16700 Series Logic Analysis System Product Overview The Agilent Technologies 16700 Series logic analysis systems provide the simplicity and power you need to conquer complex systems by combining state/timing analysis, oscilloscopes, pattern generators, post-processing tool sets, and emulation in one integrated system.
Table of Contents System Overview Modular Design Features and Benefits Selecting the Right System Mainframes Display Back Panel System Screens IntuiLink Probing Solutions Criteria for Selection Technologies Data Acquisition and Stimulus State/Timing Modules Oscilloscope Modules Pattern Generation Modules Emulation Modules Post-Processing and Analysis Tool Sets Software Tool Sets Source Correlation...
System Overview Modular Design Modular Design Protects Your Long-Term Investment Module Choices User Benefits State/Timing Agilent offers a wide variety of state/timing modules for a range of applications, from high-speed glitch capture to multi-channel bus analysis. High-Speed Timing Precisely characterize setup/hold times over a wide channel count.
System Overview Features and Benefits System Capability NEW Touch Screen Interface NEW Multiframe Configuration NEW Enhanced Mainframe Hardware Scalable System • State/timing analyzers • High-speed timing • Oscilloscopes • Pattern generators • Emulation modules Measurement Modules/Interfaces The Agilent 16760A State/Timing Module The Agilent 16750A, 16751A, and 16752A State/Timing Modules The Agilent 16720A...
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System Overview Features and Benefits Data Transfer, Documentation, and Remote Programming ® Direct Link to Microsoft Excel via • Automatically move your data from the logic analyzer into Microsoft Excel with just a click of the mouse. Agilent IntuiLink • Use Microsoft Excel’s powerful functions to post-process captured trace data to get the insight you need. Transfer Data for Offline Analysis - •...
System Overview Selecting the Right System Selecting a system for your application Select a mainframe (page 7) Choose a system based on your needs: • Self-contained unit or a unit with external mouse, keyboard, and monitor • Expander frame for large channel count requirements Determine your probing requirements (page 13) •...
Mainframes Display 12.1" LCD display with touch screen on the 16702B makes it easy to view a large number of waveforms or states. Dedicated knobs for horizontal and vertical scaling and scrolling. Adjust the display to get just the information you need to solve your problem.
Mainframes Back Panel Connection for optional monitor. (Up to 1600x1200 video resolution with option 003) Five slots for measurement modules Expander frame connection provides an additional five slots for measurement modules. Figure 2.2. The mainframe and expander frame provide advanced capabilities for debugging complex target systems. Parallel printer port 10/100BaseT LAN - autosensing Built-in 40x CD-ROM drive makes it easy...
Mainframes System Screens System Admin Setup Assistant allows you to quick- is a guided menu ly set up the instru- system that helps ment on your net- you configure the work, configure logic analysis sys- print servers, set up tem for your target user accounts for microprocessor or security or install...
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Mainframes System Screens See the Big Picture of Your Prototype System's Behavior Figure 2.5. You can quickly isolate the root cause of system problems by examining target operation across a wide analysis domain, from signals to source code.
Mainframes System Screens Expanding Possibilities with Network Connectivity With a Web Enabled Logic Analysis System You Can..access the logic analysis system's Web page from your browser by using the instrument's hostname as a URL ...access the system’s user interface directly from with- in your browser, giving you full control of all analysis functions...
Mainframes IntuiLink Agilent IntuiLink Moves Your Data Automatically into ® Microsoft Excel for Advanced Offline Analysis IntuiLink is shipped with each logic analysis system and can be down- loaded to your PC from the system’s own web page. Use the Agilent IntuiLink tool bar to connect to a logic analysis system.
Immunity to Noise EMF noise is everywhere and can corrupt your data. Active attenuator probing can be particularly susceptible to noise effects. Agilent Technologies designs probing solutions with high immunity to transient noise. Impedance High input impedance will minimize the effect of probing on your circuit.
Figure 3.5. 0.5 mm IC clip. 10467-68701 (4 clips). Figure 3.6. Wedge adapters connect to multiple pins of 0.5 mm or 0.65 mm QFP ICs. Refer to “Probing Solutions for Agilent Technologies Logic Analysis Systems,” publication number 5968-4632E, for specific part numbers.
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Probing Solutions Technologies Designing connectors into the target system Advantages Very reliable connections. Saves time in making multiple connections. High-density probing solutions Model Description number E5385A 100-pin probe with built-in isolation networks for the logic analyzer E5346A 34-channel, 38-pin probe with built-in isolation networks for the logic analyzer.
