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| agilent technologies measurement modules for the 16900 series data sheet � track problems from symptom to root cause across several measurement modes by viewing time-correlated data in waveform/chart, listing, inverse assembly, source code, or compare display. � set up triggers quickly and confidently with intuitive simple, quick, and advanced triggering. this capability combines new trigger functionality with an intuitive user interface. � the agilent logic analyzer modules are compatible with the industry? widest range of probing accessories with capacitive loading down to 0.7 pf. � monitor and correlate multiple buses using a single module with split analyzer capability. this provides single and multi-bus support using a single module (timing, state, timing/state or state/state configurations). modularity is the key to the agilent 16900 series logic analysis systems?long term value. you purchase only the capability you need now, then expand as your needs evolve. all modules are tightly integrated to provide time-correlated, cross domain measurements. customize your system with the measurement capability that will meet your performance and price needs. protect your investment by upgrading logic analyzer module memory depths or state speeds as your needs change. measurement capability: � timing/state logic analyzers � pattern generator � time correlation to external scopes timing/state logic analyzer modules agilent? timing and state modules give you the power to: � accurately measure precise timing relationships using 4 ghz (250 ps) timing zoom with 64 k depth. � extend the measurement window with precision when signals transition less frequently using transitional timing. � find anomalies separated in time with deep memory depths (up to 256 m across all channels). � buy what you need today and upgrade in the future. 16900 series timing/state modules come with independent upgrades for memory depth and state speed. � sample high-speed synchronous buses accurately and confidently using eye finder. eye finder automatically adjusts threshold and setup and hold for your highest confidence in measurements on high-speed buses.
2 logic analyzer selection guide for 16900 series mainframes agilent model number 16910a/16911a 16950b/16951b 16760a channels per module 102/68 68 34 maximum channels on 510/340 340 170 single time base timing mode high-speed timing zoom [1] 4 ghz (250 ps) with 64 k depth 4 ghz (250 ps) with 64 k depth n/a maximum timing sample 1.0 ghz (1 ns) 1.2 ghz (833 ps) 800 mhz rate: half channel mode maximum timing sample 500 mhz (2.0 ns) 600 mhz (1.67 ns) 800 mhz rate: full channel mode transitional timing 500 mhz (2.0 ns) 600 mhz (1.67 ns) 400 mhz state mode maximum state clock rate 450 mhz with option 500, 667 mhz 800 mb/s (full channel), 250 mhz with option 250 1.5 gb/s (half channel) maximum state data rate 500 mb/s with option 500, 667 mb/s (ddr) 1.5 gb/s 250 mb/s with option 250 1066 mb/s (dual sample) setup/hold window 1.5 ns 1 ns (600 ps typical), 1 ns adjustment resolution 80 ps typical 80 ps typical 10 ps state clock, data rate yes (agilent e5865a for 16910a) no no (upgradeable) (a gilent e5866a for 16911a) automated threshold/sample yes yes yes position, simultaneous eye diagrams, all channels memory depth [2] 256 m 16951b 64 m 16950b, option 064 16760a 32 m option 032 16950b, option 032 16 m option 016 16950b, option 016 4 m option 004 16950b, option 004 1 m option 001 16950b, option 001 256 k option 256 memory depth yes (agilent e5865a for 16910a) yes (agilent e5875a) 64 m standard (upgradeable) (agilent e5866a for 16911a) other supported signal types single-ended single-ended and differential single-ended and differential probe compatibility [3] 40-pin cable connector 90-pin cable connector 90-pin cable connector voltage threshold ? v to 5 v (10 mv increments) ? v to 5 v (10 mv increments) ? v to 5 v (10 mv increments) threshold accuracy ?0 mv + 1% of setting ?0 mv ?% of setting ?30 mv + 1% of setting) [1] all channels, all the time, simultaneous state and timing through same probe. [2] specify desired memory depth using available options. [3] probes are ordered separately. please specify probes when ordering to ensure the correct connection between your logic analy zer and the device under test. 3 data acquisition and stimulus timing/state modules agilent logic analyzer modules offer the speed, features, and usability your digital development team needs to quickly debug, validate, and optimize your digital system ?at a price that fits your budget. accurately measure precise timing relationships make accurate high-speed timing measurements with 4 ghz (250 ps) high-speed timing zoom. a parallel acquisition architecture provides high-speed timing measurements simultaneously through the same probe with other state or timing measurements. timing zoom stays active all the time with no tradeoffs. view data at high resolution over longer periods of time with 64 k deep timing zoom. automate measurement setup and quickly gain diagnostic clues quickly get up and running by automating your measurement setup process. in addition, the logic analyzer? setup/hold window (or sampling position) and threshold voltage settings are automatically determined so that data on high-speed buses is figure 1. identify problem signals quickly by viewing eye diagrams across all buses and signals simultaneously. captured with the highest accuracy. auto threshold and sample position mode allows you to... � obtain accurate and reliable measurements � save time during measurement setup � gain diagnostic clues and identify problem signals quickly � scan all signals and buses simultaneously or just a few � view results as a composite display or as individual signals � see skew between signals and buses � find and fix inappropriate clock thresholds � measure data valid windows � identify signal integrity problems related to rise times, fall times, data valid window widths identify problem signals over hundreds of channels simultaneously as timing and voltage margins continue to shrink, confidence in signal integrity becomes an increasingly vital requirement in the design validation process. eye scan lets you acquire signal integrity information on all the buses in your design, under a wide variety of operating conditions, in a matter of minutes. identify problem signals quickly for further investigation with an oscilloscope. results can be viewed for each individual signal or as a composite of multiple signals or buses. 