Agilent 16800 Series Portable Logic Analyzers Data Sheet Features and benefits • 250 ps resolution (4 GHz) timing zoom to find elusive timing problems quickly, without double probing • 15” display, with available touch screen, allows you to see more data and navigate quickly • View Scope—time-correlated measurements and displays of your logic analyzer and oscilloscope data let you effectively track down problems across the analog and digital portions of your design • Eight models with 34/68/102/136/204 cha
Table of Contents Selection Guide for 16800 Series Portable Logic Analyzers ........................................................................... 3 Logic Analysis for Tracking Real-time System Operation ............................................................................... 4 Agilent 16800 Series Logic Analyzer Specifications and Characteristics .................................................... 6 A Built-in Pattern Generator Gives You Digital Stimulus and Response in a Single Instrument ...
Selection Guide for 16800 Series Portable Logic Analyzers Characteristic 16801A, 16821A 1 Logic analyzer channels Pattern generator channels 1 High-speed timing zoom Maximum timing sample rate (Half/full ch) Maximum state clock rate 34 48 4 GHz (250 ps) with 64 K depth 1.0 GHz (1.0 ns)/500 MHz (2.0 ns) 250 MHz with Option 250 Maximum state data rate 250 Mb/s with Option 250 16802A, 16822A 1 68 48 16803A, 16823A 1 16804A 102 136 48 N/A 4 GHz (250 ps) with 64 K depth 1.0 GHz (1.0 ns)/500 MHz (2.
Logic Analysis for Tracking Real-time System Operation Agilent 16800 Series portable logic analyzers offer the performance, applications, and usability your digital development team needs to quickly debug, validate, and optimize your digital system—at a price that fits your budget.
Logic Analysis for Tracking Real-time System Operation (continued) Automate measurement setup and quickly gain diagnostic clues 16800 Series logic analyzers make it easy for you to get up and running quickly by automating your measurement setup process. In addition, the logic analyzer’s setup/hold window (or sampling position) and threshold voltage settings are automatically determined so you can capture data on high-speed buses with the highest accuracy.
Agilent 16800 Series Logic Analyzer Specifications and Characteristics Channel count per measurement mode 16801A/16821A 16802A/16822A 16803A/16823A 16804A 16806A State analysis 1 32 data + 2 clocks 64 data + 4 clocks 98 data + 4 clocks Conventional timing Transitional timing for sample rates < 500 MHz Transitional timing for 500 MHz sample rate 34 34 68 68 102 102 132 data + 4 clocks 136 136 200 data + 4 clocks 204 204 – 34 68 102 170 1.
Agilent 16800 Series Logic Analyzer Specifications and Characteristics (continued) State (synchronous) analysis mode Option 250 Option 500 3 (Available on 16802A, 16803A, 16804A, 16806A, 16822A and 16823A) tWidth* 1 tSetup tHold tSample range 2 tSample adjustment resolution Maximum state data rate on each channel Memory depth 4 1.5 ns 0.5 tWidth 0.5 tWidth –3.2 ns to +3.
Agilent 16800 Series Logic Analyzer Specifications and Characteristics (continued) State (synchronous) analysis mode Option 250 Option 500 (Available on 16802A, 16803A, 16804A, 16806A, 16822A and 16823A) Clock qualifier setup time Clock qualifier hold time Time tag resolution Maximum time count between stored states Maximum trigger sequence speed Maximum trigger sequence levels Trigger sequence level branching Trigger position Trigger resources 500 ps 0 2 ns 32 days N/A N/A 1.
Agilent 16800 Series Logic Analyzer Specifications and Characteristics (continued) Timing (asynchronous) analysis mode Conventional timing Transitional timing 2 Sample rate on all channels Sample rate in half channel mode Number of independent analyzers 1 Sample period (half channel) Minimum sample period (full channel) Minimum data pulse width Time interval accuracy 500 MHz 1 GHz 2 (1 for 16801A or 16821A) 1.0 ns 2.0 ns 1 sample period + 1.0 ns ± (1 sample period + 1.25 ns + 0.
