Agilent 16900A Data Sheet

Conquer your toughest digital
debug problems while staying
within your budget

The Agilent 16900 Series modu­lar logic analysis mainframes
deliver the performance you need
to conquer your toughest digital
debug problems. You get accurate
and reliable measurements for
today’s complex circuits, with
expandability and performance
headroom to cover future tech­nology trends. In addition, the
intuitive user interface gives you
the ultimate in productivity with­out sacrificing performance or
capability. You get performance
and intuitive usability at a price
you can afford.

Expand your system as your
needs evolve

Expandability is the key to the
long-term value of the Agilent
16900 Series logic analysis sys­tems. Purchase the capability you
need now, then expand as your
needs evolve. Maximize main­frame usage by operating them
separately, then connecting them

Agilent 16900 Series
Logic Analysis System Mainframes

Data Sheet

Figure 1. The Agilent 16901A and 16902B modular logic analysis systems.

together for complex, high-chan­nel-count, multiple-bus applica­tions. Whether you are doing
simple hardware debug, real-time
analysis of instruction execution,
hardware/software integration,
signal-quality analysis or complex
system validation, you have a sys­tem that meets each of your long­term digital measurement needs.

Spend more time designing and less
time learning how to use your tools

If you want to focus on solving
your digital debug problems, you
need to be able to quickly master

your debug tools. The 16900
Series logic analysis mainframes
let you set up measurements easi­ly and navigate through your data
quickly with an intuitive user
interface and familiarity of
Windows®.

The flexibility you need to debug your
design your way

Increase your productivity with
a variety of operating modes that
maximize your analyzer’s usage.
Whether you work alone at a
bench or with team members
distributed around the world,
the 16900 Series provides a use
model that easily integrates into
your debug environment.

Combine mainframes to expand
measurement capability — Use

mainframes individually, then
connect them together when
you need to analyze complex,
multiple-bus problems.

Maximize system performance —
Augment the logic analyzer’s high
performance with the latest PC or
server technology to control the
logic analyzer and analyze data.

Work at your bench — Operate
the analyzer via touch screen,
mouse or keyboard.

Expand view across multiple
monitors — Get the most compre-

hensive view of your data with
extended desktop viewing.

Remotely control and monitor
the logic analyzer — Access a

remote logic analyzer via built­in Windows desktop sharing.
Receive e-mail when the logic
analyzer triggers.

Work offline — Increase equip­ment and team productivity. View
and analyze captured data on a
PC while the logic analyzer makes
other measurements. Also, create
setups for your next round of
measurements.

Run automated tests — Execute
a series of tests via the ASCII
remote programming interface or
Microsoft DCOM.

Share information with others —

Save your results to shared
drives.

Document your findings — Print
screen shots to networked print­ers and cut and paste data into
other software applications.

Comply with your company’s
network standards — Add

anti-virus software to the open
Windows-based logic analyzer.

Offload data for custom
analysis — Move data quickly over

the optional Gbit LAN connection
to an external PC.

2

Figure 2. Get the most comprehensive view of your data with extended desktop viewing.

16900 Series mainframe — the power
you need at a price you can afford

The mainframe you select is the
foundation of your system. The
Agilent 16900 Series includes a
range of powerful logic analysis
mainframes that deliver the per­formance you need at a price you
can afford. You get accurate and
reliable measurements, for today’s
complex systems, plus expandabil­ity and performance headroom to
cover future technology trends.

Select the 16900 Series mainframe that meets your requirements

Agilent model 16901A 16902B
number

Number of 2 6
module slots

Multiframe Pro Yes Yes

Display and Built-in color touch screen, Built-in color touch screen,
resolution 15 inch (38.1 cm), 1024 x 768; 15 inch (38.1 cm), 1024 x 768;
supports up to four external supports up to four external
monitors up to 1600 x 1200 monitors up to 1600 x 1200
(with PCI video card) (with PCI video card)

PCI expansion 1 full profile 1 full profile,
slots

Key things to consider when selecting
a 16900 Series mainframe:

• Number of module slots —
Determine the number of mea­surement modules required for
your specific measurement
need. Also consider having addi­tional slots for future needs.