4 data acquisition and stimulus pattern generation modules digital stimulus and response in a single instrument configure the logic analysis system to provide both stimulus and response in a single instrument. for example, the pattern generator can simulate a circuit initialization sequence and then signal the state or timing analyzer to begin measurements. use the compare mode on the state analyzer to determine if the circuit or subsystem is functioning as expected. time correlate to an external oscilloscope to help locate the source of timing problems or troubleshoot signal problems due to noise, ringing, overshoot, crosstalk, or simultaneous switching. parallel testing of subsystems reduces time to market by testing system subcomponents before they are complete, you can fix problems earlier in the development process. use the agilent 16720a as a substitute for missing boards, integrated circuits (ics), or buses instead of waiting for the missing pieces. software engineers can create infrequently encountered test conditions and verify that their code works?efore complete hardware is available. hardware engineers can generate the patterns necessary to put their circuit in the desired state, operate the circuit at full speed or step the circuit through a series of states. key characteristics agilent model 16720a maximum clock (full/half channel) 180/300 mhz number of data channels (full/half channel) 48/24 channels memory depth (full/half channels) 8/16 mvectors maximum vector width 240/120 bits (5 module system, full/half channel) logic levels supported 5v ttl, 3-state ttl, 3-state ttl/cmos, 3-state 1.8v, 3-state 2.5v, 3-state 3.3v, ecl, 5v pecl, 3.3v lvpecl, lvds editable vector size (full/half channels) 8/16 mvectors 5 data acquisition and stimulus pattern generation modules vectors up to 240 bits wide vectors are defined as a ?ow?of labeled data values, with each data value from one to 32 bits wide. each vector is output on the rising edge of the clock. up to five, 48-channel 16720a modules can be interconnected within a 16900 series mainframe. this configuration supports vectors of any width up to 240 bits with excellent channel-to-channel skew characteristics (see specific data pod characteristics in pattern generation modules specifications starting on page 23). the modules operate as one time-base with one master clock pod. multiple modules also can be configured to operate independently with individual clocks controlling each module. depth up to 16 mvectors with the 16720a pattern generator, you can load and run up to 16 mvectors of stimulus. depth on this scale is most useful when coupled with powerful stimulus generated by electronic design automation tools, such as synapticad? waveformer and verilogger. these tools create stimulus using a combination of graphically drawn signals, timing parameters that constrain edges, clock signals, and temporal and boolean equations for describing complex signal behavior. the stimulus also can be created from design simulation waveforms. the synapticad tools allow you to convert .vcd files into .pgb files directly, offering you an integrated solution that saves you time. synchronized clock output you can output data synchronized to either an internal or external clock. the external clock is input via a clock pod, and has no minimum frequency (other than a 2 ns minimum high time). the internal clock is selectable between 1 mhz and 300 mhz in 1 mhz steps. a clock out signal is available from the clock pod and can be used as an edge strobe with a variable delay of up to 8 ns. initialize (init) block for repetitive runs when running repetitively, the vectors in the initialize (init) sequence are output only once, while the main sequence is output as a continually repeating sequence. this ?nit?sequence is very useful when the circuit or subsystem needs to be initialized. the repetitive run capability is especially helpful when operating the stimulus module independent of the other modules in the logic analysis system. ?end arm out to coordinates system module activity a ?end arm out to instruction acts as a trigger arming event for other logic analysis modules to begin measurements. arm setup and trigger setup of the other logic analysis modules determine the action initiated by ?end arm out to. ?ait for external event?for input pattern the clock pod also accepts a 3-bit input pattern. these inputs are level-sensed so that any number of ?ait 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. a ?ait for external event?also can be defined to wait for an arm. this arm signal can come from any other module in the logic analysis system. figure 2. define your unique stimulus vectors, including an initialization sequence, in the sequence tab. 6 data acquisition and stimulus pattern generation modules ?ser-defined macro?and ?oop?simplify creation of stimulus programs user macros permit you to define a pattern sequence once, then insert the macro by name wherever it is needed. passing parameters to the macro will allow you to create a more generic macro. for each call to the macro you can specify unique values for the parameters. loops enable you to repeat a defined block of vectors for a specified number of times. loops and macros can be nested, except that a macro can not be nested within another macro. at compile time, loops and macros are expanded in memory to a linear sequence. convenient data entry and editing feature you can conveniently enter patterns in hex, octal, binary, decimal, and signed decimal (two? complement) bases. the data associated with an individual label can be viewed with multiple radixes to simplify data entry. delete, insert, and copy commands are provided for easy editing. fast and convenient pattern fills give the programmer useful test patterns with a few key strokes. fixed, count, rotate, toggle, and random are available to quickly create a test pattern, such as ?alking ones.?pattern parameters, such as step size and repeat frequency, can be specified in the pattern setup. ascii input file format: your design tool connection the 16720a supports an ascii file format to facilitate connectivity to other tools in your design environment. because the ascii format does not support the instructions listed earlier, they cannot be edited into the ascii file. user macros and loops also are not supported, so the vectors need to be fully expanded in the ascii file. many design tools will generate ascii files and output the vectors in this linear sequence. data must be in hex format, and each label must represent a set of contiguous output channels. configuration the 16720a pattern generators require a single slot in a logic analysis system frame. the pattern generator operates with the clock pods, data pods, and lead sets described later in this section. at least one clock pod and one data pod must be selected to configure a functional system. users can select from a variety of pods to provide the signal source needed for their logic devices. the data pods, clock pods and data cables use standard connectors. the electrical characteristics of the data cables also are described for users with specialized applications who want to avoid the use of a data pod. the 16720a can be configured in systems with up to five cards for a total of 240 channels of stimulus. direct connection to your target system the pattern generator pods can be directly connected to a standard connector on your target system. use a 3m brand #2520 series, or similar connector. the 16720a clock or data pods will plug right in. short, flat cable jumpers can be used if the clearance around the connector is limited. use a 3m #3365/20, or equivalent, ribbon cable; a 3m #4620 series, or equivalent, connector on the 16720a pod end of the cable; and a 3m #3421 series, or equivalent, connector at your target system end of the cable. probing accessories the probe tips of the agilent 10474a, 10347a, 10498a, and e8142a lead sets plug directly into any 0.1 inch grid with 0.026 inch to 0.033 inch diameter round pins or 0.025 inch square pins. these probe tips work with the agilent 5090-4356 surface mount grabbers and with the agilent 5959-0288 through-hole grabbers. 