequency response. At the time of writing, reference receiver standards for 16G FibreChannel have not been
published in FC-PI-5 (draft rev 0.01). We have expected the use of an ideal fourth-order Bessel-Thomson response with a –3 dB
bandwidth of
For convenience, the scalar frequency response of the output amplitude (for sinusoidal swept optical input) has been interpreted from
the published Bessel-Thompson transfer function, the frequencies scaled as described above, and then listed below.
Nominal res
(MHz)
Frequency
0
2104
4208
6311
8415
10519
12623
14025
14726
16830
18934
21038
(14.025 Gb/s) reference r eceiver setting frequency response, warranted
FC-PI-4) and 10GFC standards specify an optical reference receiver with a 7.5 GHz fourth-order ideal
0.75 x data rate (=10.52 GHz) and tolerance limits identical to 8GFC and 10GFC standards.
ponse curve and tolerance limits (based on ±0.85 dB from DC to 10.519 GHz and expanding to ±4.0 dB at 21.038 GHz).
(dB)
Lower
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
(dB)
Nominal
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
66 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 40: 16GFC
Description
In the 16GFC r6
with a nominal 4th-order Bessel-Thompson filter shape as described in standard document ANSI FC-PI-5 (rev R 6.1) and falls within
specified frequency response tolerance limits.
This filter re
standard document.
The tabular values are derived from the standard Bessel-Thompson transfer function and tolerance limits for 16GFC per the published
specificati
frequency to 0.658x14.025 GHz= 9.225 GHz.
Frequency (GHz) Lower (dB) Nominal (dB) Upper (dB)
0
1.845
3.690
5.535
7.380
9.225
10.519
11.070
12.915
14.025
14.760
16.605
18.450
20.295
21.038
sponse typically falls within frequency response tolerance limits as specified in the published ANS I FC-PI-5 rev 6.1 draft
on in FC-PI-5 R6.1. The flare-out point of the tolerance rails is shifted from the standard 0.75x14.025 GHz= 10.519 GHz
r6.1 (FC14025) data filter setting frequency response, warranted
.1 (FC14025) setting, scalar frequency response follows a -3 dBe filter bandwidth of 0.75*14.025 GHz= 10.519 GHz
–0.85
–0.935
–1.194
–1.633
–2.266
–3.117
–4.68
–5.357
–7.698
–9.180
–10.189
–12.821
–15.54
–18.303
–19.410
6
0
–0.085
–0.344
–0.783
–1.416
–2.267
–3.00
–3.368
–4.746
–5.710
–6.402
–8.299
–10.36
–12.527
–13.410
+0.85
+0.765
+0.506
+0.067
–0.566
–1.417
–1.660
–1.821
–2.610
–3.260
–3.756
–5.203
6
–6.867
–8.664
–9.410
DSA8300, 80A00, 80C00, 80E00 specifications 67
80C00 optical sampling modules specifications
Table 41: INF14
Description
In the INF1406
nominal 4th-order Bessel-Thompson filter shape and falls within specified frequency response tolerance limits.
At the time of writing no published standard for 14G Infiniband FDR standard exists.
The tabular v
up linearly in frequency by a ratio of (14.0625 G b /s)/(10 Gb/s). The flare-out point of the tolerance rails is shifted from the standard
0.75×14.0625 GHz =10.547 GHz frequency to 0.658×14.0625 GHz =9.25 GHz.
Frequency (GHz) Lower (dB) Nominal (dB) Upper (dB)
0
1.850
3.700
5.550
7.400
9.250
10.547
11.100
12.950
14.065
14.800
16.650
18.500
20.350
21.094
063 data filter setting frequency response, warranted
3 setting, scalar frequency response corresponds to a -3 dBe filter bandwidth of 0.75×14.0625 GHz =10.547 GHz with a
alues are derived from the standard Bessel-Thompson transfer function and tolerance limits for 10GBASE-R and scaled
–0.85
–0.935
–1.194
–1.633
–2.266
–3.117
–4.680
–5.357
–7.698
–9.180
–10.189
–12.821
–15.546
–18.303
–19.41
0
0
–0.085
–0.344
–0.783
–1.416
–2.267
–3.00
–3.368
–4.746
–5.710
–6.402
–8.299
–10.366
–12.527
–13.41
+0.85
+0.765
+0.506
+0.067
–0.566
–1.417
–1.660
–1.821
–2.610
–3.260
–3.756
–5.203
–6.867
–8.664
0
–9.410
68 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 42: FEC12
Description
In the FEC1250
boundary limits for a 12.5 Gb/s data rate with a nominal -3 dB filter frequency of 0.75x12.5 GHz=9.375 GHz and tolerance limits scaled
linearly in frequency from the ITU-T published reference receiver standards for OC-192 by a ratio of (12.5 Gb/s) / (9.95328 Gb/s).
