Instruction/ maintenance manual of the product 16700 Agilent Technologies
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16700 Series Logic Analysis System Product Overview Debugging today's digital systems is tougher than ever . Increased product requirements, complex software, and innovative hardware technologies make it difficult to meet your time-to-market goals.
2 T able of Contents System Overview Modular Design page 3 Features and Benefits page 4 Selecting the Right System page 6 Mainframes Display page 7 Back Panel page 8 System Screens page 9 IntuiLink pa.
3 Modular Design Protects Y our Long- T erm Investment Modularity is the key to the Agilent 16700 Series logic analysis systems' long term value. Y ou purchase only the capability y ou need no w , then expand as your needs e volve. All modules are tightly integrated t o pro vide time-cor related, cross domain measurements.
4 System Overview Features and Benefits System Capability NEW T ouch Screen Interface The Agilent 16702B mainframe supports a large, 12.1 inch LCD touch screen and redesigned front panel controls for an easy-to-operate, self-contained unit requiring minimal bench space and offering simple portability .
5 System Overview Features and Benefits Data T ransfer, 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.
6 System Overview Selecting the Right System 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 .
7 12.1" LCD display with touch screen on the 16702B makes it easy to view a large number of waveforms or states. Dedicated hot keys give instant access to the most frequently used menus, displays, and on-line help.
8 Connection for optional monitor . (Up to 1600x1200 video resolution with option 003) 10/100BaseT LAN - autosensing Parallel printer port SCSI-II connection for an external 18 GByte data drive or external removable hard drive Expander frame connection provides an additional five slots for measurement modules.
9 Mainframes System Screens Figure 2.4. Setup Assistant gets you up and running quickly . System Admin allows you to quick- ly set up the instru- ment on your net- work, configure print servers, set up user accounts for security or install software updates.
10 Mainframes System Screens See the Big Picture of Y our Prototype System's Behavior A large external display (option 001) with multiple, resizable windows allo ws you to see at a glance more of your target system's operation. A built-in, f lat-panel display in the 16702B fits in environments with limited space.
...access Agilent's W eb site for the latest online manuals and technical information ...install Agilent IntuiLink to seamlessly transfer data from the system to a PC 11 Mainframes System Screens Expanding Possibilities with Network Connectivity W eb-enabled instrument ation gives you the freedom to access the system—anywhere, an ytime.
12 Programming IntuiLink also includes an Activ e-X automation server to pro vide programmatic control of the logic analysis system from an external environment, such as LabVIEW or the Microsoft VisualStudio environment of Visual Basic and Visual C++ tools.
13 Probing Solutions Criteria for Selection Why is Probing Important? Y our debugging t ools perform three important t asks: probing your target system, acquiring dat a, and analyzing data. Dat a acquisition and analysis tools are only as effective as the physical interface to your target system.
14 Probing Solutions T echnologies Choose the Optimum Probing Strategy for Y our Application Advantages Limitations Most flexible method. Can be time-consuming to connect a large Flying-lead probes are included with logic number of channels. Least space-efficient analyzer module (except 16760A).
15 Probing Solutions T echnologies Advantages Limitations V ery reliable connections. Requires advance planning in the design stage. Saves time in making multiple connections. Requires some dedicated board space. Moderate incremental cost. Figure 3.8.
16 Probing Solutions T echnologies Advantages Limitations Easiest and fastest connection to supported Moderate to significant incremental cost. processors and buses. Only useable for the specific processor or bus. May require moderate clearance around processor or bus.
17 Data Acquisition and Stimulus State/T iming Modules Selecting the Correct Modules to Meet Y our Needs Selecting the proper logic analyzer modules for y our needs requires a series of choices concerning performance, cost, and t he amount of data you will be able to capture.
18 Data Acquisition and Stimulus State/T iming Modules Considerations for Choosing Modules (continued) Channel Count Determine the number of signals you want to analyze on your system under test. Y ou will need this number of channels in your logic analyzer .
19 Data Acquisition and Stimulus State/T iming Modules Key Features of Agilent’ s State/Timing Modules • Memor y depth up to 128M samples at a price to meet y our budget • Stat e analysis up to 1.