7 agilent 16910a and 16911a specifications and characteristics state analysis state analysis timing analysis timing analysis module channel counts 16910a 16911a 16910a 16911a 1-card module 98 data + 4 clocks 64 data + 4 clocks 102 68 2-card module 200 data + 4 clocks 132 data + 4 clocks 204 136 3-card module 302 data + 4 clocks 200 data + 4 clocks 306 204 4-card module 404 data + 4 clocks 268 data + 4 clocks 408 272 5-card module 506 data + 4 clocks 336 data + 4 clocks 510 340 probes a probe must be used to connect the logic analyzer to your target system. probes are ordered separately from the logic analysis module. for specifications and characteristics of a particular probe, see the documentation that is supplied with your probe or search for the probe�s model number in this help system or at www.agilent.com or probing solutions for agilent technologies logic analyzers product overview, publication number 5968-4632e. timing zoom timing analysis sample rate 4 ghz time interval accuracy within a pod pair � (1.0 ns + 0.01% of time interval reading) between pod pairs � (1.75 ns + 0.01% of time interval reading) memory depth 64 k samples trigger position start, center, end, or user-defined minimum data pulse width 1 ns 8 agilent 16910a and 16911a specifications and characteristics state (synchronous) analysis mode option 250 option 500 twidth* [1] 1.5 ns 1.5 ns tsetup 0.5 twidth 0.5 twidth thold 0.5 twidth 0.5 twidth tsample range [2] ?.2 ns to +3.2 ns ?.2 ns to +3.2 ns tsample adjustment resolution 80 ps typical 80 ps typical maximum state data rate on each channel 250 mb/s 500 mb/s maximum channels on a single time base 16910a: 510 ?(number of clocks) 16910a: 510 ?(number of clocks) and trigger [4] 16911a: 340 ?(number of clocks) 16911a: 340 ?(number of clocks) memory depth [4] option 256: 256 k samples option 256: 256 k samples (option 256 is included in base price) option 001: 1 m samples option 001: 1 m samples option 004: 4 m samples option 004: 4 m samples option 016: 16 m samples option 016: 16 m samples option 032: 32 m samples option 032: 32 m samples number of independent analyzers [5] 2 1 number of clocks [6] 4 1 number of clock qualifiers [6] 4 n/a minimum time between active 4.0 ns 2.0 ns clock edges* [7] minimum master to slave clock time 1 ns n/a minimum slave to master clock time 1 ns n/a minimum slave to slave clock time 4.0 ns n/a * items marked with an asterisk (*) are specifications. all others are characteristics. ?ypical?represents the average or median value of the parameter based on measurements from a significant number of units. [1] minimum eye width in system under test. [2] sample positions are independently adjustable for each data channel input. a negative sample position causes the input to be synchronously sampled by that amount before each active clock edge. a positive sample position causes the input to be synchronously sampled by that amount after each activ e clock edge. a sampling position of zero causes the input to be synchronously sampled coincident with each clock edge. [3] use of eye finder is recommended in 450 mhz and 500 mb/s state mode. [4] in 250 mb/s state mode, with all pods assigned, memory depth is half the maximum memory depth. with one pod pair (34 channels ) unassigned, the memory depth is full. one pod pair (34 channels) must remain unassigned for time tags in 500 mb/s state mode. [5] independent analyzers may be either state or timing. when the 500 mb/s state mode is selected, only one analyzer may be used . [6] in the 250 mb/s state mode, the total number of clocks and qualifiers is 4. all clock and qualifier inputs must be on the ma ster modules. [7] tested with input signal vh = +1.3 v, vl = +0.7 v, threshold = +1.0 v, tr/tf = 180 ps � 30 ps (10%, 90%). clock channel data eye vheight twidth vthreshold tsetup thold tsample sampling position ov individual data channel 9 agilent 16910a and 16911a specifications and characteristics state (synchronous) analysis mode option 250 option 500 minimum state clock pulse width single edge 1.0 ns 1.0 ns multiple edge 1.0 ns 2.0 ns clock qualifier setup time 500 ps n/a clock qualifier hold time 0 n/a time tag resolution 2 ns 1.5 ns maximum time count between stored states 32 days 32 days maximum trigger sequence speed 250 mhz 500 mhz maximum trigger sequence levels 16 16 trigger sequence level branching arbitrary 4-way if/then/else 2-way if/then/else trigger position start, center, end, or user-defined start, center, end, or user-defined trigger resources 16 patterns evaluated as =, =/, >, , <, 14 patterns evaluated as =, =/, >, , <, 14 double-bounded ranges evaluated as 7 double-bounded ranges evaluated as in range, not in range in range, not in range 2 timers per module 1 occurrence counter per sequence level 2 global counters 4 flags 1 occurrence counter per sequence level 4 flags trigger resource conditions arbitrary boolean combinations arbitrary boolean combinations trigger actions go to go to trigger, send e-mail, and fill memory trigger and fill memory trigger and go to store/don? store sample turn on/off default storing timer start/stop/pause/resume global counter increment/decrement/reset occurrence counter reset flag set/clear store qualification default (global) and per sequence level default (global) maximum global counter 2e+24 n/a maximum occurrence counter 2e+24 2e+24 maximum pattern width 128 bits 128 bits maximum range width 64 bits 64 bits timers range 60 ns to 2199 seconds n/a timer resolution 2 ns n/a timer accuracy � (5 ns +0.01%) n/a timer reset latency 60 ns n/a 10 agilent 16910a and 16911a specifications and characteristics timing (asynchronous) analysis mode conventional timing transitional timing [8] sample rate on all channels 500 mhz 500 mhz sample rate in half channel mode 1000 mhz n/a number of channels 16910a: 102 x (number of modules) 16910a: for sample rates < 500 mhz: 102 x (number of modules) for 500 mhz sample rate: 102 x (number of modules) ?34 16911a: 68 x (number of modules) 16911a: for sample rates < 500 mhz: 68 x (number of modules) for 500 mhz sample rate: 68 x (number of modules) ?34 maximum channels on a single time 16910a: 510 16910a: 510 base and trigger 16911a: 340 16911a: 340 number of independent analyzers [5] 2 2 sample period (half channel) 1.0 ns n/a minimum sample period (full channel) 2.0 ns 2.0 ns minimum data pulse width 1 sample period + 1.0 ns 1 sample period + 1.0 ns time interval accuracy � (1 sample period + 1.25 ns + 0.01% of � (1 sample period + 1.25 ns + 0.01% of time interval reading) time interval reading) memory depth in full channel mode option 256: 256 k samples option 256: 256 k samples (option 256 is included in base price) option 001: 1 m samples option 001: 1 m samples option 004: 4 m samples option 004: 4 m samples option 016: 16 m samples option 016: 16 m samples option 032: 32 m samples option 032: 32 m samples memory depth in half channel mode option 256: 512 k samples n/a (option 256 is included in base price) option 001: 2 m samples option 004: 8 m samples option 016: 32 m samples option 032: 64 m samples maximum trigger sequence speed 250 mhz 250 mhz maximum trigger sequence levels 16 16 [5] independent analyzers may be either state or timing. when the 500 mb/s state mode is selected, only one analyzer may be used . [8] transitional timing speed and memory depth are halved unless a spare pod pair (34 channels) is unassigned. 