The nominal s
published Bessel-Thompson transfer function for ITU-T OC-192 frequency response and scaled in frequency to 12.5 Gb/s as listed
below.
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0
1875
3750
5625
7500
9375
11250
12500
13125
15000
16875
18750
.50 Gb/s (FEC12500) reference receiver setting frequency response, warranted
0 setting, scalar frequency response falls within Industry Standard, 4th-order Bessel-Thompson reference receiver
calar frequency response of the output amplitude (for sinusoidal swept optical input) has been interpreted from the
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 69
80C00 optical sampling modules specifications
Table 43: FEC 43
Description
The forward er
.02 Gb/s reference receiver setting frequency response, warranted
1
ror correction method defined in ITU-T standard G.709 creates an additional overhead upon a standard OC-768
(STM256) 40 Gb/s data stream in which the data rate is effectively increased by a ratio of 255/236. Table 7-1 in G.709 standard lists
this explicit serial data rate on the physical layer.
(GHz)
Frequency
0
6.45
12.90
19.36
25.81
32.26
38.71
43.02
45.17
51.63
58.08
64.53
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
of modulation magnitude such that 2 mW
signals
(dB)
Lower
–1.00
–1.10
–1.45
–2.02
–2.86
–4.00
–6.56
–8.37
–9.31
–12.26
–15.32
–18.41
(dB)
Nominal
0
–0.10
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
(dB)
Upper
1.00
0.90
0.55
–0.02
–0.86
–2.00
–2.46
–3.05
–3.43
–4.83
–6.53
–8.41
70 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 44: FEC 43
Description
The forward er
.02 Gb/s reference receiver setting frequency response (80C10C, Opt F1, F3 only), warranted
1
ror correction method defined in ITU-T standard G.709 creates an additional overhead upon a standard OC-768
(STM256) 40 Gb/s data stream in which the data rate is effectively increased by a ratio of 255/236. Table 7-1 in G.709 standard lists
this explicit serial data rate on the physical layer.
(GHz)
Frequency
0
6.45
12.90
19.32
25.81
32.26
38.73
43.02
45.17
51.63
58.08
64.52
1
This specification is limited to the instrument operating in an ambient temperature b etween +20 °C and +30 °C.
(dB)
Lower
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
(dB)
Nominal
0
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 71
80C00 optical sampling modules specifications
Table 45: ENET2
Description
Scalar freque
500 (2 GBE) 2.50 Gb/s reference receiver setting frequency response, warranted
1
ncy response falls within industry standard, Bessel-Thompson reference r eceiver boundary limits.
2.50 Gb/s frequency response boundary limits are derived by simply scaling all frequency values by 2X as described in IEEE 802.3z
section 38.6.5 (this section refers to ITU G.957 for tolerances). For convenience, the scalar frequency response of the output amplitude
(for sinusoi
Frequency (
0.000
375
750
1125
1500
1875
2250
2500
2625
3000
3375
3750
1
dal swept optical input) has been interpreted from the Bessel-Thompson transfer function and listed below:
MHz)
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
of modulation magnitude such that 2 mW
signals
Lower (dB ) Nominal (dB
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
)
Upper (dB)
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
72 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 46: INF25
Description
INF2500 scala
2.50 Gb/s frequency response boundary limits are derived by scaling all frequency values by 2X as described in IEEE 802.3z section
38.6.5 (this section refers to ITU G.957 for tolerances). For convenience, the scalar frequency response of the output amplitude (for
sinusoidal s
(MHz)
Frequency
0.000
375
750
1125
1500
1875
2250
2500
2625
3000
3375
3750
00, INFINIBAND (2.5 Gb/s) reference receiver setting frequency response, warranted
r frequency response falls within industry standard, Bessel-Thompson reference receiver boundary limits.
