Getting Started With the Web Interface

5.2View Summary Data

The Summary window provides a quick look at the current status of all connected devices, as shown below. This window also has a Log Out button to exit the Web interface.

To access the Summary window, log in (see 5.1 - Open the Web Interface and Log In) and:

Click on the Summary tab at the top of the Web interface. This window also appears after you log in to the Web interface.

Refresh

Log Out

Types of Information

Summary tab

Links to configuration window for each port

Sensor status (all models)

Temperature & humidity combination sensor (see NOTE* in Table 12)

Power strip status (EM PDU & vEM-14 controllers)

Serial device status (reserved for future use)

The Summary window shows the status of sensors connected to the unit and displays up to three cat- egories of data, depending on the model, as shown in Table 12. Each port number in the window is a link that goes to a configuration window for that port.

Table 12 Summary window

Port type

Description

Click on a port number to:

 

 

 

 

Shows the status of sensors connected to the unit—port number, type

 

 

of sensor, user-defined name (see 5.3.2 - Create or Change Sensor

 

 

Names), current sensor reading and status relative to thresholds.

• Change threshold settings

Sensors

* NOTE (for THCMNET & THCMPDUNET kits only): The

for any sensor (see 5.3.1 -

 

temperature & humidity combination sensor (provided with these

Configure Sensors)

 

kits) appears as two separate sensors on a shared port. In the

 

 

example above, the sensor is on Port 1, displayed as 1:1 and 1:2.

 

Power Strips

Shows the status of MP Advanced Power Strips connected to the unit,

• Turn receptacles on or off (see

(EM PDU &

5.4.1 - Control Receptacles)

including the port number and current readings for power, voltage,

vEM-14

• Set thresholds (see

current and temperature sensors.

Controllers)

5.4.2 - Configure Thresholds)

 

 

 

 

Serial Device

 

• View settings of the serial port

Controller

Reserved for future use.

(see 5.7.4 - Serial Ports)

(not used)

 

 

 

 

 

 

Update the Information

Click the Refresh button at any time to update the data displayed in the right side of the Sum- mary window. Data is sampled at regular intervals (see 5.7.3 - Data Presentation to change the sampling interval).

Exit the Web Interface

To exit the Web interface, click on the Log Out button. The opening Login window appears, allowing you either to log in again or to close the Internet browser and exit the program.

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Liebert EM manual View Summary Data, Types of Information, Update the Information, Exit the Web Interface, Summary window

EM specifications

The Liebert EM is a state-of-the-art, modular and scalable cooling solution designed to meet the needs of today's data centers and IT environments. This innovative unit offers unmatched precision and flexibility, making it ideal for facilities that require meticulous temperature control and energy efficiency.

One of the main features of the Liebert EM is its modular design, allowing for easy expansion and customization based on the specific requirements of a facility. This scalability ensures that organizations can efficiently adapt to changing cooling demands without the need for significant infrastructure changes. The system can be configured in various capacities, making it suitable for spaces of different sizes and cooling needs.

Incorporating advanced technologies, the Liebert EM utilizes inverter-driven compressors, allowing for variable refrigeration capacity. This feature optimizes energy consumption, reducing operational costs while maintaining precise temperature control. The unit is designed with built-in smart controls that enable real-time monitoring and adjustments, ensuring enhanced performance and efficiency across the entire cooling system.

The Liebert EM also comes equipped with EC (Electronically Commutated) fans, which contribute to its energy efficiency by adjusting their speed according to the cooling load. This not only ensures adequate airflow but also minimizes energy waste, leading to lower overall operating costs.

Furthermore, the system features intelligent connectivity options that facilitate integration with existing building management systems. This capability allows for centralized monitoring and control, empowering facility managers to maintain optimal conditions and respond quickly to any fluctuations in temperature or humidity.

Safety and reliability are also paramount in the design of the Liebert EM. The unit includes comprehensive backup systems and redundancy features to ensure continuous operation even in the event of a component failure. This reliability is crucial for critical applications where downtime can result in significant losses.

In summary, the Liebert EM stands out as a versatile and high-performance cooling solution, equipped with advanced technologies that offer scalability, energy efficiency, and precise temperature control. Its modular design, coupled with intelligent control options, makes it an essential component for modern data centers looking to optimize their cooling infrastructure while ensuring reliability and reducing operational costs.