11 agilent 16910a and 16911a specifications and characteristics timing (asynchronous) analysis mode conventional timing transitional timing trigger sequence level branching arbitrary 4-way if/then/else arbitrary 4-way if/then/else trigger position start, center, end, or user-defined start, center, end, or user-defined trigger resources 16 patterns evaluated as =, =/, >, , <, 15 patterns evaluated as =, =/, >, , <, 14 double-bounded ranges evaluated as 14 double-bounded ranges evaluated as in range, not in range in range, not in range 3 edge/glitch 3 edge/glitch 2 timers per module 2 timers per module 2 global counters 2 global counters 1 occurrence counter per sequence level 1 occurrence counter per sequence level 4 flags 4 flags trigger resource conditions arbitrary boolean combinations arbitrary boolean combinations trigger actions go to go to trigger, send e-mail, and fill memory trigger, send e-mail, and fill memory trigger and go to trigger and go to turn on/off default storing turn on/off default storing timer start/stop/pause/resume timer start/stop/pause/resume global counter increment/decrement/reset global counter increment/decrement/reset occurrence counter reset occurrence counter reset flag set/clear flag set/clear maximum global counter 2e+24 2e+24 maximum occurrence counter 2e+24 2e+24 maximum range width 32 bits 32 bits maximum pattern width 128 bits 128 bits timer value range 60 ns to 2199 seconds 60 ns to 2199 seconds timer resolution 2 ns 2 ns timer accuracy � (5 ns +0.01%) � (5 ns +0.01%) greater than duration 4.0 ns to 67 ms in 4.0 ns increments 4.0 ns to 67 ms in 4.0 ns increments less than duration 8.0 ns to 67 ms in 4.0 ns increments 8.0 ns to 67 ms in 4.0 ns increments timer reset latency 60 ns 60 ns 12 agilent 16950b and 16951b specifications and characteristics module channel counts state analysis timing analysis 1-card module 64 data + 4 clocks 68 2-card module 132 data + 4 clocks 136 3-card module 200 data + 4 clocks 204 4-card module 268 data + 4 clocks 272 5-card module 336 data + 4 clocks 340 probes a probe must be used to connect the logic analyzer to your target system. for specifications and characteristics of a particula r probe, see the documentation that is supplied with your probe or search for the probe�s model number in this help system or at www.agilent.com . timing zoom timing analysis sample rate 4 ghz time interval accuracy within a pod pair � (1.0 ns + 0.01% of time interval reading) between pod pairs � (1.75 ns + 0.01% of time interval reading) memory depth 64 k samples trigger position start, center, end, or user-defined minimum data pulse width 750 ps 16950 series module overview the 16950a, 16950b and 16951b are all compatible with the 16900 series mainframes. this table 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 in 550 ps typical 550 ps typical 600 ps typical system under test minimum time between 1.50 ns (667 mb/s 1. 50 ns (667 mb/s 1.67 ns (600 mb/s active clock edges state mode) state mode) state mode) minimum state clock 1.50 ns 1.50 ns 1.67 ns pulse width shows 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. 13 agilent 16950b and 16951b specifications and characteristics state (synchronous) analysis mode 300 mb/s state mode 667 mb/s state mode twidth* [1, 2] 850 ps*, 550 ps typical 850 ps*, 550 ps typical tsetup 0.5 twidth 0.5 twidth thold 0.5 twidth 0.5 twidth tsample range [3] ? ns to +4 ns ? ns to +4 ns tsample adjustment resolution 80 ps typical 80 ps typical tsample accuracy, manual adjustment � 300 ps � 300 ps [4] maximum state data rate 300 mb/s (ddr) 667 mb/s (ddr) 600 mb/s (dual sample) 1066 mb/s (dual sample) maximum channels on a single time base 340 ?(number of clocks) 306 ?(1 clock) and trigger [5] memory depth ?16950b [5] option 001: 1 m samples option 001: 1 m samples option 004: 4 m samples option 004: 4 m samples option 016: 16 m samples option 016: 16 m samples option 032: 32 m samples option 032: 32 m samples option 064: 64 m samples option 064: 64 m samples memory depth ?16951b [5] 256 m samples 256 m samples number of independent analyzers [6] 2 1 number of clocks [7] 4 1 number of clock qualifiers [7] 4 n/a minimum time between active 3.33 ns 1.50 ns clock edges* [8] minimum master to slave clock time 1 ns n/a minimum slave to master clock time 1 ns n/a minimum slave to slave clock time 3.33 ns n/a * items marked with an asterisk (*) are specifications. all others are characteristics. [1] minimum eye width in system under test. [2] your choice of probe can limit system bandwidth. choose a probe rated at 1066 mb/s or greater to maintain system bandwidth. [3] sample positions are independently adjustable for each data channel input. a negative sample position causes the input to be synchronously sampled by that amount before each active clock edge. a positive sample position causes the input to be synchronously sampled by that amount after each active clock edge. a sampling position of zero causes the input to be synchronously sampled coincident with each clock edge. [4] use of eye finder is recommended in 667 mb/s state mode. [5] in 300 mb/s state mode, with all pods assigned, memory depth is half the maximum memory depth. with one pod pair (34 channels) unassigned, the memory depth is full. one pod pair (34 channels) must remain unassigned for time tags in 667 mb/s state mode. [6] independent analyzers may be either state or timing. when the 667 mb/s state mode is selected, only one analyzer may be used. [7] in the 300 mb/s state mode, the total number of clocks and qualifiers is 4. all clock and qualifier inputs must be on the master modules. [8] tested with input signal vh = +1.125 v, vl = +0.875 v = 1 v/ns, threshold = +1.0 v, tr/tf = 180 ps � 30 ps (10%, 90%). clock channel data eye vheight twidth vthreshold tsetup thold tsample sampling position ov individual data channel 14 agilent 16950b and 16951b specifications and characteristics state (synchronous) analysis mode 300 mb/s state mode 667 mb/s state mode minimum state clock pulse width single edge 1.0 ns 500 ps multiple edge 1.0 ns 1.50 ns clock qualifier setup time 500 ps n/a clock qualifier hold time 0 n/a time tag resolution 2 ns 1.5 ns maximum time count between stored states 32 days 32 days maximum trigger sequence speed 300 mhz 667 mhz maximum trigger sequence levels 16 16 trigger sequence level branching arbitrary 4-way if/then/else 2-way if/then/else trigger position start, center, end, or user-defined start, center, end, or user-defined trigger resources 16 patterns evaluated as =, =/, >, , <, 14 patterns evaluated as =, =/, >, , <, 14 double-bounded ranges evaluated as 7 double-bounded ranges evaluated as in range, not in range in range, not in range 2 timers per module 1 occurrence counter per sequence level 2 global counters 4 flags 1 occurrence counter per sequence level 4 flags trigger resource conditions arbitrary boolean combinations arbitrary boolean combinations trigger actions go to go to trigger, send e-mail, and fill memory trigger and fill memory trigger and go to store/don? store sample turn on/off default storing timer start/stop/pause/resume global counter increment/decrement/reset occurrence counter reset flag set/clear store qualification default (global) and per sequence level default (global) maximum global counter 2e+24 n/a maximum occurrence counter 2e+24 2e+24 maximum pattern width 128 bits 128 bits maximum range width 64 bits 64 bits timers range 50 ns to 2199 seconds n/a timer resolution 2 ns n/a timer accuracy � (5 ns +0.01%) n/a timer reset latency 50 ns n/a 15 agilent 16950b and 16951b specifications and characteristics timing (asynchronous) analysis mode conventional timing transitional timing [9] sample rate on all channels 600 mhz 600 mhz sample rate in half channel mode 1200 mhz n/a number of channels 68 x (number of modules) for sample rates < 600 mhz: 68 x (number of modules). for 600 mhz sample rate: 68 x (number of modules) ?34 maximum channels on a single time 340 340 base and trigger number of independent analyzers [6] 2 2 sample period (half channel) 833 ps n/a minimum sample period (full channel) 1.67 ns 1.67 ns minimum data pulse width 1 sample period + 500 ps 1 sample period + 500 ps time interval accuracy � (1 sample period + 1.25 ns + 0.01% of � (1 sample period + 1.25 ns + 0.01% of time interval reading) time interval reading) memory depth in full channel mode ? option 001: 1 m samples option 001: 1 m samples 16950b option 004: 4 m samples option 004: 4 m samples option 016: 16 m samples option 016: 16 m samples option 032: 32 m samples option 032: 32 m samples option 064: 64 m samples option 064: 64 m samples memory depth in full channel mode ? 