20 Data Acquisition and Stimulus State/T iming Modules Improve Y our Productivity with an Intuitive User Interface Agilent Technologies has made the user inter face easy to underst and and use. No w you can spend more time making measurements and less time setting up the logic analyzer .
21 Data Acquisition and Stimulus State/T iming Modules VisiT rigger Quickly Locates Y our Most Elusive Problems VisiTrigger technology is a break- through in logic analysis usability. It combines increased trigger function- ality with a user inter face that is easy to underst and and use.
22 Data Acquisition and Stimulus State/T iming Modules Save and recall up to ten of your custom trigger setups without loading a new configuration file. View current information on the state of the timers, counters, flags, and the trigger sequence level.
23 Data Acquisition and Stimulus State/T iming Modules 2 GHz Timing Zoom Provides High- Speed Timing Analysis Across All Channels, All the Time When you're pushing the speed envelope, y ou may run int o elusive hardware problems.
24 Data Acquisition and Stimulus State/T iming Modules Eye Finder Agilent’s eye finder examines the signals coming from the circuit under test and automatically adjusts the logic analyzer’s setup and hold windo w on each channel.
25 Data Acquisition and Stimulus State/T iming Modules Eye Finder as an Analytical T ool Eye finder is very useful as a f irst- pass screening test for data valid windo ws. Because ey e finder quickly examines all channels, it is considerably faster than examining each channel with an oscilloscope.
26 Data Acquisition and Stimulus State/T iming Modules Features Supported in Agilent State and Timing Analysis Modules Agilent Module Number 16710A, 16711A, 16715A 16716A, 16717A, 16760A 16712A 16740A.
27 Data Acquisition and Stimulus State/T iming Modules Agilent 16760A: Extending Logic Analysis to New Realms • Differential inputs (single-ended probes also a vailable). • Stat e analysis up to 1.5 Gb/s. • Setup-and-hold time of 500 ps. • Input signal am plitude as low as 200 mV p-p.
28 Data Acquisition and Stimulus State/T iming Modules Eye scan In the eye scan mode, the Agilent 167 60A scans all incoming signals for activity in a time range centered on the clock and ov er the entire voltage range of the signal. The results are display ed in a g raph similar to an eye diagram as seen on an oscilloscope.
29 Probing solutions to match the measurement capabilities Three probing options are a vailable for the Agilent 167 60A. Each probe can be ordered by its individual model number or as an option to the 167 60A. The follo wing t able indicates both the model number and t he option number .
30 Data Acquisition and Stimulus Oscilloscope Modules When integrat ed into the 16700 Series logic analysis systems, the oscilloscope modules make pow er ful measurement and analysis more accessible, so you can find the answers to tough debugging problems in less time.
31 Data Acquisition and Stimulus Oscilloscope Modules Automatic Measurements Quickly Characterize Signals The Agilent Technologies 16534A oscilloscope modules quickly charac- terize signals with aut omatic meas- urements of rise time, voltage, pulse width, and frequency.
32 Data Acquisition and Stimulus Oscilloscope Modules More Channels When Y ou Need Them Y ou can combine up t o four 16534A oscilloscope modules to pro vide up to eight channels on a sing le time base. When you operate in this mode, you can use the master module for triggering.
33 Data Acquisition and Stimulus Pattern Generation Modules Digital Stimulus and Response in a Single Instrument Configure t he logic analysis system to pro vide bot h stimulus and response in a single instr ument.
34 Data Acquisition and Stimulus Pattern Generation Modules V ectors Up T o 240 Bits Wide V ectors are defined as a "row" of labeled data values, wit h each data value from one to 32 bits wide. Each vector is output on the rising edge of the clock.
35 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.
36 Data Acquisition and Stimulus Pattern Generation Modules "User Macro" and "Loop" Simplify Creation of Stimulus Programs User macros permit you to define a pattern sequence once, t hen insert the macro by name wherev er it is needed.