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Probing Solutions Technologies Using a processor- or bus-specific analysis probe Advantages Easiest and fastest connection to supported processors and buses. Figure 3.10. Limitations Moderate to significant incremental cost. Only useable for the specific processor or bus. May require moderate clearance around processor or bus.
Will you be using an analysis probe for a particular processor or bus? If so, a good starting point is the document Processor Bus Support and Bus Support for Agilent Technologies Logic Analyzers, publication number 5966-4365E, available on the worldwide web at www.agilent.com/find/logicanalyzer. This document provides the number of channels and state speed required for any particular analysis probe.
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It takes only a few seconds to refresh, rescale, or scroll a 32M sample record. Agilent Technologies offers a range of state and timing analyzer modules with memory depths up to 128M samples, at prices to meet your budget.
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Data Acquisition and Stimulus State/Timing Modules Key Features of Agilent’s State/Timing Modules Choose the Logic Analyzer and Measurement Modules that Best Fit Your Application State/Timing General- 8/16 Bit Modules purpose processor hardware debug debug √ √ 16710A √ √ 16711A √...
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Data Acquisition and Stimulus State/Timing Modules Improve Your Productivity with an Intuitive User Interface Sampling defines how the logic analyzer will acquire the data. Measurement configuration and data files can be loaded directly into the logic analyzer Menu tabs provide a logical progression through the setup of your measurement.
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Data Acquisition and Stimulus State/Timing Modules VisiTrigger Quickly Locates Your Most Elusive Problems Examples of Problems that Can be Captured Easily with VisiTrigger Description Typical Applications Pulse too narrow or too wide • Line hangs at wrong level (high or low). •...
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Data Acquisition and Stimulus State/Timing Modules VisiTrigger Your most commonly used triggers are just a mouse click away with the built-in trigger functions. VisiTrigger’s graphical representation shows you how the trigger condition will be defined. You can use trigger functions as building blocks to easily customize a trigger for your specific task.
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Timing Zoom labels are automatically created and marked with an _TZ extension. Figure 4.3. Verifying critical edge timing in your system is easy with Agilent Technologies' 2 GHz Timing Zoom technology. Features and Applications Timing Zoom • Simultaneously acquire up to 16K of data at 2 GHz timing and...
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Data Acquisition and Stimulus State/Timing Modules Eye Finder Figure 4.4. The eye finder display. Gray shading indicates regions where transitions are detected. Blue bars indicate the sampling point selected by eye finder.
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Data Acquisition and Stimulus State/Timing Modules Eye Finder as an Analytical Tool When Do You Need Eye Finder? Examples of When to Run Eye Finder Probing a new target, or probing different signals in the same target Significant change of target temperature...
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Data Acquisition and Stimulus State/Timing Modules Features Supported in Agilent State and Timing Analysis Modules Agilent Module Number 16710A, 16711A, 16712A Eye finder Visitrigger Timing Zoom √ Transitional timing √ Context Store Eye Scan 16715A 16716A, 16717A, 16760A 16740A, 16741A, 16742A, 16750A 16751A, 16752A √...
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Agilent 16760A: Extending Logic Analysis to New Realms • Probing • Setup and hold Publication Title User’s Guide, Agilent Technologies E5378A, E5379A, and E5380A Probes for the 16760A Logic Analyzer Designing High-Speed Digital Systems for Logic Analyzer Probing • Small-amplitude signals...
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Data Acquisition and Stimulus State/Timing Modules Eye scan Qualified eye scan Slope Cursors Eye limit Histogram Polygon...
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Data Acquisition and Stimulus State/Timing Modules Probing solutions to match the measurement capabilities Agilent Model Number 16760A Option Number E5378A E5379A E5380A E5382A Connector and shroud kits for probes for the 16760A logic analyzer For probe model number E5378A E5379A E5380A Description 100-pin single-ended probe...
Data Acquisition and Stimulus Oscilloscope Modules Scope controls and waveform display are inte- grated into a single window, making interac- tive adjustment easy. Time and voltage markers allow you to measure signal details precisely. Figure 4.5. All primary oscilloscope control settings, including scale factors and trigger settings, are visible simultaneously.
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Data Acquisition and Stimulus Oscilloscope Modules Automatic Measurements Quickly Characterize Signals Automatic measurements save time in characterizing signal parameters. Markers Easily Set Up Timing and Voltage Margin Measurements Figure 4.6. Automatic measurements and markers let you make faster analysis.