256 m samples 256 m samples 16951b memory depth in half channel mode ? option 001: 2 m samples n/a 16950b option 004: 8 m samples option 016: 32 m samples option 032: 64 m samples option 064: 128 m samples memory depth in half channel mode ? 512 m samples n/a 16951b maximum trigger sequence speed 300 mhz 300 mhz maximum trigger sequence levels 16 16 [6] independent analyzers may be either state or timing. when the 600 mb/s state mode is selected, only one analyzer may be used . [9] transitional timing speed and memory depth are halved unless a spare pod pair (34 channels) is unassigned. 16 agilent 16950b and 16951b specifications and characteristics timing (asynchronous) analysis mode conventional timing transitional timing trigger sequence level branching arbitrary 4-way if/then/else arbitrary 4-way if/then/else trigger position start, center, end, or user-defined start, center, end, or user-defined trigger resources 16 patterns evaluated as =, =/, >, , <, 15 patterns evaluated as =, =/, >, , <, 14 double-bounded ranges evaluated as 14 double-bounded ranges evaluated as in range, not in range in range, not in range 3 edge/glitch 3 edge/glitch 2 timers per module 2 timers per module 2 global counters 2 global counters 1 occurrence counter per sequence level 1 occurrence counter per sequence level 4 flags 4 flags trigger resource conditions arbitrary boolean combinations arbitrary boolean combinations trigger actions go to go to trigger, send e-mail, and fill memory trigger, send e-mail, and fill memory trigger and go to trigger and go to turn on/off default storing turn on/off default storing timer start/stop/pause/resume timer start/stop/pause/resume global counter increment/decrement/reset global counter increment/decrement/reset occurrence counter reset occurrence counter reset flag set/clear flag set/clear maximum global counter 2e+24 2e+24 maximum occurrence counter 2e+24 2e+24 maximum pattern/range width 32 bits 32 bits maximum pattern width 128 bits 128 bits timer value range 50 ns to 2199 seconds 50 ns to 2199 seconds timer resolution 2 ns 2 ns timer accuracy � (5 ns +0.01%) � (5 ns +0.01%) greater than duration 3.33 ns to 55 ms in 3.3 ns increments 3.33 ns to 55 ms in 3.3 ns increments less than duration 6.67 ns to 55 ms in 3.3 ns increments 6.67 ns to 55 ms in 3.3 ns increments timer reset latency 50 ns 50 ns 17 agilent 16760a specifications and characteristics individual data channel vheight twidth tsetup sampling position clock channel note (1) thold vthreshold* *user adjustable ?0v? tsample* data eye agilent technologies 16760a supplemental specifications* and characteristics synchronous data sampling specifications for each input parameter minimum description/notes 800, 1250, 1500 mb/s modes 200, 400 mb/s modes data twidth 500 ps 1.25 ns eye width in system under test [2] to clock tsetup 250 ps 625 ps data setup time required before tsample thold 250 ps 625 ps data hold time required after tsample all vheight [1] 100mv 100mv e5379a 100-pin differential probe [3] inputs e5381a differential flying-lead probe [3] e5387a differential soft touch [3] e5405a differential pro series soft touch [3] 250 mv 250 mv e5378a 100-pin single-ended probe [4], e5382a single-ended flying-lead probe set e5406a pro series soft touch [4] e5390a soft touch [4] e5398a half-size soft touch [4] 300mv 300mv e5380a 38-pin single-ended probe * all specifications noted by an asterisk in the table are the performance standards against which the product is tested. [1] the analyzer can be configured to sample on the rising edge, the falling edge, or both edges of the clock. if both edges are used with a single ended clock input, take care to set the clock threshold accurately to avoid phase error. [2] eye width and height are specified at the probe tip. eye width as measured by eye finder in the analyzer may be less, and st ill sample reliably. [3] for each side of a differential signal. [4] the clock inputs in the e5378a, e5398a, e5406a, e5390a, and e5382a may be connected differentially or single ended. use the e5379a vheight spec for clock channel(s) connected differentially. [5] sample positions are independently adjustable for each data channel input. a negative sample position causes the input to be synchronously sampled by that amount before each active clock edge. a positive sample position causes the input to be synchronously sampled by that amount after each active clo ck edge. a sampling position of zero causes synchronous sampling coincident with each active clock edge. [6] threshold applies to single-ended input signals. thresholds are independently adjustable for the clock input of each pod and for each set of 16 data inputs for each pod. threshold limits apply to both the internal reference and to the external reference input on the e5378a. 18 agilent technologies 16760a supplemental specifications* and characteristics (continued) synchronous data sampling user adjustable settings for each input parameter adjustment range 1500 mb/s mode 1250 mb/s mode 800 mb/s mode 400 mb/s mode 200 mb/s mode data adjustment resolution 10 ps 10 ps 10 ps 100 ps 100 ps to clock tsample [5] 0 to +4 ns ?.5 to +2.5 ns ?.5 to +2.5 ns ?.2 to +3.2 ns ?.5 to +3 ns all vthreshold [6] 10 mv resolution 10 mv resolution 10 mv resolution 10 mv resolution 10 mv resolution inputs ? to +5 v ? to +5 v ? to +5 v ? to +5 v ? to +5 v * all specifications noted by an asterisk in the table are the performance standards against which the product is tested. [1] the analyzer can be configured to sample on the rising edge, the falling edge, or both edges of the clock. if both edges are used with a single ended clock input, take care to set the clock threshold accurately to avoid phase error. [2] eye width and height are specified at the probe tip. eye width as measured by eye finder in the analyzer may be less, and st ill sample reliably. [3] for each side of a differential signal. [4] the clock inputs in the e5378a, e5398a, e5406a, e5390a, and e5382a may be connected differentially or single ended. use the e5379a vheight spec for clock channel(s) connected differentially. [5] sample positions are independently adjustable for each data channel input. a negative sample position causes the input to be synchronously sampled by that amount before each active clock edge. a positive sample position causes the input to be synchronously sampled by that amount after each activ e clock edge. a sampling position of zero causes synchronous sampling coincident with each active clock edge. [6] threshold applies to single-ended input signals. thresholds are independently adjustable for the clock input of each pod and for each set of 16 data inputs for each pod. threshold limits apply to both the internal reference and to the