37 Speed Problem Solving With Off-the-Shelf Solutions for Many Common Microprocessors T o help you design and debug your microprocessor -based target syst ems, Agilent of fers diff erent microproces- sor specific products that let you get control and visibility o ver your microprocessor’s internal and external dat a.
38 Data Acquisition and Stimulus Emulation Modules Emulation Control Interface The emulation control interface is accessed from the po wer up screen of the A gilent 16700 Series system. The inter face is included with the A gilent E5901A/B emulation modules.
39 Post-Processing and Analysis T ool Sets Software T ool Sets Once the dat a is acquired, you can rely on the post-processing tools to rapidly consolidate data int o displa ys that provide insight into y our sys- tem's behavior .
40 Post-Processing and Analysis T ool Sets Software T ool Sets 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.
41 Post-Processing and Analysis T ool Sets Source Correlation Debug Y our Source Code The Agilent B4620B source correla- tion tool set correlat es a microproces- sor ex ecution trace windo w with a corresponding high-level source code windo w .
42 Post-Processing and Analysis T ool Sets Source Correlation When Y ou W ant to T race . . . ...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 .
43 Post-Processing and Analysis T ool Sets Source Correlation Once Y ou Acquire the T race . . . ...filter out unexe- cuted code fetches from the inverse assembled trace to view executed code only , using Agilent’ s advanced inverse assembly filtering for popular processors.
44 Post-Processing and Analysis T ool Sets Source Correlation Product Characteristics Data Sources All stat e and timing measurement modules support ed by the 16700 Series logic analysis systems (ex cept the 16517A/518A) serve as data sources f or t he source correlation tool set.
45 Post-Processing and Analysis T ool Sets Data Communications Monitor Packet Information on Parallel Data Buses The data communications t ool set sho ws parallel bus data at a protocol lev el on the logic analyzer .
46 Post-Processing and Analysis T ool Sets Data Communications Theory of Operation Use a logic analyzer to probe the system’s parallel dat a buses (e.
47 Post-Processing and Analysis T ool Sets Data Communications Product Characteristics Additional Information Requires 16700 Series logic analysis system with system software version A.01.50.00 or higher Applications T rigger on a processor event and see what is happening on a parallel data bus with protocol information or vice versa.
48 Post-Processing and Analysis T ool 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 and display .
49 Post-Processing and Analysis T ool Sets Data Communications New packet trigger macros. Choose from a list of buses. T rigger 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.
50 Post-Processing and Analysis T ool Sets Data Communications Use the bus editor feature to specify what protocol runs on your bus. This is helpful when probing more than one bus with a sing le stat e/timing module.
51 Post-Processing and Analysis T ool Sets Data Communications Protocol Filters and Viewing Preferences 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.
52 Post-Processing and Analysis T ool Sets Data Communications Display of protocol levels. Protocol view of data acquired in logic analyzer . Time tags for system level correlation of other data buses, memory interfaces, microprocessors, etc. Figure 5.
53 Post-Processing and Analysis T ool Sets Data Communications Global markers measure time intervals between packets on separate parallel interfaces or timing between the data path and a microprocessor . Collapsed view of protocol infor- mation using pref- erences.
54 Post-Processing and Analysis T ool Sets System Performance Analysis Optimize System Performance Y our design has t o meet consistent performance requirements ov er a range of operating conditions and ov er a specif ic time period.
55 Post-Processing and Analysis T ool Sets System Performance Analysis Product Characteristics SPA T ools State Interval Display T ime Interval Display Time Overview Display State Overview Display Gen.
56 Post-Processing and Analysis T ool Sets System Performance Analysis Product Characteristics (continued) SPA T ools State Interval Display Time Interval Display Time Overview Display State Overview .
57 Post-Processing and Analysis T ool Sets System Performance Analysis State Overview T ool Narrow in on an area of interest using built-in qualification and zoom functions. Pinpoint regions of high memory activity to determine which routines or operations are responsible for throughput bottlenecks.
58 Post-Processing and Analysis System Performance Analysis State Interval T ool Sort and display symbols alphabetically by event name or by the number of hits.