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Data Acquisition and Stimulus Oscilloscope Modules More Channels When You Need Them Calibrator output used for operational accuracy calibration Channel 1 input CHAN 1 & 2 CHAN 1MW = 7pF 250V MAX OR 50W 5Vrms MAX Figure 4.7. Connector panel of the 16534A oscilloscope module. External trigger input and output are used to connect up to four oscilloscope modules, providing up to eight channels...
Data Acquisition and Stimulus Pattern Generation Modules Digital Stimulus and Response in a Single Instrument Key Characteristics Agilent Model 16720A Maximum clock (full/half channel) Number of data channels (full/half channel) Memory depth (full/half channels) Maximum vector width (5 module system, full/half channel) Logic levels supported Maximum binary vector set size Editable ASCII vector set size...
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Data Acquisition and Stimulus Pattern Generation Modules Vectors Up To 240 Bits Wide Depth Up to 16 MVectors Synchronized Clock Output Initialize (INIT) Block for Repetitive Runs "Signal IMB" Coordinates System Module Activity "Wait" for Input Pattern...
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Data Acquisition and Stimulus Pattern Generation Modules Figure 4.8. Stimulus vectors are defined in the Sequence menu tab. In this example, vector output halts until the WAIT UNTIL condition is satisfied. Figure 4.9. To fill the 16720A pattern generator's 8 MVector deep memory (16 MVector in half channel mode) with data, the stimulus must be in 'pattern generator binary' format.
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Data Acquisition and Stimulus Pattern Generation Modules "User Macro" and "Loop" Simplify Creation of Stimulus Programs Convenient Data Entry and Editing Feature ASCII Input File Format: Your Design Tool Connection Configuration Direct Connection to Your Target System Probing Accessories...
Data Acquisition and Stimulus Emulation Modules Speed Problem Solving With Off-the-Shelf Solutions for Many Common Microprocessors Figure 4.10. Agilent analysis probes make it easy to connect a logic analyzer to your target system. On-Chip Emulation Tools Make Fixing Bugs Easier...
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Data Acquisition and Stimulus Emulation Modules Emulation Control Interface Integrated Debugger Support Figure 4.11. Emulation control interface.
Post-Processing and Analysis Tool Sets Software Tool Sets Application Debug your real-time code at the source level Correlate a logic analyzer trace with the high-level source code that produced it. Set up the logic analyzer trace by simply pointing and clicking on a line of source code. Debug your parallel data communication buses Display logic analyzer trace information at a protocol level.
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Post-Processing and Analysis Tool Sets Software Tool Sets Free Tool Set Evaluation Figure 5.1. For a free, one-time, 21-day trial of any tool set, simply type “demo” in the password field for the product you want to evaluate.
Post-Processing and Analysis Tool Sets Source Correlation Debug Your Source Code Obtain Answers to the Following Questions: Software Code Execution Your Development Environment Compile Relocatable Object Code Edit Source File Figure 5.2. The source correlation tool set allows you to observe software execution without halting the system or adding instructions to the code.
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Post-Processing and Analysis Tool Sets Source Correlation When You Want to Trace ..on a variable to see what caused data corruption..on a function to determine where it is being called from in order to understand the context of a system error.
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Post-Processing and Analysis Tool Sets Source Correlation Once You Acquire the Trace ..“step” through the ...quickly locate a trace at the source- specific function, code level or the variable, or text assembly level. string. The system Locate the cause of a maintains a history problem by “stepping of previous text...
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Post-Processing and Analysis Tool Sets Source Correlation Product Characteristics Data Sources Microprocessor Support Object File Format Compatibility Source File Access Source Correlation Functionality...
Post-Processing and Analysis Tool Sets Data Communications Monitor Packet Information on Parallel Data Buses Obtain Answers to the Following Questions: Product Description...
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Post-Processing and Analysis Tool Sets Data Communications Theory of Operation UTOPIA Level 2 Layer Layer Figure 5.5. Typical ATM Switch Design. Custom/UTOPIA Layer Switch Fabric Layer UTOPIA Level 1...
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Post-Processing and Analysis Tool Sets Data Communications Product Characteristics Requires 16700 Series logic analysis system with system software version A.01.50.00 or higher Applications Trigger on a processor event and see what is happening on a parallel data bus with protocol information or vice versa. Supported Measurement Modules 16715A, 16716A, 16717A, 16718A, 16719A, 16750A, 16751A, 16752A...
