86100D Wide-Bandwidth Oscilloscope Mainframe and Modules

Infiniium DCA-X
86100D
Wide-Bandwidth Oscilloscope
Mainframe and Modules
Data Sheet
Table of contents
Overview of the
Infiniium 86100D DCA-X..............................2
Specifications................................................3
General and mainframe...............................3
Computer system and storage...................5
Precision time base module ......................6
Modules selection table..............................8
Module specifications..................................9
- Electrical/optical.....................................9
- Electrical.................................................16
- TDR/TDT................................................20
- Clock recovery.......................................22
Typical system configurations..................23
Software applications................................24
Measurements............................................24
Ordering information..................................29
Warranty information.................................30
Contact Agilent...........................................31
See the TRUE performance of your designs.
The 86100D DCA-X performs precision measurements on high-speed
digital designs from 50Mb/s to more than 80 Gb/s on up to 16 channels
simultaneously. Applications include:
•Optical
- Transceiver Design and Manufacturing
•Electrical
- ASIC/FPGA/IC Design and characterization
•TDR/TDT/S-Parameter
- Serial Bus Designs, Cables, and PCB characterization
Overview of the Infiniium DCA-X
the 86100D DCA-X can be viewed as four powerful instruments in one:
Scope mode
Jitter mode
High-fidelity waveform characterization (Yellow:
raw trace, Blue: de-embedded waveform)
Precision jitter, amplitude, and frequency analysis capability
Eye/Mask mode
Fast transmitter characterization using eye diagram
analysis and automated mask margin measurements
These modes are further complemented by the following
features that provide additional insight and analysis
capability:
• De-embedding, embedding, equalizer capability
• Phase Noise/Jitter Spectrum Analysis
• Phase Locked Loop (PLL) Analysis
• And more…
Precision measurements, more margin, and more insight
The 86100D DCA-X oscilloscope combines high analog
bandwidth, low jitter, and low noise performance to
accurately characterize optical and electrical designs from
50Mb/s to over 80 Gb/s. The mainframe provides the
foundation for powerful insight and measurement capability,
such as de-embedding of cables and fixtures, that improve
margins and allow engineers to see the true performance of
their designs.
Modular
The modular system means that the instrument can grow
to meet your needs, when you need it. There’s no need to
2
TDR/TDT mode
Accurate time domain reflectometry/transmission
and S-Parameter measurements
purchase capability that you don’t need now. The DCA-X
supports a wide range of modules for testing optical and
electrical designs. Select modules to get the specific
bandwidth, filtering, and sensitivity you need. The DCA-X
supports all modules in the DCA family and is 100%
backwards compatible with the 86100C mainframe.
High channel count
The DCA-X can measure from one to 16 channels
simultaneously with no significant loss in throughput.
Create an affordable high-capacity test system by measuring
multiple signals in parallel.
Software
The DCA-X provides powerful analysis capability that is
enabled through licensed software options.
Examples include 86100D-200 for fast and accurate jitter
analysis, 86100D-SIM for de-embedding and/or embedding
of fixtures and cables, and the N1012A/N1014A/N1081Series test applications.
Specifications
General and mainframe
Specifications describe warranted performance over the
temperature range of +10 °C to +40 °C (unless otherwise
noted). The specifications are applicable for the temperature
after the instrument is turned on for one (1) hour, and while
self-calibration is valid. Many performance parameters
are enhanced through frequent, simple user calibrations.
Characteristics provide useful, non-warranted information
about the functions and performance of the instrument.
Characteristics are printed in italic typeface. Product
specifications and descriptions in this document are subject
to change without notice.
Comparing specifications
When comparing performance attributes between
instruments, ensure you compare the same type of
parameter. For example, compare warranted specifications
from both instruments, or compare characteristics or
typical performance. Warranted specifications include
measurement uncertainties and are conservative compared
to other types of unwarranted attributes.
Factory Calibration Cycle - For optimum performance,
the instrument should have a complete verification of
specifications once every twelve (12) months.
General specifications
Temperature
Operating
Non-operating
10 °C to +40 °C (50 °F to +104 °F)
–40 °C to +65 °C (–40 °F to +158 °F)
Altitude
Operating
Up to 4,600 meters (15,000 feet)
Power (max)
100/120Vac 50/60/400 Hz
220/240Vac 50/60 Hz, 700 Watts Maximum
With typical modules: 150 VA to 230 VA
at 25°C
Weight
Mainframe without modules
Typical module
20.5 kg (43 lb)
1.2 kg (2.6 lb)
Mainframe dimensions (excluding
handle)
Without front connectors and rear feet
221 mm H x 426 mm W x 530 mm D
(7 inch x 16.76 inch x 20.9 inch)
234 mm H x 426 mm W x 601 mm D
(9.23 inch x 16.76 inch x 23.67 inch)
234 mm H x 426 mm W x 612 mm D
(9.23 inch x 16.76 inch x 24.1 inch)
With front connectors and rear feet
With front cover and rear feet
Max relative humidity
80% for temperatures up to 31°C decreasing linearly to 50% relative humidity at 40°C
Supply voltage variation
86100D system can operate with supply voltage fluctuations up to ± 10% of the nominal
voltage
Mainframe specifications
Horizontal system (time base)
Scale factor (full scale is ten divisions)
Minimum
2 ps/div (with 86107A or 86100D-PTB : 500 fs/div)
Maximum
1 s/div Delays1
Minimum
Maximum
24 ns
1000 screen diameters or 10 s
whichever is smaller
Time interval accuracy2
1 ps + 1.0% of Δ time reading3 or 8 ps,
whichever is smaller
Jitter mode operation4
Time interval accuracy - jitter mode operation 1 ps
Time interval resolution
≤ (screen diameter)/(record length) or
62.5 fs, whichever is larger
Display units
Bits or time (TDR mode–meters)
Pattern lock
250 ns/div
40.1 ns default, 24 ns min
1000 screen diameters or 25.401 μs
whichever is smaller
1. Time offset relative to the front panel trigger input on the instrument mainframe.
2. Dual marker measurement performed at a temperature within 5 °C of horizontal calibration temperature.
3. The maximum delay setting is 100 ns and delta time does not span across (28 + Nx4)ns ± 100 ps delay setting, where N=0,1,2….18. If delta time measurement spanexceeds
above criteria, time interval accuracy is 8 ps +0.1% of Δ time reading.
4. Characteristic performance. Test configuration: PRBS of length 127 bits, Data and Clock 10 Gb/s.
5. Maximum number of samples depends on pattern, number of active channels and available memory.
3
Specifications
Mainframe continued
Option STR (standard trigger)
Vertical system (channels)
Number of channels
Vertical resolution
Full resolution channel
Option ETR (enhanced trigger)
16 (simultaneous acquisition)
54xxx, 83xxx, 86xxx: 14 bit A/D converter (16 or more bits with averaging).
N10xx: 16 bit A/D converter
Adjusts in a 1-2-5-10 sequence for coarse adjustment or fine adjustment resolution from the
front panel knob
Adjustments
Scale, offset, activate filter, sampler bandwidth, attenuation factor, transducer conversion
factors
Record length
Legacy UI: 16 to 16K samples
FlexDCA without pattern lock: 16 to 64K samples
FlexDCA with pattern lock: 16 up to 32M samples5
Trigger modes
Internal trigger1
External direct trigger2
Limited bandwidth3
Full bandwidth
Free run
Free run
DC to 100 MHz
DC to 3.2 GHz
DC to 100 MHz
DC to 3.2 GHz
N/A
3 GHz to 13 GHz (15 GHz, 32 GHz with option PTB)
PatternLock
N/A
50 MHz to 13 GHz (50 MHz to 15 GHz)
Module Bay Trigger7
N/A
Yes, supported.
< 1.0 ps RMS + 5*10E-5 of delay setting4
1.2 ps (750 fs option PTB) RMS for time delays less
than 100 ns6
1.7 ps (1.2 ps option PTB) RMS for time delays less
than 100 ns6
1.2 ps (750 fs) (50 MHz to 32 GHz) in PTB mode8:
200 fs (2.4 to 4 GHz) 120 fs (4 to 9 GHz) 90 fs (9 to
44 GHz)
External divided trigger
Jitter
Characteristic
Maximum
Option PTB
Trigger sensitivity
1.5 ps RMS + 5*10E-5 of delay setting4
N/A
200 mVpp (sinusoidal input or
200 ps minimum pulse width)
200 mVpp sinusoidal input: 50 MHz to 13 GHz, (to
32 GHz with option PTB)
Trigger configuration
Trigger level adjustment
–1 V to + 1 V
AC coupled
Edge select
Positive or negative
N/A
Hysteresis5
Normal or High sensitivity
N/A
Trigger gating
Gating input levels
(TTL compatible)
Disable: 0 to 0.6 V, Enable: 3.5 to 5 V
Pulse width > 500 ns, period > 1 μs
Gating delay
Disable: 27 μs + trigger period +
Maximum time displayed
Enable: 100 ns
Trigger impedance
Nominal impedance
50 Ω
Reflection
< 10% for 100 ps rise time
Connector type
3.5 mm (male)
Maximum trigger signal
4
2 V peak-to-peak
1. The freerun trigger mode internally generates an asynchronous trigger that allows viewing the sampled signal amplitude without an external trigger signal but provides no timing information unless a precision timebase is used in Eye/Mask mode. Freerun is useful in troubleshooting external trigger problems.
2. The sampled input signal timing is recreated by using an externally supplied trigger signal that is synchronous with the sampled signal input.
3. The DC to 100 MHz mode is used to minimize the effect of high frequency signals or noise on a low frequency trigger signal.
4. Measured at 2.5 GHz with the triggering level adjusted for optimum trigger.
5. High Sensitivity Hysteresis Mode improves the high frequency trigger sensitivity but is not recommended when using noisy, low frequency signals that may result in false triggers without normal hysteresis enabled.
6. Slew rate ≥ 2 V/ns
7. The Module Bay Trigger routes trigger signals from the module’s rear panel to the mainframe. 86100D-ETR is recommended when using a DCA module equipped with a rear-panel trigger circuit. Examples include 54754A, 83496x, and 86108A/B modules. If operating these modules in an 86100D with Option STR, an external cable (such as P/N 5062-6690) must be connected from the module’s front panel trigger/clock output to the 86100D’s trigger input.
8. In precision timebase (PTB) operation with 750 mV input (500 mV input, 9 to 44 GHz)
Specifications
computer system and storage
Computer system and storage
CPU
Mass storage
Intel Core i5 3550S CPU at 3.0 GHz
80 GByte internal hard drive (default) or 80 GByte removable hard drive (Option 090)
Operating system
Display1
Microsoft Windows 7 embedded standard (64 bit)
Display area
210.4 mm x 157.8 mm (10.4 inch diagonal color active matrix LCD module incorporating
amorphous silicon TFTs)
1024 pixels horizontally x 768 pixels vertically
Select from over 16 colors; user may change color assignment of all traces (channels,
waveform memory and signal processing functions)
Gray scale, color grade, variable, infinite
When two waveforms overlap, a third color distinguishes the overlap area (classic DCA-J
interface only)
On/Off selectable
Minimum, variable (100 ms to 40 s), infinite
On/Off
0 to 100%
Opaque or transparent
Entire display resolution
Waveform colors
Persistence modes
Waveform overlap
Connect-the-dots
Persistence
Graticule
Grid intensity
Dialog boxes
Front panel inputs and outputs
Cal output
Trigger input
Precision timebase input (Option
PTB only)
USB2
BNC (female) and test clip, banana plug
2.92 mm4, 50 Ω, 2 Vpp base max
2.92 mm4, 50 Ω, 2 Vpp max
Three low-power USB 2.0 ports; Voltage: 5.00V ±0.25V ; Current: 100 mA each
Rear panel inputs and outputs
Gated trigger input
Video output
GPIB3
RS-232
LAN
USB2
Precision timebase delay path
(option PTB only)
1.
2.
3.
4.
TTL compatible
VGA, full color, 15 pin D-sub (female) 10
Fully programmable, complies with IEEE 488.2
9 pin D-sub (male)
Four USB 2.0 ports; Voltage: 5.00 ±0.25V;
Current: 500 mA each
Two female SMA connectors, nominal length jumper cable included
Supports external display. Supports multiple display configurations via Windows XP Pro display utility.
USB Keyboard and mouse included with mainframe.
The GPIB card interface is optional. To include this interface, order 86100D-GPI.
Mainframe ships with 2.92 mm female-female connector saver (P/N 1250-4105).
