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Manual HP HP 16500A
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Front -Panel Operation Reference HP 16510BLogic Analyzer Module for the HP 16500A Logic Analysis System ÿ Copyright Hewlett-Packard Company 1989 Manual Set Part Number 16510-90913 Printed in the U.S.A. June 1989
Printing History New editions are complete revisions of the manual. Update packages, whichare issued between editions, contain additional and replacement pages to bemerged into the manual by the customer. The dates on the title page changeonly when a new edition or a new update is published. A softw...
List of Effective Pages The List of Effective Pages gives the date of the current edition and of anypages changed in updates to that edition. Within the manual, any pagechanged since the last edition is indicated by printing the date the changeswere made on the bottom of the page. If an update is in...
Introduction About thismanual... Welcome to the new generation of HP logic analyzers! The HP 16500ALogic Analysis System has been designed to be easier to use than anyHewlett-Packard logic analyzer before. In addition, because of itsconfigurable architecture, it can easily be tailored to you specifi...
Contents Chapter 1: General Information Logic Analyzer Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 User Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1Configuration Capabilities . . . . . . . . . . . . . . . ...
Appencix C: Specifications and Characteristics Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1 Probes . . . . . . . . . . . . . ...
1 General Information Logic AnalyzerDescription The HP 16510B logic analyzer is part of a new generation of generalpurpose logic analyzers with improved features to accommodate nextgeneration design tasks. The 80-channel HP 16510B logic analyzer is capable of 100 MHz timingand 35 MHz state analysis ...
The knob on the front panel is used to move the cursor on certain menus,increment or decrement numeric fields, and to roll the display. The touchscreen fields can be selected by touch or with the optionalmouse. To activate a touchscreen field by touch, touch or press the field(the dark blue box) on ...
Key Features Two 3.5-inch disk drives are integral to the instrument for storing logicanalyzer configurations and acquired data. The disk drive also provides away of loading inverse assembly configuration files into the logic analyzerfor configuring ease. Additional key features of both models inclu...
2 Probing Introduction This chapter contains a description of the probing system of theHP 16510B logic analyzer. It also contains the information you need toconnect the probe system components to each other, to the logic analyzer,and to the system under test. ProbingOptions You can connect the HP 16...
You can connect the probe directly to the test pins on your target system.To do so, the pins must be 0.63 mm (0.025 in.) square pins or round pinswith a diameter of between 0.66 mm (0.026 in.) and 0.84 mm (0.33 in.). Each probe has an input impedance of 100 k Ω in parallel with approximately 8 pF. P...
Signal LineLoading Any signal line you intend to probe must be able to supply a minimum of600 mV to the probe tip, which has an input impedance of 100 k Ω shunted by 8 pF. If the signal line is incapable of this, you will not only have anincorrect measurement but the system under test may also malfu...
3 Using the Front-Panel Interface Introduction This chapter gives you an overview of how to use the front-panel interface. The front-panel user interface is merely accessing the many menus andusing the convenient touch-screen to move around the menu tree. Thefront panel itself consists of a disk dri...
How toSelect Menus Before you try to select one of the main menus, make sure the field in theupper left-hand corner is set to State/Timing E. If the HP 16500A is inSystem or Intermodule, touch that field and select State/Timing E whenthe pop-up appears. Note The field containing State/Timing (x) may...
How to ClosePop-up Menus Some pop-up menus automatically close when you touch a desired field.After closing, the logic analyzer places your choice in the main menu fieldfrom which you opened the pop-up. Other pop-up menus don’t automatically close when you make yourselection (i.e. alphanumeric keybo...
When you touch one of these the pop-up will close, however, the originalclock pop-up still remains open. When you are finished specifying thechoices for the clocks, you close the original pop-up menu by touchingDone. How to EnterNumeric Data There are a number of pop-up menus in which you enter nume...
