VXI Technology, Inc.

TABLE 4-1: SMIP II REGISTER MAP - A16

OFFSET

WRITE FUNCTION

3E

Trace Advance

3C

Busy Trigger Control

3A

Trace RAM Control

38

TTL Trigger Polarity

36

Open Trigger Select

34

Trace ADV Trigger Select

32

Trace RAM Address LOW

30

Trace RAM Address HIGH

2E

Trace RAM End LOW

2C

Trace RAM End HIGH

2A

Trace RAM Start LOW

28

Trace RAM Start HIGH

26

Module 5, 4 Used Address

24

Module 3, 2 Used Address

22

Module 1, 0 Used Address

20

NVM Access Register

1E

Reserved

1C

Interrupt Control

1A

Reserved

18

Reserved

16

Reserved

14

Reserved

12

Reserved

10

Reserved

E

Reserved

C

Reserved

A

Reserved

8

Reserved

6

Offset Register

4

Control Register

2

Reserved

0

LA Register

READ FUNCTION

Board Busy

Busy Trigger Control

Trace RAM Control

Reserved

Reserved

Reserved

Trace RAM Address LOW

Trace RAM Address HIGH

Trace RAM End LOW

Trace RAM End HIGH

Trace RAM Start LOW

Trace RAM Start HIGH

Module 5, 4 Used Address

Module 3, 2 Used Address

Module 1, 0 Used Address

NVM Access Register

Subclass Register

Interrupt Control

Interrupt Status

Reserved

Reserved

Reserved

Reserved

Reserved

Version Number

Serial Number LOW

Serial Number HIGH

Reserved

Offset Register

Status Register

Device Type Register

ID Register

38

SM8000 Series Programming

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Image 38
VXI SM8000 user manual Smip II Register MAP A16, Offset Write Function

SM8000 specifications

The VXI SM8000 is a versatile and robust modular instrumentation platform that is designed for various testing applications in industries such as aerospace, telecommunications, and military. This advanced test equipment is part of the VXI (Versatile Instrumentation System) standards, which allow for high-speed data acquisition, processing, and analysis.

One of the main features of the VXI SM8000 is its modular architecture, which enables users to configure the system according to their specific testing needs. This flexibility means that users can integrate various modules, including signal generators, oscilloscopes, and digital multimeters, making the system adaptable to a wide range of applications. The modular design also ensures scalability, allowing for easy expansion as test requirements grow.

The VXI SM8000 supports high-speed communication via its advanced backplane design. This design features multiple data buses that facilitate fast communication between modules, ensuring minimal latency and enhanced performance during testing. Moreover, the system is built to accommodate high-density modules, maximizing the amount of test parameters that can be handled simultaneously.

The SM8000 boasts enhanced signal processing capabilities thanks to its digital signal processing (DSP) technology. This feature enables real-time analysis and processing of signals, which is crucial for applications that require rapid feedback and adjustments. Additionally, the system is equipped with high-resolution analog-to-digital converters, ensuring precise measurement and analysis.

One of the key characteristics of the VXI SM8000 is its reliability. Built with robust materials and advanced engineering, the system is designed to endure rigorous testing environments and extreme operating conditions. This durability ensures consistent performance over time, making it a reliable choice for critical applications.

Furthermore, the VXI SM8000 is compatible with various software platforms, enabling seamless integration into existing testing environments. It supports programming languages like LabVIEW and MATLAB, allowing engineers to develop customized test scripts and configurations easily.

In summary, the VXI SM8000 is a powerful and flexible test system that combines modularity, high-speed communication, advanced signal processing, and compatibility with industry-standard software. Its reliability and scalability make it an ideal choice for professionals seeking a comprehensive testing solution across various sectors.