external reference input on the e5378a. vheight 2x vheight vheight s nsignal psignal ??0v?? agilent 16760a specifications and characteristics 19 agilent 16760a specifications and characteristics agilent technologies 16760a supplemental specifications* and characteristics (continued) synchronous state analysis 1.5 gb/s mode 1.25 gb/s mode 800 mb/s mode 400 mb/s mode 200 mb/s mode maximum data rate 1.5 gb/s 1.25 gb/s 800 mb/s 400 mb/s 200 mb/s on each channel [3] minimum clock 667 ps 800 ps 1.25 ns 2.5 ns 5 ns interval, active edge to active edge* [3] minimum state clock n/a n/a 600 ps 1.5 ns 1.5 ns pulse width with clock polarity rising or falling [3] clock periodicity clock must be clock must be periodic or periodic or periodic or periodic periodic aperiodic aperiodic aperiodic number of clocks 11111 clock polarity both edges both edges rising, falling, rising, falling, rising, falling, or both or both or both minimum data 600 ps 750 ps e5378a, e5379a, 1.5 ns 1.5 ns pulse width* e5382a probes: 750 ps e5380a probe: 1.5 ns number of channels [1] ? with time tags 16 x (number of 16 x (number of 34 x (number of 34 x (number of 34 x (number of modules) ?8 modules) ?8 modules) ?16 modules) ?16 modules) ? without time tags 16 x (number of 16 x (number of 34 x (number of 34 x (number of 34 x (number of modules) modules) modules) ?1 modules) modules) maximum channels 80 (5 modules) 80 (5 modules) 170 (5 modules) 153 (5 modules) 170 (5 modules) on a single time base and trigger maximum memory 128m samples 128m samples 64m samples 32m samples 32m samples depth time tag resolution 4 ns [2] 4 ns [2] 4 ns [2] 4 ns [2] 4 ns maximum time count 17 seconds 17 seconds 17 seconds 17 seconds 17 seconds between states * all specifications noted by an asterisk are the performance standards against which the product is tested. [1] in 1.25 gb/s and 1.5 gb/s modes, only the even-numbered channels (0, 2, 4, etc.) are acquired. [2] the resolution of the hardware used to assign time tags is 4 ns. times of intermediate states are calculated. [3] the choice of probe can limit system performance. select a probe rated at the speed of the selected mode (or greater) to mai ntain system bandwidth. 20 agilent 16760a specifications and characteristics agilent technologies 16760a supplemental specifications* and characteristics (continued) synchronous state analysis (continued) 1.5 gb/s mode 1.25 gb/s mode 800 mb/s mode 400 mb/s mode 200 mb/s mode trigger resources 3 patterns on each 3 patterns on each 4 patterns on each 8 patterns evaluated 16 patterns evaluated pod evaluated as pod evaluated as pod evaluated as as =, , >, <, , as =, , >, <, , =, , >, <, , =, , >, <, , =, , >, <, , 4 ranges evaluated 15 ranges evaluated on one pod; or on one pod; or on one pod; or as in range, as in range, evaluated as =, evaluated as =, evaluated as =, not in range not in range across multiple across multiple across multiple 2 occurrence timers: 2 x (number pods; or 1 range pods; or 1 range pods; or 2 ranges counters of modules) ?1 on each pod on each pod on each pod 4 flags 2 global counters 4 flags 4 flags 4 flags arm in 1 occurrence counter arm in arm in arm in per sequence level 4 flags arm in trigger actions trigger and trigger and trigger and goto goto fill memory fill memory fill memory trigger and trigger and fill memory fill memory trigger and goto store/don? store sample turn default storing on/off timer start/stop/ pause/resume global counter increment/reset occurrence counter reset flag set/clear * all specifications noted by an asterisk are the performance standards against which the product is tested. [1] in 1.25 gb/s and 1.5 gb/s modes, only the even-numbered channels (0, 2, 4, etc.) are acquired. [2] the resolution of the hardware used to assign time tags is 4 ns. times of intermediate states are calculated. [3] the choice of probe can limit system performance. select a probe rated at the speed of the selected mode (or greater) to ma intain system bandwidth. 21 agilent 16760a specifications and characteristics agilent technologies 16760a supplemental specifications* and characteristics (continued) synchronous state analysis [4] (continued) 1.5 gb/s mode 1.25 gb/s mode 800 mb/s mode 400 mb/s mode 200 mb/s mode maximum trigger 2241616 sequence levels maximum trigger 1.5 gb/s 1.25 gb/s 800 mhz 400 mhz 200 mhz sequencer speed store qualification default default default default default and per sequence level maximum n/a n/a n/a n/a 16,777,215 global counter maximum n/a n/a n/a n/a 16,777,215 occurrence counter maximum pattern/ 32 bits [3] 32 bits [3] 32 bits [3] 32 bits [3] 32 bits [3] range term width timer value range n/a n/a n/a n/a 100 ns to 4397 seconds timer resolution n/a n/a n/a n/a 4 ns timer accuracy n/a n/a n/a n/a ?10 ns + 0.01% of value) timer reset latency n/a n/a n/a n/a 65 ns data in to bnc port 150 ns 150 ns 150 ns 150 ns 150 ns out latency flag set/reset to n/a n/a n/a n/a 110 ns evaluation latency [1] in 1.25 gb/s and 1.5 gb/s modes, only the even-numbered channels (0, 2, 4, etc.) are acquired. [2] the resolution of the hardware used to assign time tags is 4 ns. times of intermediate states are calculated. [3] maximum label width is 32 bits. wider patterns can be created by �anding?multiple labels together. [4] the choice of probe can limit system performance. select a probe rated at the speed of the selected mode (or greater) to ma intain system bandwidth. asynchronous timing analysis conventional timing analysis transitional timing analysis maximum timing analysis sample rate 800 mhz 400 mhz number of channels 34 x (number of modules) sampling rates < 400 mhz: 34 x (number of modules) sampling rates = 400 mhz: 34 x (number of modules) ?17 [1] maximum channels on a 170 (5 modules) 170 (5 modules) single time base and trigger sample period 1.25 ns 2.5 ns to 1 ms [1] memory depth 64 m samples 32 m samples [1] [1] with all pods assigned in transitional/store qualified timing, minimum sample period is 5 ns and maximum memory depth is 16 m samples. 22 agilent 16760a specifications and characteristics agilent technologies 16760a supplemental specifications* and characteristics (continued) asynchronous timing analysis (continued) conventional timing analysis transitional timing analysis sample period accuracy ?250 ps + 0.01% of sample period) ?250 ps + 0.01% of sample period) channel-to-channel skew < 1.5 ns < 1.5 ns time interval accuracy ?sample period + ?sample period + (channel-to-channel skew) + (channel-to-channel skew) + (0.01% of time interval)] (0.01% of time interval)] minimum data pulse width 1.5 ns for data capture 3.8 ns for data capture 5.1 ns for trigger sequencing 5.1 ns for trigger sequencing maximum trigger sequencer speed 200 mhz 200 mhz trigger resources 16 patterns evaluated as =, , >, <, , 16 patterns evaluated as =, , >, <, , 15 ranges evaluated as in range, 15 ranges evaluated as in range, not in range not in range 2 edge/glitch 2 edge/glitch (2 timers per module) ?1 (2 timers per module) ?1 2 global counters 2 global counters 1 occurrence counter per sequence level 1 occurrence counter per sequence level 4 flags, arm in 4 flags, arm in trigger resource conditions arbitrary boolean combinations arbitrary boolean combinations trigger actions goto goto trigger and fill memory trigger and fill memory trigger and goto trigger and goto timer start/stop/pause/resume timer/start/stop/pause/resume global counter increment/reset global counter increment/reset occurrence counter reset occurrence counter reset maximum global