Assignment/SpecificationMenus There are a number of pop-up menus in which you can assign or specifywhat you want the logic analyzer to do. The basic menus of this typeconsist of: • Assigning bits to pods • Specifying patterns • Specifying edges Assigning Pod Bits to Labels The bit assignment fields ...
Specifying Patterns The Pattern field appears in several menus. Patterns can be specified inone of the available number bases. Patterns can be viewed in ASCII, butcannot be entered in ASCII. The convention for "don’t care" in these menus is an X except in thedecimal base. If the base is set ...
Specifying Edges You can select a positve-going ( ↑ ), negative-going ( ↓ ), and either edge ( ) for your trigger. To specify edges, enter the Trace menu and follow these steps: 1. Touch the field in the bottom left corner of the display. This field is labeled Edge. You will see the following pop-up...
4 Using the Menus Introduction This chapter contains menu maps of the HP 16510B logic analyzer. Sincethe front-panel user interface consists mainly of menus that you access toconfigure the logic analyzer, the menu maps provide quick reference to themenus, menu options, and ultimately the functions o...
5 Menus Introduction This chapter describes the menus and pop-up menus that you will use onyour logic analyzer. The purpose and functions of each menu areexplained in detail, and we have included many illustrations and examplesto make the explanations clearer. The main menus of the logic analyzer ar...
4 Pods Each pod can be assigned to one of the analyzers. When the HP 16510BLogic Analyzer is powered up, Pod 1 is assigned to Analyzer 1 and Pod 5is assigned to Analyzer 2. To assign a pod, touch the pod field. With the pop-up that appears, youcan assign the pod to Analyzer 1, Analyzer 2, or Unassig...
These menus show only one pod assigned to each analyzer at power up.Any number of pods can be assigned to one analyzer, from none to allfive. In the Format menus, only three pods appear at a time in the display.If there are any pods off screen, an additional field will be present. Thisfield is label...
2 Polarity (Pol) Each label has a polarity assigned to it. The default for all the labels ispositive ( + ) polarity. You can change the polarity of a label by touchingthe polarity field. This toggles the polarity between positive ( + ) andnegative ( − ). In the state analyzer, negative polarity inve...
Assigning one channel per label may be handy in some applications. Thisis illustrated in chapter 7 of the HP 16510B Getting Started Guide. Also,you can assign a channel to more than one label, but this usually isn’tdesired. Labels may have from 1 to 32 channels assigned to them. If you try toassign ...
If you touch the pod threshold fields you will see the following pop-upmenu. TTL sets the threshold at +1.6 volts, and ECL sets the threshold at − 1.3 volts. The User option lets you set the threshold to a specific voltage between − 9.9 V and +9.9 V. If you select this option you will see a numeric ...
6 Clock The Clock field is present in the Format Specification menu only in thestate analyzer. This field displays the clocks that are to be used to clockthe logic analyzer. The display will be referred to as the "clockingarrangement." The HP 16510B Logic Analyzer has five clock channels, ea...
With this menu you set the condition needed by each clock. You canspecify that the logic analyzer looks for the negative edge of the clock, thepositive edge, either edge, a high level, or a low level, or you can turn theclock off. The clocks are combined by ORing and ANDing them. Clock edges areORed...
With this arrangement, the logic analyzer will clock the data when there isa negative edge of the J clock OR a positive edge of the K clock, ANDwhen there is a high level on the M clock OR a low level on the N clock. You must always specify at least one clock edge. If you try to use onlyclock levels...
Normal. This option specifies that clocking will be done in single phase.That is, the clocking arrangement located in the Clock field above thepods in the State Format Specification menu will be used to clock all data(pods) assigned to this machine. For example, suppose that the Clock field looks li...
8 Clock Period This field provides greater measurement accuracy when your state inputclock period is greater than 60 ns. When you select > 60 ns, the stateanalyzer provides greater immunity against noise or ringing in the stateinput clock signal; therefore, the logic analyzer provides greater acc...