• Multiframe Pro — 16900 Series
mainframes can always be used
as a standalone unit. In some
instances your channel needs
may surpass a single main­frame. Multiframe Pro allows
you to connect multiple frames
into one measurement system
with a single interface control.

• Display and resolution — If
you prefer to operate the ana­lyzer directly from the front
panel, select a mainframe
with a large, built-in touch
display. All 16900 Series
mainframes can also be used
with external monitors.

Table 1. Agilent modular 16900 Series mainframes.

Agilent 16900 Series Features

Modularity and Protect your long-term investment. Start with the capability
Expandability you need now, then add measurement modules or expand
the number of frames in the system as your needs evolve.

Intuitive user interface Quickly master the logic analyzer due to the award winning

usability and familiarity of Windows.

Hosted Power Mode and Achieve the ultimate in performance by hosting the logic
Offline Analysis analyzer application software on your fastest server to remotely

control the logic analyzer and analyze data.

Open PC platform Accelerate your debugging process with an extensive range of

optional software analysis tools. Protect your data and make
your logic analyzer compliant with your network environment
with anti-virus software. Share your work and communicate
results easily via LAN or USB flash drives

Full programmability Modify any measurement setting using COM via LAN.

Wide range of use models Increase your productivity and maximize your analyzer’s usage
by local or widely-distributed teams. (See page 2)

Table 2. Key features and benefits of Agilent 16900 Series logic analysis systems.

• PCI expansion slots —
Customize your logic analyzer
peripherals by adding PCI
cards for a specific capability
like multiple monitor video.

3

Modular expandability protects your
long-term investment

Configure a custom logic
analysis system with analyzer
modules to fit your performance
and price needs. Protect your
investment by upgrading
memory depths or state
speeds as your needs change.

Measurement Module Support

The 16900 Series supports the
following measurement modules:

Figure 3. Combine
multiple acquisition
modules when you
need to measure across
many channels.

Timing/State Modules

• 16951B

• 16950B

• 16950A

• 16910A, 16911A

• 16760A

• 16753A, 16754A, 16755A,
16756A

• 16750A/B, 16751A/B,
16752A/B

• 16740A, 16741A, 16742A

Pattern Generator Module

• 16720A

Figure 4. Modularity provides configuration flexibility to meet
your measurement needs—now and in the future.

Figure 5. Identify problem signals quickly by
viewing eye diagrams across all buses and
signals simultaneously.

Half channels Full channels

Max clock speed 300 MHz 180 MHz

Max memory depth 16 M Vectors 8 M Vectors

Channels per module 24 48

Max number of channels 120 240
per time base

Stimulus commands Initialize, Block, Repeat, and Break Macros

Logic levels supported 5 V TTL, 3 state TTL, 3 state CMOS, 3 state 3.3 V ECL,
5 V PECL, 3.3 V LVPECL, 3 state 2.5 V, 3 state 1.8 V, LVDS

1 Order at least one clock pod for each module used as a master and at least one data pod for every 8 output chan-

nels.

Table 3. Add a pattern generator module to drive down risk early in product development.

4

Choose the modules that meet your specific needs

Agilent model number 16910A

2,3

/16911A

2,3

16950B

2,3

/16951B2 16760A

2

Channels per module 102 /68 68 34

Max channels on a single 510/340 340 170
timebase and trigger

Memory depths 256 K: Opt 256 16950B options: 64 M
1 M: Opt 001 1 M: Opt 001
4 M: Opt 004 4 M: Opt 004
16 M: Opt 016 16 M: Opt 016
32 M: Opt 032 32 M: Opt 032
64 M: Opt 064
16951B: 256 M

High speed timing rate

1

4 GHz (250 ps) with 64 K depth 4 GHz (250 ps) with 64 K depth

Max deep memory timing 1.0 GHz (1.0 ns)/ 1.2 GHz (833 ps)/ 800 MHz
sample rate (half/full channel) 500 MHz (2.0 ns) 600 MHz (1.67 ns)