counter 16,777,215 16,777,215 maximum occurrence counter 16,777,215 16,777,215 timer value range 100 ns to 4397 seconds 100 ns to 4397 seconds timer resolution 4 ns 4 ns timer accuracy ?10 ns + 0.01%) ?10 ns + 0.01%) greater than duration 5 ns to 83 ms in 5 ns increments 5 ns to 83 ms in 5 ns increments less than duration 10 ns to 83 ms in 5 ns increments 10 ns to 83 ms in 5 ns increments timer reset latency 60 ns 60 ns data in to bnc port out delay latency 150 ns 150 ns flag set/reset to evaluation latency 110 ns 110 ns environmental operating temperature 0 deg c to 45 deg c 23 agilent 16720a pattern generator specifications and characteristics 16720a pattern generator characteristics maximum memory depth 16 mvectors number of output channels at > 180 mhz and 24 300 mhz clock number of output channels at 180 mhz clock 48 number of different macros limited only by the pattern maximum number of lines in a macro generator�s available maximum number of parameters in a macro memory depth maximum number of macro invocations maximum loop count in a repeat loop maximum number of repeat loop invocations 1000 maximum number of ?ait?event patterns 4 number of input lines to define a pattern 3 maximum number of modules in a system 5 maximum width of a vector (in a 5 module system) 240 bits maximum width of a label 128 bits maximum number of labels limited only by system memory maximum number of vectors in all formats 16 mvectors minimum number of vectors in binary format 4096 when loading into hardware lead set characteristics agilent 10474a 8-channel provides most cost effective lead set for the 16720a clock probe lead set* and data pods. grabbers are not included. lead wire length is 12 inches. agilent 10347a 8-channel provides 50 ? coaxial lead set for unterminated signals, probe lead set required for 10465a ecl data pod (unterminated). grabbers are not included. agilent 10498a 8-channel provides most cost effective lead set for the 16720a clock probe lead set* and data pods. grabbers are not included. lead wire length is 6 inches. agilent e8142a 8-channel provides lead set for the 16720a lvds clock and data pods. probe lead set grabbers are not included. lead wire length is 6 inches. * for all clock and data pods except 10465a unterminated ecl data pod and e8140a/e8141a clock and data pods. 24 agilent 16720a pattern generator 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 output type 10h125 with 100 ? series maximum clock 200 mhz skew [1] typical < 2 ns; worst case = 4 ns recommended lead set agilent 10474a agilent 10462a 3-state ttl/cmos data pod output type 74act11244 with 100 ? series; 10h125 on non 3-state channel 7 [2] 3-state enable negative true, 100 k ? to gnd, enabled on no connect maximum clock 100 mhz skew [1] typical < 4 ns; worst case = 12 ns recommended lead set agilent 10474a agilent 10464a ecl data pod (terminated) output type 10h115 with 330 ? pulldown, 47 ? series maximum clock 300 mhz skew [1] typical < 1 ns; worst case = 2 ns recommended lead set agilent 10474a [1] typical skew measurements made at pod connector with approximately 10 pf/50 k ? 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. [2] channel 7 on the 3-state pods has been brought out in parallel as a non 3-state signal. by looping this output back into the 3-state enable line, the channel can be used as a 3-state enable. ecl/ttl 100 ? 10h125 100 ? 74act11244 42 ? 10h115 ? 5.2 v 348 ? 25 agilent 16720a pattern generator 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 agilent 10466a 3-state ttl/3.3 volt data pod output type 74lvt244 with 100 ? series; 10h125 on non 3-state channel 7 [2] 3-state enable negative true, 100 k ? to gnd, enabled on no connect maximum clock 200 mhz skew [1] typical < 3 ns; worst case = 7 ns recommended lead set agilent 10474a [1] typical skew measurements made at pod connector with approximately 10 pf/50 k ? 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. [2] channel 7 on the 3-state pods has been brought out in parallel as a non 3-state signal. by looping this output back into the 3-state enable line, the channel can be used as a 3-state enable. 10h115 100 ? 74lvt244 26 agilent 16720a pattern generator 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 agilent 10471a 3.3 volt lvpecl data pod output type 100lvel90 (3.3v) with 215 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 agilent 10473a 3-state 2.5 volt data pod output type 74avc16244 3-state enable negative true, 38 k ? 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 [1] typical skew measurements made at pod connector with approximately 10 pf/50 k ? 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. [2] channel 7 on the 3-state pods has been brought out in parallel as a non 3-state signal. by looping this output back into the 3-state enable line, the channel can be used as a 3-state enable. 74avc16244 42 ? 348 ? 100el90 42 ? 215 ? 100lvel90 27 agilent 16720a pattern generator specifications and characteristics agilent 10476a 3-state 1.8 volt data pod output type 74avc16244 3-state enable negative true, 38 k ? 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 agilent 10483a 3-state 3.3 volt data pod output type 74avc16244 3-state enable negative true, 38 k ? 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 agilent e8141a lvds data pod output type 65lvds389 (lvds data lines) 10h125 (ttl non-3-state channel 7) 3-state enable positive true ttl; no connect=enabled maximum clock 300 mhz skew typical < 1 ns; worst case = 2 ns recommended lead set: e8142a recommended lead set agilent 10498a [1] typical skew measurements made at pod connector with approximately 10 pf/50 k ? 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. 10 k ? 65lvds389 enable 3.3 v lvds data out 3-state in ttl 74avc16244 74avc16244 28 agilent 16720a pattern generator specifications and characteristics data cable characteristics without a data pod the agilent 16720a data cables without a data pod provide an ecl terminated (1 k ? to ?.2v) differential signal (from a type 10e156 or 10e154 driver). these are usable when received by a differential receiver, preferably with a 100 ? termination across the lines. these signals should not be used single ended due to the slow fall time and shifted voltage threshold (they are not ecl compatible). ?3.25 v 470 ? 470 ? differential output 10e156 or 10e154 ?3.25 v ?5.2 v 1 k ? 1 k ? differential output 10e156 or 10e154 ?5.2 v 16720a 16522a 16720a cable pin outs 29 agilent 16720a pattern generator specifications and characteristics clock cable characteristics without a clock pod the agilent 16720a clock cables without a clock pod provide an ecl terminated (1 k ? to ?.2v) differential signal (from a type 10e164 driver). these are usable when received by a differential receiver, preferably with a 100 ? termination across the lines. these signals should not be used single ended due to the slow fall time and shifted voltage threshold (they are not ecl compatible). 100 ? clock in 10e116 7 8 100 ? wait 1, 2, 3 in 10h125 11, 13, 15 12, 14, 16 ?3.25 v 215 ? 215 ? clock out 10e164 ?3.25 v 30 agilent 16720a pattern generator specifications and characteristics clock pod characteristics 10460a ttl clock pod clock output type 10h125 with 47 ? series; true & inverted clock output rate 100 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 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 approximately 15 ns + 1 clk period recognition recommended lead set agilent 10474a 10463a ecl clock pod clock output type 10h116 differential unterminated; and differential with 330 ? to ?.2v and 47 ? 