Timing TraceSpecification Menu Fields The fields in the Timing Trace Specification menu are: 1) Run/Trace Mode2) Armed by3) Acquisition mode4) Label5) Base6) Find Pattern7) Pattern Duration (present for ______)8) Then find Edge These are described in the following sections. 1 Run/Trace Mode You spec...
Single Trace mode acquires data once per trace. Repetitive Trace moderepeats single acquisitions until Stop is touched, or until the time intervalbetween two specified patterns is less than or greater than a specifiedvalue, or within or not within a specified range. The Stop Measurementfeature is ex...
With these glitch detection fields you specify on which channel orchannels you want the analyzer to look for a glitch. These fields arediscussed in more detail in the "Then Find Edge" section later in thischapter. Glitch Acquisition mode causes the storage memory to be cut in half, from1k to...
5 Base The Base fields allow you to specify the number base in which you wantto define a pattern for a label. The Base fields also let you use a symbolthat was specified in the Timing Symbol Table for the pattern. Each labelhas its own base defined separately from the other labels. If you select one...
The Symbol option in the Base pop-up allows you to use a symbol thathas been specified in the Timing Symbol Tables as a pattern, or specifyabsolute and enter another pattern. You specify the symbol you want touse in the Find Pattern field. 6 Find Pattern With the Find Pattern fields, you configure y...
If you select this field you get a pop-up similar to that shown: The pop-up lists all the symbols defined for that label. It also contains anoption absolute. Placing the blue bar on this option causes another fieldwithin the pop-up to appear. This field is labeled offset______. The offsetfield lets ...
7 Pattern Duration (present for______) There are two fields with which you specify the Pattern Duration. Theyare located next to present for ______ in the Timing Trace Specificationmenu. You use these fields to tell the timing analyzer to trigger before orafter the specified pattern has occurred for...
As an example, suppose you configure the present for field as shown: This configuration tells the timing analyzer to look for a certain patternspecified by you that has a duration of greater than 50 ns. Once the timinganalyzer has found the pattern, it can look for the trigger. Choosing < (less t...
8 Then Find Edge With the Then find Edge fields you can specify the edges (transitions) ofyour data on which your timing analyzer triggers. You can specify apositive edge, a negative edge, or either edge. Each label has its own edgetrigger specification field so that you can specify an edge on any c...
If you want to delete an edge specification, place the cursor on the arrowfor that channel and touch the . (period). To clear an entire label, touchCLEAR in the pop-up. When you have finished specifying edges, touch Done to close the pop-up. An example of a positive, negative, and either edge specif...
Note If two multi-pod state analyzers are on, the qualifier pop-up menu willshow that only four pattern recognizers are available to each analyzer.Pattern recognizers a-d and the range recognizer go with the first analyzercreated, and pattern recognizers e-h go with the second analyzer. In theFull Q...
5 Occurrence Counter The primary branching qualifier has an occurrence counter. With theoccurrence counter field you specify the number of times the branchingqualifier is to occur before moving to the next level. To change the value of the occurrence counter, touch the field. You willsee a pop-up si...
AcquisitionFields The acquisition fields are comprised of the Trace mode, Armed by,Branches, Count, and Prestore fields, as shown below. 1 Run/Trace Mode You specify the mode in which the timing analyzer will trace when youtouch Run. You have two choices for trace mode: Single and Repetitive.When yo...
3 Branches The Branches field allows you to configure the sequencer of your stateanalyzer to branch from one sequence level to another with secondarybranching qualifiers, or to restart when a certain condition is met.Selecting this field gives you the following pop-up menu. Off. If you select Off, a...
4 Count The Count field allows you to place tags on states so you can count them.Counting cuts the acquisition memory in half from 1k to 512, and themaximum clock rate is reduced to 16.67 MHz. Selecting this field gives you the following pop-up menu. Off. If you select Off, the states are not counte...
An example of a state listing with state tagging relative to the trigger isshown below. 5 Prestore Prestore allows you to store two qualified states before each state that isstored. There is only one qualifier that enables prestore for eachsequence level. If you select this field, you will see a pop...