5
Specifications
precision time base operation and integrated precision timebase
Measurement performance can be further enhanced by adding precision time base capability to the 86100 mainframe. The precision time
base reduces the intrinsic jitter of the scope and is recommended when analyzing high-speed data signals. Precision timebase capability
is achieved using the 86107A precision timebase plug-in module or integrating the precision timebase system within the 86100D
mainframe (86100D option PTB). 86100D-PTB does not consume a mainframe plug-in slot.6
Precision time base 86100D option PTB or 86107A
86107A Option 010
86107A Option 020
86107A Option 040
86100D-PTB
Trigger bandwidth
2.0 to 15.0 GHz
2.4 to 25.0 GHz
2.4 to 48.0 GHz
2.4 - 44 GHz
Typical jitter (RMS) using 86100D
mainframe4
2.4 GHz: < 150 fs
10 GHz: < 100 fs
2.4 GHz: < 150 fs
10, 20 GHz: < 100 fs
2.4 GHz: < 150 fs
10, 20, 40 GHz: <
100 fs
2.4 - 4 GHz < 200 fs, 4
GHz - 9 GHz < 120 fs,
9 GHz - 44 GHz < 90 fs
Typical jitter (RMS) using 86100D
mainframe5
2.4 GHz: < 280 fs
10 GHz: < 200 fs
2.4 GHz: < 280 fs
10, 20 GHz: < 200 fs
2.4 GHz: < 280 fs
10, 20, 40 GHz: <
200 fs
2.4 - 5 GHz < 400 fs,
5 GHz - 10 GHz < 300
fs, 10 GHz - 44 GHz <
200 fs
Time base linearity error
< 200 fs
3.5 mm (male)
2.4 mm (male)
2.92 mm4
Input signal type
Synchronous clock1
Input signal level
0.5 to 1.0 Vpp
0.2 to 1.5 Vpp (typical functional performance)
DC offset range
±200 mV2
Required trigger signal-to-noise
ratio
≥ 200: 1
Trigger impedance (nominal)
50 Ω
Connector
3.5 mm (male)
type3
1. Filtering provided for Option 010 bands 2.4 to 4.0 GHz and 9.0 to 12.6 GHz, for Option 020 9.0 to 12.6 GHz and 18 to 25.0 GHz, for Option 40 9.0 to 12.6 GHz, 18.0 to 25.0 GHz, and 39.0 to 48.0
GHz. Within the filtered bands, a synchronous clock signal should be provided (clock, sinusoid, BERT trigger, etc.). Outside these bands, filtering is required to minimize harmonics and sub harmonics and provide a sinusoid to the 86107 input (not required for 86100D-PTB).
2. For the 86107A with Option 020, the Agilent 11742A (DC Block) is recommended if the DC offset magnitude is greater than 200 mV.
3. Ships with female-female connector saver(s).
4. With 86107A module, or 86100D-PTB, and an 861xx, N1045 option LOJ, or N1055A module (electrical channel).
5. With 86107A module, or 86100D-PTB, and 54xxx, 8348x, and N1045A plug-in modules.
6. If an 86107A module is used in an 86100D frame with option PTB, the internal precision timebase is disabled.
The 86108 has an integrated precision timebase within the plug-in module. The 86108A/B can be triggered through clock recovery of the
6
Specifications
precision time base (86108 configurations)
observed signal, through an external reference clock into the precision timebase section, or with the precision timebase operating on the
clock signal recovered from the observed signal. The following specifications indicate the 86100 system timebase specifications achieved
when using the 86108A/B plug-in module. (The 86100 mainframe and the 86108A/B module can also be triggered with a signal into the
mainframe. In this configuration, the basic mainframe specifications are achieved.) If the 86108A/B is placed in a mainframe that has an
integrated precision timebase (86100D-PTB), the integrated mainframe precision timebase is disabled.
Precision time base 86108A/B
86108A
86108B-LBW
86108B-HBW
Maximum jitter (clock recovery and precision timebase
configuration)1
< 90 fs
< 90 fs
< 70 fs
Typical jitter (clock recovery without precision timebase active)
< 1.25 ps
< 1.25 ps
< 1.25 ps
Effective trigger-to-sample delay (CR and PTB configuration,
typical)
< 200 ps
< 200 ps
< 200 ps
Typical jitter (trigger signal applied to precision timebase input)
< 60 fs
< 60 fs
< 60 fs
Maximum jitter (trigger signal supplied to precision timebase
input)1
< 100 fs
< 100 fs
< 100 fs
Precision timebase trigger bandwidth
2 to 13.5 GHz
(1 to 17 GHz)
1 to 18 GHz
1 to 18 GHz
Precision timebase external reference amplitude characteristic
1.0 to 1.6 Vpp
1.0 to 1.6 Vpp
1.0 to 1.6 Vpp
Sinusoid
Sinusoid
Sinusoid
Precision timebase maximum input level
±2 V (16 dBm)
±2 V (16 dBm)
±2 V (16 dBm)
Precision timebase maximum DC offset level
±200 mV
±200 mV
±200 mV
Precision timebase input impedance
50 Ω
50 Ω
50 Ω
Precision timebase connector type3
3.5 mm male
3.5 mm male
3.5 mm male
Timebase resolution (with precision timebase active)
0.5 ps/div
0.5 ps/div
0.5 ps/div
Timebase resolution (precision timebase disabled)
2 ps/div
2 ps/div
2 ps/div
Typical jitter (clock recovery (CR) and precision timebase (PTB)
configuration)
Precision timebase input signal type2
< 60 fs
< 60 fs
< 50 fs
1. Verified with maximum level input signal (~800 mVpp)
2. The precision timebase performs optimally with a sinusoidal input. Non-sinusoidal signals will operate with some degradation in timebase linearity.
3. 86108B-LBW are shipped with a 3.5mm (female) to 3.5mm (female) connector saver on the input channels (P/N 5061-5311). The 86108B-HBW is shipped with
2.4 mm female to 2.4 mm female connector savers on the input channels.
7
Modules selection table
86100 family plug-in module matrix
Unfiltered optical bandwidth (GHz)
Electrical bandwidth (GHz)
Fiber input (μm)
Mask test sensitivity (dBm)9
155 Mb/s
622 Mb/s
1063 Mb/s
1244/1250 Mb/s
2125 Mb/s
2488/2500 Mb/s
2.666 Gb/s
3.125 Gb/s
4.25 Gb/s
1
750-1650
8.5
20
62.5
-20
●
●
●
●
●
●
●
●
●
1
1
750-1650
8.5
20
62.5
-16
3002
1
1
750-1650
8.5
20
62.5
-16
200
86105D
281
86115D3,6
1
750-1650
750-1650
20
20
34
35
35
50
62.5
62.5
62.5
62.5
●
●
●
○7 ○7 ○7
●
●
○7
○7 ○7 ○7
○7
○7
●
○7 ○7 ○7
○7
○7
●10
●
●
●
○7
○7
●
●
●
●
●
●
-12
○7
○7
●
●
●
●
●
-12
○7
○7
●
●
●
●
●
●
-12
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
●
●
●
●
-7
2
0
750-1650
20
62.5
-12
●
●
●
●
●
●
●
●
●
102
2
0
750-1650
20
62.5
-12
○7 ○7
●
●
●
●
●
●
●
●
○7
○7 ○7 ○7
-12
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
●
○7 ○7 ○7
-11
○7
○7
●
●
●
●
●
●
●
●
●
○7 ○7 ○7
-11
○7
○7
●
●
●
●
●
●
●
●
○7
○7 ○7 ○7
-11
○7
○7
○7
○7
○7
○7
○7
○7
○7
○7
●
○7 ○7 ○7
-7
○7
○7
○7
○7
○7
○7
○7
○7
●10
●
-10
○7
○7
○7
○7
○7
○7
○7
○7
○7
144
282
025
041
2
4
4
4
2
1
1
0
0
0
0
0
1
1
750-1650
750-1650
750-1650
750-1650
750-1650
1300-1620
1300-1620
20
62.5
20
62.5
20
62.5
20
34
45
65
62.5
50
80
80
62.5
9
9
-5
○7
28.05 Gb/s
●
●
●
27.70 Gb/s
○7
●
●
25.80 Gb/s
●
●
●
14.025 Gb/s
●
●
●
11.317 Gb/s
●
●
●
11.096 Gb/s
10.709 Gb/s
10.664 Gb/s
10.51875 Gb/s
8.50 Gb/s
10.3125 Gb/s
6.25 Gb/s
9.953 Gb/s
5.00 Gb/s
●
○7
●
002
104
86116C3,6
1
1
750-1650
35
○7
●
●
○7
0045
86116C3,6
1
1
20
○7 ○7 ○7 ○7 ○7 ○7 ○7 ○7
○7
142
86115D
1
750-1650
●
○7
○7
○7
●
●
○7
○7
○7
●
●
○7
○7
○7
○7
○7
○7
○7
●
●
●
1. Module has receptacle to supply power for external probe.
2. Pick any 4 rates (155 Mb/s to 6.25 Gb/s).
3. This module is not compatible with the 86100A and 86100B Digital Communication Analyzer (DCA) mainframes. If you would like to upgrade older DCA’s
contact Agilent Technologies and ask for current trade-in deals.
4. The 86108A/B uses all module slots and includes an internal clock recovery and precision timebase capabilities.
5. 4 optical input ports are switched internally to 2 optical-to-electrical (O/E) converter
6. All modules with optical channels can use option -IRC to enhance the effective operating range. Reference receivers can be created at any rate within ±50%
of the hardware capability. IRC also corrects non-ideal (but compliant) hardware performance to yield ideal reference receiver responses.
7. With option IRC. Requires FlexDCA using Pattern Lock, 86100D mainframe with option ETR, and signals <= PRBS16-1. For more details, see application note
“Techniques for Higher Accuracy Optical Measurements” (Agilent literature number 5990-8812EN).
8. Requires 86100D mainframe (not compatible with 86100A/B/C).
9. Generally represents the power level where an ideal eye diagram will approach 0% mask margin due to noise of the oscilloscope. Provides a non-specified
figure of merit to compare sensitivities of various optical channels.
10. A 15 Gb/s filter is provided with Option 281 and 282 that closely approximates the response required for 16X Fibre Channel compliance testing. Contact Agilent
for a special option that verifies compliance of the 86105D-281 and 86115D-282 to the 16X Fibre Channel reference receiver specification.
8
43.018 Gb/s
100
1
●
○7 ○7
41.250 Gb/s
1
Filtered data rates
39.813 Gb/s
86105D3,6
Wavelength range (nm)
1
200
TDR/TDT/S-parameters
Probe power1
1002
No. of electrical channels
Option
86105C6
No. of optical channels
Module
The 86100 has a family of plug-in modules designed for a
broad range of precision optical, electrical, and TDR/TDT
measurements. The 86100D can accommodate up to 4 modules
for a total of 16 measurement channels.
Modules selection table (cont’d)
86100 family plug-in module matrix
54754A
0
2
●
18
86108A3,4
0
2
●
32
LBW
0
2
●
35
HBW
0
2
●
50
0
2
●
20
0
2
●
30
86117A
0
2
50
86118A
0
2
70
N1045A4
02F/02M 0
2
60
N1045A4
04F/04M 0
4
N1055A4
32F/32M 0
2
●
35
N1055A4
34F/34M 0
4
●
35
N1055A4
52F/52M 0
2
●
50
N1055A4
54F/54M 0
4
●
50
86108B3,4
86112A
HBW
●
Electrical bandwidth (GHz)
Probe power1
No. of electrical channels
TDR/TDT/S-parameters
No. of optical channels
Option
Module
The 86100 has a family of plug-in modules designed for a
broad range of precision optical, electrical, and TDR/TDT
measurements. The 86100D can accommodate up to 4 modules
for a total of 16 measurement channels.
60
1. Module has receptacle to supply power for external probe.
2. This module is not compatible with the 86100A and 86100B Digital Communication Analyzer (DCA) mainframes. If you would like to upgrade older DCA’s
contact Agilent Technologies and ask for current trade-in deals.