wept optical input) has been interpreted from the Bessel-Thompson transfer function and listed below:
(dB)
Lower
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
(dB)
Nominal
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(dB)
Upper
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
DSA8300, 80A00, 80C00, 80E00 specifications 73
80C00 optical sampling modules specifications
Table 47: INF50
Description
INF5000 scala
5.0 Gb/s frequency response boundary limits are derived from an interpolation of frequency response boundary limits as described in
ITU G.957 for OC192. The scalar frequency response of the output amplitude (for sinusoidal swept optical input) has been interpreted
from the publ
Frequency (
0.00
750
1500
2250
3000
3750
4500
5000
5250
6000
6750
7500
00 (5.0 Gb/s) reference receiver setting frequency response, warranted
r frequency response falls within industry standard, Bessel-Thompson reference r eceiver boundary limits.
ished Bessel-Thompson transfer function and listed below:
MHz)
Lower (dB ) Nominal (dB
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
)
Upper (dB)
+0.85
+0.74
+0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
74 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 48: ENET1
250 (GBE) 1.25 Gb/s reference receiver setting frequency response, warranted
Description
Scalar freque
ncy response falls within industry standard, Bessel-Thompson reference receiver boundary limits.
1.250 Gb/s frequency response boundary limits are described in IEEE 802.3z section 38.6.5 (this section refers to ITU G.957 for
tolerances).
For convenie
nce, the scalar frequency response of the output amplitude (for sinusoidal swept optical input) has been interpreted
from the Bessel-Thompson transfer function and listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.000
187.5
375
562.5
750
937.5
1125
1250
1312.5
1500
1687.5
1875
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
signals of modulation magnitude such that 2 mW
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
DSA8300, 80A00, 80C00, 80E00 specifications 75
80C00 optical sampling modules specifications
Table 49: FC106
Description
In FC1063 sett
3 (1.0625 Gb/s) reference receiver setting frequency response, warranted
1
ing, scalar frequency response falls within industry standard, Bessel-Thompson reference receiver boundary limits.
Fibre Channel frequency response boundary limits are described in ANSI FC-PC. For convenience, the scalar frequency response
of the output amplitude (for sinusoidal swept optical input) has been interpreted from the published Bessel-Thompson transfer
function and
Frequency (
0.000
159.5
318.9
478.4
637.9
797.4
956.8
1063
1116
1275
1435
1595
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
signals
listed below:
MHz)
Lower (dB ) Nominal (dB
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
of modulation magnitude such that 2 mW
)
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
Upper (dB)
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.66
–6.35
–8.31
–10.41
76 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 50: FC212
Description
In FC2125 sett
5 (2.125 Gb/s) reference receiver setting frequency response, warranted
1
ing, scalar frequency response falls within industry standard, Bessel-Thompson reference receiver boundary limits.
2G FiberChannel frequency response boundary limits are described in ANSI FC-PC. For convenience, the scalar frequency response
of the output amplitude (for sinusoidal swept optical input) has been interpreted from the published Bessel-Thompson transfer
function and
Frequency (
0.000
318.8
637.5
956.3
1275
1594
1913
2125
2231
2550
2869
3188
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
signals
listed below:
MHz)
Lower (dB) Nominal (dB
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
of modulation magnitude such that 2 mW
)
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
Upper (dB)
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.65
–6.35
–8.31
–10.41
DSA8300, 80A00, 80C00, 80E00 specifications 77
80C00 optical sampling modules specifications
Table 51: FC425
Description
In FC4250 sett
0 (4.25 Gb/s) reference receiver setting frequency response, warranted
1
ing, scalar frequency response falls within industry standard, Bessel-Thompson reference receiver boundary limits.
4G FiberChannel frequency response boundary limits are described in ANSI FC-PC. For convenience, the scalar frequency response
of the output amplitude (for sinusoidal swept optical input) has been interpreted from the published Bessel-Thompson transfer
function and
Frequency (
0.000
637.5
1275
1913
2550
3188
3826
4250
4462
5100
5738
6375
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
signals
listed below:
MHz)
Lower (dB ) Nominal (dB
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
of modulation magnitude such that 2 mW
)
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
Upper (dB)
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.65
–6.35
–8.31
–10.41
78 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 52: FC850
Description
In the FC8500 s
early-drafts of the 8xFibreChannel standard (8.5 Gb/s) (prior to FC-PI-4 rev 8.0).