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Post-Processing and Analysis Tool Sets Data Communications Edit or create a protocol using the logic analyzer user interface. Select a known protocol and add proprietary fields. Insert custom wrapper or field here. Insert name, num- ber of bits and format for trigger display.
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Post-Processing and Analysis Tool Sets Data Communications New packet trigger macros. Choose from a list of buses. Trigger on simple IP address instead of setting up trig- ger sequencer. Specify what action to perform once a packet is found. Specify protocol layer to trigger on.
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Post-Processing and Analysis Tool Sets Data Communications Figure 5.8.
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Post-Processing and Analysis Tool Sets Data Communications Protocol Filters and Viewing Preferences Figure 5.9. Filter captured data to only view key data for measurement. Choose to view payload data with header information. Select which protocol layers and fields to view in trace.
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Post-Processing and Analysis Tool Sets Data Communications Display of protocol levels. Protocol view of data acquired in logic analyzer. Figure 5.10. Time tags for system level correlation of other data buses, memory interfaces, microprocessors, etc.
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Post-Processing and Analysis Tool Sets Data Communications Collapsed view of protocol infor- mation using pref- erences. Raw packet header information. Raw payload information. Figure 5.11. Global markers measure time intervals between packets on separate parallel interfaces or timing between the data path and a microprocessor.
Post-Processing and Analysis Tool Sets System Performance Analysis Optimize System Performance Obtain Answers to the Following Questions: Performance and Responsiveness Software Execution Coverage Debug and System Parameter Analysis Analog, Timing, and Bus Measurements Processor/Cache Measurements Product Description...
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Post-Processing and Analysis Tool Sets System Performance Analysis Product Characteristics SPA Tools State Interval Display Generates Statistical representations of the captured data Shows the amount and percent of time spent in each of the targeted functions or data locations. Provides Histogram of event activity.
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Data can be recalled at any time for later analysis using any SPA or other tool. Performance measurements can be exported to your host computer as histograms or as tabular formatted text files. Processor Support Supports any analysis probe listed in Processor and Bus Support for Agilent Technologies Logic Analyzers (pub no. 5966-4365E) Data Sources All measurement modules supported by the 16700 Series logic analysis systems serve without modification as data sources for the B4600B.
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Post-Processing and Analysis Tool Sets System Performance Analysis State Overview Tool Narrow in on an area of interest using built-in qualification and zoom functions. Figure 5.12. Identify which events occur most frequently. Pinpoint regions of high memory activity to determine which routines or operations are responsible for throughput bottlenecks.
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Post-Processing and Analysis System Performance Analysis State Interval Tool Display just the symbols you want to evaluate by using the symbol-navigation utility. The util- ity automatically configures the tool for the selected function and variable names from large symbol files created by complex software projects.
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Post-Processing and Analysis System Performance Analysis Time Interval Tool Because time interval measurements often depend upon hardware-software interaction, the event definition can be a combination of symbolics and hardware events. Data qualification can be used to define the specific hardware context in which the analysis will be made.
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Post-Processing and Analysis Tool Sets System Performance Analysis Time Overview Tool Use “Comments” to document your trace. The “Comments” field contents are saved with the configuration and data. Figure 5.15. View the frequency of events over time. Use the markers in this window to correlate interrupts to a state listing or timing waveform.
Post-Processing and Analysis Tool Sets Serial Analysis Solve Serial Communication Problems Product Description Obtain Answers to the Following Questions:...
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Post-Processing and Analysis Tool Sets Serial Analysis When You Want to Analyze Serial Bit Streams ..specify which signal you want to convert to parallel format by selecting a specific bit of any available label..maintain or invert the input serial bit stream.
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Post-Processing and Analysis Tool Sets Serial Analysis To Separate Frame Information from the Data Block ..accept the default start of frame label “Start” or modify the label to a name of your choosing..specify the pattern that designates the start of a frame.
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Post-Processing and Analysis Tool Sets Serial Analysis To Acquire a Serial Bit Stream without an External Clock Reference ..set the sample period of your timing analyzer to take four or more samples for each serial bit..accept the “Samples” default label or enter a new label name.
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Post-Processing and Analysis Tool Sets Serial Analysis Once the Serial Bit Stream is Acquired . . . This example shows the conversion of an RS- 232 serial bit stream. The data sent to the printer includes the column header ”MACHINE”..configure the ...view the serial-to-parallel serial tool once for...