Qualifier andPattern Fields The qualifier and pattern fields appear at the bottom of the State TraceSpecification menu. They allow you to specify patterns for the qualifiersthat are used in the sequence levels. 1 Label The Label fields display the labels that you specified in the State FormatSpecifi...
3 Qualifier Field If you select the qualifier field, you will see the following pop-up menu. Patterns. The pattern recognizers are in two groups of four: a-d and e-h.If you select one of these two options, the qualifier field will contain onlythose pattern recognizers. For instance, the qualifier fi...
Only one range can be defined, and it can be defined over only one label,hence over only 32 channels. The channels don’t have to be adjacent toeach other. The logic analyzer selects the label over which the range willbe defined by looking at the labels in order and choosing the first one thathas cha...
6 Interpreting the Display Introduction This chapter describes the Timing Waveforms and State Listing menusand how to interpret them. It also tells you how to use the fields in each ofthese menus to manipulate the displayed data so you can find yourmeasurement answers. The TimingWaveformsMenu The Ti...
Markers(Timing) The Markers field allows you to specify how the X and O markers will bepositioned on the timing data. The options are: • Off • Time • Patterns • Statistics Markers Off/ Sample Period When the markers are off they are not visible and the sample rate isdisplayed. In transitional timing...
Markers Pattern When the markers are set to pattern you can specify patterns that the logicanalyzer will place the markers on. You can also specify how manyoccurrences of each marker pattern the logic analyzer looks for. This useof the markers allows you to find time between specific patterns in the...
Markers Statistics When statistics are specified for markers, the logic analyzer displays: • Number of total runs • Number of valid runs (runs where markers were able to be placed onspecified patterns) • Minimum time between the X and O markers • Maximum time between the X and O markers • Average ti...
Delay Field The delay field allows you to enter a delay. The delay can be eitherpositive or negative. Delay allows you to place the time window (selectedby s/Div) of the acquired data at center screen. The center tic mark at the horizontal center and top of the waveforms arearepresents trigger + del...
Markers Off When the markers are off they are not displayed, but are still placed at thespecified points in the data. If Stop measurement is on and the Stopmeasurement criteria are present in the data, the measurement will stopeven though the markers are off. Markers Pattern When the markers are set...
The Time X to O field will change according to the position of the X andO markers. It displays the total time between the states marked by the Xand O markers. Markers Statistics When statistics are specified for markers, the logic analyzer will displaythe: • Total runs • Number of valid runs (runs w...
7 Using The Timing Analyzer Introduction In this chapter you will learn how to use the timing analyzer by setting upthe logic analyzer to make a simple measurement. We give you themeasurement results as actually measured by the logic analyzer, since youmay not have the same circuit available. The ex...
What Am IGoing toMeasure? After configuring the logic analyzer and hooking it up to your circuitunder test, you will be measuring the time (x) from when the RAS goeslow to when the CAS goes high, as shown below. How Do IConfigure theLogic Analyzer? In order to make this timing measurement, you must ...
Connecting theProbes At this point, if you had a target system with a 4116 DRAM memory IC,you would connect the logic analyzer to your system. Since you will be assigning Pod 1 bit 0 to the RAS label, you hook Pod 1bit 0 to the memory IC pin connected to the RAS signal. You hook Pod 1bit 1 to the IC...
Specifying aTriggerCondition To capture the data and then place the data of interest in the center of thedisplay of the timing waveform menu, you need to tell the logic analyzerwhen to trigger. Since the first event of interest is when the LRAS isasserted (negative-going edge of RAS), you need to te...
The TimingWaveform Menu The timing waveform menu differs from the other menus you have usedso far in this exercise. Besides displaying the acquired data, it has menufields that you use to change the way the acquired data is displayed andfields that give you timing answers. Before you can use this me...