3. The 86108A/B uses all module slots and includes internal clock recovery and precision timebase capabilities.
4. Requires 86100D mainframe (not compatible with 86100A/B/C).
9
Modules specifications
single-mode and multimode optical/electrical
Multiple and single-mode
optical/electrical modules 86105C
Optical channel specifications
86105D
86105D Option 281
Optical channel unfiltered
bandwidth
8.5 GHz (9 GHz)
20 GHz (22 GHz)
34 GHz
Wavelength range
750 to 1650 nm
750 to 1650 nm
750 to 1650 nm
Calibrated wavelengths
850 nm/1310 nm/
1550 nm
850 nm/1310 nm/
1550 nm
850 nm/1310 nm/
1550 nm
850 nm:
≤ 2.666 Gb/s,
–20 dBm
> 2.666 Gb/s to
≤ 4.25 Gb/s, –19 dBm
> 4.25 Gb/s to
11.3 Gb/s, –16 dBm
850 nm:
8.5 to 11.3 Gb/s,
–9 dBm
14.025 Gb/s, –6 dBm
850 nm:
15 Gb/s, –9 dBm
25.78 Gb/s, –6 dBm, 27.85 to 28.05 Gb/s, –5 dBm
Optical sensitivity1
1310 nm/1550 nm:
≤ 2.666 Gb/s,
–21 dBm
> 2.666 Gb/s to
≤ 4.25 Gb/s, –20 dBm
> 4.25 Gb/s to
11.3 Gb/s, –17 dBm
Transition time
(10% to 90% calculated from
TR = 0.48/BW optical)
1310 nm/1550 nm:
8.5 to 11.3 Gb/s,
–12 dBm
14.025 Gb/s, –9 dBm
1310 nm/1550 nm:
15 Gb/s, –8 dBm
25.78 Gb/s, –7 dBm, 27.95 to 28.05 Gb/s, –6 dBm
1550 nm:
15 Gb/s, –8 dBm
25.78 Gb/s, –8 dBm, 27.95 to 28.05 Gb/s, –7 dBm
56 ps
24 ps
15 ps
850 nm:
≤ 2.666 Gb/s, 1.3 μW
> 2.666 Gb/s to
≤ 4.25 Gb/s, 1.5 μW
> 4.25 Gb/s to
11.3 Gb/s, 2.5 μW
850 nm:
8.5 to 11.3 Gb/s,
10 μW
14.025 Gb/s, 16 μW
850 nm:
15 Gb/s, 9 µW
25.78 Gb/s, 17 µW, 27.95 to 28.05 Gb/s, 18 µW
unfiltered, 25 µW
RMS noise
Characteristic
1310 nm/1550 nm:
≤ 2.666 Gb/s, 0.8 μW
> 2.666 Gb/s to
≤ 4.25 Gb/s, 1.0 μW
> 4.25 Gb/s to
11.3 Gb/s, 1.4 μW
Maximum
10
1310/1550 nm:
8.5 to 11.3 Gb/s,
5 μW
14.025 Gb/s, 8 μW
850 nm:
≤ 2.666 Gb/s, 2.0 μW
> 4.25 Gb/s to
11.3 Gb/s, 4.0 μW
850 nm:
8.5 to 11.3 Gb/s,
12 μW
14.025 Gb/s, 24 μW
1310 nm/1550 nm:
≤ 2.666 Gb/s, 1.3 μW
> 2.666 Gb/s to
≤ 4.25 Gb/s, 1.5 μW
> 4.25 Gb/s to
11.3 Gb/s, 2.5 μW
1310/1550 nm:
8.5 to 11.3 Gb/s,
7 μW
14.025 Gb/s, 12 μW
1310 nm:
15 Gb/s, 7 µW, 25.78 Gb/s, 13 µW, 27.95 to
28.05 Gb/s 15 uW, unfiltered, 18 µW
1550 nm:
15 Gb/s, 8 µW
25.78 Gb/s, 15 µW, 27.95 to 28.05 Gb/s, 17 µW
unfiltered, 21 µW
850 nm:
15 Gb/s, 15 µW
25.78 Gb/s, 30 µW, 27.95 to 28.05 Gb/s, 30 µW
unfiltered, 35 µW
1310 nm:
15 Gb/s, 12 µW
25.78 Gb/s, 20 µW, 27.95 to 28.05 Gb/s, 20 µW
unfiltered, 25 µW
1550 nm:
15 Gb/s, 14 µW
25.78 Gb/s, 23 µW, 27.95 to 28.05 Gb/s, 23 µW
unfiltered, 30 µW
1. Generally represents the power level where an ideal eye diagram will approach 0% mask margin due to noise of the oscilloscope. Provides a non-specified
figure of merit to compare sensitivities of various optical channels.
2. Option 102 and 104 do not include filters for 14.025 Gb/s. Option 142 and 144 include filters for 14.025 Gb/s and no other rates.
Modules specifications
single-mode and multimode optical/electrical
Multiple and single-mode 86115D Option
optical/electrical modules 002, 102, 1422
86115D Option
004, 104, 1442
86115D Option 282
Optical channel unfiltered
bandwidth
20 GHz (22 GHz)
20 GHz (22 GHz)
34 GHz
Wavelength range
750 to 1650 nm
750 to 1650 nm
750 to 1650 nm
Calibrated wavelengths
850 nm/1310 nm/
1550 nm
850 nm/1310 nm/
1550 nm
850 nm/1310 nm/
1550 nm
850 nm:
8.5 to 11.3 Gb/s,
–9 dBm
14.025 Gb/s, –6 dBm
850 nm:
8.5 to 11.3 Gb/s,
–8 dBm
14.025 Gb/s, –5 dBm
850 nm:
15 Gb/s, –9 dBm
25.78 Gb/s, –6 dBm, 27.85 to 28.05 Gb/s, –5 dBm
Optical channel specifications
Optical sensitivity1
Transition time
(10% to 90% calculated from
TR = 0.48/BW optical)
1310 nm/1550 nm:
15 Gb/s, –8 dBm
25.78 Gb/s, –7 dBm, 27.95 to 28.05 Gb/s, –6 dBm
1310 nm/1550 nm:
8.5 to 11.3 Gb/s,
–12 dBm
14.025 Gb/s, –9 dBm
1310/1550 nm:
8.5 to 11.3 Gb/s,
–11 dBm
14.025 Gb/s, –8 dBm
24 ps
24 ps
15 ps
850 nm:
8.5 to 11.3 Gb/s,
10 μW
14.025 Gb/s, 16 μW
850 nm:
8.5 to 11.3 Gb/s,
12 μW
14.025 Gb/s, 20 μW
850 nm:
15 Gb/s, 9 µW
25.78 Gb/s, 17 µW, 27.95 to 28.05 Gb/s, 18 µW
unfiltered, 25 µW
1310/1550 nm:
8.5 to 11.3 Gb/s,
5 μW
14.025 Gb/s, 8 μW
1310/1550 nm:
8.5 to 11.3 Gb/s,
6 μW
14.025 Gb/s, 10 μW
850 nm:
8.5 to 11.3 Gb/s,
12 μW
14.025 Gb/s, 24 μW
850 nm:
8.5 to 11.3 Gb/s,
14 μW
14.025 Gb/s, 30 μW
1310/1550 nm:
8.5 to 11.3 Gb/s,
7 μW
14.025 Gb/s, 12 μW
1310/1550 nm:
8.5 to 11.3 Gb/s,
8.5 μW
14.025 Gb/s, 14 μW
1550 nm:
15 Gb/s, –8 dBm
25.78 Gb/s, –8 dBm, 27.95 to 28.05 Gb/s, –7 dBm
RMS noise
Characteristic
Maximum
1310 nm:
15 Gb/s, 8 µW, 25.78 Gb/s, 13 µW
unfiltered, 18 µW
1550 nm:
15 Gb/s, 8 µW
25.78 Gb/s, 15 µW, 27.95 to 28.05 Gb/s, 17 µW
unfiltered, 21 µW
850 nm:
15 Gb/s, 15 µW
25.78 Gb/s, 25 µW, 27.95 to 28.05 Gb/s, 25 µW
unfiltered, 35 µW
1310 nm:
15 Gb/s, 12 µW
25.78 Gb/s, 20 µW, 27.95 to 28.05 Gb/s, 20 µW
unfiltered, 25 µW
1550 nm:
15 Gb/s, 14 µW
25.78 Gb/s, 23 µW, 27.95 to 28.05 Gb/s, 23 µW
unfiltered, 30 µW
1. Generally represents the power level where an ideal eye diagram will approach 0% mask margin due to noise of the oscilloscope. Provides a non-specified figure of merit
to compare sensitivities of various optical channels.
2. Option 102 and 104 do not include filters for 14.025 Gb/s. Option 142 and 144 include filters for 14.025 Gb/s and no other rates.
11
Modules specifications
single-mode and multimode optical/electrical
Multiple and single-mode
optical/electrical
modules
86105C
Optical channel specifications (continued)
86105D
86105D
Option 281
86115D
Option 002,
102, 1422
86115D
Option 004,
104, 1442
Scale factor (per division)
Minimum
2 μW
20 μW
20 µW
20 μW
20 μW
Maximum
100 μW
500 μW
500 µW
500 μW
500 μW
accuracy (single marker,
referenced to average power
monitor)
Single-mode:
±25 μW ±3%
Single-mode:
±25 μW ±(2%
(8/10 Gb/s), 4%
(14 Gb/s) 6%
unfiltered)
±25 µW ±4%
(14.025 Gb/s),
±25 µW ±4%
(15.0 Gb/s),
±25 µW ±6%
(25.78125 Gb/s),
±25 µW ±6%
(27.7393 Gb/s to
28.05 Gb/s),
±25 µW ±6%
(unfiltered)
Single-mode:
±25 μW ±(2%
(8/10 Gb/s), 4%
(14 Gb/s) 6%
unfiltered)
Single-mode:
±25 μW ±(2%
(8/10 Gb/s), 4%
(14 Gb/s) 6%
unfiltered)
Multimode:
±25 μW ±10%
Multimode:
±25 μW ±10%
CW1
Multimode:
±25 μW ±10%
Multimode:
±25 μW ±10%
CW offset range (referenced two
divisions from screen bottom)
+0.2 μW to –0.6
μW
+1 μW/–3 μW
+1 mW to –3 mW
+1 μW/–3 μW
+1 μW/–3 μW
Average power monitor
(specified operating range)
–30 dBm to 0
dBm
–30 dBm to +3
dBm
–30 dBm to +3
dBm
–30 dBm to +3
dBm
–30 dBm to +3
dBm
±5% ±100 nW
±connector
uncertainty (20 to
30 °C)
± 5%±200 nW
±connector
uncertainty
Average power monitor accuracy
Single-mode
±5% ±200 nW
±connector
uncertainty
± 5%±200 nW
±connector
uncertainty
±5% ± 200 nW
± connector
uncertainty
Multimode (characteristic)
±10% ±200 nW
±connector
uncertainty
± 5% ±200 nW
±connector
uncertainty
±10% ± 200 nW ± 5% ±200 nW
±connector
± connector
uncertainty
uncertainty
1. CW refers to an unmodulated optical signal.
2. Option 102 and 104 do not include filters for 14.025 Gb/s. Option 142 and 144 include filters for 14.025 Gb/s and no other rates.
12
± 5% ±200 nW
±connector
uncertainty
Modules specifications
single-mode and multimode optical/electrical
Multiple and single-mode
optical/electrical modules 86105C
Optical channel specifications (continued)
86105D
86105D
Option 281
86115D
Option 002,
102, 1421
86115D
Option 004,
104, 1441
User calibrated accuracy
Single-mode
±3% ±200 nW
±power meter
uncertainty,
< 5 °C change
±2% ±100 nW
±power meter
uncertainty
±3% ± 200 nW
± power meter
uncertainty
±2% ±100 nW
±power meter
uncertainty,
< 5 °C change
±2% ±100 nW
±power meter
uncertainty
Multimode (characteristic)
±10% ±200 nW
±power meter
uncertainty,
< 5 °C change
±10% ±200 nW
±power meter
uncertainty
±10% ± 200 nW
± power meter
uncertainty
±10% ±200 nW
±power meter
uncertainty
±10% ±200 nW
±power meter
uncertainty
Maximum non-destruct average
0.5 mW (–3 dBm)
5 mW (7 dBm)
5 mW (+7 dBm)
1310/1550 nm
single mode:
6 mW (+8 dBm)
850 nm
multimode:
3 mW (+5 dBm)
5 mW (7 dBm)
5 mW (7 dBm)
Maximum non-destruct peak
5 mW (+7 dBm)
10 mW (10 dBm)
10 mW (+10
dBm)
10 mW (10 dBm)
10 mW (10 dBm)
Fiber input
62.5/125 μm
62.5/125 μm
user-selectable
connector
62.5/125 µm
62.5/125 μm
user-selectable
connector
62.5/125 μm
user-selectable
connector
27 dB singlemode
14 dB multimode
27 dB singlemode
14 dB multimode
Maximum input power
Polarization dependent loss at
1550 nm
Input return loss
850 nm > 13 dB
(HMS-10 connector fully filled fiber) 1310 nm/1550
nm > 24 dB
0.2 dB
(characteristic)
27 dB singlemode
14 dB multimode
> 24 dB (1550 nm
single mode)
> 24 dB (1310 nm
single mode)
> 13 dB (850 nm
multimode)
1. Option 102 and 104 do not include filters for 14.025 Gb/s. Option 142 and 144 include filters for 14.025 Gb/s and no other rates.