Early drafts of ANSI FC-PI-4 prior to rev8.00 specified the use of a 0.75*8.5 GHz= 6.375 GHz (-3 dB) fourth-order ideal Bessel-Thomson
response for
The nominal scalar frequency response of the output amplitude (for sinusoidal swept optical input) has been interpreted from the
published Bessel-Thompson transfer function for 4xFibreChannel (FC4250) frequency response described in ANSI FC-PC-4 and
scaled in fr
Frequency (
0.00
1275
2550
3825
5100
6375
7650
8500
8925
10200
11475
12750
equency to 8.5 Gb/s as listed below:
0 (8.5Gb/s) Filter setting frequency response, warranted
etting, scalar frequency response falls within Bessel-Thompson reference receiver boundary limits as described in
this rate with upper and lower tolerances scaled in frequency by 8.5/10.0 from the 10GFC tolerance rails.
MHz)
Lower (dB) Nominal (dB
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
)
Upper (dB)
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 79
80C00 optical sampling modules specifications
Table 53: FC850
Description
In the FC8500F
limits for the 8xFibreChannel data rate (8.5 Gb/s) according to the final ratified ANSI FC-PI-4 rev 8.00 standard document.
Early drafts of ANSI FC-PI-4 prior to rev8.00 specified the use of a 0.75*8.5 GHz= 6.375 GHz (-3 dB) fourth-order ideal Bessel-Thomson
response for
In 07/2008 ANSI FC-PI-4 rev8.00 changed the filter -3dB bandwidth specification to 7.5 GHz which is identical to the 10GFC reference
receiver.
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.0
1500
3000
4500
6000
7500
9000
10000
10500
12000
13500
15000
0FINAL (8.5Gb/s) reference receiver setting frequency response, warranted
inal setting, scalar frequency response falls within Industry Standard, Bessel-Thompson reference receiver boundary
this rate with upper and lower tolerances scaled in frequenc y by 8 .5/10.0 from the 10GBASE-R tolerance rails.
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
80 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 54: VSR-5
Description
In 3.318 Gb/s s
(3.318 Gb/s) reference receiver setting frequency response, warranted
1
etting, scalar frequency response falls within industry standard, Besse l-Thompson reference receiver boundary limits.
At the time of publishing this document, a standard for VSR-5 frequency response boundary limits has not been defined. The
scalar frequency response curve and tolerance boundaries used for 10GBASE-4 scaled to the VSR-5 bit rate will be used for this
rate until a s
tandard has been defined.
The exact bit rate is given by the formula:
For convenience, the scalar frequency response of the outp
ut amplitude (for sinusoidal swept optical input) has been interpreted from
the published Bessel-Thompson transfer function and listed below:
(MHz)
Frequency
0.000
497.7
995.3
1493
1991
2488
2986
3318
3484
3981
4479
4977
1
This specification is limited to the instrument operating in an ambient temperature between +20 °C and +30 °C. Nominal freq response is specified for optical input
signals of modulation magnitude such that 2 mW
(dB)
Lower
–0.50
–0.61
–0.95
–1.52
–2.36
–3.50
–5.67
–7.25
–8.08
–10.74
–13.55
–16.41
(dB)
Nominal
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
(200 μWppfor 80C03 and 80C07; 500 μWppfor 80C08 and 80C12) or less signal is applied at the sampler input.
pp
(dB)
Upper
0.50
0.39
0.05
–0.52
–1.36
–2.50
–3.35
–4.17
–4.65
–6.35
–8.31
–10.41
DSA8300, 80A00, 80C00, 80E00 specifications 81
80C00 optical sampling modules specifications
Table 55: OBSAI
Description
In OBSAI6144 s
for a 6.144 Gb/s baud rate.
Tolerances have been derived from frequency response boundary limits as described in ITU G.957 for OC192. The scalar frequency
response of t
transfer function and listed below
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.00
922
1843
2765
3686
4608
5530
6144
6451
7373
8234
9216
6.144 Gb/s (OBSAI6144) reference receiver setting frequency response, warranted
etting, scalar frequency response falls within Industry Standard, Bessel-Thompson reference receiver boundary limits
he output amplitude (for sinusoidal swept optical input) has been interpreted from the published Bessel-Thompson
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
82 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 56: CPRI 7
Description
In CPRI7373 se
for a 7.373 Gb/s baud rate.