Transitional timing 500 MHz (2.0 ns) 600 MHz (1.67 ns) 400 MHz (2.5 ns)

Max state clock rate 250 MHz (Opt 250) 667 MHz 800 MHz
450 MHz (Opt 500)

Max state data rate 250 Mb/s (Opt 250) 667 Mb/s (DDR) 1.5 Gb/s
500 Mb/s (Opt 500) 1066 Mb/s (Dual Sample)

Voltage threshold ranges –5 V to 5 V –3 V to 5 V –3 V to 5 V
(10 mV increments) (10 mV increments) (10 mV increments)

Eye finder and eye scan support Yes Yes Yes

Supported signal types Single-ended Single-ended and differential Single-ended and differential

Probe compatibility 40-pin cable connector 90-pin cable connector 90-pin cable connector

1 All channels, all the time, simultaneous state and timing through same probe.
2 Probes are ordered separately. Please specify probes when ordering to ensure the correct connection between your logic analyzer and the device under test.
3 Specify desired memory depth, state clock and data rate using available options. Feature also available via software upgrade to existing module.

Table 4. Select the logic analyzer modules that best suit your requirements.

5

Headroom for your future needs
(Extend the life of your equipment)

Easily upgrade your 16900 Series
modules. “Turn on” additional
memory depth and state speed
when you need more. Purchase
the capability you need now, then
upgrade as your needs evolve.

16910A Upgrade max. state speed from 250 MHz to 450 MHz
16911A and max. data rate from 250 Mb/s to 500 Mb/s

Memory depth options 256 K,1 M, 4 M, 16 M or 32 M

16950B Memory depth options 1 M, 4 M, 16 M, 32 M or 64 M

Module differences for the 16950
series modules

This table lists the key differences
for the 16950 series modules. All
other specifications and charac­teristics are the same.

16950 Series module connections:

• You can combine up to five
16951Bs in a multiple-card set.
The combined set will have
256-M memory depth across
all channels.

• You can combine up to five
16950Bs in a multiple-card set.
The combined set will default
to the lowest memory depth in
the set.

• You can combine any combi­nation of 16753A, 16754A,
16755A, 16756A, and 16950As
in a multiple-card set. The
combined set will default to
the lowest memory depth in
the set.

16951B 16950B 16950A

State speed 667 MHz 667 MHz 600 MHz

Max data rate 667 Mb/s (DDR) 667 Mb/s (DDR) 600 Mb/s (DDR)
1066 Mb/s 1066 Mb/s 800 Mb/s
(Dual sample) (Dual sample) (Dual sample)

Memory depth 256 M 1 M to 64 M 256 K to 64 M

Minimum eye width 550 ps typical 550 ps typical 600 ps typical
in system under test

Minimum time between 1.50 ns 1.50 ns 1.67 ns
active clock edges (667 Mb/s (667 Mb/s (600 Mb/s
state mode) state mode) state mode)

Minimum state clock 1.50 ns 1.50 ns 1.67 ns
pulse width

6

Unleash the complementary
power of a logic analyzer and
an oscilloscope

Easily make time-correlated
measurements between Agilent
logic analyzers and oscilloscopes.
The time-correlated logic analyzer
and oscilloscope waveforms are
integrated into a single logic ana­lyzer waveform display for easy
viewing and analysis. You can
also trigger the oscilloscope from
the logic analyzer (or vice versa),
automatically de-skew the track­ing between the two instruments.

Perform the following more
effectively:

• Validate signal integrity

• Track down problems caused
by signal integrity

• Validate correct operation of
A/D and D/A converters

• Validate correct logical and
timing relationships between
the analog and digital portions
of a design

Figure 6. Make time-correlated measurements between an
Agilent logic analyzer and oscilloscope.

Feature Benefit

Automated setup Quickly get to your first measurement using the logic
analyzer’s help wizard for easy setup, regardless of which
supported Agilent oscilloscope you connect to.