Agilent 16800 Series Logic Analyzer Specifications and Characteristics (continued) Timing (asynchronous) analysis mode Conventional timing Transitional timing Trigger resources • 16 patterns evaluated as =, =/, >, ≥, <, ≤ • 14 double-bounded ranges evaluated as in range, not in range • 3 edge/glitch • 1 timer for every 34 channels (no timer for 16801A or 16821A) • 2 global counters • 1 occurrence counter per sequence level • 4 flags Arbitrary Boolean combinations • Go To • Trigger, send e-mail, and fill
A Built-in Pattern Generator Gives You Digital Stimulus and Response in a Single Instrument Selected 16800 Series models (16821A, 16822A and 16823A) also include a 48-channel pattern generator to drive down risk early in product development.
A Built-in Pattern Generator Gives You Digital Stimulus and Response in a Single Instrument (continued) “Wait for External Event…” for input pattern Convenient data entry and editing feature The clock pod also accepts a 3-bit input pattern. These inputs are levelsensed so that any number of “Wait for External Event” instructions can be inserted into a stimulus program. Up to four pattern conditions can be defined from the OR-ing of the eight possible 3-bit input patterns.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) Pattern generator characteristics Maximum memory depth Number of output channels at > 180 MHz and ≤ 300 MHz clock Number of output channels at ≤ 180 MHz clock Number of different macros Maximum number of lines in a macro Maximum number of parameters in a macro Maximum number of macro invocations Maximum loop count in a repeat loop Maximum number of repeat loop invocations Maximum number of “Wait” event patterns Number of input
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) Data pod characteristics Note: Data pod output parametrics depend on the output driver and the impedance load of the target system. Check the device data book for the specific drivers listed for each pod.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) Agilent 10465A ECL data pod (unterminated) Output type Maximum clock Skew 1 Recommended lead set 10H115 10H115 (no termination) 300 MHz Typical < 1 ns; worst case = 2 ns Agilent 10347A 100 Ω Agilent 10466A 3-state TTL/3.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) Agilent 10473A 3-state 2.5-volt data pod Output type 3-state enable Maximum clock Skew 1 Recommended lead set 74AVC16244 74AVC16244 Negative true, 38 KΩ to GND, enabled on no connect 300 MHz Typical < 1.5 ns; worst case = 2 ns Agilent 10498A Agilent 10476A 3-state 1.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) Data cable characteristics without a data pod The pattern generator data cables without a data pod provide an ECL terminated (1 KΩ to –5.2 V) differential signal (from a type 10E156 or 10E154 driver). These are usable when received by a differential receiver, preferably with a 100 Ω termination across the lines.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) Clock cable characteristics without a clock pod The pattern generator clock cables without a clock pod provide an ECL terminated (1 KΩ to –5.2 V) differential signal (from a type 10E164 driver). These are usable when received by a differential receiver, preferably with a 100 Ω termination across the lines.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) Clock pod characteristics 47 Ω 10460A TTL clock pod CLKout 10H125 Clock output type 10H125 with 47 Ω series; true & inverted Clock output rate 100 MHz maximum Clock out delay Approximately 8 ns total in 14 steps Clock input type TTL – 10H124 Clock input rate DC to 100 MHz Pattern input type TTL – 10H124 (no connect is logic 1) Clock-in to clock-out Approximately 30 ns Pattern-in to recognition Approximately 15
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) 10470A 3.3-volt LVPECL clock pod Clock output type Clock output rate Clock out delay Clock input type Clock input rate Pattern input type Clock-in to clock-out Pattern-in to recognition Recommended lead set 100LVEL90 100LVEL90 (3.3 V) with 215 Ω pulldown to ground and 42 Ω in series 300 MHz maximum Approximately 8 ns total in 14 steps 100LVEL91 LVPECL (3.3 V), no termination DC to 300 MHz 100LVEL91 LVPECL (3.
