UNICOM Electric 24 specifications Standards, Interface, Protocol, Buffer Memory, LED Indicators

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DynaSwitch White Papers:Layout 1 9/3/07 7:15 PM Page 21

Dyna-Switch/16 and 24

16/24 Port 10/100Base-TX Fast Ethernet Switches

PART NUMBER

DESCRIPTION

FEP-31016T-2

16 Port 10/100Base-TX Fast Ethernet Switch

FEP-31024T-2

24 Port 10/100Base-TX Fast Ethernet Switch

Specifications

Standards:

IEEE 802.3 10BASE-T Ethernet,

IEEE 802.3u 100BASE-TX Fast Ethernet

ANSI/IEEE standard 802.3 N-Way Auto-negotiation

Interface:

Sixteen (16) or Twenty-four (24) RJ-45 Jacks

Protocol:

CSMA/CD

Max Forwarding and Max Filtering Rate:

14,880 pps - Ethernet port, 148,800 pps - Fast Ethernet port

Buffer Memory:

1.25Mbits

MAC Address Table:

4K Entry

LED Indicators:

Per port: Link/Activity, Duplex Mode/Collision

Per unit: Power

Cable distance:

100m Max. with Category 3, 5e, 6 UTP for 10Base-T 100m Max. with Category 5e, 6 UTP for 100Base-TX

Dimensions:

17.31" x 4.75" x 1.75"( L x W x H ) 440mm x 160mm x 44mm

Enclosure:

Metal

Operating Temperature:

0˚C - 45˚C (32˚F - 113˚F)

Operating Humidity:

10% - 90%, non-condensing

Power Supply:

100~240VAC, 50~60Hz, Internal universal power supply

EMI:

FCC Class A, CE Mark

Safety:

UL, cUL

908 CanadaCourt

City of Industry,CA 91748 U.S.A.

Phone:626.964.7873or 800.346.6668

Fax:626.964.7880

www.unicomlink.com e-mail:info@unicomlink.com

©UNICOM 2007. UNICOM is a trademark of UNICOM Electric, Inc. All rights reserved.

082507UNILT00019WP

Specifications subject to change without notice.

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Contents Dimensions LED IndicatorsOperating Temperature Power Supply

24, 16 specifications

UNICOM Electric 16,24 is a cutting-edge energy management solution designed to enhance power distribution efficiency in various applications. This innovative product stands out due to its impressive features, advanced technologies, and robust characteristics, making it suitable for industries ranging from commercial buildings to renewable energy systems.

One of the main features of UNICOM Electric 16,24 is its dual voltage capability, which allows it to operate seamlessly at both 16 kV and 24 kV. This versatility enables users to switch between voltage levels according to their specific requirements, optimizing energy use based on demand. The system is designed with flexibility in mind, accommodating a variety of configurations to meet diverse operational needs.

Incorporating smart grid technologies, UNICOM Electric 16,24 offers real-time monitoring and control capabilities. This allows users to track energy consumption, detect faults, and manage load distribution efficiently. The integration of IoT (Internet of Things) features enhances connectivity, enabling remote access and management through mobile applications and web interfaces. This level of connectivity transforms how energy systems are monitored, providing users with critical data for informed decision-making.

Another key characteristic of UNICOM Electric 16,24 is its robust safety features. The system is engineered with built-in protection mechanisms, such as overcurrent and earth fault protection, ensuring reliability and safety during operation. Additionally, the use of high-quality materials and components ensures durability and longevity, reducing the need for frequent maintenance.

The environmental impact of UNICOM Electric 16,24 is also a significant consideration. The system is designed to operate efficiently, minimizing energy losses and reducing carbon footprints. This aligns with global sustainability goals, making it a commendable choice for environmentally conscious organizations.

Moreover, UNICOM Electric 16,24 supports various communication protocols, facilitating integration with existing infrastructure. This adaptability makes it an excellent choice for modernization projects, allowing organizations to upgrade their systems without significant overhauls.

In conclusion, UNICOM Electric 16,24 represents a powerful solution in energy management, characterized by its dual voltage capabilities, smart grid integration, safety features, and environmental sustainability. Its advanced technologies and robust characteristics position it as a valuable asset for modern energy systems, fostering efficiency and reliability in power distribution.