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Post-Processing and Analysis Tool Sets Serial Analysis Product Characteristics Data Sources Serial Measurement Characteristics Maximum serial Clocked data [1] Mbits/ trace depth Unclocked data [2] Maximum serial Clocked data [3] bus frequency Unclocked data [4] Minimum serial Clocked data bus frequency Unclocked data [5] Information in Table above calculated according to notes [1] to [5] [1] =Maximum State Memory Depth...
Post-Processing and Analysis Tool Sets Tool Development Kit Customize Your Measurements Product Description Enhance Data Displays Manipulate Data Read or Write External Files...
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Post-Processing and Analysis Tool Sets Tool Development Kit Custom Tool Example, Added Text in Trace Original Trace Figure 5.21. Output of Custom Tool This custom tool allows the user to specify Fahrenheit or Centigrade for the engine temperature data. Parameter Interface of Custom Tool...
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Post-Processing and Analysis Tool Sets Tool Development Kit Custom Tool Example, Microprocessor Code Reconstruction Original Trace By entering information here, users can direct the tool to the correct SRecord file and control how much of the data the tool is to operate on. They can also indicate if the AT2 pin of the MPC 555 processor is in use.
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Post-Processing and Analysis Tool Sets Tool Development Kit Custom Tool Example, Multiplex Data Parameter and Output Windows Output of Custom Tool Original Trace At left are the parameter window and message display created by the custom tool in this example. Parameters allow the user to control different aspects of what the tool does to the acquired trace.
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Post-Processing and Analysis Tool Sets Tool Development Kit Custom Tool Development Environment Select this button to compile the code displayed in the “Source Code” tab. Load a file created on another system or create your code here using the “Source Code” editor. Compilation status is shown at the bottom of the tool development kit Display window.
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Post-Processing and Analysis Tool Sets Tool Development Kit Product Characteristics Provided Functions Analysis and Stimulus Modules C Compiler...
Post-Processing and Analysis Tool Sets Licensing Information Licensing and Miscellaneous System Configuration Requirements Tool Set Control File Access Ordering and Shipment License Policy Nodelock Mode Free Tool Set Evaluation (Temporary Demo License) License Management Password Backup Description • 16700 Series logic analysis system •...
Mainframe Specifications and Characteristics Agilent 16700 Series Technical Information System Software Mass Storage Hard Disk Drive 9 GB formatted disk drive Floppy Disk Drive • Capacity 1.44 MB formatted • Media 3.5 inch floppy • Formats MS-D0S (Read, write, format), LIF (Read only) Internal System RAM Standard 128 MB...
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Mainframe Specifications and Characteristics Agilent 16700 Series Technical Information (continued) Web Server Supported from Instrument Web Page PC Requirements Supported Web Browsers (on Your PC or Workstation) IntuiLink Support Installation of PC Application Software MS Excel Available Data Formats Fast Binary (Compressed Binary Format) Uncompressed Binary ASCII...
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Mainframe Specifications and Characteristics Agilent 16700 Series Technical Information (continued) Port In Levels Input Resistance Input Voltage Port Out Levels Functions Target Control Port Number of signals Levels Connector Operating Environment Temperature • Instrument • Disk Media • Probes/Cables Altitude Humidity Printing Printer Interface...
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Mainframe Specifications and Characteristics Remote Programming Interface (RPI) RPI Overview Typical Applications Manufacturing Test Data Acquisition for Offline Analysis System Verification and Characterization Pass/Fail Analysis Stimulus Response Tests Remote Programming 1.Set up the logic analyzer and save the test configuration. Steps 2.Create a program that remotely: Loads a test configuration...
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Mainframe Specifications and Characteristics Remote Programming Interface (RPI) (continued) Command Set Summary - Commands available on both UNIX and PC System System Configuration Query Load/Save Configuration and Data Start/Stop Measurement Current Run Status Start/Stop/Query a Session Logic Analysis Modules Load/Save Configuration and Data Trigger Setup Acquisition Data and Parameters Set/Query Acquisition Mode...
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Mainframe Specifications and Characteristics IntuiLink Programming Examples Provided with IntuiLink Visual Basic Examples have been included for use with Visual Basic 5.0 or higher. These examples perform simple functions such as: system checks, oscilloscope measurements, pass/fail tests using stored configuration and pattern generator stimulus files, and stimulus/response tests.
