Model # ALD-232A/CAN
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CAN bus serial information is displayed as parallel bytes in state mode |
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Quickly determine the information content of CAN transactions |
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View details of CAN bus timing with signal pass-through mode |
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View message in state mode using time tags, or in timing mode |
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Timing mode display includes extracted clock and frame marker |
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Message window boundaries are detected by the analysis probe hardware and displayed in timing mode |
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Operates non-invasively in real-time from 10kb/s to 1Mb/s |
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Decodes 11-bit and 29-bit IDs in state mode |
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CAN receiver may be powered from the CAN bus (isolated) or from the logic analyzer when Bus Power is not available from the bus |
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Save measurement setup time with predefined configuration software for the logic analyzer |
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Selectively display frame types |
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Includes all of the features of the ALD-232A Analysis Probe (RS232, RS449, and IEEE1284) |
With this comprehensive solution, designers can view CAN transactions, locate hardware faults, characterize software timing, verify performance specifications, and successfully troubleshoot CAN based systems. In conjunction with processor-specific support available with Agilent logic analyzers, users can observe time-correlated processor and bus activity. This solution provides a complete view of all CAN activity, and is compatible with current Agilent logic analyzers.
The Controller Area Network (CAN) is a serial bus which efficiently supports distributed real-time control with a very high level of security. Advanced Logical Design’s CAN Bus Analysis Probe Solution conforms to the CAN Specification Version 2.0 and CiA Draft Standard 102 Version 2.0 for the physical layer (Two-Wire Differential Transmission). It has been specifically designed to monitor Remote, Data and Error frames. The chroma and filtering capability of the Agilent 16700 family of analyzers allows selected display of various classes of frames or a detailed display of each received byte.
Additionally, Agilent logic analyzers support a number of microprocessors which have CAN peripherals. By connecting multiple analysis probes, complete debugging of CAN systems can be accomplished. For information on how to create a complete measurement system including CAN analysis, contact Agilent.
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CAN Input Receiver: Philips PCA82C251 |
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Input loading: minimum 20K, 30pf input capacitance (max), 10pf diff. |
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Probe Cable length: 15 in |
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Connectors: one male DB-9, one female DB-9 connected together |
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Power Required: ~325 mA supplied by the logic analyzer |
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Mechanical: 4.0” x 7.5" x 2.0", CAN pod: 4.0” x 1.7” x 0.8” |
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Signals supported: CANH, CANL |
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CAN Speeds: 10,20,50,100,125,250,500,800,1000 kb/s |
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CAN Connector: CiA Draft Standard 102 Version 2.0 compliant |
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User Guide |
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Diskette containing configuration files and inverse assembler |
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Pod containing CAN receiver and 9 Pin connectors (2) |
The ALD-CAN bus analysis probe may be used with all currently available 16500, 165x, 166x, 167x, 16700, 1680, 1690 and 16900 logic analyzer systems. Two 17-channel pods are required.
Display of the CAN Bus, filtering out detailed samples
Display of CAN Bus details (no filtering)
CAN timing showing extracted clock and frame marker
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Agilent Logic Analyzer |
Download
ALD-232A/CAN 1680/90/900 manual
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ALD-232A/CAN (Agilent P/N ALO60017) |
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Purchasing Information |