Display Resolution You get the best resolution by changing the seconds per division (s/Div) toa value that displays one negative-going edge of both the RAS and CASwaveforms. Set the s/Div by following these steps. 1. Touch the s/Div field one time (the field will turn light blue) to allow you to adj...
Summary You have just learned how to make a simple timing measurement with theHP 16510B logic analyzer. You have: • specified a timing analyzer • assigned pod 1 • assigned bits • assigned labels • specified a trigger condition • learned which probes to connect • acquired the data • configured the di...
8 Using The State Analyzer Introduction In this chapter you will learn how to use the state analyzer by setting upthe logic analyzer to make a simple state measurement. We give you themeasurement results as actually measured by the logic analyzer, since youmay not have the same circuit available. Th...
Your measurement, then, requires verification of the sequential addressesthe microprocessor looks to and of the data in ROM at these addresses. Ifthe reset vector fetch is correct (in this example), you will see thefollowing list of numbers in HEX (default base) when your measurementresults are disp...
3. Name Analyzer 1 68000STATE (optional) a. Touch the field to the right of Name: ________. b. When the alphanumeric keyboard pop-up appears, touch the appropriate keys to change the name to 68000STATE. c. Touch DONE when you finish entering the name. 4. Assign pods 1, 2, and 3 to the state analyzer...
b. When the pop-up appears, touch Modify Label. c. With the alphanumeric keypad, change the name of the label to ADDR. d. Touch DONE to close pop-up. e. Name the second label DATA. Figure 8-4. Label Selection Figure 8-5. Format Specification with Labels HP 16510B Using the State Analyzer Front-Panel...
4. Assign Pod E2 bits 0 through 15 to the label ADDR by repeating step 3. 5. Assign Pod E3 bits 0 through 7 to the label ADDR. 6. Unassign any assigned bits in the ADDR label under Pod E1. The State Format Specification menu should now look like that below. Figure 8-8. Format Specification with Bits...
Specifying theJ Clock If you remember from "What’s a State Analyzer" in Feeling ComfortableWith Logic Analyzers, the state analyzer samples the data under the controlof an external clock which is "synchronous" with your circuit under test.Therefore, you must specify which clock probe...
b. In the pop-up, touch the field to the right of J. c. Touch the field with the arrow pointing down to select a negative going edge. 3. Turn off all other clocks (K-N) if any are on by repeating steps a through c using the Off option and then touch Done to close thepop-up. Figure 8-10. J Clock Sele...
Specifying aTriggerCondition To capture the data and place the data of interest in the center of thedisplay of the state listing menu, you need to tell the state analyzer whento trigger. Since the first event of interest is address 0000, you need to tellthe state analyzer to trigger when it detects ...
The StateListing The state listing displays three columns of numbers as shown: The first column of numbers are the state line number locations as theyrelate to the trigger point. The trigger state is on the line 0 in the verticalcenter of the list area. The negative numbers indicate states occurring...
9 State Compare Menu Introduction State compare is a software post-processing feature that provides theability to do a bit by bit comparison between the acquired state data listingand a compare data image. You can view the acquired data and thecompare image separately. In addition, there is a separa...
10 State Waveform Menu Introduction The State Waveform Menu allows you to view state data in the form ofwaveforms identified by label name and bit number. Up to 24 waveformscan be displayed simultaneously. Only state data from the current statemachine can be displayed as waveforms in the State Wavef...
11 State Chart Menu Introduction The State Chart Menu allows you to build X-Y plots of label activityusing state data. The Y-axis always represents data values for a specifiedlabel. You can select whether the X-axis represents states (i.e., rows in theState List) or the data values for another label...
Scaling theAxes Either axis can be scaled by using the vertical or horizontal min(minimum) or max (maximum) value fields. When you select any one ofthe min or max fields a pop up appears in which you specify the actualminimum and maximum values that will be displayed on the chart (seefigure 11-1). W...