59 Post-Processing and Analysis System Performance Analysis Time Interval T ool Data is displayed in histograms, which can be exported to your host computer either as histograms or as tabular formatted text files. Statistics such as maximum time, minimum time, standard deviation and mean help you document system behav- ior .
60 Post-Processing and Analysis T ool Sets System Performance Analysis Time Overview T ool Elusive system crashes are often caused by too many interrupts occur- ring over a short period of time. If the software cannot handle all simultane- ous service requests, the system can exhibit random defects while leaving no clues as to their cause.
61 Solve Serial Communication Problems Y our syst em may use serial buses to communicate between ICs and to transfer data to and from peripheral devices. Sifting through thousands of serial bits by looking at long v ertical columns of captured 1's and 0's can be very t edious, time-consuming, and error -prone.
62 Post-Processing and Analysis T ool Sets Serial Analysis ...specify which signal you want to convert to parallel format by selecting a specific bit of any available label. ...capture serial data with or with- out an external clock reference. Enable clock recovery for an incoming serial bit stream that has no external clock reference.
63 Post-Processing and Analysis T ool Sets Serial Analysis ...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. ...get immediate feed- back as you configure the tool set for your data.
64 Post-Processing and Analysis T ool Sets Serial Analysis Clock Recov er y Algorit hm 1. F or analysis purposes the data is captured in conventional timing mode using the inter nal timing analyzer clock as the clock refer- ence. Set the sample period of the timing analyzer to take four or more samples f or each serial bit.
65 Post-Processing and Analysis T ool 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”. ...display the parallel data in binary , hex, octal, deci- mal, ASCII or T wos Complement.
66 Post-Processing and Analysis T ool Sets Serial Analysis Product Characteristics Data Sources All stat e and timing measurement modules support ed by the 16700 Series logic analysis systems serve without modif ication as data sources for the B4601B serial analysis tool set.
67 Post-Processing and Analysis T ool Sets T ool Development Kit Customize Y our Measurements The ability to interpret and display information is vital to your project. At times the information y ou need can be buried in the raw data of your measurement.
68 Post-Processing and Analysis T ool Sets T ool Development Kit Custom T ool Example, Added T ext in T race This example sho ws how a custom tool can convert dat a to text t o pres- ent information in an easy-to-under- stand form. The original trace comes from a control unit in an automobile.
69 Post-Processing and Analysis T ool Sets T ool Development Kit Custom T ool Example, Microprocessor Code Reconstruction The original trace came from the bus of a MPC 555 processor . As y ou can see, no data was placed on t he bus at the time of the trace because cache memor y was turned on.
70 Post-Processing and Analysis T ool Sets T ool Development Kit Custom T ool Example, Multiplex Data Custom tools can combine several lines of data acquired sequentially under one label into one line of dat a. Ho we ver the dat a to be combined does not hav e t o come from the same label, it can come from different labels.
71 Post-Processing and Analysis T ool Sets T ool Development Kit Custom T ool Development Environment This is the main window f or dev eloping code with the t ool dev elopment kit. Select this button to cause the compiled code to operate on the acquired data.
72 Post-Processing and Analysis T ool Sets T ool Development Kit Product Characteristics Analyzer com patible custom tools will run on any 16700 Series analyzer running version A.
73 Post-Processing and Analysis T ool Sets Licensing Information Licensing and Miscellaneous Description System Configuration Requirements • 16700 Series logic analysis system • Desired tool set(s.
74 T ime Correlation with Agilent Infiniium Oscilloscopes E5850A Logic Analyzer - Oscilloscope T ime Correlation Fixture • Automatic de-sk ew . Measurements between t he logic analyzer and Infiniium oscillo- scope are automatically de-sk ew ed in time.
75 Agilent 16700 Series T echnical Information System Software All features and functionality described in this document are available with system software version A.02.20.00 Mainframe Specifications and Characteristics Mass Storage Hard Disk Drive 9 GB formatted disk drive Floppy Disk Drive • Capacity 1.
76 Mainframe Specifications and Characteristics Agilent 16700 Series T echnical Information (continued) Web Server Supported from Instrument Measurement status check,remote display , installation Web .