13
Modules specifications
single-mode and multimode optical/electrical
Multiple and single-mode
optical/electrical modules 86105C
86105D
86105D
Option 281
Electrical channel bandwidth
12.4 and 20 GHz
25 and 35 GHz
25 and 50 GHz
Transition time
(10% to 90% calculated from
TR = 0.35/BW)
28.2 ps (12.4 GHz) 14 ps (25 GHz)
17.5 ps (20 GHz)
10 ps (35 GHz)
12 ps (25 GHz)
7 ps (50 GHz)
Characteristic
0.25 mV (12.4
GHz)
0.5 mV (20 GHz)
0.25 mV (25 GHz)
0.5 mV (35 GHz)
0.25 mV (25 GHz)
0.6 mV (50 GHz)
Maximum
0.5 mv (12.4 GHz)
1 mV (20 GHz)
0.5 mV (25 GHz)
1 mV (35 GHz)
0.5 mV (25 GHz)
1 mV (50 GHz)
Electrical channel specifications
86115D
Option 002,
102, 1421
RMS noise
Scale factor (per division)
Minimum
1 mV/division
Maximum
100 mV/division
DC accuracy (single marker)
±0.4% of full scale ±2 mV ±1.5% of (reading-channel offset), 12.4 GHz
±0.4% of full scale ±2 mV ±3% of (reading-channel offset), 20 GHz
DC offset range
(referenced to center of screen)
±500 mV
Input dynamic range
(relative to channel offset)
±400 mV
Maximum input signal
±2 V (+16 dBm)
Nominal impedance
50 Ω
Reflections (for 30 ps rise time)
5%
Electrical input
3.5 mm (male)
2.4 mm (male)
1. Option 102 and 104 do not include filters for 14.025 Gb/s. Option 142 and 144 include filters for 14.025 Gb/s and no other rates.
14
86115D
Option 004,
104, 1441
Modules specifications
single-mode optical/electrical
High bandwidth single-mode
optical/electrical modules
86116C
Option 025
Optical channel unfiltered bandwidth
45 GHz
Optical channel specifications
86116C
Option 041
65 GHz
nm3
Wavelength range
1300 nm to 1620
Calibrated wavelengths
1300 nm/1550 nm
Optical
sensitivity2
1310 nm
–9 dBm (17 Gb/s)
–8 dBm (25.8 Gb/s)
–7 dBm (27.7 Gb/s)
–3 dBm (39.8/43.0 Gb/s)
1550 nm
–10 dBm (17 Gb/s)
–9 dBm (25.8 Gb/s)
–8 dBm (27.7 Gb/s)
–5 dBm (39.8/43.0 Gb/s)
Transition time
(10% to 90% calculated from Tr = 0.48/BW optical)
7.4 ps (FWHM)1
RMS noise
Characteristic
Maximum
1310 nm
13 μW (17 Gb/s)
17 μW (25.8 Gb/s)
20 μW (27.7 Gb/s)
60 μW (40 GHz)
54 μW (39.8/43.0 Gb/s)
75 μW (55 GHz)
105 μW (60 GHz)
187 μW (65 GHz)
1550 nm
10 μW (17 Gb/s)
12 μW (25.87 Gb/s)
14 μW (27.7 Gb/s)
40 μW (40 GHz)
36 μW (39.8/43.0 Gb/s)
50 μW (55 GHz)
70 μW (60 GHz)
125 μW (65 GHz)
1310 nm
18 μW (17 Gb/s)
20 μW (25.8 Gb/s)
30 μW (27.7 Gb/s)
120 μW (40 GHz)
102 μW (39.8/43.0 Gb/s)
127 μW (55 GHz)
225 μW (60 GHz)
300 μW (65 GHz)
1550 nm
15 μW (17 Gb/s)
18 μW (25.8 Gb/s)
21 μW (27.7 Gb/s)
80 μW (40 GHz)
68 μW (39.8/43.0 Gb/s)
85 μW (55 GHz)
150 μW (60 GHz)
200 μW (65 GHz)
1. FWHM (Full Width Half Max) as measured from optical pulse with 700 fs FWHM, 5 MHz repetition rate and 10 mW peak power.
2. Generally represents the power level where an ideal eye diagram will approach 0% mask margin due to noise of the oscilloscope. Provides a non-specified figure of
merit to compare sensitivities of various optical channels.
3. Contact Agilent for broader wavelength specifications.
15
Modules specifications
single-mode optical/electrical
High bandwidth single-mode
optical/electrical modules
86116C
Optical channel specifications (continued)
Scale factor
Minimum
200 μW/division
Maximum
5 mW/division
CW1
accuracy (single marker,
reference to average power monitor)
± 150 µW ± 4%
(reading-channel offset)
CW offset range (referenced two
divisions from screen button)
+8 to –12mW
Average power monitor
(specified operating range)
–23 to +9 dBm
Factory calibrated accuracy
User calibrated accuracy
±5% ±100 nW ±connector uncertainty, 20 to 30 °C
±2% ±100 nW ±power meter uncertainty, < 5 °C change
Maximum input power
Maximum non-destruct average
10 mW (+10 dBm)
Maximum non-destruct peak
50 mW (+17 dBm)
Fiber input
9/125 μm, user-selectable connector
Input return loss
(HMS-10 connector fully filled fiber)
20 dB
Electrical channel specifications
Electrical channel bandwidth
80 (93), 55 and 30 GHz
Transition time (10% to 90%
calculated from Tr = 0.35/BW )
6.4 ps (55 GHz)
4.4 ps (80 GHz)
RMS noise
Characteristic
0.5 mV (30 GHz)
0.6 mV (55 GHz)
1.1 mV (80 GHz)
Maximum
0.8 mV (30 GHz)
1.1 mV (55 GHz)
2.2 mV (80 GHz)
Scale factor (per division)
Minimum
2 mV/division
Maximum
100 mV/division
DC accuracy (single marker)
±0.4% of full scale
±3 mV ±2% of (reading-channel offset), ±2% of offset (all bandwidths)
DC offset range
(referenced to center of screen)
±500 mV
Input dynamic range
(relative to channel offset)
±400 mV
Maximum input signal
± 2 V (+16 dBm)
Nominal impedance
50 Ω
Reflections (for 20 ps rise time)
10% (DC to 70 GHz)
20% (70 to 100 GHz)
Electrical input
1.85 mm (male)
1. CW refers to an unmodulated optical signal.
16
Modules specifications
dual electrical
Dual electrical channel modules
Electrical channel bandwidth
Transition time
(10% to 90% calculated from TR = 0.35/BW)
RMS noise
Characteristic
Maximum
Scale factor (per division)
Minimum
Maximum
DC accuracy (single marker)
DC offset range
(referenced from center of screen)
Input dynamic range
(relative to channel offset)
Maximum input signal
Nominal impedance
Reflections (for 30 ps rise time)
Electrical input
Dual electrical channel modules
Electrical channel bandwidth
Transition time
(10% to 90% calculated from TR = 0.35/BW)
RMS noise
Characteristic
Maximum
Scale factor (per division)
Minimum
Maximum
DC accuracy (single marker)
DC offset range
(referenced from center of screen)
Input dynamic range
(relative to channel offset)
Maximum input signal
Nominal impedance
Reflections (for 30 ps rise time)
Electrical input
1
86112A
12.4 and 20 GHz (30
28.2 ps (12.4 GHz)
17.5 ps (20 GHz)
GHz1)
0.25 mV (12.4 GHz)
0.5 mV (20 GHz)
0.5 mv (12.4 GHz)
1 mV (20 GHz)
1 mV/division
100 mV/division
±0.4% of full scale
±2 mV ±1.5% of (reading-channel offset),
(12.4 GHz) ±0.4% of full scale
±2 mV ±3% of (reading-channel offset)
(20 GHz)
54754A
12.4 and 18 GHz
28.2 ps (12.4 GHz)
19.4 ps (18 GHz)
0.25 mV (12.4 GHz)
0.5 mV (18 GHz)
0.5 mv (12.4 GHz)
1 mV (18 GHz)
±0.4% of full scale
±2 mV ±0.6% of (reading-channel offset),
(12.4 GHz) ±0.4% of full scale or marker
reading (whichever is greater)
±2 mV ±1.2% of (reading-channel offset)
(18 GHz)
±500 mV
±400 mV
±2 V (+16 dBm)
50 Ω
5%
3.5 mm (male)
86117A
86118A
0.4 mV (30 GHz)
0.6 mV (50 GHz)
0.7 mv (30 GHz)
1.0 mV (50 GHz)
0.7 mV (50 GHz)
1.3 mV (70 GHz)
1.8 mv (50 GHz)
2.5 mV (70 GHz)
1 mV/division
100 mV/division
±0.4% of full scale
±2 mV ±1.2% of (reading-channel offset),
(30 GHz)
±0.4% of full scale
±2 mV ±2% of (reading-channel offset),
(50 GHz)
±0.4% of full scale
±2 mV ±2% of (reading-channel offset),
(50 GHz)
±0.4% of full scale
±2 mV ±4% of (reading-channel offset),
(70 GHz)
30 and 50 GHz
11.7 ps (30 GHz)
7 ps (50 GHz)
50 and 70 GHz
±500 mV
±400 mV
±2 V (+16 dBm)
50 Ω
5%
2.4 mm (male)
20%
1.85 mm (male)
A special option, 86112-HBW, extends the bandwidth from 20 GHz to 30 GHz. All other specifications remain unchanged.
17
Modules specifications
dual electrical
Dual electrical channel modules
Bandwidth
(Low / High BW Setting)
"Transition time
(10% to 90% calculated from Tr = 0.35/BW)"
86108A
86108B-LBW
86108B-HBW
240 µV/420 µV
350 µV/700 µV
300 μV/500 μV
350 μV/700 μV
600 μV/750 μV
800 μV/980 μV
2 mV/division
100 mV/division
1 mV/division
140 mV/division
1 mV/division
140 mV/division
16 GHz and > 32 GHz, (35 GHz)
10 ps
20 GHz and 35 GHz
10 ps
35 GHz and 50 GHz
7ps
RMS noise
Characteristic (Low / High BW Setting)
Maximum
(Low / High BW Setting)
Scale factor (per division)
Minimum
Maximum
DC accuracy (single marker)
Low BW Setting:
High BW Setting:
CW offset range (referenced from center of
screen)
Input dynamic range (relative to channel
offset)
Maximum input signal
Nominal impedance
Reflections (for 30 ps rise time)
Electrical input
CH1 to CH2 skew
18
±0.7% of full scale, ±2 mV ±1.5% of (reading-channel offset) (16 GHz)
±0.7% of full scale, ±2 mV ±3% of (reading-channel offset) (32 GHz)
±500 mV
±700mV
±700mV
±400 mV
±560mV
±560mV
±2 V (+16 dBm)
50 Ω
5%
3.5 mm
< 12 ps
±2.5 V (+18 dBm)
50 Ω
5%
3.5 mm
< 10 ps
±2.5 V (+18 dBm)
50 Ω
5%
2.4 mm
< 10 ps
Modules specifications
dual electrical
Clock recovery
86108A
86108B-216
86108B-232
Data rate input range (Continuous tuning)
0.05 to 14.2 Gb/s (requires
FW revision 8.1 or higher)
0.025 to 6.75 GHz
0.05 to 16 Gb/s
0.05 to 32 Gb/s
0.025 to 8 GHz
0.025 to 16 GHz
175 mVpp
175 mVpp
175 mVpp
0.015 to 20 MHz
0.015 to 20 MHz
Clock frequency input range (Continuous
tuning)
Minimum input level to aquire lock
Recovered clock random jitter
(used as internal trigger)1
Clock recovery adjustable loop
bandwidth range (user selectable)
Clock recovery loop peaking range
Loop bandwidth accuracy
Tracking range
(includes spread spectrum tracking)
Aquisition range
Maximum consecutive identical digits to lock
Auto relocking
Residual spread spectrum
Front panel recovered clock amplitude
Front panel recovered clock divide
ratio (user selectable)
Recovered clock front panel
connector type
Internal frequency counter accuracy
Internal recovered clock
trigger
< 500 fs at 2 Gb/s
< 400 fs at 5 and 10 Gb/s
0.015 to 10 MHz
< 350 fs at data rate < 2 Gb/s
< 300 fs at data rate ≥ 2 Gb/s
< 350 fs at data rate < 2 Gb/s
< 300 fs at data rate ≥ 2 Gb/s
Up to 4 settings (dependent on loop BW)
±30%
±2500 ppm ±0.25%
±5000 ppm
150
If signal lock is lost, system can automatically attempt to regain phase-lock.
User selectable to enable/disable
–72 ±3 dB @ 33 kHz
1, 2, 4, 8, 16
2, 4, 8, 16
–84 ±3 dB @ 33 kHz
–84 ±3 dB @ 33 kHz
0.15 to 1.0 Vpp (0.3 to 1.0 Vpp)
1, 2, 4, 8, 16
1, 2, 4, 8, 16
2, 4, 8, 16
2, 4, 8, 16
SMA
±10 ppm
1. These values indicate performance with the internal precision timebase disabled. With precision timebase enabled, system jitter performance is dramatically decreased.