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Mainframe Specifications and Characteristics Agilent 16700B Series Physical Characteristics Power 16700B 115/230 V, 48 to 66 Hz, 610 W max 16701B 115/230 V, 48 to 66 Hz, 545 W max 16702B 115/230 V, 48 to 66 Hz, 610 W max Weight* Max Net Max Shipping...
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Mainframe Specifications and Characteristics Agilent 16700A Series Physical Characteristics Power 16700A 115/230 V, 48 to 66 Hz, 610 W max 16701A 115/230 V, 48 to 66 Hz, 545 W max 16702A 115/230 V, 48 to 66 Hz, 610 W max Weight* Max Net Max Shipping...
Probing Solutions Specifications and Characteristics Probing Technical Specifications 2 POWER GND CLK1 3 4 SIGNAL GND CLK2 5 6 SIGNAL GND 8 SIGNAL GND 10 SIGNAL GND D13 11 12 SIGNAL GND D12 13 14 SIGNAL GND D11 15 16 SIGNAL GND D10 17 18 SIGNAL GND 20 SIGNAL GND...
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Probing Solutions Specifications and Characteristics Isolation Adapter 01650-63203 E5346A 38-pin Probe E5339A 38-pin Low Voltage Probe Adapter RC Network 90.9k Signal 8.2pF Ground Equivalent Load Signal 4.6pF 7.4pF Ground Includes logic analyzer Figure 6.9. Termination adapter and equivalent load. 370 ohm Signal Ground Figure 6.10.
State/Timing Modules Specifications and Characteristics Key Specifications* and Characteristics Agilent Model Number 16715A, 16716A, 16717A Maximum state acquisition rate on 16715A, 16716A: 167 Mb/s each channel 16717A, 333 Mb/s [1] Maximum timing sample rate Timing Zoom: 2 GHz (16716A, (half/full channel) 16717A only) Conventional: 667/333 MHz Transitional: 333 MHz...
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State/Timing Modules Specifications and Characteristics Key Specifications* and Characteristics (continued) Agilent Model Number 16710A, 16711A, 16712A Maximum state acquisition rate on 100 Mb/s each channel Maximum timing sample rate Conventional: 500/250 MHz (half/full channel) Transitional: 125 MHz Channels/module Maximum channel count on a 204 (2 modules) single time base and trigger Memory depth...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16710A, 16711A, 16712A Supplemental Specifications* and Characteristics Probes (general-purpose lead set) Input resistance Parasitic tip capacitance Minimum voltage swing Threshold accuracy* Maximum input voltage State Analysis Minimum state clock pulse width Time tag resolution [1]...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16710A, 16711A, 16712A Supplemental Specifications* and Characteristics (continued) Triggering Maximum trigger sequence speed Maximum occurrence counter Range width Timer value range Timer resolution Timer accuracy Operating Environment Temperature Humidity Altitude * All specifications noted by an asterisk are the performance standards against which the product is tested.
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics Probes (general-purpose lead set) Input resistance Parasitic tip capacitance Minimum voltage swing Minimum input overdrive Threshold range Threshold accuracy* Input dynamic range...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics State Mode Maximum state acquisition rate on each channel Channel count Maximum channels on a single time base and trigger...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics (continued) State Mode Trigger sequence level branching Trigger position Trigger resources Trigger resource conditions Trigger actions Store qualification Maximum global counter...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics (continued) State Mode Maximum state acquisition rate on each channel Channel count Maximum channels on a single time base and trigger...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics (continued) State Mode Trigger resources Trigger resource conditions Trigger actions Store qualification Maximum occurrence counter Maximum pattern/range width Data in to trigger out (BNC port)
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics (continued) Timing Mode (continued) Maximum trigger sequence speed Maximum trigger sequence levels Trigger sequence level branching Trigger position Trigger resources...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16760A Supplemental Specifications* and Characteristics Probes E5378A Single-ended Input resistance and Refer to figure 6.14 capacitance Maximum state data 1.5 Gb/s rate supported Mating connector Agilent part number 1253-3620 [1] Minimum voltage swing...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16760A Supplemental Specifications* and Characteristics (continued) Synchronous Data Sampling tWidth Individual vHeight Data Eye Data Channel tSetup tHold Sampling Position Clock Channel Specifications for Each Input Parameter Minimum 800, 1250, 1500 Mb/s modes...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16760A Supplemental Specifications* and Characteristics (continued) Synchronous state analysis 1.5 Gb/s mode Maximum data rate E5378A, E5379A probes: on each channel 1.5 Gb/s Minimum clock interval, 667 ps active edge to active edge*...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16760A Supplemental Specifications and Characteristics (continued) Synchronous state 1.5 Gb/s mode (only analysis (continued) available with E5378A and E5379A probes) Maximum trigger sequence levels Maximum trigger 1.5 Gb/s sequencer speed Store qualification Default...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16760A Supplemental Specifications and Characteristics (continued) Asynchronous Timing Analysis (continued) Sample period accuracy Channel-to-channel skew Time interval accuracy Minimum data pulse width Maximum trigger sequencer speed Trigger resources Trigger resource conditions Trigger actions...