77 Port In Levels TTL, ECL, or user defined Input Resistance 4 K Ω Input V oltage –6V at –1.5 mA to +6V at 1.6 mA Port Out Levels 3V TTL compatible into 50 Ω Functions Latched (latch operation.
78 Remote Programming Interface (RPI) RPI Overview T ypical Applications Manufacturing T est Data Acquisition for Offline Analysis System V erification and Characterization Pass/Fail Analysis Stimulus Response T ests Remote Programming 1. Set up the logic analyzer and save the test configuration.
79 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 .
80 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.
81 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 16700B 12.
82 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 16700A 12.
83 Probing Solutions Specifications and Characteristics SIGNAL GND 4 SIGNAL GND 6 SIGNAL GND 8 SIGNAL GND 10 POWER GND 2 SIGNAL GND 12 SIGNAL GND 14 SIGNAL GND 16 SIGNAL GND 18 SIGNAL GND 20 SIGNAL GN.
84 Probing Solutions Specifications and Characteristics Figure 6.9. T ermination adapter and equivalent load. 250 ohm 90.9k ohm T o Logic Analyzer Pod 8.
85 State/T iming Modules Specifications and Characteristics Key Specifications* and Characteristics Agilent Model Number 16715A, 16716A, 16717A 16740A, 16741A, 16742A 16750A, 16751A, 16752A 16760A Max.
86 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/.
87 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16710A, 16711A, 16712A Supplemental Specifications* and Characteristics Probes (general-purpose lead set) Input resistance 100 K Ω , ±2% Parasitic tip capacitance 1.
88 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16710A, 16711A, 16712A Supplemental Specifications* and Characteristics (continued) T riggering Maximum trigger sequen.
89 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristics Probes (general-purpose lead set) Input resistance 100 K Ω , ± 2% Parasitic tip capacitance 1.
90 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristic.
91 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristic.
92 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristic.
93 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristic.
94 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16715A, 16716A, 16717A, 16740A, 16741A, 16742A, 16750A, 16751A, 16752A Supplemental Specifications* and Characteristic.
95 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16760A Supplemental Specifications* and Characteristics Probes E5378A Single-ended E5379A Differential E5380A Mictor E5382A Single-Ended Flying Leads Input resistance and Refer to figure 6.
96 State/T iming Modules Specifications and Characteristics Specifications for Each Input Parameter Minimum Description/Notes 800, 1250, 1500 Mb/s modes 200, 400 Mb/s modes Data tWidth* 500 ps 1.
97 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16760A Supplemental Specifications* and Characteristics (continued) Synchronous state analysis 1.
98 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16760A Supplemental Specifications and Characteristics (continued) Synchronous state 1.
99 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16760A Supplemental Specifications and Characteristics (continued) Asynchronous Timing Analysis Conventional Timing Analysis T ransitional Timing Analysis (continued) Sample period accuracy ±(250 ps + 0.
100 State/T iming Modules Specifications and Characteristics Agilent T echnologies 16760A Supplemental Specifications and Characteristics (continued) Eye scan mode 1.
101 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.
102 Oscilloscope Modules Specifications and Characteristics 16534A Characteristics* V ertical (Voltage) V ertical sensitivity range 16 mV full scale to 40 V full scale V ertical resolution 8 bits full scale Rise time (calculated from bandwidth) 700 ps dc gain accuracy ±(1.
103 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.
104 Pattern Generation Modules Specifications and Characteristics 16720A Pattern Generator Characteristics Maximum memory depth 16 MV ectors Number of output channels at ≤ 300 MHz clock 24 Number of.
105 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.
106 Pattern Generation Modules Specifications and Characteristics [1] T ypical skew measurements made at pod connector with approximately 10 pF/50 K Ω load to GND; worst case skew numbers are a calculation of worst case conditions through circuits. Both numbers apply to any channel within a single or multiple module system.
