User's Manual
Table Of Contents
- Agilent Technologies 16750A/B Logic Analyzer
- Agilent Technologies 16750A/B Logic Analyzer
- Contents
- Getting Started
- Step 1. Connect the logic analyzer to the device under test
- Step 2. Choose the sampling mode
- Step 3. Format labels for the probed signals
- Step 4. Define the trigger condition
- Step 5. Run the measurement
- Step 6. Display the captured data
- For More Information...
- Example: Timing measurement on counter board
- Example: State measurement on counter board
- Task Guide
- Probing the Device Under Test
- Choosing the Sampling Mode
- To select transitional timing or store qualified
- Formatting Labels for Logic Analyzer Probes
- Setting Up Triggers and Running Measurements
- Displaying Captured Data
- Using Symbols
- Printing/Exporting Captured Data
- Cross-Triggering
- Solving Logic Analysis Problems
- Saving and Loading Logic Analyzer Configurations
- Reference
- The Sampling Tab
- The Format Tab
- Importing Netlist and ASCII Files
- The Trigger Tab
- The Symbols Tab
- Error Messages
- Must assign Pod 1 on the master card to specify actions for flags
- Branch expression is too complex
- Cannot specify range on label with clock bits that span pod pairs
- Counter value checked as an event, but no increment action specified
- Goto action specifies an undefined level
- Maximum of 32 Channels Per Label
- Hardware Initialization Failed
- Must assign another pod pair to specify actions for flags
- No more Edge/Glitch resources available for this pod pair
- No more Pattern resources available for this pod pair
- No Trigger action found in the trace specification
- Slow or Missing Clock
- Timer value checked as an event, but no start action specified
- Trigger function initialization failure
- Trigger inhibited during timing prestore
- Trigger Specification is too complex
- Waiting for Trigger
- Analyzer armed from another module contains no "Arm in from IMB" event
- Specifications and Characteristics
- Concepts
- Understanding Logic Analyzer Triggering
- Understanding State Mode Sampling Positions
- Getting Started
- Glossary
- Index
188
Chapter 3: Reference
Specifications and Characteristics
For sample rates = 400 MHz: 68 x
(number of modules) - 34
- Global counters: 1
- Glitch/edge recognizers: 1 per pod pair
Triggering
- Maximum Trigger Sequencer Speed: 200 MHz
- State Sequence Levels: 16
- Timing Sequence Levels: 16
- Sequence Level Branching: Arbitrary 4-way "If/then/else"
- Maximum Occurrence Count Value: 16,777,215
- Pattern Recognizers: 16
- Range Recognizers: 15
- Range Width: 32
- Occurrence Counters: 1 per sequence level
- Global Counters: 2
- Flags: 4, shared across all connected
logic analysis system frames
- Flag set/reset to evaluation: 110 ns, typical
- Timers: 2 x number of cards (200 MHz state)
(2 x number of cards) -1 (timing)
- Timer Value Range: 100 ns to 4397 seconds
- Timer Resolution: 4 ns
- Timer Accuracy: +/- 10 ns + 0.01%
- Timer Reset Latency: 60 ns
- Glitch/Edge Recognizers: 2 per pod pair (timing only)
- Minimum Detectable Glitch: 1.5 ns
- Greater Than Duration: 6 ns to 100 ms in 6-ns increments
- Less Than Duration: 12 ns to 100 ms in 6-ns increments
- Data In to Trigger Out: 150 ns, typical
Power Requirements
All necessary power is supplied by the backplane connector of
the logic analysis system mainframe.
Operating Environment Characteristics
- Indoor use only.
- Temperature
Instrument (except disk and media): 0 to 50 degrees C (+32
to 122 degrees F)
Probe lead sets and cables: 0 to 65 degrees C (+32 to
149 degrees F)
- Humidity
Instrument, probe lead sets, and cables: up to 80% relative humidity at
40 degrees C (+104 degrees F)
- Altitude Operating, to 4600 m (15,000 ft)
Non-operating, to 15,300 m (50,000 ft)
- Vibration
Operating: Random vibration 5-500 Hz, 10 minutes per axis,
approximately 0.2 g rms
Nonoperating: 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.
Reliability is enhanced when operating within the following ranges:
- Temperature +20 to 35 degrees C (+68 to 95 degrees F)
- Humidity 20% to 80% non-condensing
Storage
Store or ship the logic analyzer in environments with the following
limits:
- Temperature -40 to +75 degrees C
- Humidity up to 90% at 65 degrees C
- Altitude up to 15,300 meters (50,000 feet)
Protect the module from temperature extremes which cause condensation
on the instrument.