SUIN SA8320 高速逻辑分析仪 (32 CH)
制造商: SUIN Model: SA8320 - 联系
Input
Input Channel: 32 data sampling channels, 2 external clock channels
Threshold Voltage
6 independent and adjustable threshold voltages
Adjustable Range: -6V ~ +6V
Resolution: 0.1V
Input Impedance: R ^ >100 kΩ, C ^ <8 pf
Sample/Memory
Sampling Rate
Timing Rate: 1Hz ~ 100MHz (Period 10ns ~ 1s), Resolution: 10ns
State Rate: 1Hz ~ 35MHz
Sampling Phase: rise edge, fall edge
Memory Depth: 256k bytes / channel
Trigger
Trigger Condition: 32 bits trigger level, 32 bits trigger comparand
Event Count: 1 ~ 999
Memory Delay: 1~ 260000 sampling cycles
Pattern Generator
Pattern Type
CH00 to CH15 are counters with adding 1
CH16 to CH29 are shift pulse
CH30 to CH31 monitor external clk1 and clk2
Pattern Rate
Frequency: 1Hz ~ 50MHz(period 20ns ~ 1s) resolution:10ns
General Characteristics
Power: AC220V(1±10%), 50Hz(1±5%), ≤10VA
Display: 5.7' TFT LCD
Dimension & Weight: 329×283×155mm, Approx. 4.3kg
Standard Accessories
Power Cord: 1pcs
BNC Testing Cable: 1pcs
CD(Software+ User's Guide): 1pcs
High-Speed Logic Analyzer is a sophisticated instrument used to capture and analyze digital signals in electronic circuits, especially those operating at high speeds. It is crucial for debugging, verifying, and optimizing digital systems, providing insights into the timing and logic state of digital signals.
Key Features:
High Sampling Rate: Modern high-speed logic analyzers offer sampling rates in the gigahertz (GHz) range, enabling them to capture fast-changing digital signals with precision.
Multi-Channel Support: They can monitor multiple channels simultaneously, which is essential for analyzing complex digital systems with many interdependent signals.
Deep Memory: Deep memory buffers allow for extended data capture, enabling detailed analysis over longer periods.
Triggering Capabilities: Advanced triggering options help in isolating specific events or conditions within the digital signal stream, making it easier to debug complex issues.
Protocol Analysis: Many high-speed logic analyzers support protocol analysis for common standards like I2C, SPI, USB, and Ethernet, facilitating the debugging of communication interfaces.
User Interface: Intuitive software interfaces with graphical displays and comprehensive analysis tools enhance the user experience and productivity.
Applications:
Embedded Systems Development: Essential for debugging and optimizing microcontroller-based systems, ensuring correct logic states and timing.
Digital Circuit Design: Used in the design and verification of digital circuits, including FPGAs and ASICs, to ensure proper functionality.
Communication Systems: Crucial for analyzing and debugging digital communication protocols and interfaces.
Computer Hardware: Used in the development and testing of computer hardware components, such as CPUs, memory modules, and peripheral interfaces.
Automotive Electronics: Important for verifying the functionality and timing of automotive electronic control units (ECUs) and other digital systems.
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