Tolerances have been derived from frequency response boundary limits as described in ITU G.957 for OC192. The scalar frequency
response of t
transfer function and listed below:
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.0
1106
2212
3318
4423
5767
6636
7373
7741
8848
9881
11059
.373 Gb/s (CPRI7373) reference receiver setting frequency response, warranted
tting, scalar frequency response falls within Industry Standard, Bessel-Thompson reference receiver boundary limits
he output amplitude (for sinusoidal swept optical input) has been interpreted from the published Bessel-Thompson
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 83
80C00 optical sampling modules specifications
Table 57: 32 GHz
Description
Atthetimeoft
OTU4 transceivers with ~14% FEC overhead (for example, 27.952 Gb/s x 1.14 =~32 Gb/s). The 32 GHz setting is therefore defined as
a generic filter optimized for 32 Gb/s mask testing. The frequency response follows a 4th-order Bessel-Thompson filter response
derived by fr
The response follows a standard 4th-order Bessel-Thompson Scalar Frequency Response with a -3 dB reference frequency of
0.75x(data rate). For example, 0.75 x 32.0 GHz = 24.0 GHz.
Tolerances
frequencies, based on ±0.85 dB DC to 0.75x(data rate) and expanding to ±4.0 dB at 1.5x(data rate).
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.00
4800
9600
14400
19200
24000
28800
32000
33600
38400
43200
48000
equency scaling the ORR filter specified for 100GBASE-R4 per IEEE P803.2ag from 25.7815 Gb/s to 32.0 Gb/s.
are the same as specified for 100GBASE-R4 in IEEE802.3ba. The table lists the nominal curve and tolerances at various
reference receiver setting frequency response for 32 Gb/s NRZ, warranted
his writing no standard for 32.0 Gb/s N RZ signaling exists. Tektronix anticipates a future need for transmitter testing of
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
84 DSA8300, 80A00, 80C00, 80E00 specifications
80C00 optical sampling modules specifications
Table 58: 28.05
Description
Atthetimeoft
receiver filter for 32xFC testing at 28.05 Gb/s. Tektronix anticipates use of a 4th-order Bessel-Thompson filter derived by frequency
scaling the ORR filter specified for 100GBASE-R4 per IEEE P803.2ag from 25.7815 Gb/s to 28.05 Gb/s.
The response
0.75x(data rate) For example, 0.75 x 28.05 GHz = 21.0375 GHz. Tolerances are the same as specified for 100GBASE-R4 in
IEEE802.3ba. The table below lists the nominal curve and tolerances at various frequencies; based on ±0.85 dB DC to 0.75x(data
rate) and ex
Frequency (
0.00
4209
8415
12623
16831
21039
25246
28050
29453
33660
37868
42075
GHz reference receiver setting frequency response for 28.05 Gb/s NRZ, warranted
his writing ANSI T11.2 standard document FC-PC-6 (draft 1.0) does not contain a specification for an optical reference
follows a standard 4th-order Bessel-Thompson Scalar Frequency Response with a -3 dB reference frequency of
panding to ±4.0dB at 1.5x(data rate).
MHz)
Lower (dB) Nominal (dB
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
)
Upper (dB)
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
DSA8300, 80A00, 80C00, 80E00 specifications 85
80C00 optical sampling modules specifications
Table 59: OTU-4
Description
The OTU-4 refe
specified in IEEE P802.3ba by frequency scaling the filter bandwidth and response tolerances from 25.78125 Gb/s to 27.952 Gb/s.
The response follows a standard 4th-order Bessel-Thompson Scalar Frequency Response with a -3 dB reference frequency of
0.75x(data r
The table below lists the nominal curve and tolerances at various frequencies; based on ±0.85 dB DC to 0.75x(data rate) and
expanding to ±4.0 dB at 1.5x(data rate).
Frequency (MHz) Lower (dB) Nominal (dB) Upper (dB)
0.00
4193
8386
12579
16773
20966
25159
27952
29350
33542
37736
41928
(OTU27952) reference receiver Setting Frequency Response for 27.952 Gb/s, warranted
rence receiver for 27.952 Gb/s NRZ eye diagram testing is derived from the 100GBASE-R4 reference receiver as
ate). For example, 0.75 x 27.952 GHz = 20.694 GHz. Tolerances are as specified for 100GBASE-R4 in IEEE802.3ba.
–0.85
–0.96
–1.30
–1.87
–2.71
–3.86
–6.19
–7.87
–8.75
–11.53
–14.45
–17.41
0.00
–0.11
–0.45
–1.02
–1.86
–3.00
–4.51
–5.71
–6.37
–8.54
–10.93
–13.41
0.85
0.74
0.40
–0.17
–1.01
–2.16
–2.83
–3.55
–3.99
–5.56
–7.41
–9.41
86 DSA8300, 80A00, 80C00, 80E00 specifications
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