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State/Timing Modules Specifications and Characteristics Agilent Technologies 16760A Supplemental Specifications and Characteristics (continued) Eye scan mode Maximum clock rate Sample position range relative to clock Sample (time) position resolution Sample position (time) accuracy Number of channels Input dynamic range Threshold range...
Oscilloscope Modules Specifications and Characteristics 16534A Specifications* Bandwidth dc to 500 MHz dc offset accuracy ±(1% of offset + 2% of full scale) dc voltage measurement accuracy ±(1.5% of full scale + offset accuracy) Time interval measurement ±[(0.005% of D T) + (2E–6 x delay setting) + 100 ps] accuracy at maximum sampling rate, on a single scope card, on a single acquisition...
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Oscilloscope Modules Specifications and Characteristics 16534A Characteristics* Vertical (Voltage) Vertical sensitivity range Vertical resolution Rise time (calculated from bandwidth) dc gain accuracy dc offset range Vertical sensitivity • 16 mV full scale to 400 mV full scale • 400 mV full scale to 2.0 V full scale •...
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Oscilloscope Modules Specifications and Characteristics 16534A Characteristics Horizontal (Time) Time base ranges 0.5 ns/div to 5 s/div Time base resolution 10 ps Delay range • pretrigger • -32 K x sample period • posttrigger • 320 ms or 1.6E7 x sample period, whichever is greater ±{(0.005% of ∆...
Pattern Generation Modules Specifications and Characteristics 16720A Pattern Generator Characteristics Maximum memory depth Number of output channels at ≤ 300 MHz clock Number of output channels at ≤ 180 MHz clock Number of output channels at ≤ 200 MHz clock Number of output channels at ≤...
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Pattern Generation Modules Specifications and Characteristics 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. Agilent 10461A TTL Data Pod 10H125 with 100 Ω...
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Pattern Generation Modules Specifications and Characteristics Agilent 10465A ECL Data Pod (unterminated) Output type 10H115 (no termination) Maximum clock 300 MHz Skew [1] typical < 1 ns; worst case = 2 ns Recommended lead set Agilent 10347A 10H115 Agilent 10466A 3-State TTL/3.3 volt Data Pod 74LVT244 with 100 Ω...
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Pattern Generation Modules Specifications and Characteristics Agilent 10469A 5 volt PECL Data Pod Output type 100EL90 (5V) with 348 ohm pulldown to ground and 42 ohm in series Maximum clock 300 MHz Skew [1] typical < 500 ps; worst case = 1 ns Recommended lead set Agilent 10498A 100EL90...
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Pattern Generation Modules Specifications and Characteristics Agilent 10476A 3-State 1.8 Volt Data Pod Output type 74AVC16244 3-state enable negative true, 38 KΩ to GND, enabled on no connect Maximum clock 300 MHz Skew [1] typical < 1.5 ns; worst case = 2 ns Recommended lead set Agilent 10498A 74AVC16244...
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Pattern Generation Modules Specifications and Characteristics Data Cable Characteristics Without a Data Pod The Agilent 16720A and 16522A data cables without a data pod provide an ECL terminated (1 KΩ to –5.2V) differential signal (from a type 10E156 or 10E154 driver). These are usable when received by a differential receiver, preferably with a 100 Ω...
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Pattern Generation Modules Specifications and Characteristics Clock Cable Characteristics Without a Clock Pod The Agilent 16720A and 16522A clock cables without a clock pod provide an ECL terminated (1 KΩ to –5.2V) differential signal (from a type 10E164 driver). These are usable when received by a differential receiver, preferably with a 100 Ω...
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Pattern Generation Modules Specifications and Characteristics Clock Pod Characteristics 10460A TTL Clock Pod 10H125 with 47 Ω series; true & inverted Clock output type Clock output rate 100 MHz maximum Clock out delay approximately 8 ns total in 14 steps (16720A only);...