See page 7.
19
Module specifications
Dual/quad electrical
Dual/quad electrical channel
modules
Channel options
(number of channels; F = female; M = male)
Number of channels2
Electrical channel bandwidth
Transition time
(10% to 90% calculated from TR = 0.35/
BW)
Channel-to-channel skew range
N1045A1
02F/02M
04F/04M
2
4
20/35/45/60 GHz
17.5/10/7.8/5.8 ps
N1055A1
32F/32M
34F/34M
52F/52M
2
35 GHz 4
4
35 GHz 4
2
4
35/50 GHz
35/50 GHz
10 /7 ps
10 ps
± 100 ps
54F/54M
± 100 ps
RMS noise
Characteristic
Maximum
Scale factor (per division)
Minimum
Maximum
DC accuracy (single marker)
DC offset range
(referenced from center of screen)
Input dynamic range
(relative to channel offset)
Maximum input signal
275/425/500/750 µV
950 µV (60 GHz)
550 uV
650 uV
550 / 950 uV
980 uV
1 mV/division
100 mV/division
±0.4% of full scale
±2 mV ±4% of (readingchannel offset), (60 GHz)
±500 mV
1 mV/division
100 mV/division
±0.4% of full scale
±2 mV ±4% of (reading-channel offset), (50 GHz)
±400 mV
±400 mV
±500 mV
±2 V (+16 dBm)
+2 V / -1 V
Nominal impedance
50 Ω
50 Ω
Reflections
(for 30 ps rise time)
Electrical input3
20%
20%
1.
2.
3.
4.
5.
20
1.85 mm (female or male
option)
Module is supported by 86100D DCA-X mainframe and later.
Upgradable from 2 channel to 4 channel after purchase (return to Agilent).
Connector style is the same on all channels and is selected at time of order.
Upgradable from 35 GHz to 50 GHz after purchase (return to Agilent).
3 dB bandwidth relative to amplitude at 10 MHz reference frequency,
2.92 mm
(female or male option)
1.85 mm
(female or male option)
Modules specifications
TDR system
TDR system
(Mainframe with 54754A module)
Oscilloscope/TDR performance
Normalized characteristics
Rise time
40 ps nominal
< 25 ps normalized
Adjustable from larger of 10 ps or
0.08 x time/div
Maximum: 5 x time/div
TDR step flatness
≤ ±1% after 1 ns from edge
≤ ±5%, –3% < 1 ns from edge
≤ 0.1%
Low level
High level
0.00 V ±2 mV
±200 mV +2 mV
TDR system
(Mainframe with N1055A module)
N1055A - 3xx (35 GHz
bandwidth)
N1055A - 5xx (50 GHz
bandwidth)
Without TDR
calibration
With TDR
calibration
Without TDR
calibration
With TDR
calibration
18 ps
Adjustable from
18 ps
9 ps
Adjustable from
8 ps
Step rise/fall time
(Transmitted, typical)
86100D Option 202 enhanced impedance and S-parameter software characteristics
Return loss
Attenuation
Attenuation uncertainty – magnitude
6 dB
2
2
6 dB
1
1
12 dB
12 dB
20 dB
0
20 dB
–1
26 dB
3
6
9
GHz
12
–1
–2
26 dB
–2
6 dB
6 dB
12 dB
12 dB
20 dB
20 dB
30 dB
30 dB
40 dB
40 dB
0
dB
dB
Return loss uncertainty – magnitude
3
–3
16
3
–30
–40
–40
–45
–45
–50
–50
–55
–55
GHz
9
12
64 avgs
256 avgs
–35
dB
dB
–35
16 avgs
–30
256 avgs
6
–60
16
0
Return loss dynamic range – external
16 avgs
–20
64 avgs
6
GHz
9
12
16
–10
–50
64 avgs
256 avgs
–30
dB
–40
16 avgs
–20
256 avgs
–30
dB
3
Attenuation dynamic range – external
–10
–60
16
–25
64 avgs
3
12
–20
16 avgs
–25
0
9
GHz
Attenuation dynamic range – internal
Return loss dynamic range – internal
–20
–60
6
–40
–50
0
4
8
12
16
GHz
20
24
28
32
–60
0
4
8
12
16
GHz
20
24
28
32
21
Modules specifications
TDR system
86100D Option 202 characteristics
Return loss
Attenuation
Attenuation uncertainty – phase
6 dB
30
20
6 dB
20
10
12 dB
10
12 dB
0
20 dB
Degrees
Degrees
Return loss uncertainty – phase
30
20 dB
20 dB
30 dB
30 dB
20 dB
–10
–20
26 dB
–20
–30
3
6
9
GHz
12
–30
16
12 dB
12 dB
0
–10
26 dB
6 dB
6 dB
40 dB
40 dB
3
6
9
GHz
12
16
*See end notes for additional phase uncertainties
*See end notes for additional phase uncertainties
Performance characteristics for 86100D Option 202
Test conditions
Phase uncertainty
• Mainframe and module have been turned on for at least one
hour and have been calibrated
• Longer equipment warm-up times and careful calibration
provide the best phase performance – perform module and
TDR calibrations again if temperatures change
• TDR calibration has been performed using N1024B
• Internal measurements use 54754A as stimulus and either
54754A or 86112A as receiver
• External measurements use 54754A and Picosecond Pulse
Labs Accelerator as stimulus and 86118A as receiver
• All characteristics apply to single-ended and differential
• Derived from measurements of wide range of devices
compared to vector network analyzer measurements
• Averages of 256 except as noted in dynamic range
• Phase uncertainty is the sum of the uncertainty from the
desired graph plus the two additional components which are
estimated below
• Sampling points - S-parameters are determined from the
sampling points record length1 over the time interval, which
is time per division multiplied by ten divisions. The reference
plane is determined to nearest sampling point with uncertainty
given by this equation:
Uncertainty in degrees time per division (sec) * 10 divisions * f (Hz) *360
=
(sampling points)
4096 * 2
Simplified version = time per division (sec) * f(Hz) / 2.28
• Time base drift with temperature - the amount of drift can be
observed by placing the calibration short at the reference plane
and reading the amount of time difference in picoseconds. The
phase uncertainty is given by this equation:
Uncertainty in degrees (temp drift) = time diff (sec) •frequency (Hz) * 360
1. Record length is user-defined from 16 to 16384 However, the minimum
record length used for S-parameters is 4096, independent of user settings.
22
Modules specifications
clock recovery
Clock recovery modules
83496B-100
83496B-101
Channel type
Differential or single-ended electrical
Single-mode or multimode optical, differential or
single-ended electrical (no internal electrical splitters)
Data rates
(divide by 2 for clock signals)
Standard: 50 Mb/s to 7.1 Gb/s continuous tuning
Option 200: 50 Mb/s to 14.2 Gb/s continuous tuning
Option 201: 7.1 to 14.2 Gb/s continuous tuning
For rates above 14 Gb/s, the N4877A and N1070A operate from 50 Mb/s to 32 Gb/s
Single-mode (OMA1):
–11 dBm @ 50 Mb/s to 11.4 Gb/s
–8 dBm @ > 11.4 Gb/s
–12 dBm @ 7.1 Gb/s to 14.2 Gb/s (w/Opt 200)
–14 dBm @ 1 Gb/s to 7.1 Gb/s
–15 dBm @ 50 Mb/s to 1 Gb/s
Multimode 1310 nm (OMA1):
–10 dBm @ 50 Mb/s to 11.4 Gb/s
–7 dBm @ > 11.4 Gb/s
–11 dBm @ 7.1 Gb/s to 14.2 Gb/s (w/Opt 200)
–13 dBm @ 1 Gb/s to 7.1 Gb/s
–14 dBm @ 50 Mb/s to 1 Gb/s
Multimode 850 nm (OMA1):
–8 dBm @ 50 Mb/s to 11.4 Gb/s
–7 dBm @ > 11.4 Gb/s
–9 dBm @ 7.1 Gb/s to 14.2 Gb/s (w/Opt 200)
–11 dBm @ 1 Gb/s to 7.1 Gb/s
–12 dBm @ 50 Mb/s to 1 Gb/s
Minimum input level to acquire lock 150 m Vpp
(voltage or OMA1)
Electrical: 150 m Vpp
Output random jitter
(RMS)2
Internal recovered clock trigger
< 500 fs 7.2 Gb/s to 11.4 Gb/s (300 fs @ 10 Gb/s)
< 700 fs 4.2 Gb/s to 7.2 Gb/s, 11.4 Gb/s to 14.2 Gb/s (400 fs @ 4.25 Gb/s, 500 fs @ 2.5 Gb/s)
< 3 mUI 50 Mb/s to 4.2 Gb/s (700 fs @ 1.25 Gb/s)
Front panel recovered clock
< 700 fs 7.2 Gb/s to 11.4 Gb/s (300 fs @ 10 Gb/s)
< 900 fs 4.2 Gb/s to 7.2 Gb/s, 11.4 Gb/s to 14.2 Gb/s (400 fs @ 4.25 Gb/s, 500 fs @ 2.5 Gb/s)
< 4 mUI 50 Mb/s to 4.2 Gb/s (700 fs @ 1.25 Gb/s)
Clock recovery adjustable loop
bandwidth range (user selectable)
Standard: 270 kHz or 1.5 MHz3;
Option 300: 15 kHz to 10 MHz4 continuous tuning (fixed value or a constant rate/N ratio)
Loop bandwidth accuracy
Standard: ±30%
Option 300: ±25% for transition density = 0.5 and data rate 155 Mb/s to 11.4 Gb/s
(±30% for 0.25 ≤ transition density ≤ 1.0 and all data rates)
Tracking range
±2500 ppm 83496B,
Aquisition range
±5000 ppm
Internal splitter ratio
50/50
50/50 single-mode
30/70 multimode
Electrical signals have input only
(no internal power dividers)
Input return loss
22 dB (DC to 12 GHz) electrical
16 dB (12 to 20 GHz) electrical
20 dB single-mode, 16 dB multimode
22 dB min (DC to 12 GHz) electrical
16 dB min (12 to 20 GHz) electrical
Input insertion loss
7.2 dB max (DC to 12 GHz) electrical
7.8 dB max (12 to 20 GHz) electrical
4 dB max single-mode optical,
4 dB max multimode optical
(no electrical data output signal path)
±1000 ppm 83496A
See footnotes on next page.
23
Modules specifications
clock recovery
Clock recovery modules
83496B-100
Electrical through-path digital
amplitude attenuation5
Wavelength range
83496B-101
7.5 dB
Front panel recovered
clock output amplitude
Consecutive identical digits (CID)
Front panel recovered clock output
divide ratio (user selectable)6
Data input/output connectors
Front panel recovered
clock output connector
(No electrical data output signal path)
1 Vpp max, 220 mVpp min, 300 mVpp
830-860 nm and 1260-1360 nm multimode
1260-1360 nm and 1490-1600 nm single mode
Electrical: 150 m Vpp
150 max
N=1 to 16 @ data rates 50 Mb/s to 7.1 Gb/s
N=2 to 16 @ data rates 7.1 Gb/s to 14.2 Gb/s
3.5 mm male
FC/PC7 9/125 μm single-mode optical
FC/PC7 62.5/125 μm multimode optical
3.5 mm male electrical (input only)
SMA
Loop Bandwidth (Hz)
1. To convert from OMA to average power with an extinction ratio of 8.2 dB use: PavgdBm = OMAdBm –1.68 dB.
2. Verified with PRBS7 pattern, electrical inputs > 150 mVp-p and optical inputs > 3 dB above specification for minimum input level to acquire lock. Output jitter verification
results of the 83496B can be affected by jitter on the input test signal. The 83496B will track jitter frequencies inside the loop bandwidth, and the jitter will appear on the
recovered clock output. Vertical noise (such as laser RIN) on the input signal will be converted to jitter by the limit amplifier stage on the input of the clock recovery. These
effects can be reduced by lowering the Loop bandwidth setting.
3. At rates below 1 Gb/s, loop bandwidth is fixed at 30 KHz when Option 300 is not installed.
4. Without Option 200 loop bandwidth is adjustable from 15 KHz to 6 MHz. Available loop bandwidth settings also depend on the data rate of the input signal. For transition
density from 0.25 to 1, the Loop Bandwidth vs Rate chart shows available loop bandwidth settings. Higher loop bandwidths can be achieved when average data transition
density is maintained at or above 50%.
