Internal relay connections

SIBTF10xx-1xx-Mx

Installation -- continued

The internal relay can activate an external fault indicator. The fault indicator connects to the relay contacts on the front panel. An example would be a fault circuit connected to a warning light located in a control room. The light can be connected in a normally open (NO) or normally closed (NC) configuration with respect to circuit common (C) to turn the light ON/OFF when a fault occurs.

To connect a fault indicator to the relay, view Figure 7 and then do the following:

1.Verify that the external power source is turned OFF.

2.Loosen the relay’s “NO” screw and then connect the fault indicator’s return lead to terminal “NO.” Tighten the screw to secure.

3.Loosen the relay’s “C” screw and then connect the fault indicator’s common lead terminal “C.” Tighten the screw to secure.

Or:

4.Loosen the relay’s “NC” screw and then connect the fault indicator’s return lead to terminal “NC.” Tighten the screw to secure.

5.Loosen the relay’s “C” screw and then connect the fault indicator’s common lead terminal “C.” Tighten the screw to secure.

Relay	NC	NC
Contacts	NC	NC
Contacts
(600W max.)
30 VDC	C	C
@2.0A	C	C
@2.0A
125 VAC
@0.5A	NO	NO

Figure 7: Internal Relay Connections

Two wiring scenarios:

•Wiring the relay in the normally closed (NC) configuration can be used to monitor alarm indicators connected in series, where any single event will cause all alarm indicators to trigger.

•Wiring the relay in the normally open (NO) configuration can be used to monitor alarm indicators connected in parallel, where any single event will cause that events alarm indicator to trigger: i.e., a light turning ON or OFF.

CAUTION: Calculate the maximum possible current in each power wire and relay-contact wire. Observe all electrical codes for maximum current allowed. If the current goes above the maximum ratings, the wiring could overheat and cause serious damage to the network wiring or equipment.

Installation -- continued

DIN-Rail

The industrial switch includes an aluminum DIN-Rail mounting bracket attached to the back panel of the enclosure. See Figure 8.

Back View

DIN Rail

Mounting Bracket

Figure 8: DIN-Rail Bracket

Mounting the enclosure to a DIN-Rail

CAUTION: The SIBTF10xx-1xx switch is convection cooled, requiring unrestricted bottom-to-top airflow. Mounting the device in other orientations could result in unreliable operation or device failure.

CAUTION: To prevent debris from falling through the ventilation holes, local and national electrical and fire codes might require orienting the device with its small-diameter vent holes downward.

To mount the enclosure onto a DIN-Rail:

1.Insert the top of the DIN-Rail into the upper slot of the mounting plate.

2.Push down and then rotate the industrial switch inward to snap it into place onto the DIN-Rail.

An illustration of the procedure is shown in Figure 9.

Step 1

Step 2

Mounting Plate

DIN-Rail

Figure 9: Enclosure Mounted to DIN-Rail

24-Hour Technical Support: 1-800-260-1312 International: 00-1-952-941-7600

techsupport@transition.com -- Click the “Transition Now” link for a live Web chat.

SIBTF10XX-1XX-MS, SIBTF10XX-1XX-MR specifications

Transition Networks is a respected name in the field of network connectivity solutions, offering a range of products that enhance and optimize data transmission. Among their offerings, the SIBTF10XX-1XX-MS and SIBTF10XX-1XX-MR models stand out for their exceptional features geared toward providing robust industrial network resilience.

The SIBTF10XX-1XX-MS and SIBTF10XX-1XX-MR are managed media converters that serve as vital components in ensuring the seamless transition between different media types in network infrastructure. These devices primarily facilitate the conversion between twisted pair Ethernet and fiber optic connections, making them indispensable in environments where long-distance data transmission is crucial. Their ability to bridge this gap enhances the overall versatility of network designs, offering expanded connectivity options for various applications.

One of the prominent features of these models is their support for Ethernet networks, including 10/100 Mbps data rates. They are equipped with multiple Ethernet ports that allow for flexibility and scalability in network design. The SIBTF10XX series also supports full duplex operation, maximizing data throughput and minimizing possible collisions, which is particularly important for industrial applications where reliability and speed are non-negotiable.

Robust security features are also integral to these converters. They provide advanced management capabilities through features such as VLAN support, SNMP, and port mirroring, enabling network administrators to maintain optimal performance and security. The ability to monitor and manage network traffic ensures that organizations can quickly identify and troubleshoot issues that arise in real time.

In terms of physical characteristics, both models are designed to withstand the rigors of demanding industrial environments. They come with rugged enclosures that offer protection against dust, moisture, and extreme temperatures, which makes them suitable for deployment in factories, transportation systems, and other harsh settings.

The SIBTF10XX series also emphasizes ease of installation and user-friendliness. The plug-and-play design reduces setup time and complexity, allowing for quicker integration into existing systems. Additionally, the web-based management interface offers intuitive controls for configuration and monitoring, making it accessible for users of all technical backgrounds.

In conclusion, the Transition Networks SIBTF10XX-1XX-MS and SIBTF10XX-1XX-MR managed media converters are dynamic solutions that cater to the evolving needs of network infrastructure in industrial environments. With their solid features, advanced technologies, and robust design, they ensure reliable and efficient data transmission across various distances and media types. These products exemplify Transition Networks' commitment to quality and performance in network connectivity solutions.