NotaTech 8000SeriesI/O manual NT-8109-DI-DC, Dc, isolated, sinking

Page 17

®

NT-8109-DI-DC

. 8 discrete isolated inputs

. 24 V dc field voltage sources

. User definable input threshold

. Pulse counting option

Module Specifications

 

 

Inputs

 

 

Number of channels

8

OFF voltage

< 3.2 V dc

ON voltage

> 11 V dc

Wetting current

6.3 mA (nom.) @ 24 V dc

Minimum pulse width detected

3 ms

Maximum switching frequency (no-filtering)

....................200 Hz

Maximum voltage

 

 

Input

30 V dc

Reverse input

– 25 V dc

Configurable Parameters

 

 

Selectable input filter

fast, slow or user defined

(User defined permits 0 to 512 ms values in 2ms steps)

Latch inputs

enable /disable

Latch polarity

latch on high / latch on low

Pulse counting

enable /disable

Response Time

 

 

I/O response time

 

 

Field event to new data available on Railbus

3 ms (max.)

Safety

FM non-incendive field wiring parameters (each channel)

........................Vmax = 30 V; Imax = 100 mA; Ci = 0 μF; Li = 0 mH

Power Supplies

 

 

 

Railbus (12V) current

......................................................35 mA (typ.)

...........................................................................................

 

 

 

55 mA (max.)

Bussed Field Power

not required

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Copyright © 2007 NovaTech, LLC. All rights reserved. All trademarks are properties of their respective owners. NovaTech is a registered trademark of NovaTech, LLC. The information in this literature is subject to change without notice and is not to be construed as a warranty. DS_8109_0607

8-channel Discrete Input

24 V dc, isolated, sinking

NovaTech 8000 Series I/O Family

Mechanical

 

 

Module Key Code

 

B2

Module width

 

42 mm

Weight

 

170 g

Image Description

 

 

Field Terminals

 

 

Field Wiring

Recommended

Compatible

 

Field Terminal

Field Terminal

General Purpose

NT-8602-FT-ST

NT-8604-FT-FU

 

Standard †

Fused

 

 

 

Class 1, Div 2

NT-8601-FT-NA

NT-8611-FT-FU

or Zone 2 hazard-

Non-arcing

Non-arcing,

ous area

 

Fused

 

 

 

External fusing of the Field Power supply is recommended in order to protect the field wiring.

Contact:

NovaTech Process Solutions, LLC

T: 410.753.8300

 

 

11500 Cronridge Dr., Suite 110

Toll Free: 800.253.3842

 

 

Owings Mills, MD 21117

www.novatechweb.com

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Contents Series I/O This page intentionally left blank Contents Overview Node Architecture NovaTech 8000 Series I/O Components Ethernet Bus Interface Module Ebim MA with Hart NT-8101-HI-TX20 mA NT-8103-AI-TXField Terminals Configurable ParametersNT-8119-VI-05 NT-8132-AI-UN RTD Input 2 or 3 Wire20mA Inputs Thermocouple InputsVoltage Input General SpecificationsNT-8105-TI-TC Configurabe ParametersThermocouple and mV Response TimesRTD and Ω NT-8106-TI-RTChannel Analog Output NT-8102-HO-IPNT-8104-AO-IP Module Specifications OutputsDc, isolated, sinking NT-8109-DI-DCNT-8110-DI-DC Dc, non-isolated, module poweredNT-8121-DI-DC Dc, non-isolated, module-poweredNT-8122-DI-DC Ac, isolated, sinking NT-8111-DI-ACNT-8112-DI-AC NT-8113-DI-AC Response Time I/O response time NT-8114-DI-ACChannel Discrete Output NT-8115-DO-DCNT-8117-DO-DC Dc, isolated, unpoweredNT-8116-DO-AC NT-8118-DO-AC Ac, isolated, unpowered

8000SeriesI/O specifications

The NotaTech 8000 Series I/O is a cutting-edge technology designed to revolutionize industrial automation and process control systems. As industries increasingly seek to enhance productivity and efficiency, the 8000 Series I/O steps up by providing a robust and flexible interface to integrate various sensors, actuators, and controllers.

One of the standout features of the NotaTech 8000 Series I/O is its modular design. This allows users to customize their I/O configuration according to the specific requirements of their applications. With a range of modules available, including digital, analog, and specialty I/O, users can easily scale their systems to meet evolving demands.

Another key characteristic of the 8000 Series I/O is its high-speed data communication capabilities. Utilizing advanced protocols such as EtherCAT, PROFINET, and Ethernet/IP, the system ensures rapid data transfer between devices, significantly reducing latency in control loops. This high-speed communication supports real-time performance, making it ideal for time-sensitive applications.

The NotaTech 8000 Series also boasts an impressive level of reliability and durability. Engineered for harsh industrial environments, the modules are built to withstand extreme temperatures, vibrations, and humidity. IP ratings ensure protection against dust and water ingress, contributing to prolonged operational life and minimal downtime.

Incorporating state-of-the-art diagnostics, the 8000 Series I/O provides comprehensive monitoring of system health. Users can access diagnostic data through user-friendly interfaces, allowing for proactive maintenance and troubleshooting. This feature not only reduces maintenance costs but also enhances the overall system reliability.

Another notable technology integrated into the NotaTech 8000 Series is its support for various fieldbus systems. With multi-protocol support, users can connect easily to existing infrastructure without the need for system overhauls. This flexibility promotes interoperability and eases upgrades as technology evolves.

Security is paramount in industrial environments, and the NotaTech 8000 Series I/O addresses this with built-in cybersecurity features. These include secure communication channels and access controls, safeguarding against potential cyber threats and ensuring data integrity.

In summary, the NotaTech 8000 Series I/O stands out in industrial automation for its modular adaptability, high-speed communication protocols, rugged design, advanced diagnostics, multi-protocol support, and a strong focus on cybersecurity. As industries continue to innovate and evolve, the 8000 Series I/O positions itself as a vital component in the quest for increased efficiency and reliability in automation systems.