Selectable Loop Bandwidth vs Rate
5. 20*log(Vampout/Vampin) measured with PRBS23 at 14.2 Gb/s.
for 0.25 Transition Density 1
10.0E+6
6. Minimum frequency of divided front panel clock output is 25 MHz.
7. Other types of optical connectors are also available.
Typical system configurations
1.0E+6
min
max
100.0E+3
10.0E+3
10.0E+6
100.0E+6
1.0E+9
10.0E+9
Input Data Rate (bits/s)
86100D Infiniium DCA-X mainframe
86100D software options (select any):
86100D hardware options
Trigger options (select one only):
STR – Standard – for basic eye measurements only
ETR – Enhanced – for pattern waveforms, jitter analysis
PTB – Integrated precision timebase for low residual jitter
Remote connection options (select one only):
GPI – GPIB card interface installed
GPN – No GPIB card
061/062 – Add Matlab analysis package
200 – Enhanced jitter analysis
201 – Advanced waveform analysis
202 – Enhanced impedance and S-parameters
300 – Advanced amplitude analysis / RIN /Q-scale
500 – Productivity package
SIM – InfiniiSim-DCA de-embedding / embedding
86100DU – 400 PLL and jitter spectrum analysis
86100DU – 401 advanced eye analysis (jitter on PRBS31)
DCA plug-in modules (for typical1 applications)
Electrical / PLL
1 to 12 Gb/s
86112A
Dual channels
BW>20 GHz each
83496B
Electrical clock
recovery
(#100, 200, 300)
Electrical / PLL
Electrical
Optical
1 to 16/32 Gb/s
(high performance)
20, 40 Gb/s
(high-performance)
1 to 12 Gb/s
86108B
86118A
9 GHz optical channel
20 GHz electrical channel
Dual channels
BW > 35/50 GHz
with integrated
precision timebase
& clock recovery
Dual remote heads
BW>70 GHz each
86107A or
86100D-PTB
precision timebase
(#40)
86105C
Optical
20, 40 Gb/s
86105D-281
34 GHz optical channel
(780-1630 nm) 50 GHz
electrical channel
86116C
65 GHz optical channel
80 GHz electrical channel
86107A (#40) or
86100D-PTB
TDR/TDT
Single-ended,
differential
54754A
Dual 18 GHz channels
N1055A
2 or 4 channels
35 or 50 GHz channels
Note - TDR/TDT
modules also perform
as electrical-only
receivers
precision timebase
24
1. Contact your local Agilent sales representative to help configure a system for your specific application.
100.0E+9
Software applications
86100D-200 enhanced jitter analysis
86100D-SIM InfiniiSim-DCA
Option 200 provides extensive and accurate jitter decomposition,
which is increasingly important as data rates increase and
margins reduce. Quickly customize your view of many parameters
and take advantage of advanced features such as jitter spectrum
analysis.
At higher data rates, the effect of measurement fixtures and
channels is prominent and can be accounted for through the
de-embedding capabilities within Option SIM. You may also view
measurements on live and simulated signals, allowing you to
compare design intent to actual performance.
86100D-201 advanced waveform analysis
N1012A OIF CEI compliance and debug
application
Take advantage of powerful features in Option 201 to generate
much deeper waveform files, integrate MATLAB analysis, and
use the built-in linear feed-forward equalizer.
86100D-202 enhanced impedance and
S-parameter
Option 202 provides fast and easy characterization of return loss
and insertion loss for a wide range of devices and allows you to
see changes in your device as you make adjustments. Several
impedance parameters help you troubleshoot your designs to
optimize performance.
86100D-300 amplitude analysis/RIN/Q-factor
Extend the many capabilities from jitter mode into the amplitude
domain and see the decomposition of the amplitude into several
factors. Option 300 also reports relative intensity noise (RIN) and
Q-factor.
86100D-400 PLL and jitter spectrum
Option 400 quickly characterizes key parameters of phase-locked
loops and provides the jitter spectrum of your signal including
spread spectrum clocks. Control of the jitter source and receiver
is integrated to ensure fast results.
86100DU-401 advanced EYE analysis
For device testing with long patterns and to obtain BER-contour
mask testing, Option 401 integrates with the classic or FlexDCA
interfaces to decompose the jitter and amplitude interference
measurements into the key parameters. When using the
embedded capability within FlexDCA or the included automation
application, you may characterize jitter on simultaneous multiple
lanes and obtain concise and visual results.
The N1012A application lets you fully characterize the ~120
transmitter test parameters (including 28G-VSR), reducing your
test time from hours to minutes. Included are return loss tests
and several utilities to improve your test productivity. Debug
mode enables you to characterize your devices well beyond the
parameters prescribed in the implementation agreements.
N1014A SFF-8431 compliance and debug
application
The N1014A application lets you fully characterize ~70 test
parameters including all transmitter tests for host, module and
host copper and all test signals for receiver testing. Return loss
tests and utilities are also included.
N1019A user-defined application
You may create your own test application or suite of tests using
the DCA-X and other instruments. Quickly and intuitively create
groups of tests, test descriptions, user prompts and test limits.
Use concise HTML reports to share your multiple test results with
your users.
N1081-4A IEEE802.3 Ethernet applications
The extensive requirements for IEEE802.3-2012 and 802.3bj are
fully covered in these four applications, which comprise ~400
tests. Characterize your device for one, four or ten lanes, and
analyze trends over time/temperature and between devices.
25
Measurements
The 86100D DCA-X features two user interfaces for
optimum ease-of-use. It includes the classic DCA interface
for complete backwards compatibility with earlier DCA
mainframes. It also includes the new FlexDCA interface
that provides new measurements and powerful analysis
capability in a fully customizable application.
The following measurements are available from the
tool bar, as well as the pull down menus. The available
measurements depend on the DCA-X operating mode.
Oscilloscope mode
• Time
Rise Time, Fall Time, Jitter RMS, Jitter p-p, Period,
Frequency, + Pulse Width, – Pulse Width, Duty Cycle, Delta
Time, [Tmax, Tmin, Tedge—remote commands only]
• Amplitude
Overshoot, Average Power, V amptd, V p-p, V rms, V top,
V base, V max, V min, V avg, OMA (Optical Modulation
Amplitude)
Eye/mask mode
• NRZ eye measurements
Extinction Ratio, Jitter RMS, Jitter p-p, Average Power,
Crossing Percentage, Rise Time, Fall Time, One Level, Zero
Level, Eye Height, Eye Width, Signal to Noise, Duty Cycle
Distortion, Bit Rate, Eye Amplitude
• RZ eye measurements
Extinction Ratio, Jitter RMS, Jitter p-p, Average Power,
Rise Time, Fall Time, One Level, Zero Level, Eye Height, Eye
Amplitude, Opening Factor, Eye Width, Pulse Width, Signal to
Noise, Duty Cycle, Bit Rate, Contrast Ratio
Mask test
• Open Mask, Start Mask Test, Exit Mask Test, Filter, Mask
Test Margins, Mask Margin to a Hit Ratio, Mask Test Scaling,
Create NRZ Mask
Advanced measurement options
• The 86100D’s software options allow advanced analysis.
Options 200, 201, and 300 require mainframe Option 001.
Option 202 does not require Option 86100-001. Option 401
does not require Options 001 and 200 unless a DDPWS
measurement is required.
Option 200 enhanced jitter analysis software
• Measurements
Total Jitter (TJ), Random Jitter (RJ), Deterministic Jitter (DJ),
Periodic Jitter (PJ), Data Dependent Jitter (DDJ), Duty
Cycle Distortion (DCD), Intersymbol Interference (ISI), SubRate Jitter (SRJ), Asynchronous periodic jitter frequencies,
Subrate jitter components.
26
• FlexDCA adds the following measurements:
Data Dependent Pulse Width Shrinkage (DDPWS),
Uncorrelated Jitter (UJ), J2, J9
• Data displays
TJ histogram, RJ/PJ histogram, DDJ histogram, Composite
histogram, DDJ versus Bit position, Bathtub curve (log or Q
scale)
Option 201 advanced waveform analysis
• Measurements
Deep memory pattern waveform, user-defined
measurements through MATLAB interface,
• Data displays
Equalized waveform
Option 202 enhanced impedence
Option 300 amplitude analysis/RIN/Q-factor
(requires Option 200)
• Measurements
Total Interference (TI), Deterministic Interference (Dual-Dirac
model, DI), Random Noise (RN), Periodic Interference (PI),
and Inter-symbol Interference (ISI), RIN (dBm or dB/Hz),
Q-factor
• Data Displays
TI histogram, RN/PI histogram, ISI histogram
Option 400 PLL and jitter spectrum measurement software
• Jitter spectrum/phase noise measurements
Integrated Jitter: Total Jitter (TJ), Random Jitter (RJ),
Deterministic Jitter (DJ); DJ Amplitude/Frequency, Jitter
Spectrum Graph, Jitter versus Time Graph, Frequency
versus Time Graph, JitterHistogram, Post Processed Jitter
Measurements, Phase Noise Graph dBc/Hz versus
frequency
Option 401 advanced eye analysis
* Jitter analysis on long patterns
FlexDCA Version: Total Jitter (TJ), Deterministic Jitter (DJ),
Random Jitter (RJ), J2, J5, J9. Jitter can be measured on
long patterns such as PRBS23, PRBS31, live traffic.
Microsoft Excel version: All of the above, plus BER contour
mask testing.
Measurements
Option 500 productivity package
TDR markers
Option 500 enables Rapid Eye acquisition. Rapid Eye
achieves two significant benefits. First, unlike conventional
sampling and data display, when an eye mask test is
performed, every acquired sample will be compared to
the mask, as the central eye is composed of all acquired
samples. Effective throughput is improved at least 60%.
Second, incomplete eye diagram displays that can occur
when triggering at subrates are eliminated.
• Horizontal — seconds or meter
• Vertical — Volts, Ohms or Percent Reflection
• Propagation — Dielectric Constant or Velocity
• Phase Locked Loop (PLL) measurements
PLL Bandwidth, PLL Peaking, Data Rate, Jitter Transfer
Function (JTF) Graph, Observed Jitter Transfer (OJTF) Graph,
JTF Model.
Option 401 advanced EYE analysis
• Jitter measurements
Total Jitter (TJ), Random Jitter (RJ), Deterministic Jitter (DJ),
J2 Jitter (J2), J5 Jitter (J5), J9 Jitter (J9), Data Dependent
Pulse Width Shrinkage (DDPWS)*
* Requires 86100D-200
• Amplitude measurements
Total Interference (TI), Random Noise (RN), Deterministic
Interference (DI), Eye Opening
• Mask test
Pass/Fail Status, BER limit
Option SIM InfiniiSim-DCA
2-port de-embedding and embedding; 4-port de-embedding
and embedding; add simulated random jitter and noise
TDR/TDT mode (requires TDR module)
• Quick TDR, TDR/TDT Setup,
Normalize, Response, Rise Time, Fall Time, Δ Time, Minimum
Impedance, Maximum Impedance, Average Impedance,
(Single-ended and Mixed-mode S-parameters with Option
202)
Additional capabilities
Standard functions
Standard functions are available through pull down menus
and soft keys, and some functions are also accessible
through the front panel knobs.
Markers
• Two vertical and two horizontal (user selectable)
Limit tests
• Acquisition limits
• Limit Test “Run Until” Conditions — Off, # of Waveforms, # of Samples
• Report Action on Completion — Save waveform to memory, save screen image
• Measurement limit test
• Specify Number of Failures to Stop Limit Test
• When to Fail Selected Measurement — Inside Limits,
• Outside limits, always fail, never fail
• Report Action on Failure — Save waveform to memory, save screen image, save summary
• Mask limit test
• Specify Number of Failed Mask Test Samples
• Report Action on Failure — Save waveform to memory,
save screen image, save summary
Configure measurements
• Thresholds
10%, 50%, 90% or 20%, 50%, 80% or Custom
• Eye Boundaries
• Define boundaries for eye measurments
• Define boundaries for alignment
• Format Units for
• Duty Cycle Distortion — Time or Percentage
• Extinction/Contrast Ratio — Ratio, Decibel or Percentage
• Eye Height — Amplitude or Decibel (dB)
• Eye Width — Time or Ratio
• Average Power — Watts or Decibels (dBm)
• Top base definition
Automatic or Custom
• Δ time definition
• First Edge Number, Edge Direction, Threshold
• Second Edge Number, Edge Direction, Threshold
• Jitter mode
• Units (time or unit interval, watts, volts, or unit amplitude)
• Signal type (data or clock)
• Measure based on edges (all, rising only, falling only)
• Graph layout (single, split, quad)
27
Measurements
Quick measure configuration
When using the classic DCA interface, “Quick Measure”
measurements are initiated by pressing the <Multi-Purpose>
button on the front panel.
• Four user-selectable measurements for Each Mode, Eye-mask,TDR, etc.