Pattern Generator Specifications and Characteristics (16821A, 16822A, and 16823A) (continued) 10477A 3.3-volt clock pod Clock output type Clock output rate Clock out delay Clock input type Clock input rate Pattern input type Clock-in to clock-out Pattern-in to recognition Recommended lead set CLKout 74AVC16244 74AVC16244 200 MHz maximum Approximately 8 ns total in 14 steps 74AVC16244 (3.6 V max) DC to 200 MHz 74AVC16244 (3.
Unleash the Complementary Power of a Logic Analyzer and an Oscilloscope Seamless scope integration with View Scope 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.
Get Instant Insights into your Design with Multiple Views and Analysis Tools Acquisition and analysis tools provide rapid insight into your toughest debug problems You have unique measurement and analysis needs. When you want to understand what your target is doing and why, you need acquisition and analysis tools that rapidly consolidate data into displays that provide insight into your system’s behavior. Figure 5.
Get Instant Insights into your Design with Multiple Views and Analysis Tools (continued) Save time analyzing your unique design with a turnkey setup 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 your debugging process.
16800 Series Instrument Characteristics Standard data views Waveform Listing Compare Source code Eye scan 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 Displays data as a state listing Compares data from different acquisitions and highlights differences Displays time-correlated source code and inverse assembly simultaneously in a split display Define the trigger event by simply clicking on a line of so
16800 Series Instrument Characteristics (continued) 16800 Series PC characteristics Operating system Processor Chipset System memory Hard disk drive Installed on hard drive Microsoft Windows® 7 Embedded (64-bit) Core 2 Duo, M890, 3.
16800 Series Interfaces Peripheral interfaces Display Keyboard Mouse Serial PCI card expansion slot USB 15-pin XGA connector, DVI PS/2 PS/2 9-pin D-sub 1 full profile Six 2.
16800 Series Physical Characteristics Dimensions 443.23 (17.450) Power 16801A 16802A 16803A 16804A 16806A 16821A 16822A 16823A 115/230 V, 48 to 66 Hz, 605 W max 115/230 V, 48 to 66 Hz, 605 W max 115/230 V, 48 to 66 Hz, 605 W max 115/230 V, 48 to 66 Hz, 775 W max 115/230 V, 48 to 66 Hz, 775 W max 115/230 V, 48 to 66 Hz, 775 W max 115/230 V, 48 to 66 Hz, 775 W max 115/230 V, 48 to 66 Hz, 775 W max Weight Max net 16801A 12.9 kg (28.5 lbs) 13.2 kg (28.9 lbs) 13.7 kg (30.3 lbs) 14.2 kg (31.3 lbs) 14.
16800 Series Accessories Agilent 1184BZ testmobile Weight 1181BZ 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 Max net: 44.
16800 Series Accessories (continued) Rack accessories Stationary shelf This light-duty fixed shelf is designed to support 16800 Series logic analyzers. 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 Sliding shelf Figure 13. Sliding shelf installed in rack.
Ordering Information Each 16800 Series portable logic analyzer comes with one PS/2 keyboard, one PS/2 mouse, accessory pouch, power cord and 1-year warranty standard. Selecting a logic analyzer to meet your application and budget is as easy as 1, 2, 3.
16800 Series Probing Options 16800 Series logic analyzer probes Logic analyzer probes are ordered separately. Please specify probes when ordering to ensure the correct connection between your logic analyzer and the device under test.
16800 Series Probing Options (continued) Upgrade memory depth or state speed after purchase Logic analyzer channels Logic analyzer models After purchase upgrade models Memory depth (samples) 34 16801A, 16821A E5876A State speed 68 102 136 16802A, 16822A 16803A, 16823A 16804A E5877A E5878A E5879A 4 M: -004 16 M: -016 32 M: -032 450 MHz: -500 1 204 16806A E5880A 1. Applies to 68, 102, 136 and 204 channel models.
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