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 ? to ?.2v clock input rate dc to 300 mhz pattern input type ecl ?10h116 with 50 k ? (no connect is logic 0) clock-in to clock-out approximately 30 ns pattern-in to approximately 15 ns + 1 clk period recognition recommended lead set agilent 10474a 47 ? clkout 10h125 wait 10h124 clkin 10h116 ?5.2 v vbb 50 k ? clkin 10h116 ?5.2 v 330 ? 47 ? clkout 31 agilent 16720a pattern generator 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); 11 ns maximum in 9 steps (16522a only) clock input type 100el91 pecl (5v), no termination clock input rate dc to 300 mhz pattern input type 100el91 pecl (5v), no termination (no connect is logic 0) clock-in to clock-out approximately 30 ns pattern-in to approximately 15 ns + 1 clk period recognition recommended lead set agilent 10498a 10470a 3.3 volt lvpecl clock pod clock output type 100lvel90 (3.3v) with 215 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); 11 ns maximum in 9 steps (16522a only) clock input type 100lvel91 lvpecl (3.3v), no termination clock input rate dc to 300 mhz pattern input type 100lvel91 lvpecl (3.3v), no termination (no connect is logic 0) clock-in to clock-out approximately 30 ns pattern-in to approximately 15 ns + 1 clk period recognition recommended lead set agilent 10498a 42 ? 348 ? clkout clkin 100el91 100el90 42 ? 215 ? clkout clkin 100lvel91 100lvel90 32 agilent 16720a pattern generator 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) clock input rate dc to 200 mhz pattern input type 74avc16244 (3.6v max; no connect is logic 0) clock-in to clock-out approximately 30 ns pattern-in to approximately 15 ns + 1 clk period recognition recommended lead set agilent 10498a 10475a 1.8 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) clock input rate dc to 200 mhz pattern input type 74avc16244 (3.6v max; no connect is logic 0) clock-in to clock-out approximately 30 ns pattern-in to approximately 15 ns + 1 clk period recognition recommended lead set agilent 10498a clkout 74avc16244 74avc16244 wait clkin clkout 74avc16244 74avc16244 wait clkin 33 agilent 16720a pattern generator 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) clock input rate dc to 200 mhz pattern input type 74avc16244 (3.6v max; no connect is logic 0) clock-in to clock-out approximately 30 ns pattern-in to recognition approximately 15 ns + 1 clk period recommended lead set agilent 10498a e8140a lvds clock pod clock output type 65lvds179 (lvds) and 10h125 (ttl) clock output rate 200 mhz maximum (lvds and ttl) clock out delay approximately 8 ns total in 14 steps clock input type 65lvds179 (lvds with 100 ohm) clock input rate dc to 150 mhz (lvds) pattern input type 10h124 (ttl) (no connect = logic 1) clock-in to clock-out approximately 30 ns pattern-in to recognition approximately 15 ns + 1 clk period recommended lead set agilent 10498a clkout 74avc16244 74avc16244 wait clkin 100 ? 10h125 65lbds179 clk out ttl clk out lvds 65lvds179 clk in lvds 10h124 clk in lvds wait in ttl 34 power requirements all necessary power is supplied by the backplane connector of the logic analysis system mainframe. environmental characteristics indoor use only operating environment temperature 0 to 40 ? (+32 to +104 ?) when operating in a 16900a or 16902a/b mainframe. 0 to 45 ? (+32 to +113 ?) when operating in a 16901a mainframe. 0 to 50 ? (+32 to +122 ?) when operating in a 16903a mainframe. humidity 0 to 80% relative humidity at 40 ? (+104 ?). reliability is enhanced when operating within the range 20% to 80% non-condensing. altitude 0 to 3000 m (10,000 ft) vibration random vibration 5 to 500 hz, 10 minutes per axis, approximately 0.2 g rms non-operating environment temperature ?0 to +75 ? (?0 to +167 ?). protect the instrument from temperature extremes which cause condensation on the instrument. humidity 0 to 90% at 65 ? (149 ?) altitude 0 to 15,300 m (50,000 ft) vibration (in shipping carton) random vibration 5 to 500 hz, 10 minutes per axis, approximately 2.41 g rms; and swept sine resonant search, 5 to 500 hz, 0.50 g (0-peak), 5-minute resonant dwell at 4 resonances per axis. see individual probe specifications and characteristics for probe environmental characteristics. agilent module specifications and characteristics related literature publication title publication type publication number agilent 16900 series logic analysis system mainframes data sheet 5989-0421en agilent technologies 16800 series portable logic analyzers brochure 5989-5062en agilent technologies 16800 series portable logic analyzers data sheet 5989-5063en agilent technologies fpga dynamic probe for xilinx data sheet 5989-0423en agilent technologies fpga dynamic probe for altera data sheet 5989-5595en probing solutions for agilent technologies logic analyzers catalog 5968-4632e application support for agilent logic analyzers configuration guide 5966-4365e innovative digital debug solutions cd with videos cd-rom 5980-0941en the 16900 series logic analysis system also supports the following logic analysis modules. state/timing modules 16740a, 16741a, 16742a 16750a/b, 16751a/b, 16752a/b 16753a, 16754a, 16755a, 16756a www.agilent.com/find/open agilent open simplifies the process of connecting and programming test systems to help engineers design, validate and manufacture electronic products. agilent offers open connectivity for a broad range of system-ready instruments, open industry software, pc-standard i/o and global support, which are combined to more easily integrate test system development. www.agilent.com for more information on agilent technologies?products, applications or services, please contact your local agilent office. the complete list is available at: www.agilent.com/find/contactus phone or fax united states: (tel) 800 829 4444 (fax) 800 829 4433 canada: (tel) 877 894 4414 (fax) 800 746 4866 china: (tel) 800 810 0189 (fax) 800 820 2816 europe: (tel) 31 20 547 2111 japan: (tel) (81) 426 56 7832 (fax) (81) 426 56 7840 korea: (tel) (080) 769 0800 (fax) (080) 769 0900 latin america: (tel) (305) 269 7500 taiwan : (tel) 0800 047 866 (fax) 0800 286 331 other asia pacific countries: (tel) (65) 6375 8100 (fax) (65) 6755 0042 email: tm_ap@agilent.com revised: 09/14/06 product specifications and descriptions in this document subject to change without notice. ?agilent technologies, inc. 2007 printed in usa, november 1, 2007 5989-0422en www.agilent.com/find/emailupdates get the latest information on the products and applications you select. www.agilent.com/find/quick quickly choose and use your test equipment solutions with confidence. agilent email updates agilent direct agilent open remove all doubt our repair and calibration services will get your equipment back to you, performing like new, when promised. you will get full value out of your agilent equipment throughout its lifetime. your equipment will be serviced by agilent-trained technicians using the latest factory calibration procedures, automated repair diagnostics and genuine parts. you will always have the utmost confidence in your measurements. agilent offers a wide range of additional expert test and measurement services for your equipment, including initial start-up assistance onsite education and training, as well as design, system integration, and project management. for more information on repair and calibration services, go to www.agilent.com/find/removealldoubt |
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