Marker Options The marker options in the State Chart menu depend on what Count is setto in the State Listing menu. When Count is set to Off the Chart markers can be set to: • Off • Pattern When Count is set to Time the Chart markers can be set to: • Off • Pattern • Time • Statistics When Count is se...
12 Using the Timing/State Analyzer Introduction In this chapter you will learn how to use the timing and state analyzersinteractively by setting up the logic analyzer to make a simplemeasurement. We give you the measurement results as actually measuredby the logic analyzer, since you may not have th...
Setting theTiming AnalyzerTrigger Your timing measurement requires the timing analyzer to display thetiming waveforms present on the buses when the routine is running. Sinceyou triggered the state analyzer on address 8930, you want to trigger thetiming analyzer so the timing waveforms can be time co...
The TimingWaveform Menu After pods 4 and 5 are connected, you can re-acquire the data. However,first assign the labels in the Timing Waveform menu. Displaying the Waveforms Display the Timing Waveform menu. Touch the long blue field on the leftside of the screen. The pop-up should look like that bel...
This is not the order we want them in. We want LDS before UDS. Tocorrect this, follow these steps: 1. Use the knob to place the cursor on the label LDS in the long blue label field. 2. Touch the field labeled Delete. This erases LDS. 3. Use the knob to place the cursor over the label AS. Touch the L...
LDS appears in the blue label area in the correct position. Now we want to put ADDR and DATA in the long blue label area. Position the cursor on R/W in the long blue label field. Touch ADDRunder Labels in the pop-up. Since ADDR has eight bits assigned to it,eight labels appear in the label field, on...
4. Touch the ADDR label field under Labels. 5. Touch the DATA label field under Labels. The screen should look like that shown below. In the long blue label field ADDR and DATA have "all" next to them toshow that the bits are overlapped. Touch the Done field to close thepop-up. Re-acquiringt...
Finding theAnswer As you look at the overlapping waveforms, you notice there are transitionson the data lines during the read, indicating the data is unstable, which isthe probable cause of the problem you’ve been looking for. You have found what is causing the problem in this routine. Additionaltro...
13 Using a Printer Setting PrinterConfiguration All printer parameters are set in the System Configuration menu. If youhave just connected your printer and are unsure of how to set theconfiguration, refer to the HP 16500A Reference Manual chapter entitledConnecting a Printer. The HP 16500A supports ...
14 Microprocessor Specific Measurements Introduction This chapter contains information about the optional accessories availablefor microprocessor specific measurements. In depth measurementdescriptions are in the operating notes that come with each of theseaccessories. The accessories you will be in...
The inverse assembler file is a software routine that will display capturedinformation in a specific microprocessor’s mnemonics. The DATA fieldin the state listing is replaced with an inverse assembly field (see Figure14-1). The inverse assembler software is designed to provide a display thatclosely...
LoadingInverseAssembler Files You load the inverse assembler file by loading the appropriateconfiguration file. Loading the configuration file automatically loads theinverse assembler file. Selecting theCorrect File Most inverse assembler disks contain more than one file. Each diskusually contains a...
A Installing New Logic Analyzer Boardsinto the Mainframe Introduction This appendix explains, how to initially inspect the HP 16510BState/Timing Module, how to prepare it for use, storage and shipment.Also included are procedures for module installation. InitialInspection Inspect the shipping contai...
Probe CableInstallation The HP 16510B State/Timing Module comes with probe cables installedby the factory. If a cable is to be switched or replaced, refer to "ProbeCable Replacement" in Section VI of the HP 16510B Service Manual. Installation Caution Do not install, remove or replace the mod...