Integrated waveform Instantly validate the logical and timing relationships
display between the analog and digital portions of your design. View
oscilloscope and logic analyzer waveforms integrated into a
single logic analyzer waveform display.

Automatic measurement Save time and gain confidence in measurement results
de-skew with measurements that are automatically de-skewed in time.

View Scope connections and compatibility

Connections LAN for data transfer,
two BNCs for cross
triggering

Sample clock Oscilloscope 10 MHz
synchronization Clock BNC to logic
analyzer
Clock In BNC

Agilent logic 16900 Series, 16800 Series,
analyzer 1690 Series, 1680 Series
support

Agilent DSO80000 Series,
oscilloscope Infiniium 8000 Series,
support 6000 Series, 5000 Series

Table 6. Agilent logic analyzer and
oscilloscope compatibility and
connections.

Cross trigger the logic Start your debug approach from either the analog or digital
analyzer and oscilloscope domain with the flexibility to trigger the oscilloscope from the
logic analyzer (or vice versa).

Tracking markers Precisely relate information on the oscilloscope’s display to
the corresponding point in time on the logic analyzer display
with tracking markers. The oscilloscope’s time markers
automatically track adjustments of the logic analyzer’s
global markers.

Sampling clock Maintain measurement accuracy even when viewing the
synchronization to waveforms at long delay settings. Synchronizing the sampling
10 MHz signal clocks of the logic analyzer and oscilloscope keeps the
measurement tightly time-correlated across the entire
acquisition.

Table 5. Key features and benefits of integrating Agilent oscilloscope and logic
analyzer capabilities.

7

Optional Analysis Packages for Logic Analyzers

B4655A FPGA dynamic Gain unprecedented visibility into your Xilinx or Altera FPGA’s internal activity. Make incremental
probe for Xilinx real-time measurements in seconds without stopping the FPGA, changing the design or modifying
B4656A FPGA dynamic design timing. Quickly set up the logic analyzer’s signal bus naming by leveraging work you did in
probe for Altera your design environment. www.agilent.com/find/fpga

89601A-200 and -300 digital Perform time-domain, spectrum, and modulation quality analysis on digital Baseband and IF signals.
vector signal analysis Both options are required to provide hardware and software connectivity for logic analyzers.
www.agilent.com/find/dvsa

B4602A signal extractor tool Extract and process signals from the logic analyzer data for output onto new buses/signals.
Analysis on the new buses/signals can be done within the logic analyzer or by other tools.
The tool is suited to:

• Extract I and Q data from serial data streams. The IQ data can be ported directly to the 89601A

software for physical layer test and analysis

• Create algorithms for use with Agilent's N5110B Baseband Studio

• Re-multiplex high-speed A/D digital data that has been de-multiplexed onto additional logic

analyzer channels due to high state speeds

• Includes sample DigRF algorithms for synchronization of signal extraction to any pattern in the

digital stream

B4601C serial-to-parallel Eliminate the tedious, time-consuming, and error-prone task of sifting through thousands of analysis
analysis package package serial bits by looking at long vertical columns of captured 1’s and 0’s. The B4601C
serial-to-parallel analysis package is general-purpose software that allows easy viewing and analysis
of serial data. www.agilent.com/find/logic-sw-apps

B4606A advanced customization Tailor your logic analyzer interface with a wide range of control, analysis and display capabilities
environment – development and specific to your measurement application. Create integrated dialogs, graphical displays and analysis
runtime package functions to quickly manipulate measurement data into a format that provides additional insight and
answers. www.agilent.com/find/logic-customview

B4607A advanced customization Run the macros and graphical views created with a B4606A development package or obtain and run a
environment – runtime package variety of commonly requested tools from Agilent and it’s partners to help customize your
measurement environment.

