Omega Engineering BNC-08DI, BNC-16DI, BNC-16SE manual External Trigger

Page 13

EXTERNAL TRIGGER

The EXTERNAL TRIGGER BNC connectors B17 and B18 are provided for applications that require external digital triggering of the data acquisition board. These connectors could also be used in applications requiring synchronization to the digital trigger signal.

The digital trigger signal is available on connectors P1-P4 as illustrated in the following diagram.

P6 & P7

The internal PC board of the BNC enclosures (BNC16DI/SE only) contain 3 pin headers P6 and P7 which allows the user to modify the function of BNC’s B15 and B16 from analog inputs to D/A outputs. Users should consult their DAS manual’s I/O connector pin assignment section to verify that the data acquisition board being used has D/A output capability.

P6 & P7 Position

B15 & B16

 

 

1-2

Analog Input Mode

2-3

D/A Output Mode

10

Image 13
Contents User’sGuide WARRANTY/DISCLAIMER Table of Contents Introduction Introduction B1-B16 BNC-08DIExternal Trigger P4 & P5 BNC-16DIPage P6 & P7 3 BNC-16SE Page External Trigger 3 P1 Connector MAP &RQQHFWRU0DSIRU%1& Board Compatibility DAS Boards Input Configuration6,QSXW&RQILJXUDWLRQ Input Configurations,,QSXW&RQILJXUDWLRQ RSX Page Board Accessibility EC Declaration of Conformity Servicing North America Temperature

BNC-08DI, BNC-16DI, BNC-16SE, BNC-08DI specifications

Omega Engineering has made significant strides in industrial measurement and control solutions, particularly with their series of data acquisition and control devices, such as the BNC-08DI, BNC-08DI, BNC-16DI, and BNC-16SE. Each of these models represents advanced technology designed to meet various industrial applications, offering reliability, versatility, and ease of use.

The BNC-08DI is a compact, high-performance data acquisition module designed for managing digital signals from eight channels. Its primary feature is the ability to interface with a variety of sensors, enabling the monitoring and control of processes efficiently. The device boasts a robust design suitable for harsh environments, making it ideal for industrial applications. The BNC-08DI supports a variety of input types, ensuring compatibility with many sensor styles.

Similarly, the BNC-16DI expands this capability by managing up to sixteen digital inputs, making it suitable for larger installations. This module features integrated signal conditioning, which enhances the accuracy of readings by filtering noise from digital signals. Its user-friendly interface and flexible configuration options allow engineers to tailor the device’s operation to specific project needs. With its enhanced channel count, the BNC-16DI is often employed where detailed monitoring of multiple variables is crucial.

On the other hand, the BNC-16SE model focuses on the needs of systems requiring both digital input and output capabilities. This dual-functionality makes the BNC-16SE particularly valuable in automation and control environments, where real-time data acquisition and responsive control are paramount. The device presents a seamless integration with various communication protocols, enabling easy interfacing with industry-standard automation systems.

Key technologies employed in these devices include high-speed processing capabilities for rapid data acquisition and advanced signal processing algorithms that ensure high reliability and accuracy of measurements. Their construction emphasizes durability and long-term performance, featuring robust connectors and enclosures that withstand environmental challenges.

Overall, the Omega Engineering BNC-08DI, BNC-16DI, and BNC-16SE models represent cutting-edge solutions for industrial applications. Their combination of functionality, flexibility, and rugged design makes them indispensable tools for engineers working across various sectors, including manufacturing, process control, and automation. Each model contributes to enhanced operational efficiency, allowing organizations to achieve precise monitoring and control of critical parameters in their processes.