• Default Settings (Eye/Mask Mode) Extinction Ratio, Jitter RMS, Average Power, Crossing Percentage
• Default Settings (Oscilloscope Mode) Rise Time,
Fall Time, Period, V amptd
Histograms
• Configure
• Histogram scale (1 to 8 divisions)
• Histogram axis (vertical or horizontal)
• Histogram window (adjustable window via marker knob)
Math measurements - classic DCA user interface
Calibrate - classic DCA user interface
All calibrations
• Module (amplitude)
• Horizontal (time base)
• Extinction ratio
• Probe
• Optical channel
Front panel calibration output level
• User selectable –2 V to 2 V
Utilities
Set time and date
Remote interface
• Set GPIB interface
Touch screen configuration/calibration
• Calibration
• Disable/enable touch screen
• Four user-definable functions Operator — magnify, invert, subtract, versus, min, max
• Source — channel, function, memory, constant, response (TDR)
Upgrade software
Signal processing measurements - FlexDCA
• Math - Add, Subtract, Multiply, Average, Invert, Maximum, Minimum, Median
• Signal Processing - Difference (Differentiate), Summation (Integrate), Interpolation (Linear, Sin(x)/x), Filters: 4th Order Bessel, Butterworth, Gaussian
• Transforms - FFT, Versus
• Equalizer (Option 201) - Linear Feed-forward Equalizer (LFE, up to 64 taps)|
• Simulation (Option SIM) - De-embedding, Embedding, Random Jitter, Random Noise
Additional capabilities
28
• Upgrade mainframe
• Upgrade module
Waveform autoscaling
Autoscaling provides quick horizontal and vertical scaling of
both pulse and eye-diagram (RZ and NRZ) waveforms.
Gated triggering
Trigger gating port allows easy external control of data
acquisition for circulating loop or burst-data experiments.
Use TTLcompatible signals to control when the instrument
does and does not acquire data.
Measurements
Easier calibrations
IVI-COM capability
Calibrating your instrument has been simplified by placing
all the performance level indicators and calibration
procedures in a single high-level location. This provides
greater confidence in the measurements made and saves
time in maintaining equipment.
Interchangeable Virtual Instruments (IVI) is a group of
new instrument device software specifications created by
the IVI Foundation to simplify interchangeability, increase
application performance, and reduce the cost of test
program development and maintenance through design
code reuse. The 86100D IVI-COM drivers are available for
download from the Agilent website.
Stimulus response testing using the Agilent N490X BERTs
Error performance analysis represents an essential part of
digital transmission test. The Agilent 86100D and N490X
BERT have similar user interfaces and together create
a powerful test solution. If stimulus only is needed, the
81133A and 81134A pattern generators work seamlessly
with the 86100D.
VXII.2 and VXII.3 instrument contro
The 86100D DCA-X provides LAN based instrument control.
Transitioning from the Agilent 83480A and 86100A/B/C to
the 86100D
While the 86100D has powerful new functionality that its
predecessors don’t have, it has been designed to maintain
compatibility with the Agilent 86100A, 86100B, 86100C
and Agilent 83480A digital communications analyzers and
Agilent 54750A wide-bandwidth oscilloscope. All modules
used in the Agilent 86100A/B/C, 83480A and 54750A can
also be used in the 86100D. Since the 86100D includes
the classic DCA interface, the remote programming
command set for the 86100D designed for the 86100A/B/C
will work directly. Some code modifications are required
when transitioning from the 83480A and 54750A, but the
command set is designed to minimize the level of effort
required.
29
Ordering information
86100D Infiniium DCA-X mainframe
86100D Hardware Options
86100D-STR Standard trigger
86100D-ETR Enhanced trigger
86100DU-ETR Enhanced trigger upgrade kit
86100D-PTB Precision timebase integrated in the mainframe
86100DU-PTB Upgrade mainframe with integrated precision
timebase
86100D-GPI GPIB card interface installed (default)
86100D-GPN No GPIB card interface
86100D-090 Removable hard drive
86100D-092 Internal hard drive (default)
86100D Software Options
86100D-xxx are permanent fixed-node licenses
installed by the factory
86100DU-xxx are permanent fixed-node licenses
installed by the customer (software upgrades)
86100DT-xxx are permanent transportable licenses
installed by the customer
The “-xxx” option code provides the same functionality
independent of the prefix (i.e., 86100D or 86100DU or 86100DT)
86100D-061 MATLAB - Basic Oscilloscope Package
86100D-062 MATLAB - Standard Oscilloscope Package
86100D-200 Enhanced Jitter analysis software
86100DT-200 Transportable 86100DU-200 license
86100D-201 Advanced waveform analysis software
86100D-202 Enhanced impedance and S-parameter software
86100D-300 Amplitude analysis/RIN/Q-factor
86100DU-400 PLL and Jitter Spectrum software1
86100DU-401 Advanced EYE analysis software1
86100D-SIM InfiniiSim-DCA software
86100D-500 Productivity Package software
N1012A OIF CEI compliance and debug application
N1014A SFF-8431 compliance and debug application
N1019A user-defined application
N1081A IEEE 802.3 KR/KR4 application
N1082A IEEE802.3 CR4/CR10 application
N1083A IEEE802.3 nAUI/nPPI application
N1084A IEEE802.3 KR4/CR4 application
Misc Options
86100D-AFP Module slot filler panel
86100D-AX4 Rack mount flange kit
86100D-AXE Rack mount flange kit with handles
86100D-UK6 Commercial cal certificate with test data
86100DU-WN7 Upgrade to Windows 7 operating system
30
1. 2.
3.
4.
NOTE:
Options 200, 201, and SIM require Option ETR (enhanced trigger).
Option 300 requires Options 200 and ETR.
Option 400 requires Microsoft Office Excel 2007/2010
Option 401 requires Options ETR/200 for DDPWS measurement and Excel for amplitude interference measurements
Optical/electrical modules
86105C 9 GHz optical channel; single-mode and multimode,
amplified (750 to 1650 nm)
20 GHz electrical channel
86105C-100 155 Mb/s through 8.5 Gb/s (choose 4 filter rates
from Options 86105C-110 through 86105C-195)
86105C-110 155 Mb/s
86105C-120 622 Mb/s (also covers 614 Mb/s)
86105C-130 1.063 Gb/s
86105C-140 1.244/1.250 Gb/s (also covers 1.229 Mb/s)
86105C-150 2.125 Gb/s
86105C-160 2.488/2.500 Gb/s (also covers 2.458 Gb/s)
86105C-170 2.666 Gb/s
86105C-180 3.125 Gb/s (also covers 3.072 Gb/s)
86105C-190 4.250 Gb/s
86105C-193 5.0 Gb/s
86105C-195 6.250 Gb/s (also covers 6.144 Gb/s)
86105C-200 8.5, 9.953, 10.3125, 10.519, 10.664, 10.709, 11.096,
11.317 Gb/s
86105C-300 Combination of rates available in 86105C-100 and
86105C-200
86105D2 20 GHz optical channel; single-mode and
multimode, (750-1650 nm); filters for 8.5, 9.953,
10.3125, 10.519, 10.664, 10.709, 11.096, 11.317,
14.025 Gb/s; 35 GHz electrical channel
86105D-100 Identical capability as 86105D, 14.025 Gb/s filter not included
86105D-200 Identical capability as 86105D, only filter provided
is 14.025 Gb/s
86105D-IRC3 System impulse response correction calibration
86105D-281 34 GHz optical channel, filters for 15, 25.78 , 27.95, 28.05 Gb/s (contact Agilent for additional 14.025 Gb/s filter)4. 50 GHz electrical channel
2
86115D 20 GHz multi-optical port plug-in module;
single-mode and multimode (750-1650 nm); filters
for 8.5, 9.953, 10.3125, 10.519, 10.664, 10.709,
11.096, 11.317, 14.025 Gb/s
86115D-002 Two optical channels with filters for all rates listed Fixed node customer installed or transportable customer installed (86100DU or 86100DT). Not available as a factory-installed license.
This module is not compatible with the 86100A and 86100B DCA mainframes. If you want to upgrade older DCAs, contact Agilent Technologies to discuss current trade-in deals
System impulse response correction calibration provides a unique calibration file for the optical channel(s). The FlexDCA user interface uses this calibration file to create ideal reference receiver responses for more accurate and consistent transceiver compliance testing. IRC also allows reference receivers to be defined at any data rate within +/- 50% of the hardware response. This allows optical receivers to significantly extend their operating range.
A 15 Gb/s filter is provided with Option 281 and 282 that closely approximates the response required for 16X Fibre Channel compliance testing. Contact Agilent for a special option that verifies compliance of the 86105D-281 and 86115D-282 to the 16X Fibre Channel reference receiver specification.
Ordering information
(8.5 to 14.025 Gb/s)
86115D-102 Identical capability as 86115D-002, 14.025 Gb/s filters not included
86115D-142 Identical capability as 86115D-002, only filters provided are 14.025 Gb/s
86115D-282 Two optical channels with filters for 15, 25.78, 27.95, 28.05 Gb/s (contact Agilent for 14.025 Gb/s filter)4
86115D-004 Four optical ports with filters for all rates listed (8.5 to 14.025 Gb/s) mulitplexed to two optical
channels through 2 integral 1X2 optical switches
86115D-104 Identical capability as 86115D-004, 14.025 Gb/s filters not included
86115D-144 Identical capability as 86115D-004, only filters provided are 14.025 Gb/s
86115D-IRC System impulse response correction calibration
86116C2 40 to 65 GHz optical / 80 GHz electrical sampling
module, 1300 to 1620 nm
86116C-IRC3 System impulse response correction calibration
54754A1,5 Differential TDR module with dual 18 GHz
TDR/electrical channels
2
N1055A 35/50 GHz, 2/4 port, TDR/TDT remote head
N1055A-32F 35 GHz, 2 channel remote head, 2.92 mm, female
N1055A-32M 35 GHz, 2 channel remote head, 2.92 mm, male
N1055A-34F 35 GHz, 4 channel remote head, 2.92 mm, female
N1055A-34M 35 GHz, 4 channel remote head, 2.92 mm, male
N1055A-52F 50 GHz, 2 channel remote head, 1.85 mm, female
N1055A-52M 50 GHz, 2 channel remote head, 1.85 mm, male
N1055A-54F 50 GHz, 4 channel remote head, 1.85 mm, female
N1055A-54M 50 GHz, 4 channel remote head, 1.85 mm, male
This module is not compatible with the 86100A and 86100B DCA
mainframes. If you want to upgrade older DCAs, contact Agilent
Technologies to discuss current trade-in deals.
The following modules provide a recovered clock from the data
signal for triggering at indicated data rates:
All optical modules have FC/PC connectors installed on each optical port.
Other connector adapters available as options are: Diamond HMS-10, DIN,
ST and SC.
83496B 50 Mb/s to 7.1 Gb/s Clock recovery module. This
module is not compatible with the 86100A and
86100B DCA mainframes. If you want to upgrade
older DCAs, contact Agilent Technologies and ask
for current trade-in deals.
83496B-100 Single-ended and differential electrical with
integrated signal taps
83496B-101 Single Mode (1260-1360 nm and
1490-1600 nm) and multimode (830-860 nm and
1260-1360 nm) optical. Integrated signal taps. Single-ended or differential electrical inputs (no signal taps)
83496B-200 Increase operating range to 50 Mb/s to 14.2 Gb/s
83496BU-200 Data rate 0.05 Gb/s to 14.2 Gb/s upgrade
83496B-201 Shift operating range to 7.1 to 14.2 Gb/s
83496BU-201 Shift operating range to 7.1 to 14.2 Gb/s upgrade
83496B-300 Add tunable loop bandwidth “golden PLL” capability
83496BU-300 Adjustable loop bandwidth upgrade
86116C1 40 to 65 GHz optical / 80 GHz electrical sampling
module, 1300 to 1620 nm
Select exactly one reference receiver option:
86116C-025: 40 GHz opt./80 GHz elec. channels,
17.0/25.8/27.7 Gb/s reference receiver
86116C-041: 65 GHz opt./80 GHz elec. channels,
39.81/41.25/43.02 Gb/s reference receiver
Dual/Quad electrical channel modules
86112A Dual 20 GHz electrical channels
86112A-HBW Dual 30 GHz electrical channels
86117A Dual 50 GHz electrical channels
86118A Dual 70 GHz electrical remote sampling channels
86118A-H01 Differential De-Skew
N1045A2
2/4 Port 60 GHz electrical remote head
N1045A-02F 2 channel remote head, 1.85 mm, female
N1045A-02M 2 channel remote head, 1.85 mm, male
N1045A-04F 4 channel remote head, 1.85 mm, female
N1045A-04M 4 channel remote head, 1.85 mm, male
Precision timebase module
86107A 86107A-010 86107A-020 86107A-040 Precision timebase reference module
2.5 and 10 GHz clock input capability
10 and 20 GHz clock input capability
10, 20 and 40 GHz clock input capability
Clock recovery modules1
External clock recovery solutions
TDR/TDT modules
1. 2.