B4608A ASCII remote Remotely control a 16900-, 16800-, 1680-, or 1690-Series logic analysis system by issuing ASCII
programming interface commands. This interface is designed to be as similar as possible to the RPI on the 16700 Series logic
analysis system, so that you can reuse existing programs. Requires either B4606A or B4607A to be
enabled. You can also use the B4606A to customize and add RPI commands.

B4610A data import package Use the logic analyzer GUI to view data obtained from tools other than a logic analyzer.

B4630A MATLAB
and analysis package processing. Display the results on the logic analyzer in an XY scattergram chart.

®

connectivity Make an easy connection to MATLAB and transfer your logic analyzer measurement data for

8

Processor, Bus and FPGA Support

Agilent Technologies and our
partners provide an extensive
range of bus and processor
analysis probes. They provide
non-intrusive, full-speed,
real-time analysis to accelerate

• Save time making bus- and
processor-specific measure­ments with application specific
analysis probes that quickly
and reliably connect to your
device under test.

• Display processor mnemonics
or bus cycle decode.

• Get support for a comprehen­sive list of industry-standard
processors and buses.

your debugging process.

Microprocessors/ FPGAs I/O buses Memory buses Serial buses Graphics
microcontrollers buses

AMD, Analog Devices, Xilinx: PCI, PCI-X
ARM, AT&T, Dallas, Virtex-5, Virtex 4, PCI Express
DEC, Freescale, Virtex-II Pro series, Serial ATA GDDR3, Fully Buffered Serial ATA PCI Express
GTE, IBM, IDT, Infineon, Virtex-II series, (SATA 1 and 2), DIMM (FB-DIMM), (SATA 1 and 2),
Intel, LSI Logic, Spartan 3/3A/3E SCSI, Serial Rambus USB 2.0/1.1,
McDonnell Douglas, series Attached SCSI (SAS), PCI Express,
MIPS Motorola, HyperTransport RS-232, CAN,
National, NEC, PACE, Altera: SPI, SPI 4.2/PL4, IEEE-488, SPI,
PMC Sierra/QED, Stratix II GX, Parallel Rapid IO, Serial Rapid IO
Rockwell, Siemens, Stratix II, Stratix GX, Serial Rapid IO
Texas Instruments, Stratix, Cyclone II,
Toshiba, Zilog Cyclone, Max II,
APEX 20K, APEX II,
Excalibur

®

, DDR1, DDR2, Fibre Channel, I2C, AGP2x, AGP4x,

®

, PC-100/133, IEEE-1394, AGP3.0,

9

16900 Series Mainframes Characteristics

Data displays

Waveform Integrated display of data as digital waveforms, analog waveforms imported from an external oscilloscope,
and/or as a chart of a bus’ values over time.

Listing Displays data as a state listing.

Packet Viewer Displays summarized and detailed packet information simultaneously within two panes. The window is
automatically customized for the protocol family being decoded. The upper packet summary pane displays
decoded packets and fields. The lower pane contains tabs for viewing selected packet details, header,
payload, and lane information.

VBA View The VbaView window works with the integrated Microsoft Visual Basic for Applications (VBA) to provide
custom data visualization charts.

Compare Compares data from different acquisitions and highlights differences.

Source code Displays time-correlated source code and inverse assembly simultaneously in a split display.

Define the trigger event by simply clicking on a line of source code.

Obtain source-code-level views of dynamically loaded software or code moved from ROM to RAM during a

boot-up sequence using address offsets.

Requires access to source files via the LAN or instrument hard drive to provide source code correlation.

Source correlation does not require any modification or recompilation of your source code.

Eye Scan Displays eye diagrams across all buses and signals simultaneously, allowing you to identify problem
signals quickly.