107 Pattern Generation Modules Specifications and Characteristics Agilent 10473A 3-State 2.5 V olt Data Pod Output type 74AVC16244 3-state enable negative true, 38 K Ω to GND, enabled on no connect Maximum clock 300 MHz Skew [1] typical < 1.
108 Pattern Generation Modules Specifications and Characteristics Agilent E8141A L VDS Data Pod Output type 65LVDS389 (L VDS data lines) 10H125 (TTL non-3-state channel 7) 3-state enable positive true.
109 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 K Ω to – 5.2V) differential signal (from a type 10E156 or 10E154 driver).
110 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 K Ω to – 5.2V) differential signal (from a type 10E164 driver).
111 10463A ECL Clock Pod Clock output type 10H116 differential unterminated; and differ- ential with 330 Ω to – 5.2V and 47 Ω series Clock output rate 300 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 ECL – 10H116 with 50 K Ω to – 5.
112 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.
113 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.
114 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.
115 T rade-In, T rade-Up Advance to the Latest T echnology with Agilent ’ s “ T rade-Up ” Program Comprehensive Economical Convenient • Purchase from an extensive • Upgrade for less • Simp.
116 Ordering Information Mainframes and Mainframe Accessories Product Number Description Includes 16700B Modular mainframe with five measurement • One DIN keyboard module slots and one emulation or .
117 Ordering Information Agilent 1184A T estmobile The Agilent 1184A testmobile gives you a conv enient means of organizing and transporting your logic analysis system mainframes and accessories. The testmobile includes the follo wing: • Draw er for accessories (probes, cables, pow er cords) Figure 7.
118 Ordering Information Measurement Module Compatibility T able Measurement Model Description 16700 16600A 16500C* 16500A/B* Module Category Number Series Series State and Timing 16510A* 25 MHz State.
119 Ordering Information Measurement Module Compatibility T able (continued) Measurement Model Description 16700 16600 16500C* 16500A/B* Module Category Number Series Series Oscilloscope 16530A/16531A.
120 Ordering Information Agilent W edge Probe Adapters IC Leg Spacing Number of Quantity of Probe Model Signals Probes Shipped Number 0.5 mm 3 1 E2613A 0.5 mm 3 2 E2613B 0.5 mm 8 1 E2614A 0.5 mm 16 1 E2643A 0.65 mm 3 1 E2615A 0.65 mm 3 2 E2615B 0.65 mm 8 1 E2616A 0.
121 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 • Jap.
122 Ordering Information Accessories for Agilent 16720A Pattern Generator Modules Product Numbers and Option(s) for Agilent 16700 Series Post-Processing T ool Sets Product or Option Number Description.
123 Third-Party Solutions Our solutions partners of fer a wide array of accessory products for the Agilent Technologies logic analysis systems. Agilent's solution par tners offer complementar y p.
124 Support, W arranty and Related Literature W arranty Agilent hardware products are war- ranted against defects in materials and w orkmanship for a period of one year fr om date of shipment. Some newl y manufactured Agilent products may contain remanufactured parts, which are equivalent to new in per- formance.
www .agilent.com Agilent T echnologies ’ T est and Measurement Support, Services, and Assistance Agilent T echnologies aims to maximize the value you receive, while minimizing your risk and problems. W e strive to ensure that you get the test and measurement capabilities you paid for and obtain the support you need.
An important point after buying a device Agilent Technologies 16700 (or even before the purchase) is to read its user manual. We should do this for several simple reasons:
If you have not bought Agilent Technologies 16700 yet, this is a good time to familiarize yourself with the basic data on the product. First of all view first pages of the manual, you can find above. You should find there the most important technical data Agilent Technologies 16700 - thus you can check whether the hardware meets your expectations. When delving into next pages of the user manual, Agilent Technologies 16700 you will learn all the available features of the product, as well as information on its operation. The information that you get Agilent Technologies 16700 will certainly help you make a decision on the purchase.
If you already are a holder of Agilent Technologies 16700, but have not read the manual yet, you should do it for the reasons described above. You will learn then if you properly used the available features, and whether you have not made any mistakes, which can shorten the lifetime Agilent Technologies 16700.
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