3.
4.
Fixed node customer installed or transportable customer installed (86100DU or 86100DT). Not available as a factory-installed license.
This module is not compatible with the 86100A and 86100B DCA mainframes. If you want to upgrade older DCAs, contact Agilent Technologies to discuss current trade-in deals
System impulse response correction calibration provides a unique calibration file for the optical channel(s). The FlexDCA user interface uses this calibration file to create ideal reference receiver responses for more accurate and consistent transceiver compliance testing. IRC also allows reference receivers to be defined at any data rate within +/- 50% of the hardware response. This allows optical receivers to significantly extend their operating range.
A 15 Gb/s filter is provided with Option 281 and 282 that closely approximates the response required for 16X Fibre Channel compliance testing. Contact Agilent for a special option that verifies compliance of the 86105D-281 and 86115D-282 to the 16X Fibre Channel reference receiver specification.
31
Ordering information
N4877A 50 Mb/s to 32 Gb/s electrical clock recovery
instrument with 1:2 demultiplexer
N4877A-216 50 Mb/s to 16 Gb/s operation
N4877A-232 50 Mb/s to 32 Gb/s operation
N1075A
Optical pickoff and electrical converter
N1075A-M14 Multimode and single-mode to > 16 Gb/s4
N1075A-S32 Single-mode to > 32 Gb/s
N1070A
Bundle N4877A and N1075A for an optical clock
recovery solution
Precision waveform analyzer module1, 3
Dual electrical channel module with integrated clock recovery and
precision timebase.
86108A-100 Dual 32 GHz electrical channels, integrated clock
recovery (50 Mb/s to 14.2 Gb/s) with integrated
precision timebase
86108A-001 Two 3.5 mm phase trimmers for skew adjustment
86108A-002 Two precision 3.5 mm 18 inch cables
86108A-400 Auxiliary Clock Recovery Input
86108B options:
86108B-LBW Dual 35 GHz electrical channels
86108B-HBW Dual 50 GHz electrical channels
86108B-216 Clock recovery 50 Mb/s to 16 Gb/s
86108B-232 Clock recovery 50 Mb/s to 32 Gb/s
86108B-300 Adjustable loop bandwidth/peaking
86108B-400 Auxiliary clock recovery input
86108B-PTB Integrated precision timebase
86108B-JSA Jitter Spectrum Analysis and Software Clock
Recovery Emulation
86108B-A23 Two Adapters, 2.4 mm (f) to 3.5 mm (f)
86108B-CA2 Matched Cable Pair, 2.4 mm - 2.4 mm, 24 inch
86108B-CA3 Matched Cable Pair, 3.5 mm - 3.5 mm, 18 inch
86108B-DC2 Two DC Blocks, 2.4 mm, 16V, 50 KHz - 50 GHz
86108B-DC3 Two DC Blocks, 3.5 mm, 16V, 50 KHz - 26.5 GHz
86108B-PT2 Two 2.4 mm phase trimmers for ext. skew
adjustment
86108B-PT3 Two 3.5 mm phase trimmers for ext. skew adjustment
Warranty options (for all products)
R1280A R1282A Customer return repair service
Customer return calibration service
N1000-40008
86101-60017 0960-2929 1150-7913 N1040-66410 9300-1308
9300-1367 9300-1484
9300-0980 Front cover
Filler panel (1/4 of module bay)
USB keyboard (included with 86100D)
USB mouse (included with 86100D)
TDR/TDT, Equalization & de-embedding demo board
ESD Heel strap
ESD Wrist strap
ESD Desk mat
ESD Wrist strap ground cord
Optical connector adapters
Note: Optical modules come standard with one FC/PC connector
adapter
81000FI 81000SI 81000HI 81000LI 81000MI 81000VI 81000KI N9355CK01 FC/PC connector interface
DIN connector interface
E2000 connector interface
LC connector interface
MU connector interface
ST connector interface
SC Connector interface
DC coupled limiter for overload and ESD protection (3.5 mm only)
RF/Microwave accessories1
11636B N4910A
N4871A
11636C Power divider, DC to 26.5 GHz, APC 3.5 mm
2.4 mm male-to-male matched coaxial cable pair, 61 cm
3.5 mm male-to-male matched coaxial cable pair,
91 cm
Power divider, DC to 50 GHz, 2.4 mm
11742A 45 MHz to 26.5 GHz DC blocking capacitor
N9398G
1.85 mm male-to-female DC Block 16V
700 kHz-67 GHz
N9398F 2.4 mm male-to-female DC Block 16V
50 kHz-50 GHz
N9398C 3.5 mm male-to-female DC Block 16V
50 kHz-26.5 GHz
11742A-K01 50 GHz DC blocking capacitor
8493C-003
8493C-006
3.5 mm 3 dB attenuator
3.5 mm 6 dB attenuator
Accessories
32
1. 86100D-ETR is recommended when using a DCA module equipped with a rear-panel trigger circuit. Examples include 54754A, 83496x, and 86108A/B modules. If operating these modules in an 86100D with Option STR, an external cable (such as P/N 5062-6690) must be connected from the module’s front panel trigger/clock output to the 86100D’s trigger input.
2. Requires 86100D mainframe (not compatible with 86100A/B/C).
3. This module is not compatible with the 86100A and 86100B DCA mainframes. If you want to upgrade older DCAs, contact Agilent Technologies to discuss current trade-in deals.
4. The N1070 solution can provide clock recovery for multimode signals to data rates in excess of 28 Gb/s if optical modulation power is large. See N4877A/N1070A specifications.
5. Included with each of these TDR modules is a TDR trigger cable, two 50 Ω SMA terminations and one SMA short.
Ordering information
8493C-010
8493C-020
8490D-003
8490D-006
8490D-010
8490D-020
3.5 mm 10 dB attenuator
3.5 mm 20 dB attenuator
2.4 mm 3 dB attenuator
2.4 mm 6 dB attenuator
2.4 mm 10 dB attenuator
2.4 mm 20 dB attenuator
11900A
2.4 mm male to 2.4 mm male adapter/connector saver
11900B
2.4 mm female to 2.4 mm female adapter/
connector saver
11900C
2.4 mm female to 2.4 mm male connector saver
11901A
2.4 mm male to 3.5 mm male adapter
11901B 2.4 mm (f) to 3.5 mm (f) adapter
11901C 2.4 mm (m) to 3.5 mm (f) adapter
11901D 2.4 mm (f) to 3.5 mm (m) adapter
5061-5311 3.5 mm (f-f) connector saver (e.g., for 86100C/D trigger input)
85130-60010 2.4 mm female to 3.5 mm male NMD bulkhead adapter
1250-1158 SMA (f-f) adapter
83059A
3.5 mm male to 3.5 mm male adapter/connector saver
83059B
3.5 mm female to 3.5 mm female adapter/connector
saver
83059C
3.5 mm female to 3.5 mm male connector saver
909D-011
909D-301
85138A
85138B
85140A
85140B
3.5 mm female 50 Ohm load
3.5 mm male 50 Ohm load
2.4 mm male 50 Ohm load
2.4 mm female 50 Ohm load
2.4 mm male short
2.4 mm female short
Passive probe
N1021B N1024B
18 GHz Differential TDR Probe Kit
TDR Calibration kit
Infiniimax I active probes (1.5 to 7 GHz)
Note: The N1022B probe adapter is required to use these probes
with the 86100 DCA
Infiniimax I probe amplifiers
Note: Order one or more Infiniimax I probe head or connectivity kit
for each amplifier
1130A 1.5 GHz probe amp
1131A 3.5 GHz probe amp
1132A
5 GHz probe amp
1134A 7 GHz probe amp
Infiniimax I probe heads
E2675A InfiniiMax differential browser probe head and
accessories. Includes 20 replaceable tips and
ergonomic handle. Order E2658A for replacement
accessories.
E2676A InfiniiMax single-ended browser probe head and
accessories. Includes two ground collar
assemblies, 10 replaceable tips, a ground lead
socket and ergonomic browser handle. Order
E2663A for replacement accessories.
E2677A InfiniiMax differential solder-in probe head and
accessories. Includes 20 full bandwidth and 10
medium bandwidth damping resistors. Order
E2670A for replacement accessories.
E2678A InfiniiMax single-ended/differential socketed probe
head and accessories. Includes 48 full bandwidth
damping resistors, six damped wire accessories,
four square pin sockets and socket heatshrink.
Order E2671A for replacement accessories.
E2679A InfiniiMax single-ended solder-in probe head and
accessories. Includes 16 full bandwidth and eight
medium bandwidth damping resistors and 24
zero ohm ground resistors. Order E2672A for
replacement accessories.
Infiniimax I connectivity kits (popular collections of the above
probe heads)
E2669A InfiniiMax connectivity kit for differential
measurements
E2668A InfiniiMax connectivity kit for single-ended
measurements
Infiniimax II active probes (10 to 13 GHz)
Note: The N1022B probe adapter is required to use these probes
1. 2.4 mm connectors are mechanically compatible with 1.85 mm. 2.92 mm connectors are mechanically compatible with 3.5 mm and SMA connectors.
33
Ordering information
with the 86100 DCA
Infiniimax II probe amplifiers
Note: Order 1 or more Infiniimax II probe heads for each amplifier.
Infiniimax I probe heads and connectivity kits can also be used but
will have limited bandwidth.
1168A 10 GHz probe amp
1169A 13 GHz probe amp
Infiniimax II probe heads
N5380A InfiniiMax II 12 GHz differential SMA adapter
N5381A InfiniiMax II 12 GHz solder-in probe head
N5382A
InfiniiMax II 12 GHz differential browser
Infiniimax III active probes (16 to 30 GHz)
Note: The N5477A probe adapter is required to use these probes
with the 86100 DCA
Infiniimax III probe amplifiers
N2800A
N2801A
N2802A
N2803A
16 GHz probe amp
20 GHz probe amp
25 GHz probe amp
30 GHz probe amp
Infiniimax III probe heads
N5439A
N5440A
N5447A
N5444A
N5448A
N5441A
N5445A
ZIF Probe Head
450 Ω ZIF Tip
200 Ω ZIF Tip
2.92 mm/3.5 mm/SMA
2.92 mm Extension Cables
Solder-in Probe Head
Browser Probe Head
www.agilent.com/find/infiniimax3
Probe adapters
N5477A
N1022B
Sampling Scope Adapter. Adapts the Infiniimax III system probes to the 86100 Infiniium DCA
Adapts 113x/115x,/116x active probes to
86100 Infiniium DCA
The N1022A/B and N5477A adapters are powered by connecting
it to the built-in probe power connector available on some DCA
34
modules or to an external probe power supply. On modules that do
not have a built-in probe power connector, use an 1143A external
power supply. It is recommended to order option 001 on the 1143A,
which provides a 5-foot power extension cable (01143-61602). The
1143A power supply can power two probes. The N1022A/B and
N5477A adapters are compatible with male 3.5 mm NMD bulkhead
inputs. Insert an 85130-60010 2.4 mm female NMD to 3.5 mm male
NMD adapter in order to use them for 2.4 mm NMD bulkhead inputs.
Connectivity solutions
For a wide range of test adapters to connect to one or more lanes
for SFP+, QSFP+, Fibre Channel, PCIe and many others, please see
adapters information from Wilder Technologies at:
http://www.wilder-tech.com/
Call Agilent for connectivity and probing solutions not listed above.
Firmware and software
Firmware and software upgrades are available through the Web or
your local sales office. www.agilent.com/find/dcax
N1010A FlexDCA Remote Access Software
FlexDCA Pro runs on the 86100D as well as on a PC or laptop.
Software licenses allow connectivity to an 86100C or D mainframe,
advanced analysis or productivity packages, and more.
http://www.agilent.com/find/flexdca_download
FlexDCA express is the same as FlexDCA Pro except that it does not
included any functionality requiring a license. It is available free of
charge from http://www.agilent.com/find/flexdca_express
86100D DCA-X Brochure
For more information on the features and benefits of the 86100D
DCA-X and DCA modules, download the 86100D DCA-X Brochure. Go
to: www.agilent.com and search on 5989-5822EN.
Agilent Technologies Oscilloscopes
Multiple form factors from 20 MHz to > 90 GHz | Industry leading specs | Powerful applications
35
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is an open standard that extends the AdvancedTCA for general
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delivers a rugged, PC-based high-performance measurement and
automation system.
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© Agilent Technologies, Inc. 2010–2013, 2014
Published in USA, May 20, 2014
5990-5824EN