Numeric bases for data display

Binary, hex, octal, decimal, signed decimal (two’s complement), ASCII, symbols, and processor mnemonics

Symbolic support/object file format compatibility

Number of symbols/ranges — Unlimited (limited only by amount of virtual memory available on 16900 Series mainframes)

IEEE-695, Aout, Omf86, Omf96, Omf386, Sysrof, ELF/DWARF1,* ELF/DWARF2*, ELF/Stabs1, ELF/Stabs2, ELF/Mdebug Stabs,
TICOFF/COFF, TICOFF/Stabs

GPA (General Purpose ASCII)

User defined — specify a mnemonic for a given bit pattern for a label or bus

* Supports C++ name de-mangling

10

16900 Series Mainframes Characteristics

Available configuration data/file formats

ala Contains information to reconstruct the display appearance, instrumentsettings, and trace data (optional)

that were present when the file was created.

xml Extensible markup language for configuration portability and programmability.

Available data import/export data/file formats

csv CSV (comma-separated values) format for transferring data to other applications like Excel.

alb Export logic analyzer data for post-processing. Alb data can be parsed using programming tools.

Standard analysis tools

Filter/colorize

Find (next/previous)

Programmability

You can write programs to control
the logic analyzer application from
remote computers on the local
area network using COM or ASCII.

The COM automation server is
part of the logic analyzer appli­cation. This software allows you
to write programs to control the
logic analyzer. All measurement
functionality is controllable via
the COM interface.

The B4608A Remote
Programming Interface (RPI) lets
you remotely control a 16900­Series logic analysis system by
issuing ASCII commands to the
TCP socket on port 6500. This
interface is designed to be as sim­ilar as possible to the RPI on
16700-Series logic analysis sys-

Computer with

Windows XP

LAN connection

Distributed COM

Figure 7. 16900 Series programming overview

tems, so that you can reuse exist­ing programs. The B4608A
requires the Advanced
Customization Environment
Development (B4606A) or
Runtime (B4607A) package
to operate.

The Remote Programming
Interface works through the COM
automation objects, methods, and

Logic analyzer

(16900/16800/1680 Series)

or PC running Agilent

logic analyzer application

Instrument COM

automation server

properties provided for control­ling the logic analyzer applica­tion. RPI commands are imple­mented as Visual Basic modules
that execute COM automation
commands, translate their
results, and return proper values
for the RPI. You can use the
B4606A Advanced Customization
Environment to customize and
add RPI commands.

11

16901A and 16902B Instrument Characteristics

PC characteristics

Operating system Microsoft Windows

Processor Intel Celeron™ 2.93 GHz

Chipset Intel 915G

System memory 2 GB SDRAM

Hard disk drive 80 GB (or higher)

Installed on hard drive Operating system, latest revision of the logic analyzer application software, optional application software
ordered with the logic analyzer

Instrument controls

LCD display Large 38.1-cm (15-in.) display makes is easy to view a large number of waveforms or states

Front-panel hot keys Dedicated hot keys for selecting run mode and disabling touch screen

Front-panel knob General-purpose knob adjusts viewing and measurement parameters

Keyboard and mouse PS/2 keyboard and mouse (shipped standard)

Video display modes

Touch-screen display Size 38.1 cm (15 in.) diagonal

Resolution 1024 x 768

External display Simultaneous Front panel and external display can be used simultaneously at 1024 x 768 resolution
display capability

Supports up to four external monitors at up to 1600x1200 (with PCI video card)

External display Supports a single monitor up to 2048 x 1536 resolution
port

12

16901A Interfaces

Peripheral interfaces

Display 15-pin VGA connector

Keyboard PS/2

Mouse PS/2

Parallel 25-pin D-sub

Serial 9-pin D-sub

PCI card expansion slot 1 full profile

USB Six 2.0 ports, two in front, four in rear

Connectivity interfaces

LAN 10/100/1000 Base T LAN

Connector RJ-45

Interface with external instrumentation

Trigger or arm external devices or receive signals that can be used to arm measurement hardware within the logic analyzer with
Trigger In/Out

Trigger In
Input Rising edge or falling edge
Action taken When received, the logic analyzer takes the actions described in the trigger sequence step
Input signal level ± 5 V max
Threshold level Selectable: ECL , LVPECL, LVTTL, PECL, TTL
User defined (± 5 V in 50 mV increments)
Minimum signal amplitude 200 mV
Connector BNC
Input resistance 4 k ohm nominal

Trigger Out
Trigger Rising edge or falling edge. OR of selected events that cause Trigger Out (logic analyzer trigger or flags)
Output signal V
V
Pulse width approx. 80-160 ns
Threshold level LVTTL (3.3 V logic)
Signal load 50 ohm (For good signal quality, the trigger out signal should be terminated in 50 ohms to ground)
Connector BNC

Target control port (16902B only)

Conveniently control your target
remotely by using the target
control port to activate reset or
interrupt lines.