Procedure a. Turn the front and rear panel power switches off, unplug power cord and disconnect any input BNCs. b. Starting from the top, loosen thumb screws on filler panel(s) and card(s). c. Starting from the top, begin pulling card(s) and filler panel(s) out half way. See figure A-1. Figure A-1. ...
d. Lay the cable(s) flat and pointing out to the rear of the card. See figure A-2. e. Slide the analyzer card approximately half way into the card cage. f. If you have more analyzer cards to install repeat step d and e. Figure A-2. Cable Position Installing New Logic Analyzer Boards into the Mainfra...
g. Firmly seat bottom card into backplane connector. Keep applying pressure to the center of card endplate while tightening thumbscrews finger tight. h. Repeat for all cards and filler panels in a bottom to top order. See figure A-3. i. Any filler panels that are not used should be kept for future u...
OperatingEnvironment The operating environment is listed in "General Characteristics" inAppendix C of this manual. Note should be made of the non-condensinghumidity limitation. Condensation within the instrument can cause pooroperation or malfunction. Protection should be provided against in...
Packaging The following general instructions should be used for repacking themodule with commercially available materials. • Wrap module in anti-static plastic. • Use a strong shipping container. A double-wall carton made of 350lb. test material is adequate. • Use a layer of shock-absorbing material...
B Error Messages This appendix lists the error messages that require corrective action torestore proper operation of the logic analyzer. There are several messagesthat you will see that are merely advisories and are not listed here. Forexample, "Load operation complete" is one of these advis...
C Specifications and Characteristics Introduction This appendix lists the specifications, operating characteristics, andsupplemental characteristics of the HP 16510B Logic Analyzer Module. Specifications Probes Minimum Swing: 600 mV peak-to-peak. Threshold Accuracy: Voltage Range Accuracy − 2.0V to ...
Timing Mode Minimum Detectable Glitch: 5 ns wide at the threshold. OperatingCharacteristics Probes Input RC: 100 K Ω ± 2% shunted by approximately 8 pF at the probe tip. TTL Threshold Preset: +1.6 volts. ECL Threshold Preset: − 1.3 volts. Threshold Range: − 9.9 to +9.9 volts in 0.1V increments. Thre...
MeasurementConfigurations Analyzer Configurations: Analyzer 1 Analyzer 2 Timing Off Off Timing State Off Off State Timing State State Timing State State Off Off Channel Assignment: Each group of 16 channels (a pod) can be assignedto Analyzer 1, Analyzer 2, or remain unassigned. The HP 16510Bcontains...
Range Recognizers: Recognizes data which is numerically between or ontwo specified patterns (ANDed combination of 0s and/or 1s). One rangeterm is available and is assigned to the first state analyzer turned on. Themaximum size is 32 bits. Qualifier: A user-specified term that can be anystate, nostat...
Symbols Pattern Symbols: User can define a mnemonic for the specific bit patternof a label. When data display is SYMBOL, mnemonic is displayed wherethe bit pattern occurs. Bit pattern can include 0s, 1s, and don’t cares. Range Symbols: User can define a mnemonic covering a range of values.Bit patter...
Waveform Display Sec/div: 10 ns to 100 s; 0.01% resolution. Delay: − 2500 s to 2500 s; presence of data dependent on the number of transitions in data between trigger and trigger plus delay (transitionaltiming). Accumulate: Waveform display is not erased between successiveacquisitions. Overlay Mode:...
Marker Functions Time Interval: The X and 0 markers measure the time interval betweenone point on a timing waveform and trigger, two points on the sametiming waveform, two points on different waveforms, or two states (timetagging on). Delta States: (State Analyzer Only) The X and 0 markers measure t...
Auxiliary Power Power Through Cables: 2/3 amp @ 5V maximum per cable. Current Draw Per Card: 2 amp @ 5V maximum per HP 16510B OperatingEnvironments Temperature: Instrument, 0 to 55 ° C (+32 to 131 ° F). Probe lead sets and cables, 0 to 65 ° C (+32 to 149 ° F). Humidity: Instrument, up to 95% relativ...
ProductWarranty This Hewlett-Packard product has a warranty against defects in material andworkmanship for a period of one year from date of shipment. Duringwarranty period, Hewlett-Packard Company will, at its option, either repairor replace products that prove to be defective. For warranty service...
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