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Pattern Generation Modules Specifications and Characteristics 10468A 5 volt PECL Clock Pod Clock output type 100EL90 (5V) with 348 ohm pulldown to ground and 42 ohm in series Clock output rate 300 MHz maximum Clock out delay approximately 8 ns total in 14 steps (16720A only);...
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Pattern Generation Modules Specifications and Characteristics 10472A 2.5 volt Clock Pod Clock output type 74AVC16244 Clock output rate 200 MHz maximum Clock out delay approximately 8 ns total in 14 steps (16720A only); 11 ns maximum in 9 steps (16522A only) Clock input type 74AVC16244 (3.6V max)
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Pattern Generation Modules Specifications and Characteristics 10477A 3.3 volt Clock Pod Clock output type 74AVC16244 Clock output rate 200 MHz maximum Clock out delay approximately 8 ns total in 14 steps (16720A only); 11 ns maximum in 9 steps (16522A only) Clock input type 74AVC16244 (3.6V max)
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Ordering Information Mainframes and Mainframe Accessories Product Number Description 16700B Modular mainframe with five measurement module slots and one emulation or multiframe module slot 16702B Modular frame with built-in 800x600 LCD display with touchscreen. Includes five measurement slots and one emulation or multiframe module slot 16701B Expansion frame with five measurement module...
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Ordering Information E5850A Logic Analyzer - Infiniium Oscilloscope Correlation Time Fixture Product Number Description E5850A Logic analyzer - Infiniium oscilloscope time correlation fixture Figure 7.1. Agilent 1184A testmobile cart. Figure 7.2. Agilent 1184A testmobile cart dimensions. Includes All BNC cables needed to connect to logic analyzer and oscilloscope Agilent 1184A Testmobile Weight...
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Ordering Information Measurement Module Compatibility Table Measurement Model Description Module Category Number State and Timing 16510A* 25 MHz State; 100 MHz Timing; 1 K memory depth 16510B* 35 MHz State; 100 MHz Timing; 1 K memory depth 16540A/16541A* 100 MHz State; 100 MHz Timing; 4 K memory depth 16540D/16541D* 100 MHz State;...
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Ordering Information Measurement Module Compatibility Table (continued) Measurement Model Description Module Category Number Oscilloscope 16530A/16531A* 2 Channel; 100 MHz Bandwidth; 400 MSa/s; 4 K memory depth 16532A* 2 Channel; 250 MHz Bandwidth; 1 GSa/s; 8 K memory depth 16533A* 2 Channel; 250 MHz Bandwidth; 1 GSa/s; 32 K memory depth 16534A 2 Channel;...
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Ordering Information Agilent Wedge Probe Adapters IC Leg Spacing Number of Signals 0.5 mm 0.5 mm 0.5 mm 0.5 mm 0.65 mm 0.65 mm 0.65 mm 0.65 mm Agilent Elastomeric Probing Solutions Package Type IC Leg Spacing 240-pin PQFP/CQFP 0.5 mm 208-pin PQFP/CQFP 0.5 mm 176-pin PQFP...
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Ordering Information Options and Accessories for Agilent 16534A Oscilloscope Modules Agilent Option Option Description • 001 • Add one Agilent 1145A, dual, active 750 MHz probe • ABJ • Japanese user's reference • 0B0 • Delete manuals • 1BP • MIL-STD 45662A calibration with test data •...
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Ordering Information Accessories for Agilent 16720A Pattern Generator Modules Accessories Description Model Number 10460A TTL clock pod 10461A TTL data pod 10462A 3-state TTL/CMOS data pod 10463A 10463A ECL clock pod 10464A ECL data pod (terminated) 10465A ECL data pod (unterminated) 10466A 3-state TTL/3.3V data pod 10468A...
Third-Party Solutions Processor and Bus Support For Agilent Technologies Logic Analyzers Solutions Partner Application Focus Advanced Logic Design (ALD) Product design services (digital) Aptix ASIC emulation JM Engineering (JME) Probing (solutions for SMT parts) American Arium Intel emulators and probes...
Related Literature Publication Title Processor and Bus Support For Agilent Technologies Logic Analyzers Probing Solutions for Agilent Technologies Logic Analysis Systems Emulation and Analysis Solutions for the Motorola MPC 8XX Microprocessors Emulation and Analysis Solutions for the Motorola/IBM PowerPC 6XX Microprocessors...
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