(output high level) 2.0 V min

OH

(output low level) 0.5 V max

OL

Target control port

Number of signals 8

Output Disabled Tri-state, high-impedance
Output Enabled TTL level with 1 high, 0 low

Toggle Flips the setting of the signal. If the signal is set

to 1, Toggle changes the signal to 0.

Pulse Flips the signal setting for one clock cycle which is

at least 16 ms. The pulse duration cannot be specified.

Levels 3.3 V (LVTTL) compatible

Connector 2 rows of 5 pins, 0.1-inch centers

13

16901A Physical Characteristics

Dimensions

Power

115/230 V, 48-66 Hz, 775 W max

Weight* Max net Max shipping

16901A 13.6 kg 20.4 kg
(30 lbs) (45 lbs)

* Weight of modules ordered with mainframe will add

0.9 kg (2.0 lb per module)

Instrument operating environment

Temperature 0˚C to 45˚C (32˚F to 113˚F)

Altitude To 3000 m (10,000 ft)

Humidity 8 to 80% relative humidity

at 40˚ C (104˚ F)

361.49

(14.232)

Dimensions: mm (inches)

Figure 8. 16901A exterior dimensions

15 inch (38.1
cm) built-in color
touch screen
display

443.23

(17.450)

28.822

(11.347)

General purpose knob

Run/stop keys

On/Off power switch

Touch screen on/off

Two USB 2.0 ports

Figure 9. 16901A front panel

AC power

Mouse
Keyboard

Serial port

Parallel port

Figure 10. 16901A back panel

Trigger in

Trigger out

Clock in

10/100/1000 Base T LAN

USB 2.0 ports (4)

External display port

Full profile PCI card
expansion slot

14

Figure 11. 16901A side view

16902B Physical Characteristics

Dimensions

Power

16902B 100/240 V, 47 to 63 Hz, 1300 W max

Weight*

Max Net Max Shipping

16902B 19.6 kg (43.2 lbs) 28.0 kg (61.7 lbs)

* Weight of modules ordered with mainframes will add

0.9 kg (2.0 lb per module)

Instrument operating environment

Temperature 0˚ C to 40˚ C (32˚ F to 104˚ F)
Altitude To 3000 m (10,000 ft)
Humidity 8 to 80% relative humidity

at 40˚ C (104˚ F)

44.113 cm

17.368 in.

56.433 cm

22.218 in.

28.813 cm

11.344 in.

Figure 12. 16902B exterior dimensions

General purpose knob

Figure 13. Agilent 16902B front panel

Measurement
module ejector
latches

Six slots for
measurement
modules

Multiframe
Pro input

Multiframe
Pro output

Target
control port

A
B

C
D
E
F

Mouse

Keyboard

Serial
port

CalibrationTrigger OutTrigger In

Parallel
port

Run / Stop keys

On / Off power switch

Touch screen On / Off

Two USB 2.0 ports

Built-in removable hard drive

External display port

AC power

Full profile PCI card
expansion slot

Clock In

10/100/1000
Base T LAN

USB 2.0 ports (4)

Figure 14. Agilent 16902B back panel

15

Agilent 1181BZ Testmobile

The Agilent 1181BZ testmobile
gives you a convenient means of
organizing and transporting your
logic analysis system mainframes
and accessories.

The testmobile includes the
following:

• Heavy-duty casters make
moving instruments easy

• Includes a steel buckle and
nylon strap to secure instru­ments to the cart

• Total Load Capacity: 226.8 kg
(200 lbs)

Weight

1181BZ Max net: 44.5 kg (98 lbs)

Optional accessories

35181E Antistatic mat for work surface

35181HZ Testmobile printer/plotter stand

35181J Storage drawer, 3.5 inch (89 mm)

35181KZ Testmobile work surface

35181M Testmobile drawer, 5.25 inch
(133 mm)

Figure 15. Agilent 1181BZ testmobile cart.

Figure 16. Agilent 1181BZ testmobile cart
dimensions.

16

Rack Accessories

Figure 17. Sliding shelf installed in rack

Stationary Shelf

This light-duty fixed shelf is
designed to support the 16900
Series frames. The shelf can be
used in all standard Agilent
racks. The stationary shelf is
mounted securely into place
using the supplied hardware and
is designed to sit at the bottom of
the EIA increment. Features of
the stationary shelf include:

• Snap-in design for easy
installation

• Smooth edges

Specifications

Sliding Shelf

The sliding shelf provides a flat
surface with full product accessi­bility. It can be used in all Agilent
racks to support the 16900 Series
logic analysis systems. The shelf
and slides are preassembled for
easy installation. Features of the
sliding shelf include:

• Snap-in design for easy
installation

• Smooth edges

Consider purchasing the steel
ballast (C2790AC) to use with the
sliding shelf. The ballast provides
anti-tip capability when the shelf
is extended.

Figure 18. Stationary shelf (J1520AC)

Figure 19. Sliding shelf (J1526AC)

J1520AC J1526AC

Material Cold-rolled steel Cold-rolled steel

Weight 8 kg (17.6 lbs) 9.9 kg (22 lbs)

Color Quartz gray Quartz gray

Length 678 mm (26.7 in) 723.9 mm (28.5 in)

Height 44 mm (1.73 in) 44.5 mm (1.75 in)

Width 444 mm (17.5 in) 482.6 mm (19 in)

Load Capacity 68 kg (150 lbs) Capacity 68 kg (150 lbs)

Contains 1 stationary shelf 1 sliding shelf
2 rear brackets 2 rear brackets
Mounting hardware 1 cable strap
Mounting hardware

17

Ordering Information

Agilent
product number Description

16901A 2-Slot Logic Analysis System Mainframe with Built-in 15" (38.1 cm) Touch Display

16902B 6-Slot Logic Analysis System Mainframe with Built-in 15" (38.1 cm) Touch Display

Each frame comes with one PS/2 keyboard, one PS/2 mouse, and 1-year warranty standard. The 16902B also come with one ten conductor
flying lead cable for the target control port.

Agilent product
number or
option number Description Ordering info

E5861A Multiframe cable, 3 meter cable length Order 1 less than the number of

mainframes to be connected together

E5863A Additional built-in removable hard drive for Specify Option 001
the 16902B

E5862A External removable hard drive for the 16901A

Related literature

Publication title Publication type Publication number

Agilent Technologies Timing and State Modules Data Sheet 5989-0422EN
for the 16900 Series Logic Analysis System

Agilent Technologies 16800 Series Portable Brochure 5989-5062EN
Logic Analyzers

Agilent Technologies 16800 Series Portable Data Sheet 5989-5063EN
Logic Analyzers

Agilent Technologies FPGA Dynamic Probe Data Sheet 5989-0423EN
for Xilinx

Agilent Technologies FPGA Dynamic Probe Data Sheet 5989-5595EN
for Altera

Probing Solutions for Agilent Technologies Catalog 5968-4632E
Logic Analyzers

Application Support for Agilent Logic Analyzers Configuration Guide 5966-4365E

Innovative Digital Debug Solutions CD CD-ROM 5980-0941EN
with Videos

For copies of this literature, contact your Agilent representative or visit

www.agilent.com/find/logic

18

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Revised: March 27, 2008

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Product specifications and descriptions
in this document subject to change
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© Agilent Technologies, Inc.
2005, 2006, 2007, 2008
Printed in USA, July 1, 2008
5989-0421EN